CN113577550A - Health care device - Google Patents
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- CN113577550A CN113577550A CN202010368357.0A CN202010368357A CN113577550A CN 113577550 A CN113577550 A CN 113577550A CN 202010368357 A CN202010368357 A CN 202010368357A CN 113577550 A CN113577550 A CN 113577550A
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- A61N1/32—Applying electric currents by contact electrodes alternating or intermittent currents
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- A—HUMAN NECESSITIES
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- A61H—PHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
- A61H39/00—Devices for locating or stimulating specific reflex points of the body for physical therapy, e.g. acupuncture
- A61H39/02—Devices for locating such points
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- A—HUMAN NECESSITIES
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- A61H39/00—Devices for locating or stimulating specific reflex points of the body for physical therapy, e.g. acupuncture
- A61H39/08—Devices for applying needles to such points, i.e. for acupuncture ; Acupuncture needles or accessories therefor
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- Rehabilitation Therapy (AREA)
- General Health & Medical Sciences (AREA)
- Veterinary Medicine (AREA)
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Abstract
The application discloses a health care device, which comprises a health care body, a first positioning device and a second positioning device, wherein the health care body is used for positioning a body part of a user so as to maintain a first specific position relation with the body part, and the body part is provided with an acupuncture point; an acupoint work piece for performing a health care work on the user through the acupoint; and a workpiece holder having a first end connected to the health care body and a second end for fixing the acupoint workpiece, so that the acupoint workpiece is in the first specific position relationship with the body part, and performs the health care work under the condition of having a second specific position relationship with the acupoint. The invention also provides a health-care method and a health-care system for the health-care body.
Description
Technical Field
The present invention relates to a health care device, body, method or system, and more particularly to a health care device based on the theory of traditional Chinese medicine.
Disclosure of Invention
The following is a summary of the subject matter described in detail herein. This summary is not intended to limit the scope of the claims.
The theory of TCM or acupuncture is well-known in ancient book of China, especially the core and background of Huangdi's menstruation. These cultural magnifications are not only marked by the exquisite medical science and logic, but also are frequently reported clinically as effective or widely, and are difficult to be considered. For example, acupuncture and moxibustion has a very significant clinical analgesic effect, and the analgesic effect can be maintained for a week for some organic lesions and even cancers, which is frequently reported.
The book of Huangdi Neiyinssu question, Ba Zheng Shen Ming Lun records that the meditation people who saw the meditation are not in the form of qi and honor, but the workers (the inventor presses the medical, Hua Tuo or Bian que) know only that the meditation people saw the meditation people in terms of the cold and warm nature of the day, the deficiency and preponderance of the month, the floating and sinking of the four seasons of qi, which are combined and adjusted together, the workers are usually seen first but not in the form of the outside (the inventor presses the meditation people and can not detect), so they watch the meditation. The most important thing is that it is not seen from the outside, but it is also not seen from the outside. Invisible and tasteless, so called meditation and meditation, Ruishen (the inventor presses, to the unknown or untrusted people, it seems like ghost spirit). The term "this part is also accompanied by" deficiency pathogens ", and the eight vital qi deficiency pathogens are also involved. If the body is strong, sweat, striae and crevice between them, and wind deficiency, the condition is known and the symptoms are not obvious (the inventor presses the wind or the beginning of the disease, the symptoms are very slight, and the general people can not notice). The inventor always carries out the first work to rescue his eruption, who must first see the qi of the three regions and nine seasons, and then rescue the eruption, so the inventor is in charge of the first work (the inventor knows a little according to the first medical science and can get back from the source of the disease in the very early stage). The inventor can cure the existing diseases and fail to cure the existing diseases (the inventor can cure the existing diseases only by treating the symptoms, but not by treating the root causes). If the patient is diagnosed with the disease, the patient is also known to be diagnosed with the disease pulse of the three nine diagnostic methods. Therefore, the physician can know the situation and the pathogenic factors and the situation of the physician are known. The purpose and ideal of the present invention is to make every family or everyone have medical care or association for life.
From the "modern science" perspective, acupuncture is a phenomenon of sensing along the meridians, which is known by experienced people: when the needle is inserted at the correct point, the patient feels a special sensation of moving along the corresponding meridian, which is usually a sensation of soreness, distension, numbness, fever, coldness, pain or electric shock. These sensations can occur individually, but mostly as a mixture of sensations of soreness, swelling, and tingling. The feeling of smell of ancient book name, or getting the smell, the needle applicator will also perceive the needle as being sucked, condensed, difficult to rotate, and difficult to pull out.
Acupuncture has not been found to be slightly acute under the struggle or research of mainland and taiwan, but is tried to be the construction of modern theories, such as material metabolism theory, energy metabolism theory, molecular, atomic or particle orientation, wave orientation; also, it is proposed that there are many optical non-uniform tubular or sheet structures in the human body, which will form an electromagnetic wave waveguide system in the human body because of the non-uniformity of the reflection, refraction coefficient and polarization capability of visible light and the non-uniformity of the reflection, refraction coefficient and polarization capability of infrared or microwave.
Accordingly, the interior qi of TCM is the relationship between electromagnetic waves, meridians and acupoints in the body, and the slow speed of sensing transmission along the meridians is derived from the group speed of the waveguide. The channels and collaterals, such as blood vessels, lymphatic vessels or nerve fibers, have clear boundaries, which are a striped region with fuzzy boundaries, with the highest conductance value on the central axis and the conductance value decreasing from the central axis to the edges. In detail, meridians are like mountains, and acupoints are like individual peaks on mountains. In other words, the center of the acupoint is the peak top of each peak. However, continuous measurement of electrical conductance at the same point means that the electrical conductance of the human body fluctuates with time, which is called midnight-noon ebb-flow in ancient times, i.e. qi and blood dynamically circulate in the body due to seasons, phases of the moon and hours. The conductance changes are systemic, so that the difference between acupoints and non-acupoints is not seriously affected, and the clinical conductance measurement is not affected.
The most important thing in modern science (especially in modern medicine or modern biology) is the holographic phenomenon of meridians and points. The holographic phenomenon is that, regardless of the ear needle and foot massage, acupoints reflecting all the organs of the whole body are found in a small area, and even in each small finger node area. In other words, when an organ is diseased, the conductance of main acupoints on not only fourteen main meridians will be significantly increased, and the same goes for the local area of the organ. What is supposed to be the most important is that every point of the whole body is the point of the micro-channel.
When a person's physiological and psychological states change, the probability distribution curve of conductance data in any region of the whole body will appear with corresponding strain, and it will eventually reveal the mystery of meridians. The meridians and collaterals are electric, optical, microwave, acoustic, chemical channels, and the measured points on the meridians and collaterals are not skin resistance, but body conductance or electric field intensity, and conductance is proportional to the square of the intensity of the conductance field, so we can conclude that the meridians and collaterals system is an energy distribution in the human body. This energy distribution is difficult to see with the naked eye and the scalpel is not looking for.
The front-section energy distribution structure is understood by modern physics, namely a dissipation structure, which is a dynamic structure existing according to continuous energy supply and completely conforms to the dissipation structure formed by electromagnetic waves, and is naturally difficult to be found from physiology. But understanding chinese classical medicine in this way may bring physiology, biology and medicine into new milestones. The dissipation structure, for example a dynamic waterfall, is such that the waterfall disappears as soon as the source stops, only if a high water level source is present. The dissipation structure is named because the prerequisite is to continuously consume energy. He can just like candle, mountain spring, fountain, lantern, sky light, flute, whirlpool, tornado and lightning all belong to living structure, and once the environment is closed, the structure can be detected immediately.
The meridian system is a dissipation structure formed by electromagnetic standing waves, and because two waves can be superposed or mutually offset at the same position, new interference waves are formed by point-by-point construction or destruction. When the human meridian system is understood as a three-dimensional electromagnetic standing wave interference pattern, one can try to interfere with and/or change the interference pattern to change the energy distribution and promote the patient to recover to health. The miraculous effect of the theory is that one needle of the old ancestor is on hand for thousands of years, and the countless first-named people are cured by qi and blood circulation, deficiency syndrome, excess syndrome, midnight-noon ebb-flow, qi obtaining, yin and yang, tonifying method and purgation method.
Whether or not due to hygienic concerns, acupuncture has not been the only resort to modifying the aforementioned interference patterns, and such treatments as thermal therapy, infrared therapy, spectral therapy, electrical needle therapy, laser needle therapy, microwave acupuncture and moxibustion therapy, and the like, are non-invasive or non-contact interference and modification media.
In the aforementioned dissipation theory or structure (playing panpipe also belongs to), the human body is also a resonant cavity, and there are numerous electromagnetic standing waves interacting with each other to form a complex standing wave interference pattern. The acupoints play a key role in interfering with individual or collective standing waves, since they always have the highest conductance, i.e., where the peaks of the individual or collective electromagnetic standing waves are located. Specifically, when a problem occurs in a certain organ, the natural frequency or standing wave changes, which causes an abnormal increase or decrease in the energy of certain points, and a corresponding decrease or increase in the resistance at the points. Therefore, we can construct/destroy/correct individual or general standing waves through acupoints to restore normal/healthy organs or patients, regardless of invasion or non-invasion.
Both light and microwaves are electromagnetic waves, and light is often referred to as visible light, which accounts for only a very small portion of the entire electromagnetic spectrum. The reason why the single electromagnetic wave has a very fast propagation speed (up to 30 kilometers per second) but a channel-following sensing speed of less than ten centimeters per second (tens of minutes for switching from one interference pattern to another) is that the number of electromagnetic waves in the human body is in the order of billions (even tens or billions), and the propagation speed of the total signal is also reduced. Is we listen to it frequently, and any object has only one group of vibration frequency, which is called?
Non-invasive acupuncture, such as Lei-penetrate needle moxibustion, although its name is needle, it is not really true of acupuncture. Because of non-invasion, safety and painlessness, the medicine is easy to be accepted by patients. More and more treatment effects than the conventional acupuncture and moxibustion reports are appearing continuously or will be in the future? Although laser acupuncture is a painless safe treatment option, only a definite dosage rule is yet to be established. Other non-invasive acupuncture techniques, such as the popular physiotherapy techniques, such as thermal therapy, infrared therapy, spectrum therapy, electrotherapy, microwave acupuncture therapy, are also suitable for the standard establishment since they introduce electromagnetic waves of different wavelengths into the human body.
The western society uses microwaves in the frequency range of 40 to 70GHz to balance and treat the unique frequency (characteristic frequency) of each person (or even each organ), called Microwave Resonance Therapy (MRT). Microwave acupuncture is also based on acupuncture, in which a microwave antenna is connected to the needle handle, and the acupuncture points are injected with microwaves having the same frequency as the characteristic frequency or directly irradiated with the microwaves to generate resonance effect to treat diseases. In particular practice it has been found that resonant frequencies in the channels of the meridians flow from internal organs to the tips of the fingers and toes and are then reflected back to the organs. When diseased, the natural frequency (characteristic frequency) amplitude will decrease or disappear. The extra energy at very low energy levels (millionths or billionths of watts) can restore the resonance frequency of a specific organ or body to a standard value to aid/complete the treatment.
As early as 1934, the professional journal of acupuncture, namely journal of acupuncture, published the clinical application of electric needle therapy for the first time, and in the late 1950 s, the electric needle was widely studied and clinically used for operative anesthesia. Modern acupuncture devices are small, often powered by batteries, and a small clip is attached to the wire from the device and clipped to the acupuncture needle inserted into the body. When the current is generated, the patient feels a slight pulsation or wave feeling as if the feather is swept over the skin. Of course, the placement of the electrodes near the heart should be avoided, or the current should not be passed through the body midline (imaginary line from the bridge of the nose to the navel).
No matter the "flat magpie-A type microwave acupuncture instrument" developed by Beijing electronics equipment factory in 1980 or various acupuncture point treatment instruments appearing in spring bamboo shoots after late rain, in order to meet the requirements of different disease types or different parts, the appearance of the treatment instrument is quite interesting and seems to be difficult to be precisely aligned with acupuncture points, and the service or treatment effect of the instrument can be better obtained by the assistance of patients or users, such as the affected part is purposely attached to or close to the working surface of each instrument. In addition, in response to the continuous renovation of laser acupuncture, thermal therapy, infrared therapy, spectrum therapy, electric acupuncture therapy, microwave acupuncture therapy, etc., the therapeutic effect is desired due to different working principles, and the device itself or the working point, working surface or working area of the device is different in interest. In order to obtain a relatively correct position relationship between the acupuncture point to be worked on the human body and the working point, working surface or working area of the apparatus, so as to achieve a better therapeutic effect, the use of the apparatus will explain how to adjust the posture of the human body by itself or the operator will assist in adjusting the posture of the patient receiving the apparatus. For example, the circular therapeutic apparatus is mostly used for joints, shoulders, waist and the like; the long therapeutic apparatus is suitable for the acupoints in the long-shaped region of the spine, body parts, etc. As mentioned above, if the user does not need to approach or attach the affected part to the working point, surface or area of the apparatus, the apparatus is directly placed on the patient's body so that the working point, surface or area of the apparatus can serve (e.g., irradiate) the affected part. At this time, the affected part (or the acupuncture point on the affected part) of the patient is actually in only an approximate, approximate or almost correct relative position relationship with the working point, working surface or working area of the apparatus. Such a relative position difference not only exists in the positioning, but also in the angle and further in the distance between each other, and whether the distance between each other is correct or proper usually determines whether the best curative effect can be obtained or not, and even whether damage is haphazardly caused or not, as will be described in detail later.
The above difficulties can be seen in detail by using a microwave acupuncture point therapeutic apparatus. In particular, microwave therapy is usually mainly due to heat effect, but it cannot exclude non-heat effect (local microwave acupoint stimulation, probably conducted through meridians and collaterals, producing the effect of "qi going to the disease). The maximum microwave radiation can penetrate 50 mm deep into the body surface, and the body temperature of the irradiated local part can be obviously raised, which is deeper and stronger than the heating power of moxibustion. The distance between the affected part (or the acupoints on the affected part) of the patient and the working point, surface or area of the apparatus in the anterior segment will obviously determine whether the affected part will be burned by moxibustion.
When microwave irradiates a human body, two main actions are generated, namely, a thermal action and a thermal external action (which is different from ultrashort waves, the latter are generated by current, and the former are generated by electromagnetic wave action). The thermal action is caused by the oscillation of electrolyte ions and electrolyte dipoles or the high frequency oscillation of water molecules, which causes the tissue to generate a large amount of heat energy, thereby increasing the temperature of the tissue, dilating the blood vessels, and accelerating the blood flow (the blood flow can be increased by 50%). The so-called thermo-exogenous effect is a specific physiological effect of microwave radiation on the human body (few studies), but it is known to affect the nervous system function (short-term or small-dose radiation enhances the excitability process, long-term or large-dose radiation counter-inhibits). Compared with the light radiation such as infrared rays, the microwave effect is deeper, namely the infrared rays are difficult to go deeper than the lipid layer, but the microwave is easy to penetrate the lipid layer to reach the muscle layer, and the therapeutic effect is no longer one by one.
Microwave acupuncture has strong feeling of qi (swelling, heaviness, acidity, numbness, spiciness, channeling and warm feeling) on meridian points, and can conduct along the meridian, generate heat and sweat (similar to the mountain fire burning technique), and the strength of the feeling of qi can be quantitatively controlled by a microwave therapeutic apparatus. Microwave acupoint irradiation has acupuncture and moxibustion effects. When the microwave power reaches a certain value, the needle point has a high-frequency discharge phenomenon, but the power (2 watts) of the high-frequency discharge phenomenon is far less than that of a microwave physical therapy machine (200 watts), so that special protection is not needed.
Microwave acupoint therapeutic apparatuses can be roughly divided into three categories: one is microwave radiator (like laser irradiation of acupuncture points for direct therapy aiming at acupuncture points or focus), the other is microwave acupuncture (therapy) instrument (with a radiating antenna filiform needle for radiating acupuncture points), and the other is magnetic needle.
Microwave acupoint radiator or microwave radiator for short, common user has (a) circular radiator, the opening end of which is circular, and the external form has hemispherical (or circular), cylindrical and reflector shape, etc., mainly used for acupoints of joints, shoulders, waist, etc. and focus of mammary gland; (II) a long (or rectangular) radiator, the opening of which is rectangular, and is used for irradiating acupuncture points in long body areas, such as the spine, body parts, etc.; (III) saddle-shaped radiator, which is provided with a concave surface and is used for treating acupuncture points with larger area, such as waist, knee, back, hip, chest, abdomen and the like, and can be directly stuck on the surface of the treatment part; (IV) a focused radiator, having a diameter of 1, 1.5, or 3.5 cm, for treating the three types of small areas unsuitable for treatment; and (V) ear radiator, which is specially used for ear acupoint irradiation or extending into ear canal for treatment and is provided with replaceable rubber sleeve.
The microwave acupuncture instrument consists of a direct current variable power supply, a microwave oscillator (1,000-2,000) megahertz, an output coaxial cable and a microwave antenna. Wherein the microwave antenna is composed of a needle clip, a filiform needle and a spiral spring coaxial co-radiator, the filiform needle is used as a component of the co-radiator, and the microwave energy is transmitted to the filiform needle by an oscillator through a coaxial cable and then radiated to the acupuncture points of the human body).
Understanding the microwave acupuncture needle, let us understand first that acupuncture needle is one of the ancient nine needles, the needle body is big and sharp. Is a work piece for acupuncture points with thick needle body, such as millet and round and micro-tip. It can be used for pressing channels and acupoints, guiding qi and blood, and preventing skin penetration. See "Huangdi Nei Jing Ling Shu Jiu Zhen Jiu Shi twelve Yuan", three Yu spoon needle, three cun and half … … points as sharp as millet, mainly pressing the pulse without sinking, so as to cause qi. 'and' Huangdi Nei Jing Ling Shu Jiu Zhen Lun (ancient treatise on the acupuncture) the needle was used to treat acute, three-cun and half-long millet and to direct the pulse-qi and eliminate the pathogenic factors. The existing microwave acupuncture needle is produced by combining modern microwave physiotherapy and is successfully prepared by the continental trial in 1979. The microwave acupuncture needle has the functions and effects of the traditional acupuncture needle, the pointer and the moxibustion because of the matching with the performance and the characteristics of modern low-frequency and high-frequency electrotherapy.
The compatibility principle of microwave therapy with acupoint selection is the same as that of other acupoint therapies, and it can be applied by three acupoint selection methods, local, adjacent and distant, or by acupoint selection at tender or focus. Of course, the cavity may be selected in accordance with the characteristics of the instrument, such as the number or extension of the output heads.
When the patient is in a lying or sitting position, the distance between the radiator and the skin of the acupoints is 10-15 cm (5 cm in ear), and the time and power are determined according to the disease condition (e.g. 8-10W in ear, 20-40W in neck, 60-100W in chest and abdomen, 80-120W in back and waist, 5-10 min). Saddle-shaped radiators are commonly used for acupoints around knee joints and shoulder joints; if the patient is tied to acupoints of chest, abdomen, back and waist, he should adopt the supine or prone position and choose a round or long radiator; as for the acupoints on the neck and ear, the patient usually adopts the sitting position, and also adopts the circular or focused radiation device.
From the above inspection, we can find that all the prior arts suffer from the following problems. Taking the microwave radiator as an example, no matter the microwave radiator is fixed at an 'ideal' position by a universal bracket or the microwave radiator of the spoon needle is manually pressed on the acupuncture point to be treated, the relative position (including the distance and the direction) between the working point of the instrument and the acupuncture point cannot be accurately determined. Although the acupuncture points in TCM are not a point with almost no area in geometric imagination, but a small area, it is obviously difficult to maintain the correct or better relative position between the working point of the instrument and the acupuncture points for a period of time by means of universal joints or manual work, at least because of the limitations of the adjustment range of the working point of the instrument and the involuntary adjustment of the posture of the patient.
The problems of the previous paragraph lead to another problem that the relative position cannot be obtained or ensured theoretically, so that it is not scientific in qualitative (effect) and quantitative (time and intensity of receiving the instrument). Therefore, for example, microwave therapy should be used to avoid high temperature and overheating. Although it is theoretically understood that the relative position should be adjusted to give the patient a comfortable sensation of warmth and soreness, but not a tingling sensation, each individual feels or tolerates a different degree, which is difficult to characterize or quantify. For patients with low pain tolerance, the efficacy may not be sufficient; conversely, patients with high levels of pain tolerance may be sufficiently painful to cause temporary or permanent injury.
The problem presented in the preceding paragraph makes it easy to understand another problem: to avoid excessive radiation or injury when the acupoints are located near the face, brain, eye, ovary or testis, the prior art has recommended distances of 5 cm, power of no more than 15 watts, and time of no more than 10 minutes. However, when we can obtain the theoretical relative position, we can obtain great flexibility in designing the instrument or in using the design, but can ensure the obtaining of the effect.
The problems presented in the preceding paragraph make it possible to understand the importance of "qualitative" or "quantitative", and in particular, to precisely study the nature and extent of the effects actually occurring on the point-work of the instrument, with the theoretical relative positional assurance. For example, when a patient has a locally severe organic and ischemic vascular disease, the blood circulation is not improved by the excessive radiation, and the local hypoxia is increased by the temperature rise, so that both the doctor and the patient have psychological obstacles in use. However, if the relative position is theoretically ensured, the research of quantitative and qualitative research is in fact successful, even for patients and children suffering from active tuberculosis, high fever, bleeding-prone diseases, late hypertension, heart failure, fracture and unable to express microwave needle feeling clearly, the group is no longer suitable for acupuncture point microwave therapy.
After solving the problems described in the previous paragraph, we will next inspire: because of the qualitative and quantitative results, we can design an effect focusing instrument acupoint workpiece (without too large or too wide working area due to sufficient efficiency or effect) without damaging innocent bystanders or workers. Therefore, the microwave treatment apparatus is harmful to the human body due to the long-term microwave radiation, and may injure workers innocently by leaking a small amount of microwaves and radiating them into the surrounding space.
In solving the problems described in the preceding paragraph, we could forbid the following effects due to the establishment of theoretical relative positions, rather than to ensure, and easier to achieve: the research shows that high-intensity and large-dose (3W/cm2) ultrasonic waves have the inhibiting or damaging effect on various tissues and organs to cause irreversible change on tissue morphology; however, the action of (A) low-intensity, medium-small dose (therapeutic dose) ultrasonic waves on peripheral nerves and spinal cords is shown as excitation and inhibition, so that the ultrasonic waves have an analgesic effect on neuralgia; (B) the small dosage can cause the blood congestion of heart capillaries and the increase of interstitial cells, thereby improving the blood circulation; (C) although the kidney has different degrees of sensitivity to ultrasonic waves (the cortex proximal convoluted tubule is most sensitive, and the medullary collecting duct and the connective tissue basement membrane of the tubule are least sensitive), therapeutic dosage ultrasonic waves act on the kidney area to expand blood vessels and promote the blood circulation of the kidney; (D) large-dose ultrasonic waves have the effects of inhibiting and even damaging ovary and testis, so that the megasonic waves are tried to control fertility in recent years; (E) the therapeutic dose of ultrasonic wave has the effects of improving skin nutrition, promoting dermis regeneration, strengthening epithelization, and causing sweat gland secretion enhancement; (F) multiple action of ultrasound at a small dose stimulates callus growth (keeping in mind that a slightly larger dose for 10 minutes results in delayed bone healing).
The effect described in the previous paragraph was obtained because of the theoretical relative position establishment, we did not question whether they could exert their effect on other therapies? According to physics experiments and clinical medical practice, a magnetic needle (non-invasive type) magnetic force beam can penetrate through a human body to a depth of 6-9 cm, which is about equal to the depth of a traditional filiform needle. Supposing the principle that when a certain acupoint of a human body receives stimulation, local cell receptors are caused to generate bioelectricity, and the 'qi' of the acupoint appears to be conducted along the meridian system. The sensed conduction path is consistent with the path predicted by acupuncture theory. Medical practice has also verified that magnetic fields or magnetic lines are not equivalent to, but are quite consistent with, filiform needle (invasive) acupuncture. For example, the therapeutic effect of treating BPH (prostatic hyperplasia) nocturia frequency and frequent micturition is very obvious by massaging and magnetically sucking Yongquan acupoint after soaking feet with warm water. Further, the following briefly describes the acupuncture point magnetic therapy (applying a magnetic device with north and south polarities to certain acupuncture points of the human body) to examine the applicability of the magnetic therapy.
The Magnetitum is used for treating diseases 180 years before West yuan is described in the book of Shiji Bique Bing Lu, the book of materia medica of China in the second century before West yuan is Shennong Ben Cao Jing, and the Magnetitum is formally used as a medicine: magnetitum, pungent and cold in flavor, mainly enters peripheral arthralgia, wind-dampness, pain in extremities and joints … and deafness. The magnetic effect is recorded in famous medical records collected from the southern and northern dynasties and the ceramic hong Jing institute: the traditional Chinese medicine composition has the effects of nourishing kidney qi, strengthening bone qi, replenishing vital essence, relieving restlessness, dredging joints, eliminating carbuncle and swelling, fistula in mice, cervical spondylosis, laryngalgia and infantile convulsion and epilepsy. Su, Yang Shang (Huangdi's classic of internal classic of medicine) explain the book Ling Shu & Jing Mai (Ling Shu & Jing Mai) with the emphasis on walking, the side effects of the magnet: the "heavy" can be done by putting magnet in the shoe, but the magnet is heavier than the weight of the shoe, and the magnet is lighter than the magnet, but the magnet can be added gradually to help fire, so it is better to get away when the disease is cured, which is the ancient treatment of kidney. "Tang" (prepared from Qian jin Yao Fang) is a prescription for treating bleeding caused by incised wound, "magnetite powder is applied to stop pain and stop bleeding". Ming, Li Shizhen pharmaceutical treatise "compendium of materia Medica" Zhen Magnetitum-Dou Da, Pangolin scales are burnt and accumulated in the ear, and the new material is wrapped in the ear and kept in the mouth together with pig iron to feel that the ear is open to wind and rain ". According to the inspiration of magnet therapy for deafness from Ben Cao gang mu, the acupuncture point magnetotherapy was developed in the beginning of 1960 in the mainland China, and some acupuncture scholars in Shanghai tried to obtain effect on tinnitus by combining magnetic field with acupuncture needle, and magnetic needle (magnetized filiform needle); in 1965, medical workers in Hunan province also combined the magnetic field theory and the theory of meridians to obtain clinical treatment effect; in 1970, the application technology of magnetic therapy has a major breakthrough, and because permanent magnetic materials (mainly rare earth cobalt alloy, permanent magnetic ferrite, alnico, etc.) are easily available, the acupuncture point magnetic therapy is popularized, for example, in 1970, the magnetic beads are successfully manufactured in the market of inner Mongolia bernoulli for acupuncture point application and treatment; since 1973, the rare earth alloy magnetic sheets are firstly used for magnetotherapy of various diseases in Hunan province; in 1974 Beijing acupuncture workers cooperated with some researchers to convert static magnetic field into dynamic magnetic field to produce rotary magnetotherapeutic machine, so as to expand the therapeutic range and improve the curative effect on some diseases; in 1978, the first collaborative conference on magnetic therapy scientific research in Xuzhou city, Jiangsu province was held forward.
1980 and magnetic acupuncture point therapy, the static magnetic method of fixing magnetic beads or magnetic sheets on an acupuncture point or a part, which is less related to the present invention, is applicable to nearly seventy diseases of the families of internal, external, female, children, eyes, ears, nose, throat and oral cavity, although the magnetodynamic method of rotating magnetic machine to stimulate acupuncture points, the magnetodynamic method of combining magnetism with traditional acupuncture point workpieces to form a magnetospoon needle, a magnetic plum needle, a magnetooptical method combining magnetism with helium-neon laser irradiation, and the magnetoelectric method combining with the electric needle therapy, and the above qualitative and quantitative problems are not available at all. Therefore, to standardize and standardize the magnetic device, one must also face the difficulties of the variables discussed above. The source of accurate qualitative and quantitative determination is the precise location of the acupuncture point, and when the precise acupuncture point has landed, for example, the determination of the magnitude of the pulse current applied to the electrode magnetic sheet to be located, or the magnetic field strength of the magnetic head of the electromagnetic acupuncture apparatus sleeved on the intradermal needle (or ordinary filiform needle), or after the acupuncture is completed, the magnetic field strength applied to the magnetic needle can be precisely adjusted . In this discussion, the most central spirit of the present invention is to be presented, that is, to assist, check or confirm the acupoints of a patient by scientific methods or instruments during the diagnosis and treatment of a patient.
From the foregoing discussion, we conclude as follows: invasively, the medical effect of wrong or biased needling is just a nuisance, such as side effects or other injuries, which is unfortunate; non-invasively, a deviation or erroneous selection of points will cause difficulties in both qualitative (what is invalid.
Most of the above materials are obtained from Taiwan and mainland, and how foretell foreigners see acupuncture and moxibustion is briefly described. In 1950, German Friedel-crafts (REINHOLD VOLL) found that different potential differences exist in human body, and experimental studies found that the circuit diagram of the ' change ' of human body ' electric energy ' and the ' ancient Chinese ' meridian diagram ' are the same. After the relations between skin resistance and symptoms are researched by doctor Guyixiong in professor of Kyoto university in Japan 1949, the doctor finds that the relation is consistent with the traditional Chinese meridian, and develops a set of scientific disease detection method, called 'Liang channel-inducing' for short. At night "german doctor and health insurance federal commission" developed large-scale and high-standard human trials for headache, back pain and arthritic pain and successively published: acupuncture does have analgesic effect. However, since sham control group (sham control) with needles that did not penetrate the acupoints or did not penetrate the needles deeply had similar analgesic effect to the real control group, it was suspected that the needles themselves had strong placebo effect regardless of the acupoints. Edzard Ernst physicians and researchers in the united kingdom several years ago designed a retractable needle that retracted the needle tip during insertion, not into the subcutaneous space, but allowed the subject to assume needle insertion (the needle may be left on the skin). I.e. random grouping tests with true and false needles, the team of physicians found: false acupuncture is as good as true acupuncture in treating headache and nausea, and preventing migraine. The qi vessels or acupoints are not anatomically visible, but U.S. studies have found that the acupoints are usually located where the "connective tissue" is most dense. A study was published in The atomic Record by Langevin, University of Vermont, 2002, which shows that acupuncture and moxibustion on acupoints can cause medical effects on The body. Western studies have shown that acupuncture does alleviate pain, and the theory proposed is that the body itself is stimulated to release endorphins (endorphins), and it also appears that the brain secretes hydroxytryptamine (serotonin, which enhances vasoconstrictive function) as a chemical component that alters nerve cell function, giving a "happy and comfortable" feeling to humans. If non-invasively, the acupuncture points are stimulated with different frequencies or energy levels to relax nerves and muscles and cause them to beat, and as with passive exercise, improve local blood loops.
In view of the foregoing, it will be seen that the present invention is a novel one, representative of the scope of the invention. Indeed, the foregoing disclosure is only a basic level of endeavor, i.e., the more highly-targeted pursuit of the invention. The main article on the fundamental questions of the emperor Huangdi's internal channel records that the yellow emperor questions are in the main terms: the physician should smell the herbs to prick the recipe. Biebe is on the field of 'ri': the patients with superficial and deep thorns have no way to do the treatment; excessive invasion of the body will cause internal injury, and no time it will cause external congestion, which will cause pathogenic factors to flow from the body. The disease is caused by the internal movement of five zang organs. In detail, acupuncture or a specific disease condition should be considered as deep or shallow, and excessive syndrome should be internal injury; "producing and obstructing the exterior in time and eliminating the pathogenic factors from the interior" are all too late? The main reason for treating the disease is "deep and shallow" (just like meditation), "contrarily, it is a disease caused by internal movement of the body, five zang and then later generations", which is what is the doctor? In summary, by actually detecting or ensuring the relative position of the needle or acupuncture point workpiece and the acupuncture point, the depth of the acupuncture (invasive) for a disease or a physical therapy, or the degree of irradiation, electric field or magnetic field intensity applied, can be precisely controlled, so as to ensure a positive therapeutic effect without negative effects !
The fundamental theory of the fundamental questions of the exercise of Huangdi's menstruation, the life, the sick and the dead of an uncommon person, each with a special cause, is not only sufficient in suffering from diseases, but also in' so: the disease is manifested in the skin, muscle, bone and marrow. The consequences of misdiagnosis and treatment are seen in the anterior segment, and the disease of the skin and skin striae of yellow emperor's Canon of skin-striae is used as an example, it is not important to grasp the depth of skin-striae, there is no skin injury, the lung is moved internally and the lung is moved internally, autumn disease is warm malaria, Han chestnut !
By way of introduction, the basic level of the present invention is to ensure precise positioning between an acupuncture point of a patient or user and the instrument, acupuncture point workpiece (non-invasive) or a needle (invasive) to ensure proper or safe physiotherapy or treatment of the acupuncture point workpiece or needle. This appeal is addressed, in a sense, at a two-dimensional level, i.e., how to resolve or precisely locate the relative positional relationship between an acupuncture point of a patient or user and both the instrument, acupuncture point workpiece (non-invasive) or a needle (invasive). After the relative position relationship is ensured, the parameters or variables are adjusted in the third dimension (depth) and the fourth dimension (angle) according to the actual requirements of physical therapy or disease conditions, so as to achieve the purpose of physical therapy or treatment. However, the present invention does not use the theory that the first two layers (basically belonging to hardware) are sufficient, and the essence-changing and qi-changing theory of the internal element of yellow emperor shows that the disease is treated in ancient times, and the disease is difficult to be derived into a big disease because the disease is conditioned at the beginning of the premonitory symptom.
With the time migration, "the treatment of diseases in middle age and ancient times, until the treatment, the decoction is used for ten days to remove the disease of the eight wind-five arthralgia syndrome, but for ten days, the decoction is used for treating the branch of the herb Sucao , which is assistant to the root and root, and the pathogenic factors are obtained. "human beings do not notice or see the sign of disease until the disease is formed because of beginning to pursue the famous and precious property of the world, and begin to think of treatment. At this time, it is necessary to rely on diet or herbal medicine to remove pathogens or eliminate diseases ! In the later period of time, the disease is not treated in the later period of time, but in the later period of time, the patient is not treated in the same way, the patient is formed, the patient is treated with the decoction, the decoction is treated with the decoction, the patient is not attacked, and the new disease is recovered. Modern diseases, the same disease (e.g. cold) all have almost the same medicine, not much depending on individual constitution, possibly not believing the relation between the disease and four hours or yin and yang, and never treating when or how the disease should be treated with the trend or the inverse trend, but the symptom is eliminated on the "mark", but the "root" or "root" is not treated completely, so that the "bud" potential of the new disease is caused to have an opportunistic attack !
It is another ideal of the present invention, which focuses on the "soft body" layer, and aims to condition the body immediately at the beginning of the disease, so as to obtain the "long-term death but short-term growth, and long-term growth" theory of essence transformation of yellow emperor's menstruation, thereby achieving the purpose of health and longevity.
Additional features and advantages of the application will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the application. The objectives and other advantages of the application may be realized and attained by the structure particularly pointed out in the written description and drawings.
Drawings
The accompanying drawings are included to provide a further understanding of the claimed subject matter and are incorporated in and constitute a part of this specification, illustrate embodiments of the subject matter and together with the description serve to explain the principles of the subject matter and not to limit the subject matter.
The embodiments are drawn by way of example and are merely illustrative of the inventive concepts.
FIG. 1 is a view of a health device for fixing a finger or toe.
Figure 2 is a health care device secured to a body part having two different parts.
FIG. 3A is a schematic view of the meridians and acupoints on the back.
FIG. 3B is a simplified health device attached to the chest or back.
Fig. 3C shows the advanced health care device attached to the chest or back.
FIG. 4A is a view of a health care body of the health care device for the lower arm;
FIG. 4B is a health care body of the health care apparatus for upper arm;
FIG. 4C illustrates an embodiment of a length adjustment device of a health care body of the health care device;
FIG. 4D is a first embodiment of a length adjustment plate of the length adjustment device of the health care body of the health care device;
FIG. 4E is a second embodiment of a length adjustment plate of the length adjustment device of the health care body of the health care device;
FIG. 5 is a lower limb health care device;
FIG. 5A is a length adjustment plate of the lower limb health care body;
FIG. 6 is a view of the head health care device;
FIG. 7 is a precisely positionable head care device;
FIG. 7A is a second embodiment of an acupoint workpiece connection;
FIG. 8 is a first embodiment of a workpiece assembly;
FIG. 8A is a schematic view of a third embodiment of an acupoint workpiece connection;
FIG. 8B shows an embodiment of the acupoint workpiece;
FIG. 8C is a second embodiment of the workpiece assembly;
FIG. 8D is another embodiment of a workpiece holder;
FIG. 9 is an embodiment of a workpiece assembly incorporating a robot;
FIG. 9A shows an embodiment of an automatic insertion acupuncture point workpiece;
FIG. 10 shows a first embodiment of the health-care method of the present invention;
FIG. 10A shows a second embodiment of the health-care method of the present invention; and
FIG. 10B shows an embodiment of the healthcare system of the present invention.
Description of the figures
1: index finger
2: fist palm
11: two acupoints
12: finger joint part
13: proximal end of middle segment of index finger
14: distal proximal index finger
21: thumb (thumb)
22: index finger
24: thumb joint
23: hegu acupoint
25: second joint of index finger
26: short thumb muscle
30: governor vessel
31: the meridian of foot taiyang
32: dazhui acupoint
33: ceramic channel cave
34: acupoint for column
35: ganshu acupoint
36: dan acupoint
37: spleen point
38: stomach cavity acupoint
39: blind door hole
40: aspiration of the abdomen
100: health care device
101: pivot part
102: fixed body
103: rod body with semicircular section
104: concave part
105: soft layer of cloth
106: semi-circular male thread
110,110': health-care body
112: hollow round end
120: health care device
122: health-care body
124: shoulder part at upper side end
126: support plate
128: spring
130: groove
131: forefinger baffle
132: index finger accommodation area
133: shoulder part
134: spring
135: index finger containing groove
136: support plate
138: index finger groove
140: middle finger groove
142: ring finger slot
144: little finger groove
146: concave part
150: health care device
152: health-care body
154: casting die
156: support cross member
157: upper end of
158: workpiece support media
160: sleeve head
162: workpiece connector
164: end part
166: support post
168: intermediate connecting piece
170: health care device
172: health-care body
174: a first pair of support posts
175: upper end of
176: intermediate connecting piece
178: matching pressing piece
182: concave hole
184: second pair of support posts
185: intermediate connecting piece
186: matching pressing piece
187: pivot shaft
180,188: region of reduced thickness
189: clamping piece
190: convex column
191: pin member
192: clamping piece
193,195: surface of
194: flange
197: groove
196,198: perforation
199: pin
200,200': fixing piece
201: shaft body
202: first end
203: female thread
204,204': second end
205: universal joint ball seat
206: point workpiece connector
209: universal ball joint
300,300': acupoint workpiece
301: conducting wire
302,302': acupoint workpiece
400: support cross member
401,403: surface of
402: connecting end
404: workpiece support media
405,407: surface of
406: adjusting sleeve head
408: workpiece connector
410: end part
412: free end
500: health care device
501,503: bearing substrate
502: health-care body
505,505': the convex end of the radius wrist is provided with a concave part
506,506': concave part is convexly arranged at ulna wrist end
508: palm holding groove
510: location block hollow
511,512: end-to-end recess
504,524: paired positioning blocks
513,515: two ends of the spring
514: plural spring
516: paired lower lugs
517: concave end wall of recess
518: paired side grooves
519: inner concave end wall of positioning block
520: concave part at the end of the substrate
526: concave part
528: concave depression
530: convex lug
532: groove
534: concave part
535: distal to elbow end
536: concave depression
538: concave portions at adjacent ends of the carrier substrates 501,503
540: extension spring
542: pin hole
544: pin
546: length adjusting medium
547: connecting plate
548: pin hole
550: the central recess of the adjacent ends of the carrier substrates 501,503
552: undercut portion
554: bottom shaft hole
560: upper arm bearing plate
562,564: two carrier plate bodies
566: axillary end
568: upper end cut-away portion
570: cut-out portion
572: central pivot
574: length adjusting device
578: guiding sheet
580: cut-out portion
582,584: bearing substrate
586: length adjustment device for health care body
587: screw hole
588: screw rod
590: handle bar
591: longitudinal central groove
592: refining bar
594: locating pin
595: sliding concave hole
596: length adjusting plate
597: distal recess
598: positioning pin hole
599: proximal recess
600: trapezoidal acting element
601: middle section groove
602: side lever
603: two sides of the trapezoid acting element
604: spring
606: arc convex
608: groove
610: proximal recess
612: spring
614: guide member
616: groove
618: guide groove
620: trapezoidal acting element and screw combination
622: screw end
624: bottom hole
628: trapezoidal acting element and screw combination
630: trapezoidal acting element
631: trapezoidal inclined plane
632: shallow guide groove
634: clamping head
636: concave hole
638: screw rod
640: screw end
660: health-care body
662: shank bearing substrate
664: thigh bearing substrate
666: heel end of shank support base 662
668: side groove
670: concave depression
672,674,676: concave part
678: groove
680: positioning block group
681: counter surface
682: convex lug
684: large lateral malleolus concavity
686: medial and lateral malleolus concavity
685,687,689: concave part of ankle tip
688: small lateral malleolus concavity
690: length adjusting device
692: screw thread
694: operating rod
696: handle bar
698: rope-making device
700: pin
702: carrying substrate of length adjustment device
704: screw hole
706: the space between the thigh and the shank bearing substrate
710: rod piece
712: rod hole
708: spring
714: locating block
716: lug piece
718: concave part
719: accommodation concave part of knee end tuberosity of thigh bone
720: central depression
722: through hole
724: pin hole
726: locating block
728: locating hole
730: hip end of thigh support substrate 664
732: containing hole
734: spring
736: concave depression
738: stopping part
740: middle depression
742: length adjustable trapezoidal acting element
744,746: trapezoidal acting plate with two side inclined planes
748: sliding chute
X and Y: the distance between the two inclined planes and the center of the operation rod 694
760: health-care body for head
762: substrate
764: groove
766: head positioning plate
768,770: connecting rod
772: oil hydraulic cylinder
774,776: first and second ends of oil pressure cylinder
778: ear hole
780: inverted triangular hole
782: trapezoidal sliding piece
784: pressure sensor
786,788: forward and backward push button of oil hydraulic cylinder
790: circuit arrangement
800: head health care device
802: health-care body
804: track body
806: tooth socket
808: lower rack rail
810: upper surface of
812: upper rack rail
814,816: carrier body
818: a pair of positioning plates
820: positioning gear
822: stepping motor
824: protect tooth piece
826: motor axle center
828: gear wheel
830: left side end face of the carrying body
832: positioning rod
834: paired locating grooves
836: side positioning plate
838: stepping motor
840: screw rod
842: screw rod groove body
844: upper surfaces of both side walls
846: moving part
848: working base
850: fixing bolt
852: middle convex part
854: groove
856: ball bearing
858,860 the upper surface of the carrier body
862,864: proximal surface of carrier body
870: acupuncture point workpiece connecting piece
874: first end
876: fixing nut
878: internal thread
880: second end
882: acupuncture point workpiece nut
884: internal thread
900: working base
902: longitudinal through hole
904: c-shaped clamp
906: workpiece holder
908: first end of workpiece holder
910: second end of workpiece holder
912: connecting head
914: internal thread
916: annular groove
918: first end of workpiece
920: connecting piece
922: the second end 920 of the workpiece is connected.
930: workpiece holder
932: thread segment
934: annular groove
936: working base
938: screw hole
940: acupoint workpiece
942: slender pneumatic cylinder
944: threaded end
946: piston rod of pneumatic cylinder
948: upper connecting ring
950: main connecting piece
952: ring piece
954: crank shaft
956: working ring
958: rubber pad
960: working end
962: bottom end of work
964: a workpiece
966: tip opening
968: first end of main connecting piece
970: second end of main connecting piece
971: working base
972: angle controller
974: angle control assembly
976: workpiece support
978: fixing piece
980: screw connection tube
982: workpiece support
984: acupuncture point workpiece clamping piece
986: screw with a thread
988: holding part
1000: workpiece assembly with robot
1002: electric chuck
1004: clamping piece
1006: holding surface
1008: rotary head
1010: extension base
1012: first end
1014: connection base
1016: rotating shaft
1018: rotary machine table
1020: working machine table
1022: working base
1024: first end
1026: second end
1028: second end
1030: first end
1032: second end
1040: automatic needle insertion acupoint workpiece
1042: rotary head
1044: automatic needle inserting device
1046: needle inserting mechanism
1048: electric holder 1048
1100,1110,1120: the steps of the first embodiment of the healthcare method;
1130-1180: the steps of the second embodiment of the healthcare method;
1200: health care system
1210: health-care body
1215: small computer
1220: central processing unit
1230: memory body
1240: symptom treatment module
1250: personal health history recording module
1260: feedback/report module
1270: screen
1280: keyboard and/or mouse
1290: microphone (CN)
1300: lens barrel
1400: cloud database
1500: service center
1600: control module
Detailed Description
To make the objects, technical solutions and advantages of the present application more apparent, embodiments of the present application will be described in detail below with reference to the accompanying drawings. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.
In the following, with the help of the drawings, it is disclosed how the layers/views/angles of the present invention can be ideally implemented. The following specific embodiments are provided to aid in understanding the embodiments of the invention at a certain inventive level/view/consider angle and are not the only feasible manner or limitations of the inventive level/view/consider angle. Also, in fact, the description of the various embodiments of the invention in various inventive levels/views/perspectives may be referred to one another with an alternate or modified reference. The present invention is a pioneer invention, but the pioneer invention is only a novel combination of skillful, organic or impressive parts, which can be easily obtained in the present world, and the pioneer invention is ideal. In particular, the invention or improvements therein generally do not reside in the respective components themselves, but rather in the smart or inventive combination of the respective associated components.
Referring to FIG. 1, two cavities 11 (International code LI2) on an index finger 1 are illustrated according to a first embodiment of the basic hierarchy of the present invention. This point 11 is located at the distal radial striation of the proximal phalanx of the index finger (third segment) and is indicated for swollen and sore throat, toothache, epistaxis, facial distortion, lethargy, shoulder and back pain. The health care device 100 includes a health care body 110 having two hollow semi-circular section fixing bodies 102 pivotally connected through a pivot portion 101, each body having a solid semi-circular section rod 103, each semi-circular section rod 103 having a semi-circular male thread 106. Each fixation body 102 has a recess 104 for receiving a phalangeal joint 12, such as the middle (second) and proximal (third) phalangeal joints. A cleanable or sterilizable cloth or disposable paper soft layer 105, which is folded for the thickness of the user's finger or the thickness of the finger, so that the position relationship between the health care device 100 and the index finger 1 or the two cavities 11 (in this case) is determined or fixed when the two fixing bodies 102 are sealed, thereby achieving the aforementioned or desired effect. When the two fixing bodies 102 are closed, the two semicircular section rod bodies 103 form a complete bolt; and a portion of the proximal end 13 of the middle segment of the index finger that is more prominent than the distal end 14 of the proximal segment of the index finger is received in the depression 104.
A fixing member 200 has a shaft 201, the shaft 201 being used to provide a distance or height required for mounting or operating an acupuncture point workpiece 300. The shaft 201 has a first end 202, after the female screw 203 in the first end 202 is locked on the male screw 106 on the two half-circle section rod 103, the shaft 201 is fixed on the health care device 100, and simultaneously the two half-circle section fixing body 102 is fixed with the index finger 1 therein by the locking of the first end 202 and the two half-circle section rod 103. The shaft 201 has a second end 204, and a universal ball socket 205 is provided on the second end 204 for connection with a universal ball joint 209 on an acupuncture point workpiece connector 206. Due to the advances in technology, modern universal joints are rotated at extremely large angles and can withstand significant impacts at a specific angle and position without dislocation. Furthermore, if a universal joint is not sufficient, several universal joints can be connected in series to increase the range of azimuth variation.
In addition, the health care device 100, the fixing member 200 and the acupoint workpiece 300 have very limited volume, so long as the conducting wire 301 is long enough, the user can move his/her position freely without changing the relative position between the acupoint workpiece 300 and the two acupoints 11, i.e. without affecting the expected physiotherapy/treatment effect, which is ideal. In addition, there are various connection methods between the acupoint workpiece connector 206 and the acupoint workpiece 300, or between the first end 202 and the rod 103 with semicircular cross section, for example, one of them is provided with an annular protrusion and the other mating member is provided with a matching annular groove, so that the assembly between the first end 202 and the rod 103 with semicircular cross section is easier. It should be readily understood that the drawings and the embodiments are merely illustrative of the specific embodiments which can be utilized to carry out the disclosed objects of the invention.
The first embodiment of the invention is summarized below: a health care device 100 includes a health care body 110 for positioning a body part 1 of a user to maintain a first specific positional relationship with the body part 1, wherein the body part 1 has an acupuncture point 11; an acupoint work piece 300 for performing a health care operation on the acupoint 11; and a workpiece holder 200 having a first end 202 connected to the health care body 110 and a second end 204 for fixing the acupoint workpiece 300 so that the acupoint workpiece 300 performs the health care work under the condition that it has a second specific positional relationship with the acupoint 11 under the restriction of the first specific positional relationship.
The health care device 100 according to the first embodiment, wherein the acupoint workpiece 300 has an acupoint workpiece 302, and the second specific positional relationship refers to a positional relationship between the acupoint 11 and the acupoint workpiece 302.
The health device 100 of the first embodiment is provided, wherein the health body 110 is used to relatively position a finger, toe, arm or leg of the user.
The health care device 100 of the first embodiment, wherein the health care body 110 is composed of two hollow semi-circular section fixing bodies 102 pivotally connected to each other, each fixing body 102 has a semi-circular section rod 103, and the two semi-circular section rods 103 are combined into a connecting rod.
The health care device 100 of the first embodiment wherein each semi-circular cross-section fixing body 102 has an inner recessed area 104 to accommodate a body part or joint portion of the finger 1 so that the health care body 110 can be properly fitted or positioned with respect to the body part 1.
The health care device 100 of the first embodiment is provided, wherein the fixing member 200 has a first end 202 which is hollow to receive the connecting rod formed by the two semicircular section rods 103, and the two semicircular section fixing bodies 102 are hollow to fit the body part 1 therein.
The health care device 100 according to the first embodiment, wherein the fixing member 200 has a second end 204, which is fixed to the acupoint workpiece connector 206 for connecting the acupoint workpiece 300, and the fixing medium can be a universal joint or a plurality of universal joints connected in series.
The health care device 100 according to the first embodiment, wherein the connection between the first end 202 of the fixing member 200 and the connecting rod formed by the two semicircular section rods 103, or the connection between the acupoint workpiece connector 206 and the acupoint workpiece 300 can be male and female threads, or elastic holding, or a male and female engagement due to the material characteristics.
Viewed from another perspective, the foregoing embodiment discloses a health care device 100, comprising a health care body 110 for fixing a body part 1 of a user so as to maintain a first specific positional relationship with the body part 1; and a workpiece holder 200 having a first end 202 connected to the health care body 110 and a second end 204 for fixing an acupoint workpiece 300 so that the acupoint workpiece 300 performs the health care work under the condition of a second specific positional relationship with the acupoint 11 under the first specific positional relationship.
Viewed from another perspective, the foregoing embodiments disclose a health care device 100 for holding an acupoint workpiece 300 thereon to perform a health care function for a user, wherein the user has a body part, the body part 1 has an acupoint 11, and the health care device 100 includes a health care body 110 for relatively positioning the body part 1 so that the health care body 110 and the body part 1 are maintained in a first specific positional relationship with each other, and a workpiece holder 200 having a first end 202 mounted on the health care body 110 and a second end 204 for holding the acupoint workpiece 300 so that the acupoint workpiece 300 performs the health care function in the first specific positional relationship under the condition of having a second specific positional relationship with the acupoint 11.
Referring to fig. 2, a second embodiment of the basic hierarchy according to the present invention is illustrated by the valley 23 (international code LI4) of a fist palm 2 between thumb 21 and index finger 22. This point 23 is located between the first and second metacarpal bones, but slightly near the midpoint of the second metacarpal bone, and is used for treating headache, eye pain, sore throat, toothache, epistaxis, common cold, apoplexy, and facial paralysis. This embodiment is similar to the first embodiment, focusing on the acupuncture points in special situations, and after the special acupuncture points overcome the difficulty in positioning the special acupuncture points and an acupuncture point workpiece (or an acupuncture point workpiece), the related problems of the acupuncture points positioned with respect to each other can be solved easily or more commonly .
The health device 120 includes a body 122, which is substantially semi-cylindrical and has a recess 130 for receiving a thumb of a user therein. The thumb joint 24 of the user is sleeved with the health care body 110 of the first embodiment, two sides of a hollow round end 112 of the health care body 110 rest on two abutting plates 126 disposed on two upper side shoulders 124 of the health care body 122, and the two bottom plates are respectively pushed toward the two thumb fingers by two springs 128. Thereby, the relative position between the thumb 22 and the health care body 122 can be determined.
The health care body 122 has a concave portion 146 for engaging with a short thumb muscle 26 of a user to provide the user with a feeling of gripping the health care body 122. The other health care body 110' is sleeved on the second joint 25 of the index finger. The health care body 110 and the health care body 110' may be the same (by the first embodiment cloth-like soft layer 105 to fit the thumb or the index finger) or different (the contour or size is slightly different depending on the thumb and the index finger, respectively). After the health care body 110 'is sleeved with the second joint 25, the index finger 22 of the health care body 110' is extended from the index finger receiving groove 135 between the index finger retaining wall 131 and the shoulder 133 to the index finger receiving area 132, and the pressing plate 136 of the connecting spring 134 is used to press against the right and upper sides of the hollow round end 112 'of the health care body 110'. The support plate 136 is substantially reverse-L-shaped, and the horizontal portion and the vertical portion of the reverse-L-shape are used to push against the right and upper side of the hollow round end portion 112 'of the body 110' in FIG. 2. In addition, the horizontal portion of the reverse L-shaped abutting plate 136 is rotatably pivoted with the spring 134, so that after the index finger 22 is correctly positioned, the vertical portion of the reverse L-shaped abutting plate 136 is rotated to cooperatively push the upper side of the hollow round end 112 'of the health care body 110'. In this way, the index finger 21 is restrained in position on the one hand, and the relative position between the second end 204 'of the fixing element 200' and the valley 23 on the other hand is determined accordingly. In other words, the relative position of the acupoint workpiece 302 'and the Hegu acupoint 23 on the acupoint workpiece 300' can be determined based on the above results, and the above or expected effects can be obtained. In addition, the health care body 122 is provided with a finger slot 138 for the index finger 21 buckled in the groove 132 to extend into. Certainly, the health care body 122 may be further provided with a middle finger groove 140, a ring finger groove 142 and a small finger groove 144 for the other three fingers to freely extend or not. The finger slots 138 and 144 may or may not be in communication with each other, or may each have a completely or partially independent space to accommodate each finger individually or collectively.
It should be noted that the health care body 110 and the health care body 110 'in this embodiment may have a basic difference in structure from the health care body 110 used in the first embodiment, because the health care body 110 and the health care body 110' in this embodiment are not like the first embodiment 110, and need to be self-positioned by the thumb joint 24. In detail, the health care body 110 'is designed to be only sleeved on the finger portion corresponding to the middle section of the phalange, one end of the health care body 110' will be blocked by the knuckle, so that the health care body will not slip, while the other end will be resisted by the resisting plate 126 or 136, so that there is no trouble of position determination. Therefore, the axial length of the health care body 110' can be shortened.
The second embodiment of the invention is summarized below: a health care device 120 includes a health care body 122 having two abutting portions 130,135 for relatively positioning two different portions 21,22 of a body part 2 of a user, respectively, so as to maintain a first specific positional relationship with the body part 2; and a workpiece holder 200 having a first end 202 connected to the health care body 110 'and a second end 204 for holding an acupoint workpiece 300' such that the acupoint workpiece 300 'is in a second specific positional relationship with the body part 2' corresponding to the first specific positional relationship.
The health care device 120 according to the second embodiment has an acupuncture point 23 between two different parts 21,22, an acupuncture point workpiece 300' having an acupuncture point workpiece 302', and the second specific positional relationship is a positional relationship between the acupuncture point 23 and the acupuncture point workpiece 302 '.
Such as the health device 120 of the second embodiment, wherein the health body 122 is used to relatively position two fingers of the user, such as a thumb and an index finger.
The health care device 120 of the second embodiment is provided, wherein the health care body 122 has two finger receiving portions, such as a thumb receiving portion 130 and an index finger receiving portion 135.
The health care device 120 of the second embodiment is similar to the first embodiment, wherein the thumb receiving portion 129 comprises a groove 130 defined by two side shoulders 124, two springs 128 respectively disposed in the two shoulders 124, and two support plates 126 respectively connected to the springs 128.
Like the second embodiment of the health device 120, the index finger accommodation area 132 includes a first finger flap 131, a second finger flap 133, a groove 135 defined by the first finger flap 131 and the second finger flap 133, a spring 134 disposed in the second finger flap 133, and a reverse L-shaped retaining plate 136 pivotally connected to the spring 134.
The health device 120 of the second embodiment is provided, wherein the health body 122 has a concave portion 146 for accommodating a short thumb muscle 26 of a user to provide the user with a feeling of gripping the health body 122.
Like the health device 120 of the second embodiment, the health device body 122 has the forefinger end section accommodating groove 138, and may further have the middle finger groove 140, the ring finger groove 142 and the small finger groove 144 for the other three fingers to freely extend or not, wherein the finger grooves 138 and 144 may or may not be mutually communicated, or may have completely or partially independent spaces for individually or jointly accommodating the fingers.
Viewed from another perspective, a health care device 120 for holding an acupoint workpiece (as described in fig. 1 or later embodiments) thereon for performing a health care function on a user, wherein the user has a body part 2, the body part has two different parts 21,22, an acupoint 23 is located between the two different parts, and the health care device 120 comprises: a body 122 having two abutting portions (124, 130, 131, 135) for respectively positioning two different portions 21,22 of a body portion of a user relative to each other so as to maintain a first specific positional relationship with the body portion 2; and a workpiece holder (as described in fig. 1 and the embodiments described below) having: a first end arranged on the health care body; and a second end for holding the acupoint workpiece so that the acupoint workpiece performs the health care task under the condition of a second specific positional relationship with the acupoint under the first specific positional relationship.
From yet another perspective, a healthcare device 120, comprising: a body 122 having two abutting portions (124, 130, 131, 135) for relatively positioning two different portions 21,22 of a body portion 2 of a user, respectively, so as to maintain a first specific positional relationship with the body portion 2, wherein an acupuncture point 23 is provided between the two different portions; and a workpiece holder (as described in fig. 1 or later embodiments) having: a first end arranged on the health care body; and a second end for holding an acupoint workpiece thereon (as shown in fig. 1 or the embodiment described later), such that the acupoint workpiece performs a health care operation under the condition of a second specific positional relationship with the acupoint in the first specific positional relationship.
The acupoints on the chest and abdomen are symmetrically distributed, and for the chest, the midline is the conception vessel, and its two sides 5 are the kidney channels of foot-Shaoyin; another cun (1.5 cun from ren channel) is the stomach meridian of foot yang brightness, and the rest is temporary without exterior syndrome. On the back, the midline of the spine is the governor vessel, 1.5 cun and 3 cun on each side, respectively, and the bladder of the foot taiyang runs along two routes, while the rest is temporarily not superficial. For the sake of good male and female, fig. 3A shows the dorsal governor vessel 30, the plantar meridian 31 and the acupoints, such as the large spine (international code GV14)32, the pottery (international code GV13)33, the columnum (international code GV12)34, the liver shu (international code BL18)35, the gallbladder (international code BL19)36, the spleen (international code BL20)37, the stomach warehouse (international code BL50) 38, the glottis (international code BL51)39 and the aspiration chamber (international code BL52) 40.
Please refer to fig. 3B, which is a simplified health device 150 for chest or back. The health device 150 has a health body 152, a support cross member 156 having two ends 164 connected to the health body 152, and a workpiece support media 158 fixedly connected to the support cross member 156. The health care body 152 further has two support posts 166, the upper ends 157 of the support posts 166 are pivotally connected with the ends 164 of the supporting cross member 156, an intermediate connecting member 168 fixedly connected with the two support posts 166, and a pressing member 154 fixedly connected with the intermediate connecting member 168, wherein the angles between the two support posts 166 and the intermediate connecting member 168, and between the intermediate connecting member 168 and the pressing member 154 are substantially 90 degrees. In use, the user presses the pressing member 154 with the chest or back to place the health care body 152 in a relative position-determining state. Since the pressing member 154 is pressed by the user, the shape thereof is not suitable for the user to feel uncomfortable, or the placing surface thereof is preferably provided with a corresponding recess to avoid the user's uncomfortable feeling.
The workpiece support medium 158 is slidably disposed over a sleeve head 160, and the sleeve head 160 is disposed over a workpiece connector 162 for engaging the acupoint workpiece thereon as described above with respect to the first embodiment. Thus, the physiotherapist or therapist may move/adjust the position of the cuff 160 on the workpiece support medium 158 to fix or determine the positional relationship of the acupoint workpiece to a particular acupoint.
If so many points are found on the chest or back, the health care device 150 appears too simple and may be somewhat advanced as the health care device 170 of FIG. 3C. The health device 170 has a health body 172, a support cross member 400, two ends 410 of which are respectively pivoted to the health body 172, and a workpiece support medium 404 slidably sleeved on the support cross member 400. The health care body 172 has a first pair of supporting posts 174, the upper end 175 of the supporting post 174 is pivotally connected to the end of the supporting cross member 400, an intermediate connecting member 176 fixedly connected to the two supporting posts 174, a mating pressing member 178 fixedly connected to the intermediate connecting member 176, a second pair of supporting posts 184, an intermediate connecting member 185 fixedly connected to the two supporting posts 184, and a mating pressing member 186 fixedly connected to the intermediate connecting member 185, wherein the angles between the two supporting posts 174 (184) and the intermediate connecting member 176(185), the angles between the intermediate connecting member 176(185) and the mating pressing members 178(186) are substantially 90 degrees, the mating pressing member 178(186) has a thickness-reduced area 180(188), the mating pressing member 186 is pivotally connected to the intermediate connecting member 185 by a pivot 187, and the thickness-reduced areas 180 and 188 are respectively provided with mating concave holes 182 and convex posts 190. When in use, the engaging pressing member 186 and the two support posts 184 are parallel or connected in a face-to-face relationship, and after the user presses the engaging pressing members 178 and 186 combined with the chest or back, the two support posts 184 are pivoted to be in a right-angle configuration with the engaging pressing member 186, so that the health care body 172 is in a relative position determining state. As described above, since the engaging pressing members 178 and 186 are pressed by the user, the shape thereof is not suitable for the user to feel uncomfortable, or the resting surface thereof is preferably provided with corresponding recesses to avoid the user's discomfort.
As in the previous example, the workpiece support medium 404 slidably fits over a nosepiece 406, and the nosepiece 406 is secured to a workpiece coupling head 408 for fitting over the acupoint workpiece described in the first embodiment. Thus, the physiotherapist or therapist may move/adjust the position of the cuff 406 on the workpiece support medium 404 to fix or determine the positional relationship between the acupoint workpiece and a particular acupoint. The workpiece support medium 404 has a connecting end 402 slidably received on the support cross member 400 and a free end 412 clamped to a pair of clamps 189 and 192 disposed on the second pair of posts 184, wherein the clamp 189 is secured above the pair of posts 184, the clamp 192 is pivotally mounted to an upper end of one of the posts 184 by a pin 191, the other of the posts 184 has a flange 194, the free end of the clamp 192 has a recess 197, the flange 194 and the free end of the clamp 192 have through holes 196 and 198, respectively, and a pin 199 is disposed to pass through the through holes 196 and 198 to retain the pair of clamps 189 and 192 at the free end 412.
While precision fit is not a problem with today's technology, it is inherently feasible to have corresponding surfaces 195 and 193 on the clamp members 189 and 192, 401 and 403 on the corresponding surfaces of the support cross member 400 and the link end 402, and 405 and 407 on the corresponding surfaces of the workpiece support medium 404 and the adjustment collet 406 be roughened or coated with a layer or thick or thin layer of rubber material for ease of sliding (so that considerable tolerance is required) and certainty of positioning. In addition, since the acupoints on the chest and abdomen are symmetrically distributed with respect to the conception vessel or the governor vessel, and two symmetrical acupoints are usually required to be treated, the adjustment caps 406 are preferably arranged in pairs. Of course, if multiple pockets are required to be performed simultaneously, the number of workpiece support media 404 may also be increased.
Generalizing the first two embodiments, for example, once: a health care device 150(170) comprising a health care body 152(172) having two support members 166(174), the support members 166(174) each having an upper end 157(175) for maintaining a first specific positional relationship with a body of a user; a support cross member 156(400) having two ends 164(410) pivotally connected to the upper ends 157(175) of the two support members, respectively; and a workpiece support medium 404 having a first end 402 connected to the health care body 152(72) and an adjustable cuff 406 fitted thereon for securing an acupoint workpiece such that the acupoint workpiece and the body are in a second specific positional relationship corresponding to the first specific positional relationship.
The health care apparatus 150(170) of the previous embodiment, wherein the body is a chest or a back of a human body, the acupoint workpiece has an acupoint workpiece, and the second specific positional relationship refers to a positional relationship between an acupoint of the chest or the back and the acupoint workpiece.
The health device 150(170) according to the previous embodiment, wherein the health device body 152(172) has a pressing member 154(178,186) for pressing the chest or abdomen of the user to position the health device body 152 (172).
The healthcare device 150(170) according to the previous embodiment, wherein the pressing member has two engaging members 178,186, each engaging member 178(186) has a reduced thickness area 180(188), and the reduced thickness areas 180 and 188 are respectively provided with engaging concave holes 182 and convex posts 190.
The health device 150(170) of the previous embodiment, wherein the health device body 172 has two pairs of supporting posts 174,184, the bottoms of each pair of supporting posts 174,184 are connected by a middle connecting piece 176,185, and a matching part 186 is pivoted to the middle connecting piece 185 by a pivot 187.
The healthcare apparatus 170 of the previous embodiment, wherein the workpiece support media 404 is slidably mounted on the support cross-member 400; and/or the workpiece support medium 404 is slidably mounted on the adjustable cuff 406.
The healthcare device 170 as in the previous embodiment, wherein the second pair of legs 184 of the healthcare body 172 have mounted thereon a pair of clamps 189,192 for holding the free end 412 of the workpiece support media 404.
The healthcare device 170 of the previous embodiment wherein the corresponding surfaces 195 and 193 of the clamp members 189 and 192, the corresponding surfaces 401 and 403 of the support cross member 400 and the connecting end 402, and the corresponding surfaces 405 and 407 of the workpiece support medium 404 and the adjustment cuff 406 are roughened or coated with a rubber material.
The healthcare apparatus 150(170) of the previous embodiment further comprises at least one second adjustment cuff 406 and/or at least one second workpiece support medium 404.
Viewed from another perspective, a healthcare device 150(170) for holding an acupoint workpiece thereon (as described in fig. 1 and the embodiments described below) for performing a healthcare function on a user, wherein the user has a body part having an acupoint, and the healthcare device comprises: a body (152,166,154,168; 172,174,178,184,190) having a pair of support members (152, 166; 172, 174; 184) for maintaining a first specific positional relationship with the body part relative to each other; a supporting cross member 400 having two end portions 410 for being connected to the pair of supporting members, respectively; and a workpiece support medium 412 connected to the support cross member and sleeved with a sleeve head 408 for holding the acupoint workpiece so that the acupoint workpiece performs the healthcare work under the condition of a second specific position relation with the acupoint under the first specific position relation.
Viewed from a further angle, a healthcare device 150(170), comprising: a body-building (152,166,154, 168; 172,174,178,184,190) having a pair of support members (152, 166; 172, 174; 184) for relatively positioning a body part of a user to maintain a first specific positional relationship with the body part with respect to each other, wherein the body part has an acupuncture point; a supporting cross member 400 having two end portions 410 for being connected to the pair of supporting members, respectively; and a workpiece support medium 412 connected to the support cross member and sleeved with a sleeve head 408 for holding the acupoint workpiece so that the acupoint workpiece performs the healthcare work under the condition of a second specific position relation with the acupoint under the first specific position relation.
No matter on the upper arm or the lower arm, the meridians run along the points other than the chest and abdomen, and they run along the yin and yang surfaces of the arms. Compared with the mild driving of acupuncture doctors, the general public or beginners can not get the hands of the acupuncture doctors. We only deal with the positioning problem first. Referring to fig. 4A, the health care body 502 for the upper arm health care device 500 of the present invention has carrying substrates 501,503, which are respectively provided with paired end recesses 511,512 for respectively installing paired positioning blocks 524,504. Since the positioning block pair 524,504 is disposed in a similar manner, the positioning block 504 is only used as an example and will be described in detail below.
The positioning block 504 has a pair of lower lugs 516 slidably disposed in a pair of side slots 518 of the recess 512. The ends 513,515 of the plurality of springs 514 are mounted on a recessed end 517 in the recess 512 and a lower recessed wall 519 of the positioning block 504, respectively, the end 517 and the recessed wall 519 being recessed to compensate or offset the length of the springs 514 as much as possible. With this design, the springs 514 always keep the paired positioning blocks 504 in the paired recesses 512 as close as possible to each other. The width of the upper portion of the free end of the supporting substrate 503 between the pair of concave portions 512 is approximately the thickness of the lower arm wrist. Because the swallow-thin ring fertilizer is avoided, the paired positioning blocks 504 can be automatically adjusted and the lower arm wrist part can be fixed. Also, the shape of the lugs in the figures are sheet-like, but cylindrical may be more common, since the invention is substantially the same and will not be described further in this specification.
When the acupoint of hand yangming large intestine channel is to be treated (for example, Wen Liu acupoint, International code LI7, for treating headache, sore throat, borborygmus, abdominal pain and shoulder and back pain), the wrist portion is held by the paired positioning blocks 504 in the thickness direction for the purpose of managing/treating the acupoint. At this time, the protrusion corresponding to the user's palm portion of the short extensor muscle is extended into the recess 510 formed by the positioning block 504. However, when the acupoints (for example, Neiguan acupoint, International code PC6, for treating stomach ache, nausea, vomiting, chest and hypochondriac pain, arrhythmia, stroke, spasm of the elbow, facial heat, blurred vision, shock) of the pericardium channel of hand jueyin are to be treated, the wrist is held by the pair of positioning blocks 504 with the width direction and the yin side facing upward. At this time, the wrist of the radius bone of the lower arm is protruded to abut against the concave portion 506 of the left positioning block 504, and the wrist of the ulna bone of the lower arm is protruded to abut against the concave portion 505' of the right positioning block 504 for positioning. As we carefully observe the structure of the wrist, the protrusion of the wrist end of the radius of the lower arm is located at the lower and forward positions, and the protrusion of the wrist end of the ulna of the lower arm is located at the upper and backward positions, relative to the palm, so we can use this structural feature to design the positions of the recesses 505,506 of the positioning block 504, thereby enhancing the positioning relationship or function. In detail, the positioning block 504 can be held and positioned smoothly no matter whether the lower side of the forearm (or lower arm) faces upward or downward. In addition, the palm of the user is extended into the groove 508 of the positioning block 504.
Conversely, when the channel of the heart meridian of shaoyang hand is to be treated (e.g., Waiguan acupoint, International code TE5, for treating difficulty in extending the elbow and arm, finger pain, hand tremor, deafness, tinnitus, headache, cheek pain, fever), the wrist is held by the pair of positioning blocks 504 in the width direction with the yang side facing upward. At this time, the wrist of the ulna of the lower arm is protruded to abut against the concave portion 505 of the left positioning block 504, and the wrist of the radius of the lower arm is protruded to abut against the concave portion 506' of the right positioning block 504 for positioning. The carrier substrate 503 has a depression 520 at the end, and this depression 520 has two functions, in one aspect, when the forearm stands (i.e., hangs down in thickness) on the substrate 503, the user's little finger muscles tend to hang down; on the other hand, when the forearm is placed with the base plate 503 hanging from the back, the palm of the user's wrist is left hanging.
Referring to the left half of FIG. 4A, the positioning block 524 for placing the elbow joint portion and the carrying substrate 501 are shown. The positioning block 524 has a recess 526 for receiving the most protruded stem of the elbow end of the humerus on the ulnar side, and the bearing substrate 501 is correspondingly provided with a recess 534 for receiving the most protruded portion (i.e., elbow tip) of the elbow end of the ulna. The human body structure is abnormal and when the forearm is vertically placed on the carrying substrates 501,503, the recess 526 and 534 can accommodate the seed bone and the most protruding part respectively, regardless of being laid on the side or being stuck on the sun surface. However, when the patient stands on his side, the left and lower sides of the protrusion of the muscle group of the forearm (consisting of the long metacarpal muscle, the flexor carpi radialis muscle and the flexor carpi ulnaris muscle) rest in the recess 528 of the positioning block 524 and the recess 536 of the carrying substrate 501, respectively. Like the positioning block 504 of the wrist joint portion, the positioning block 524 is disposed in a pair of recesses 511 of the carrier substrate 501, and a pair of lugs 530 is slidably disposed in the grooves 532 of the recesses 511.
Referring to the middle portion of FIG. 4A, a length adjustment medium 546 is disposed between the two carrier substrates 501, 503. The creators are mysterious and make the height of the human body and the length of the arm. For example, the hand of Liu bang is over the knee, so the length adjustment medium 546 is used to adjust. The adjacent ends of the carrier substrates 501,503 have a central groove 550 for symmetrically receiving a link plate 547. The adjacent ends of the carrier substrates 501,503 are each provided with an inner recess 538 so that a plurality of pairs of tension springs 540 are provided symmetrically above and below the connecting plate 547 to permanently draw each other. The carrier substrates 501,503 have a plurality of pairs of pin holes 542 on opposite sides of adjacent ends thereof, corresponding to a plurality of pin holes 548 on both sides of the connecting plate 547. When the distance between the adjacent ends of the supporting substrates 501,503 corresponding to the arm length of the user is properly adjusted, the four pins 544 can be inserted into the corresponding pin holes 548 and the corresponding two pairs of pin holes 542, thereby completing the arm length setting.
Referring to fig. 4B, the right side of the forearm carrier substrate of fig. 4A is shown, but the forearm carrier 502 (or 501) is slightly modified to have a bottom cut 552 at its elbow end and a bottom pivot hole 554, since it is intended to be combined with the upper arm to form a complete upper forearm carrier. On the left side is an upper arm carrier 560 with two carrier plate bodies 562, 564. The elbow end of the carrier plate 564 has an upper cut-out 568 and an end central pivot 572 pivotally connected to the bottom axle bore 554. The pivoting is directional because the forearm can only bend inward relative to the upper arm support 560 and cannot be flexed outward. As seen in FIG. 4B, the elbow end of the forearm support plate 502 is present such that when pivoted counterclockwise, its distal side will necessarily interfere with the elbow end of the upper arm support plate 560 such that the elbow ends of the upper arm support plate 564, if not manipulated accordingly, will not be able to rotate relative to each other. The elbow end of the upper arm support plate 564 is further cut away 570 to receive the elbow end distal side 535 of the forearm support plate 502.
Referring to the left side of FIG. 4B, since the inner side of the upper arm is connected to the body, the length of the inner side and the outer side of the upper arm is different from that of the upper arm support plate body 562, so that a cut-away portion 580 is provided at the far side of the armpit end 566 of the support plate body 562, and a half cylinder portion 576 is connected to support and drag the armpit of the user. In addition, proximal to the axillary end 566 of the carrier plate body 562, there is a guide tab 578 corresponding to the shoulder end of the user's upper arm when abducted. Of course, to accommodate the length of the forearm, a length adjustment device 574, detailed in the context of the nonredundant parts, may be added between the two carrier plate bodies 562, 564.
Referring to fig. 4C, an embodiment of a length adjustment device 586 of a health-care body of the health-care device is shown. A length adjustment plate 596 is disposed between the two support base plates 582,584, the length adjustment plate 596 having a sliding recess 595, a longitudinal central recess 591, a pair of recesses 597 disposed on both sides of the distal end, a pair of proximal recesses 610 and recesses 599 disposed on both sides of the length adjustment plate 596. The adjacent ends of the two support bases 582,584 are provided with a pair of distal protrusions 606, a pair of grooves 608 respectively provided on both sides of the protrusions 606, a pair of middle grooves 601, and a pair of springs 604 (corresponding/symmetrical to the protrusions 606) provided between a pair of grooves 608 and a pair of grooves 597 corresponding to each other, wherein both ends of the pair of springs 604 are respectively engaged between the corresponding grooves 608 and grooves 597, and the longitudinal central groove 591 is provided for the trapezoidal plate 600 to advance and for accommodating the protrusions 606 to protrude thereinto when the two support bases 582,584 abut against the length adjustment plate 596. The distal pair of springs 604 and the proximal pair of springs 612 always tend to planarly cluster the support base panels 582,584 and the length adjustment base panel 596 together because the three base panels 582,584 and 596 are slidably nested together by the distal rod 602 and the sliding recess 616, the mid-section recess 601 and the trapezoid-shaped acting element 600, and the proximal corresponding pair of guides 614 and the pair of guide slots 618.
Although people have different grades, different lengths are usually no more than five centimeters, depending on the forearm or upper arm. Even if the young children of four years old are more than 15 cm long than the young children of two meters. The length adjustment base 596 has a screw hole 587 and a plurality of alignment pin holes 598. In the case where the three substrates 582,584,596 have the shortest total length, no gap is formed therebetween. Because of the provision of the trapezoid-acting element and screw assembly 620, when it is desired to increase the apparent virtual length, the trapezoid-acting element 600 is pushed to move distally by rotating the handle 590 of the screw 588. Since the two side slopes 603 of the trapezoid acting element 600 will push against the arc 606, the support base plates 582,584 will be pushed out symmetrically, and the total virtual length of the three base plates 582,584 and 596 will be adjusted. When the screw 588 is rotated to the appropriate extent to obtain the desired total virtual length of the three base plates 582,584 and 596, the locating pin 594, which is connected to the screw 588 by the chain 592, is inserted into the locating pin hole 598 before the nearest end of rotation, so that the springs 604 and 612 may rotate the screw 588.
Referring to FIG. 4D, a first embodiment of a ladder and screw combination 620 is shown. The trapezoid acting element 600 has a bottom hole 624 to receive the screw end 622. Referring to FIG. 4E, a second embodiment of a ladder and screw assembly 628 is shown. In some cases, for example, where it is desired to control the thickness of the support base plates 582,584,596, or the thickness of the trapezoid 630 is limited, a clamp 634 may be provided to hold the bottom end of the trapezoid 630, with the clamp 634 defining a recess 636 to engage the end 640 of the screw 638. Optionally, a shallow guide slot 632 is formed in the side slope 631 to positively guide the relative movement between the arc 606 (FIG. 4C) and the trapezoidal actuator 628.
The aforementioned health care device is only used for the first-level or primary function, i.e., for fixing a rod-shaped acupoint workpiece 300 as shown in fig. 1, it is worth noting that the health care device discussed herein is just as second. A health care device (500) comprises a health care body (502) having a carrying substrate (501,503) for carrying a body part, and having opposite end recesses (511,512), wherein the body part is an upper limb or a lower limb, has an upper body part and a lower body part, any body part has a main limb bone, any body part or main limb bone has two ends, and at least one of the two ends has a protruding feature; a pair of locating blocks (524,504) slidably disposed within the pair of end recesses (511,512), respectively, and having depressions (505,506) corresponding to the protruding features for retaining the associated body part therebetween by the protruding features; and a workpiece holder (not shown) having a first end coupled to the carrier substrate (501,503) or the positioning block (524,504) and a second end for holding an acupressure workpiece.
A health care device (500) comprises a health care body (502) having two carrying substrates (501,503) for length-adjustable adaptation to a body part for carrying the body part, and one end of each carrying substrate (501,503) is provided with a pair of concave parts (511,512), wherein the body part is an upper limb or a lower limb, has an upper body part and a lower body part, any body part has a main limb bone, any body part or both ends of the main limb bone, and at least one of the two ends has a convex feature; a pair of locating blocks (524,504) slidably disposed within the pair of end recesses (511,512), respectively, and having depressions (505,506) corresponding to the protruding features for retaining the associated body part therebetween by the protruding features; and a workpiece holder (as shown in fig. 1 or the embodiments described below) having a first end connected to the carrier substrate (501,503) or the positioning block (524,504), and a second end for holding an acupoint workpiece (as shown in fig. 1 or the embodiments described below).
The health device (500) according to the two previous embodiments, wherein the positioning block 504 has a pair of lower lugs 516; the recess 512 is provided with a pair of side grooves 518 for slidably receiving the pair of lugs 516 therein, respectively.
The health device (500) as in the previous two embodiments, wherein the supporting substrate (503) has a free end, and the width of the free end is less than the width of the pair of concave portions 512, and is about the thickness of the lower arm wrist.
The health device (500) according to the two previous embodiments, wherein a positioning block (504) has a hollow (510) for accommodating the protrusion of the short abductor muscle of the palm when the palm is upright, a recess (506) for engaging the protrusion of the wrist end of the radius of the lower arm, a recess (505) for engaging the protrusion of the wrist end of the ulna of the lower arm, and a groove (508) for the palm to extend.
The health device (500) as in the previous two embodiments, wherein the free end of one of the carrying substrates (503) has a recess (520) so that the user's little abductor muscles can be placed in a smooth manner when the forearm stands on its side (i.e. lies in thickness); when the forearm is placed on the scrotum, the palm of the user's wrist is left to hang.
The health device (500) according to the two previous embodiments, wherein when the positioning block (524) is located in the receiving recess (511) of the bearing substrate (501) for bearing the elbow end of the forearm, the positioning block (524) has a recess (526) for receiving the most protruded seed bone of the elbow end of the humerus on the ulnar side, the bearing substrate (501) has a recess (534) for receiving the most protruded part (i.e. elbow tip) of the elbow end of the ulnar, and the positioning block (524) and the bearing substrate (501) are respectively provided with recesses (528,536), so that the left side and the lower side of the protrusion of the muscle group of the forearm rest in the recesses (528,536) respectively when the forearm is standing on the side.
The health care device (500) according to the two previous embodiments, wherein a length adjustment medium (546) is disposed between the two supporting substrates (501,503), the length adjustment medium (546) includes a pair of central grooves (550) respectively disposed at adjacent ends of the supporting substrates (501,503), a connecting plate (547) accommodated in the pair of central grooves (550), a plurality of pairs of pin holes (542) respectively disposed at opposite sides of the adjacent ends of the supporting substrates (501,503), a plurality of pin holes (548) respectively disposed at two sides of the connecting plate (547) and respectively corresponding to the pair of pin holes (542), and four pins (544) respectively inserted into the pin holes (548) of the corresponding connecting plate (547) and the two pairs of pin holes (542) of the corresponding supporting substrates (501, 503).
The health device (500) as described in the previous two embodiments further comprises an upper arm support base plate (560), wherein the elbow end of the forearm support plate 502 (or 501) has a bottom cut-out (552) and a bottom pivot hole (554), the upper arm support plate (560) has two support plate bodies (562,564), the elbow end of the support plate body (564) has an upper end cut-out (568) and a central pivot (572), the central pivot (572) is pivotally connected to the bottom pivot hole (554), and the elbow end of the upper arm support plate (564) has a cut-out (570) for receiving the elbow end distal side (535) of the forearm support plate (502).
The health care device (500) as described in the previous embodiment, wherein the upper arm support plate body (562) near the armpit end is provided with a cut-out portion (580) and a semi-cylindrical portion (576) at the far side of the armpit end (566) for supporting the armpit of the user, and a guiding plate (578) at the near side of the armpit end (566) for corresponding to the shoulder end of the upper arm of the user.
Viewed from another perspective, a healthcare device (500; 560) for holding an acupoint workpiece (as described in fig. 1 and the embodiments described below) thereon for performing a healthcare function on a user, wherein the user has a body part having an acupoint, and the healthcare device (500; 560) comprises: a body (501, 503; 562,564) having a supporting substrate (502; 562) for supporting the body part so as to maintain a first specific positional relationship with the body part, wherein the supporting substrate has an end portion, the body part has a main limb bone, and the body part or the main limb bone has a protrusion feature corresponding to the recess; a pair of positioning blocks (504; 524) slidably disposed on the carrier substrate and having a recess (505; 526) corresponding to the protruding feature for retaining the protruding feature and relatively positioning the body part therebetween; and a workpiece holder (as described in fig. 1 and the embodiments described below), having: a first end connected to the carrying substrate or the pair of positioning blocks; and a second end for holding the acupoint workpiece so that the acupoint workpiece performs the health care work under the first specific position relationship and under the condition of having a second specific position relationship with the acupoint.
Viewed from yet another angle, a healthcare device (500; 560) comprising: a body (501, 503; 562,564) having a supporting substrate (502; 562) for supporting a body part of a user so as to maintain a first specific positional relationship with the body part, wherein the supporting substrate has an end portion, the body part has a main limb bone, the body part or the main limb bone has a convex feature corresponding to the concave portion, and the body part has an acupuncture point; a pair of positioning blocks (504; 524) slidably disposed on the carrier substrate and having a recess (505; 526) corresponding to the protruding feature for retaining the protruding feature and relatively positioning the body part therebetween; and a workpiece holder (as described in fig. 1 and the embodiments described below), having: a first end connected to the carrying substrate or the positioning block; and a second end for holding an acupoint workpiece (as shown in fig. 1 and the embodiments described later) so that the acupoint workpiece performs the healthcare task under the condition of a second specific positional relationship with the acupoint in the first specific positional relationship.
A health care device comprises a health care body for carrying a body part (500), the health care body having two carrying substrates (582, 584); and a length adjusting device (586) installed between the two bearing substrates (582,584) for adjusting the appearance length of the health care body to fit a length of the body part of a user.
The health device as in the previous embodiment, wherein the length adjustment device (586) has a length adjustment plate (596) disposed between the two supporting substrates (582,584) and having a sliding recess 595; the adjacent ends of the two bearing substrates (582,584) are provided with a pair of arc bulges (606), a pair of middle section grooves (601) and a pair of sliding concave holes (616); a side rod (602) passing through the sliding recessed hole (595) and the pair of sliding recessed holes (616) for slidably combining the support base plates (582,584) and the length adjustment base plate 596 in a planar manner; and a trapezoidal acting member (600) disposed in the middle section groove (601) for adjusting the length of the health care body by the interaction of the pair of side inclined surfaces (603) and the pair of arc protrusions (606).
The health care apparatus according to the previous embodiment, wherein the length adjustment plate (596) has a screw hole (587), a plurality of positioning pin holes (598), and a rotation screw (588) for operating the ladder (600) to adjust the total virtual length of the three base plates (582,584,596) by adjusting the contact positions of the inclined surfaces (603) and the arc protrusions (606) on both sides of the ladder (600).
The health care apparatus of the previous embodiment, wherein the trapezoid acting element (600) has a bottom hole (624), and the screw (588) has an end (622) freely rotatable in the bottom hole (624).
The healthcare apparatus of the previous embodiment further includes a collet (634) having a first end (642) for holding a bottom end (646) of the trapezoid acting element (630) and a second end (644) for providing a recess (636) for receiving an end (640) of a screw (638) therein.
The health device of the previous embodiment, wherein the side slope (631) of the trapezoid acting element (630) is provided with a shallow guiding slot 632 for guiding the arc protrusion (606) therein.
Viewed from another perspective, a healthcare device (500; 560) for holding an acupoint workpiece (as described in fig. 1 and the embodiments described below) thereon for performing a healthcare function on a user, wherein the user has a body part having an acupoint, and the healthcare device comprises: a body of the health care device having two carrying substrates (501, 503; 562,564) for carrying and positioning the body part so as to maintain a first specific positional relationship with the body part; a length adjusting device (546; 574; 568) arranged between the two bearing base plates for adjusting the appearance length of the health care body to adapt to a length of the body part; and a workpiece holder (as described in fig. 1 and the embodiments described below), having: a first end connected to one of the two carrying substrates; and a second end for holding the acupoint workpiece so that the acupoint workpiece performs the health care work under the first specific position relationship and under the condition of having a second specific position relationship with the acupoint.
Viewed from yet another angle, a healthcare device (500; 560) comprising: a health care body having two carrying substrates (501, 503; 562,564) for carrying and positioning a body part of a user so as to maintain a first specific positional relationship with the body part, wherein the body part has an acupuncture point; a length adjusting device (546; 574; 568) arranged between the two bearing base plates for adjusting the appearance length of the health care body to adapt to a length of the body part; and a workpiece holder (as described in fig. 1 and the embodiments described below), having: a first end connected to one of the two carrying substrates; and a second end for holding an acupoint workpiece thereon (as shown in fig. 1 and the embodiments described later) for performing a health care function on a user, so that the acupoint workpiece performs the health care function under the condition of having a second specific positional relationship with the acupoint in the first specific positional relationship.
There are also many points on the sole of foot, for example, Neiting point of stomach meridian of foot Yangming (International code ST44), which is located in the fifth place after the second and third toes are sutured, and is mainly used for treating headache, toothache, facial edema, dysentery, and gastrointestinal diseases. The suitable health care device is not shown in fig. 1, and is not cumbersome. In addition, the health device of the sole portion can be obtained by selecting or modifying the health device of FIG. 3B.
In this paragraph, a health device suitable for the lower extremities will be discussed. The lower limb includes the thigh and the lower leg, which are significantly stronger than the upper limb, but the rotational flexibility is significantly inferior, for example, the rotational angles of the knee joint and the ankle joint are significantly inferior to those of the elbow joint and the wrist joint. In addition, the regularity of the distribution of acupoints is not as good as that of the upper limbs, so the design principle of the health care device applied to the upper limbs is not suitable for the lower limbs or is not suitable for direct or complete application. According to the theory of acupuncture, when we find out the specific reference points of the thigh segment and the shank segment of the lower limb, the specific length proportional relation is found. In detail, the area from greater trochanter at the hip end of the femur to the external calf nose (located between the femur and tibia and below and outside the patella) is 19 cun, and the area from the external calf nose to the external ankle point is 16 cun, i.e. the length ratio of the two sections is 19: 16. the size is different for different people, but the ratio is not the same for the old and the young. The former should indicate that TCM or acupuncture is unscientific, while the latter should be able to obey the wisdom of the human body's mysterious or ancestral Zones.
Referring to fig. 5, the health care body 660 of the lower limb health care device includes a lower leg supporting base 662, a upper leg supporting base 664, and a length adjusting device 690. The length adjustment device 690 plays the following role: (1) a part of a carrying substrate or platform constituting the health care body 660; (2) a (tibial) heel end 666 opposite to the calf support base 662 providing a platform for the knee end of the tibia, and forming a combined calf support platform with the calf support base 662; (3) a hip end 730 opposite to the thigh bearing substrate 664 for providing a bearing platform at the knee end of the thigh, and forming a combined thigh and leg bearing platform with the leg bearing substrate 664; (4) the length of the health body can be adjusted to suit the specific leg length of each user; (5) the length of the supporting platform corresponding to the thigh and shank of a specific user can be adjusted simultaneously; (6) can be determined according to 16: 19, while adjusting the combined calf and thigh support platform; and (7) a positioning device constituting a knee reference feature.
A pair of side grooves 668 is formed on shank support base 662 near heel end 666 for slidably receiving a pair of alignment blocks 680 therein, as alignment blocks 680 are shown in phantom with alignment block 504,524 of FIG. 4A, and only briefly described herein. As mentioned above, the area from the lateral calf nose to the lateral malleolus is 16 cun, but the area from the lateral malleolus to the heel is not the characteristic length of the lower leg, but the sole of the foot is connected with the lower leg, so we design it as follows. Considering that a user can lean down to accommodate the convex portion of the back of the user's lower leg corresponding to the tibia and lean up to accommodate the calf, the Achilles tendon and the calcaneus, the lower leg bearing substrate 662 has a central depression 740 and a heel end 666 with a deeper depression 670. A pair of grooves 668 are formed in the calf support base 662 near the heel end 666, with a pair of grooves 678 formed in each groove 668 for slidably receiving a pair of tabs 682 formed on each alignment block 680. The alignment block 680 and the heel end 666 can be provided with a heel height adjustment medium 748 to accommodate the heel heights of different users. The pair of opposed surfaces 681 of the pair of positioning blocks 680 are provided with ankle joint fitting recesses. As an example of distal locating block 680 of fig. 5, opposing surface 681 has a large lateral malleolus recess 684, a medial malleolus recess 686, and a small lateral malleolus recess 688. The purpose of the three concave parts is to match the height of a person and to arrange the external malleolus tips in the three concave parts. In particular, although a person generally has a small (child) (high) fat-thin judgment, the difference in length between the lower leg and the sole is usually less than 50%. Further analysis shows that the vertical (standing) or horizontal (lying) distance or height from the lateral malleolus to the heel is about 4 cm for the young child, and about 7 cm for a person with a height of about 170 cm. Thus, by providing three recesses 672,674,676 in dimple 670 corresponding to the heel of the foot, pairs of recesses 672 and 688, 674 and 686 and 676 and 684 are preferably adapted to the individual body length of each user, in such a way that heel height adjustment medium 748 is obtained.
Of course, in design, the three heel recesses 672,674,676 can be changed to a continuous slope to create an infinite segmentation effect, so that the positioning block 680 can have only one lateral malleolus recess. Conversely, if the width of the opposing surface 681 is increased, the heel end 666 can be narrowed without providing three recesses 672,674, 676. In addition, the proximal positioning block 680 is provided with a recess (not shown) corresponding to the medial malleolus. To facilitate the assembly of the health body, the opposing surfaces 681 of each positioning block 680 can be respectively provided with three recesses 684,686,688 corresponding to the medial malleolus (not shown) and the lateral malleolus, so that the health body 660 can be assembled without paying attention to which positioning block 680 is located on the distal side or the proximal side. It should be noted that, in the use of the health body, the acupoints are on the back or the belly of the leg, so the user may lie on his back or lie on his stomach. For example, in FIG. 5, the lateral malleolus of the right leg is distal when lying on its back; when lying on the top, the lateral malleolus tip of the left leg is also distal, so that three malleolus tip recesses 685,687,689 are provided on the distal positioning block for positioning when lying on the top. Also note that the achilles tendon increases the height of the lateral malleolus tip when lying on its back, but decreases the distance between the instep and the lateral malleolus tip when lying on its top, so that the height of the three lateral malleolus recesses 685,687,689 above alignment block 680 is less than the height of the three lateral malleolus recesses 684,686,688. Needless to say, the springs for drawing the pair of positioning blocks 680 closer to each other are not as heavy as in fig. 4A.
The hip end 730 of the health care body 660 has a concave portion 736 for accommodating the muscle at the connection between the hip and thigh, and the distal end has a receiving hole 732 for receiving a positioning block 726. The positioning block has a positioning hole 728 for disposing the protrusion of the greater trochanter at the hip end of the femur. A plurality of springs 734 are disposed between the distal wall of the receiving hole 732 and the distal wall of the positioning block 726 for urging the positioning block 726 against the protrusion of the greater trochanter at the hip end of the femur for positioning. A stop portion 738 is attached to the thigh support substrate 664 near the hip end 730 for stopping against the bottom edge of the groin to complete positioning of the hip end 730 of the lower limb.
Referring to the middle part of fig. 5, a length adjusting device 690 of the health care body 660 is shown. Basically, the length adjustment device 690 serves as both a lower leg support and a portion of an upper leg support, and together with the lower leg support base 662 and the upper leg support base 664 forms a complete platform for the lower leg and upper leg supports, respectively. The lower leg and thigh support base plates 662 and 664 are longitudinally and adjustably connected to each other by at least one pair of rods 710 and at least two pairs of rod holes 712 disposed at two adjacent ends and two sides of the support base plates 662 and 664, respectively, to form a complete lower limb health care body 660.
The length adjustment device 690 mainly includes a carrying substrate 702, an operation rod 694, and a length adjustment trapezoid 742 (see also fig. 5A). The length adjustment assembly 690 is similar to the length adjustment assembly 586 of fig. 4C, and only the main differences are described here for brevity. Carrier substrate 702 has a central recess 720, a threaded hole 704, and a distal intermediate recess (not shown) for receiving length adjustment ladder 742. The length adjustment ladder 742 has two inclined surfaces 744 and 746 for abutting against arcuate projections (not shown for clarity, see fig. 4C) provided on adjacent ends of the lower and upper leg support substrates 662,664, respectively. The distal half of the lever 694 is provided with threads 692 for screwing into the threaded hole 704 to push the length-adjusting trapezoid-shaped acting element 742 placed in the distal middle recess of the supporting base 702 as required to increase the length of the lower leg and thigh supporting platform as required. The central depression 720 is configured to receive the raised portion of the user's patella when the user lies down.
The pair of alignment blocks 714 are disposed in the space 706 between the thigh and calf support bases 664,662 for aligning corresponding features of the tibia and femur of the knee portion. In particular, in the knee joint portion, the lateral most protrusion is the tibial knee tuberosity and the medial most protrusion is the femur or femoral knee tuberosity, so the distal end locating block 714 has a recess 718 to receive the tibial knee tuberosity. Because the foot is only changed between lying on the back and lying on the top, the position of the tuberosity of the knee end of the tibia is not changed, so the concave part 718 is only provided singly. In detail, although the height of the bump is different between lying on the back and lying on the top, it can be compensated by selecting the depth of the central recess 720 or the central height of the carrier substrate 702. Similarly, only a single receiving recess 719 billion corresponding to the knee tuberosity of the femur is required on the proximal positioning block 714 in FIG. 5. As shown in fig. 5, the shape of the tab 716 of the positioning block 714 is different from that of fig. 4A, because the thigh and shank support base plates 664,662 are separated from each other during the operation of the length adjustment device 690, so the tab 716 is lengthened to make the positioning block set 714 be slidably positioned therebetween due to the pair of slide slots 748 slidably disposed on the thigh and shank support base plates 664,662, respectively, during the separation of the thigh and shank support base plates 664,662. Furthermore, springs (not shown for clarity, see fig. 4A) are disposed between each of the positioning blocks 714 and the supporting substrate, so that the positioning blocks 714 always tend to abut against each other to achieve the task of positioning the knee joint of the user.
One or more pairs of springs 708 are provided to always bias the thigh and calf support panels 664,662 toward each other, and as a characteristic of this embodiment, the spring pairs 708 are installed after the anchor block assembly is completed. The proximal positioning block 714 has a through hole 722 for freely passing through the lever 694, and a plurality of pin holes 724 are provided on a proximal surface for being pinned in the pin holes 724 by a pin 700 connected to the handle 696 by a tether 698 when the lever 694 has been in a correct operating position. Referring to FIG. 5A, the inclined planes 744 and 746 are disposed such that the distance between each inclined plane and the center of the operation rod 694 is X and Y, respectively, and the distance between X and Y is 16: 19 so that the length adjusting device 690 pushes away from the calf and thigh support base plates 662,664 in this proportional relationship to perfectly adjust the acupunctural thigh and calf lengths for each user without distortion.
The health care body of the lower limb health care device of the invention is organized as follows: a health care body (660) comprising a lower leg bearing substrate (662); a thigh support base 664; and a length adjustment device (690), wherein the length adjustment device (690) has a first portion forming a combined calf support platform with the calf support base plate (662) and a second portion forming a combined thigh and thigh support platform with the thigh support base plate (664).
A health body as in the previous embodiment, wherein the length adjustment device (690) serves at the same time as a positioning device for a knee reference feature.
According to a second embodiment of the health care body of the lower limb health care apparatus of the present invention, a health care body (660) includes a lower leg supporting base plate (662) for supporting a lower leg portion and a lateral malleolus tip of a user; a thigh supporting base plate (664) for supporting the thigh and the greater trochanter convex part of the thigh bone branch of the user; and a length adjusting device (690) having a first and a second portion for respectively supporting the lateral tuberosity of the knee end of the shin bone of the lower leg and the medial tuberosity of the knee end of the thigh bone of the upper leg of the user, wherein the length adjusting device (690) can adjust the external length of the health care body to suit the specific leg length of the user.
The health care body as in the previous embodiment, wherein the shank supporting base (662) and the thigh supporting base (664) respectively form a shank and a thigh supporting platform together with the first and second portions of the length adjusting device (690), respectively, and the length adjusting device simultaneously adjusts the length corresponding to the thigh and shank supporting platforms.
According to a second embodiment of the health care body of the lower limb health care apparatus of the present invention, a health care body (660) includes a lower leg supporting base plate (662) for supporting a lower leg portion and a lateral malleolus tip of a user; a thigh supporting base 664 for supporting the thigh and the greater trochanter convex part of the thigh bone branch of the user; and a length adjustment device (690), wherein the length adjustment device (690) has a first and a second portion for respectively supporting the outer tuberosity of knee end of tibia and the inner tuberosity of knee end of thigh femur of user, the calf support base plate (662) and the thigh support base plate (664) respectively form a combined calf and thigh support platform with the first and second portion of the length adjustment device (690), and the length adjustment device (690) is in accordance with 16: 19, while adjusting the combined calf and thigh support platform.
The health care body (660) as described in the previous embodiments, wherein the lower leg support base plate (662) is provided with a middle recess (740) for accommodating the outer convex portion of the lower leg back corresponding to the tibia when a user lies down, and for accommodating the calf portion when the user lies up.
A health care body (660) as in the previous embodiments wherein the calf support base (662) has a heel end (666) with a deeper depression (670) to accommodate the user's achilles tendon and calcaneus when lying down.
A health care body (660) as in the previous embodiments, wherein the lower leg support base (662) has a heel end (666) and a pair of alignment blocks (680) are slidably disposed adjacent the heel end 666 for receiving the lateral and medial malleolar tips, respectively, of a user.
Such as the health care body (660) of the front section, wherein a heel height adjusting medium (748) is provided between the pair of positioning blocks (680) and the heel end (666) for adapting to the specific heel height of each user.
The health care body (660) as described in the previous paragraph, wherein the pair of positioning blocks (680) have opposing surfaces (681) respectively with recesses (684,685,686,687,688,689) designed to correctly receive the lateral and medial malleolar tips of the user no matter the user lies on his back or on his/her back and regardless of the position of the positioning block (680) relative to each other.
The health care body (660) as described in the previous embodiments, wherein the thigh supporting substrate (664) has a hip end (730), and the hip end (730) has a recess 736 for accommodating the muscle at the connection between the hip and thigh; a positioning block (726) for fitting a greater trochanter protrusion of the hip end of the thigh bone of a user; and a stop portion (738) disposed on one side of the hip end (730) for abutting against the bottom edge of the groin of the user.
A health care body (660) as in the previous embodiments, wherein the length adjustment device (690) comprises a carrier substrate (702), an operating lever (694), and a length adjustment ladder (742); the length adjustment trapezoid acting element (742) has two side slopes (744,746) for pushing the lower leg and upper leg bearing substrates (662,664), respectively; the distance between the two side slopes (744,746) and the center of the operation rod (694) is X and Y respectively; and the distance between X and Y is 16: 19 in a proportional relationship.
Such as the forepart health care body (660), wherein the length adjustment device (690) includes a pair of positioning blocks (714) disposed between the thigh and calf bearing base plates (664,662) for simultaneously positioning a user's tibia knee tuberosity and thigh bone or femur knee tuberosity, respectively.
Viewed from another perspective, a health care body (660) for holding an acupoint workpiece thereon (as described in fig. 1 and the embodiments described below) for performing a health care function on a user, wherein the user has a lower limb having a lower leg, a thigh and an acupoint, and the health care body comprises: a lower leg bearing substrate (662) and an upper leg bearing substrate (664) for respectively bearing and positioning the lower leg and the upper leg so as to maintain a first specific positional relationship with the lower leg or the upper leg; a length adjustment device (690) disposed between the shank support substrate and the thigh support substrate, wherein the shank support substrate, the thigh support substrate and the length adjustment device together have a real overall length and an imaginary length, and the length adjustment device is used for adjusting the imaginary length of the health care body; and a workpiece holder (as described in fig. 1 and the embodiments described below), having: a first end connected to the shank or thigh bearing substrate; and a second end for holding the acupoint workpiece thereon, so that the acupoint workpiece performs the health care work under the condition of a second specific position relation with the acupoint under the first specific position relation.
Viewed from a further angle, a healthcare device (660), comprising: a health care body having a lower leg supporting base (662) and a thigh supporting base (664) for supporting and positioning a user's lower limb having a lower leg, a thigh and an acupuncture point so as to maintain a first specific positional relationship with the lower limb; a length adjustment device (690) disposed between the shank support substrate and the thigh support substrate, wherein the shank support substrate, the thigh support substrate and the length adjustment device together have a real overall length and an imaginary length, and the length adjustment device is used for adjusting the imaginary length of the health care body; and a workpiece holder (as described in fig. 1 and the embodiments described below), having: a first end connected to the shank or thigh bearing substrate; and a second end for holding an acupoint workpiece thereon (as shown in fig. 1 and the embodiments described later) for performing a health care function on a user, so that the acupoint workpiece performs the health care function under the condition of having a second specific positional relationship with the acupoint in the first specific positional relationship.
As discussed above, each part of the human body should only remain the head as yet unprocessed, and as shown in fig. 6, the head health care body 760 includes a base plate 762, two pairs of left and right grooves 764, a pair of hydraulic cylinders 772, a pair of head positioning plates 766, two pairs of pressure sensors 784 respectively installed on the pair of positioning plates 766, a circuit arrangement 790 for integrating the operations of the pressure sensors 784 and the hydraulic cylinders 766, and two pairs of forward and backward buttons 786,788 of the hydraulic cylinders respectively installed on the left and right sides of the base plate 762. In detail, a pair of lower male sliders 782 with two side ears is slidably disposed in the corresponding pair of slots 764 below each positioning plate 766. The hydraulic cylinder 772 has a first end 774 fixed on the substrate 762 and a second end 776, and the second end 776 is fixed to the corresponding positioning block 766 by a pair of connecting rods 768,770, so that the distance between the positioning blocks 766 is determined by the pair of hydraulic cylinders 772.
In use, the health body 760 is not only suitable for the user to lie on his back to work on the face, but also suitable for lying on his back to work on the hindbrain because there are many acupoints on the face and the hindbrain. It can also be understood that an inverted triangular hole 780 is formed in the center of the substrate 762 to help prevent the eyes and nose of the user from being pressed when lying down on the back. When the advance button 786 is operated, the hydraulic cylinder 772 pushes the positioning plates 766 closer to each other. First, when a pair of ears of a user pass through the ear holes 778 of the positioning plate 766 and properly touch a corresponding pressure sensor 784 at the most protruding temple portion of the head of the user, the circuit arrangement 790 immediately cuts off the power supply of the hydraulic cylinder 772 to complete the positioning of the head. The fixing members of the acupuncture point work pieces, whether arranged on the substrate 762 or on the positioning plate 766, are not cumbersome because the positions of the fixing members relative to the acupuncture points can be easily defined.
It should be noted that the moving device (i.e. the hydraulic cylinder 772 in the embodiment) of the head health device can be simply modified and used for the length adjustment device in the earlier embodiment, and can be digitized to control the total displacement amount more precisely, which is not described in detail herein.
In this regard, with specific reference to the head health care body, a health care body (760) includes a base plate (762) for carrying a head of a user; a pair of head positioning plates (766) disposed on the base plate (762) and transversely movably symmetrical to the longitudinal axis of the head for positioning the head of the user for working on a cavity of the head or face of the user; a moving device (772) installed between the base plate (762) and the pair of head positioning plates (766) for determining the distance between the pair of head positioning plates (766) to adapt to the face width or head width of the user; and an acupoint workpiece is arranged on the substrate (762) or the head positioning plate (766) to work on the acupoint.
The head health body further comprises a pressure sensor (784) mounted on at least one of the pair of positioning plates (766) and located in a position corresponding to the vicinity of the user's temple so as to cut off power to the mobile device when the pair of positioning plates (766) touch or sandwich the user's head to some extent therebetween.
Such as the head health body, wherein the moving device (772) is a hydraulic cylinder or a pneumatic cylinder.
The head health care body as described above, wherein a pair of forward and backward buttons (786,788) for controlling the moving device are provided on either side of the base plate (762).
The head health body as described above, wherein the base plate (762) is provided with a pair of grooves (764); and a pair of lower convex sliding pieces (782) with lug pieces on two sides are arranged below each positioning plate (766) and can be slidably arranged in the corresponding pair of grooves (764).
The head health care body as described above, wherein the moving device (772) has a first end (774) fixed on the base plate (762) and a second end (776) fixed to the corresponding positioning block (766) by a pair of connecting rods (768,770).
The head health body as described above, wherein the middle region of the base plate (762) has an inverted triangle hole (780) to facilitate the eyes and nose of the user not to be pressed when lying on top.
The head health body as described above, wherein each positioning plate (766) is provided with an ear hole (778) for allowing the ear of a user to penetrate.
Viewed from another perspective, a health care body 760 for holding a point work piece thereon (as described in fig. 1 and the embodiments described below) for performing a health care function on a user, wherein the user has a head, a face and a point, and the health care body comprises: a substrate 762 for carrying thereon the head or face so as to maintain a first specific positional relationship with the head or face; a pair of head positioning plates (766) which are transversely movably arranged on the base plate symmetrically to the longitudinal axis of the head for positioning the head or face so as to facilitate the health care of the user through the acupuncture points; a moving device (772) installed between the substrate and the pair of head positioning plates for setting the distance between the pair of head positioning plates to adapt to the face width or head width of the user; and a workpiece holder (as described in fig. 1 and the embodiments described below), having: a first end connected to the substrate; and a second end for holding the acupoint workpiece thereon, so that the acupoint workpiece performs the health care work under the condition of a second specific position relation with the acupoint under the first specific position relation.
Viewed from a further angle, a health care body 760 comprising: a substrate 762 for carrying thereon a head or a face of a user so as to maintain a first specific positional relationship with the head or the face, wherein the head or the face has an acupuncture point; a pair of head positioning plates 766, which are transversely movably disposed on the base plate symmetrically to the longitudinal axis of the head, for positioning the head or face to facilitate a health care work for the user through the acupuncture points; a moving device 772 installed between the substrate and the pair of head positioning plates for setting the distance between the pair of head positioning plates to adapt to the face width or head width of the user; and a workpiece holder (as described in fig. 1 and the embodiments described below), having: a first end connected to the substrate; and a second end for holding an acupoint workpiece thereon (as shown in fig. 1 and the embodiments described later) for performing the healthcare function, such that the acupoint workpiece performs the healthcare task under the condition of having a second specific positional relationship with the acupoint in the first specific positional relationship.
People who have studied acupuncture and feelings of acutance may ask questions immediately, but the mechanism of acupuncture and moxibustion introduced above, new , is still incomplete or ideal. It is not complete, for example, the above-mentioned health-care body of head, if the acupoint workpiece positioning device is to be mounted on the positioning plate 766, it appears that the distance is relatively long and it may cause doubt on "precise" positioning. Thus, we can develop the logic that we can solve the precise location of the anterior, posterior and apical acupoints on the head, and using or modifying this solution, the precise location of the rest of the body can be obtained . Of course, to avoid any doubt by those skilled in the art, the following disclosure will explain the exact positioning of the other points in the dish.
Fig. 7 is a precisely positionable head care device 800 that includes a health care body 802, but the two positioning plates 766 of fig. 6 are modified to the two track bodies 804 of this figure. In appearance, it seems simple and complex, however, the present invention provides two ways to advance from the basic level to the hierarchical level, as just described below. However, in order to avoid the complexity of the drawing, the first displacement or adjustment device for the distance between the two rail bodies 804 is disclosed in the previous embodiment, and thus fig. 7 is not shown. Each rail body 804 has an upper surface 810, a pair of slots 806 are formed near longitudinal sides of the upper surface 810, and a lower rack 808 is formed on the top surface of the slot 806. In addition, the upper surface 810 is also provided with an upper rack 812 along the longitudinal direction.
The first displacement or adjustment device of the two rail bodies 804 adjusts the distance between them, and the carrier bodies 814,816 are used to carry a work base 848. The carrier bodies 814,816 are two-piece, since they are required to match the distance between the two rail bodies 804, but are required to be fully responsible for the carrying work. A pair of positioning rods 832 are disposed on the far and near sides of the left end face 830 of the carrying body 816, and the carrying body 814 is correspondingly disposed with a pair of positioning grooves 834, so that the upper surfaces 858,860 of the two carrying bodies 814,816 are on the same carrying level no matter how the two track bodies 804 are adjusted within the necessary distance.
The proximal surfaces 862,864 of the carrier bodies 814,816 are each provided with a pair of positioning plates 818, and each of the positioning plates 818 is provided with a positioning gear 820 for engaging with the lower rack 808. Proximal surfaces 862,864 respectively mount a stepper motor 822 and a teeth guard (with or without grooves) 824, stepper motor 822 has a motor shaft 826, and motor shaft 826 coaxially mounts a gear 828. Thus, when the gear 828 is driven by the stepping motor 822 to rotate, since the carrier bodies 814 and 816 are already engaged with the lower rack 808 by the positioning gear 820, the gear 828 will be engaged with the upper rack 812 (and the teeth guard 824 (if having teeth)) to rotate, and will drive the carrier bodies 814 and 816 to move longitudinally along the two rail bodies 804 as a whole. In addition, the entire set of mechanisms, i.e., all components carried and secured by the carrier bodies 814,816, thus accomplish a second displacement or position adjustment function (i.e., longitudinally along the track body 804) in cooperation with the two sets of upper gears 828 and the pair of lower gears 820. What is the function or purpose of this second displacement or position adjustment will be described later.
The carrier body 814 is fixed with a side positioning plate 836 for fixing another stepping motor 838, and the stepping motor 838 is used to drive the screw 840. The screw channel 842 is fixedly disposed on the upper surface 858,860 for receiving the screw 840 and has two sidewall upper surfaces 844. The working base 848 is driven by the stepping motor 838 along the upper surfaces 844 of the two side walls through a moving member 846 screwed to the screw 840 to determine the working position. To accommodate the variation of the distance between the two track bodies 804, the right half of the screw slot 842 is provided with a middle protrusion 852, and the upper surface 860 is provided with a corresponding groove 854 for allowing the middle protrusion 852 to freely slide in the groove 854. Of course, in order to increase the smoothness of sliding, a plurality of balls 856 are disposed between the middle male member 852 and the groove 854 to increase the sliding performance. Thus, the present mechanism accomplishes a third free variation of the desired working position of the working base 848 on the screw channel 842 without any effect from the first and second displacements or position adjustments described above. Of course, what the function or purpose of this third displacement or position adjustment or change will be described later. The work base 848 has a mounting bolt 850 thereon for mounting a workpiece, as will also be described later.
According to the examination, the location standard of cun and cun in the head and face is the interval of 9 cun between the two points of Yangming stomach meridian (International number ST8, located in 5 minutes of the hairline of the forehead, mainly for eye pain, blurred vision, headache, splitting pain and dizziness), which is the standard of the transverse dimension of the head. In detail, after the two rail bodies 804 are positioned on the face of a user by adjusting the distance between them by the first displacement or adjustment device 772 of FIG. 6, the third displacement or position adjustment mechanism (element assembly 838-856) can be activated for health care or medical treatment. This operation can be performed very finely, since the positioning of the stepping motor can be very precise; we have to start the stepping motor 838 first to get the specific size of each person, i.e. move the working base 848 first to confirm the positions of the two dimensional cavities (international code ST8), and calculate the real distance therebetween, and then convert this real distance into 9 inches, so we know that for a specific person, the exact one size is , and two of them; when we know that the exact size of a certain person is a few, we can find out exactly what other acupuncture points are , and the third is also; when we can accurately determine what acupuncture point is, we can do health care or medical treatment on the acupuncture point, i.e. there is no misdiagnosis or misdiagnosis question , and the fourth is.
As mentioned above, the healthcare entity 802 is somewhat simplified in order not to unduly complicate the drawing. It should be noted that fig. 7 is applicable to head and face health care, and for the governor vessel, the hindbrain part has dumb's acupoint (international code GV15), fengfu acupoint (international code GV16), Naohu acupoint (international code GV17), Qiangjian acupoint (international code GV18) and posterior vertex acupoint (international code GV19), so that the health care body 802 is required to be hollowed out corresponding to these acupoints. The second method is to dig a horizontal empty slot to expose the corresponding space of the acupuncture points, or to dig a longitudinal through hole corresponding to the acupuncture points. Since this consideration is not difficult, it is not further described or illustrated herein.
Referring to FIG. 7A, point-work piece connector 870 has a securing nut 876 attached to a first end 874 and a point-work nut 882 attached to a second end 880. A fixing nut 876 is threadedly mounted on the fixing bolt 850 with its internal threads 878 so that the acupoint workpiece connector 870 is precisely positioned on the carrier bodies 814,816, and a working nut 882 is threadedly mounted with its internal threads 884 on an acupoint workpiece for performing a health or medical action on an acupoint. Further details will be given later herein.
The size of the head is normalized to one dimension (12 inches) from the front to the back of the head, and to ascertain that a user-specific head size is a few centimeters, a second displacement or position adjustment mechanism ( element combinations 808, 812 and 818) is activated. In detail, when the stepping motor 822 is activated, the upper gear 828 and the pair of lower gears 820 drive the carrier bodies 814,816 to move longitudinally along the two rail bodies 804, so that an acupoint searching workpiece fixed on the working base 848 searches the real size between the front and rear hair lines specific to a specific user, and the real size is reduced to 12 head lines, so that each head line specific to the user is equal to a few centimeters . It should be noted that, in order to allow the carrying bodies 814 and 816 to move along the longitudinal curved rails 804 smoothly driven by the stepping motor 822, the bottom surfaces of the carrying bodies 814 and 816, which are opposite to the upper surfaces of the two rails 804, may be provided with an appropriate curvature to facilitate the relative movement therebetween, which is not necessarily cumbersome.
The first 772, second 808, 812 and 818-828 and third 838-856 displacement or position adjustment mechanisms described above with reference to FIGS. 6,7 and 7A are illustrated as heads, but those skilled in the art would readily adapt the mechanisms for direct or modified application to the health care body of the upper limb, lower limb or trunk, and thus are not limited thereto. It is known that by the above mechanism, the following surprising effects can be achieved: firstly, a modern extremely advanced stepping motor is used to precisely find a certain acupuncture point; secondly, measuring the dedicated size according to the specific user; thirdly, because the body sizes of each part are not necessarily the same, different body parts of the same user can be obtained, and the precise body size of the part can be found for a specific part; fourthly, completing a new milestone for further scientification of acupuncture points or acupuncture.
The health care device capable of being precisely positioned is contemplated below. A healthcare device (800) comprising a healthcare body (802); a track body (804) disposed on the health care body (802) and generally along a body of a user; a working base (848) disposed on the rail body (804) for mounting thereon an acupoint workpiece, such that the acupoint workpiece can perform health care or medical treatment on a specific part of the body of the user; and a driving device (818) 828) disposed between the rail body (804) and the working base (848) for moving the working base (848) along the rail body (804) so that the working base (848) and the specific portion are in an optimal relative position to each other.
The health care device (800) further comprises another track body (804) disposed on the health care body (802) such that the two track bodies (804) sandwich the body; and a displacement or position adjusting device (772) disposed on the health care body (802) and at least one of the track bodies (804) to adjust the distance between the two track bodies (804).
The health care device (800) as described above, wherein the track body (804) has an upper surface (810); a pair of tooth slots (806) are formed near the upper surface (810) on both longitudinal sides of the rail body (804); the top surface of each gullet (806) is provided with a lower rack (808); the upper surface (810) is provided with an upper rack (812) along the longitudinal direction thereof; and the driving device (818 and 828) is provided with an upper gear (828) meshed with the upper rack (812), and a pair of lower positioning gears (820) respectively meshed with the pair of lower racks (808).
The health care device (800) further comprises two carrier bodies (814,816), wherein the proximal surfaces (862,864) of the carrier bodies are respectively provided with a pair of positioning plates (818); each pair of positioning plates (818) is provided with a pair of lower positioning gears (820); the two proximal surfaces (862,864) are respectively provided with a tooth protection sheet (824) and a stepping motor (822); and each stepper motor (822) has a motor shaft (826) and coaxially fixed upper gear (828).
The health care device (800) further comprises a carrier installed between the two rail bodies (804) and the working base (848), wherein the carrier comprises two carrier bodies (814, 816); and the two carrier bodies (814,816) have adjacent end faces (830), and at least one pair of positioning rods (832) and at least one pair of positioning grooves (834) corresponding to the positioning rods are respectively arranged on the adjacent end faces (830), so that the upper surfaces (858,860) of the two carrier bodies (814,816) are on the same bearing horizontal plane no matter how the distance between the two track bodies (804) is changed.
The health care device (800) further comprises a carrier body (814,816) for carrying the work base (848) thereon; a carrier longitudinal movement stepper motor (838) disposed on the carrier body (814, 816); and a screw (840) disposed between the stepping motor (838) and the work base (848), wherein the rotation of the stepping motor (838) moves the work base (848).
The health care device (800) as in the preceding paragraph, wherein the carrier body (814,816) has an upper surface (858, 860); and the health care device (800) further comprises a screw groove body (842) and a moving member (846), wherein the screw groove body (842) is fixedly arranged on the upper surface (858,860) and is used for accommodating the screw (840), and the moving member (846) is arranged between the working base (848) and the screw (840), so that the stepping motor (838) determines the working position of the working base (848).
The health care device (800) as in the preceding paragraph, wherein the carrier includes two carrier bodies (814,816) each having two upper surfaces (858,860); one upper surface (860) of the two upper surfaces is provided with a sliding groove (854); and the bottom of the screw slot (842) corresponding to the upper surface (860) is provided with a middle convex member (852) so as to allow the middle convex member (852) to freely slide in the groove (854).
The health care apparatus (800) as in the previous paragraph, further comprising at least one ball (856) disposed between the intermediate male member (852) and the groove (854).
The health care device (800) as described above, further comprising an acupoint workpiece connector (870), wherein the connector (870) has a first end (874) for coupling with a retaining nut (876) and a second end (880) for coupling with an acupoint workpiece nut (882); the fixing nut (876) is screwed on a fixing bolt (850) on the working base (848); and the working nut (882) is used for screwing the acupoint workpiece.
Viewed from another perspective, a healthcare device 800 for holding an acupoint workpiece thereon (as described in fig. 1 and the embodiments described below) for performing a healthcare function on a user, wherein the user has a body part, the body part has an acupoint, and the healthcare device comprises: a body 802 for carrying the body part thereon so as to maintain a first specific positional relationship with the body part; a track body 804 disposed on the health care body and extending substantially along the body part; a work base 848 disposed on the rail body; an acupoint workpiece (as described in fig. 1 and the embodiments described later) mounted on the working base 848 so that the acupoint workpiece can perform a health-related task on the user through the acupoints; a driving device (836-846) disposed between the rail body 804 and the working base 848 for moving the working base along the rail body; and a workpiece holder (as described in fig. 1 and the embodiments described below), having: a first end connected to the health-care body; and a second end for holding the acupoint workpiece thereon, so that the acupoint workpiece performs the health-related work under the condition of a second specific positional relationship with the acupoint in the first specific positional relationship.
Viewed from another perspective, a health care device 800 includes a health care body 802 for carrying thereon a body part of a user to maintain a first specific positional relationship with the body part, wherein the body part has an acupuncture point; a track body 804 disposed on the health care body and extending substantially along the body part; a working base 848 disposed on the rail body for performing a health-related work on the user through the acupuncture points; a driving device (836-846) disposed between the rail body 804 and the working base 848 for moving the working base along the rail body (as described in fig. 1 and the embodiments described later); and a workpiece holder having: a first end connected to the health-care body; and a second end for holding an acupoint workpiece thereon (as shown in fig. 1 and described in the following embodiments) for performing the health-related task, such that the acupoint workpiece performs the health-related task under the condition of having a second specific positional relationship with the acupoint in the first specific positional relationship.
Such precise positioning or displacement or position adjustment mechanisms, as shown in fig. 1, are also not wonderful or exclamatory to achieve the simple health care shown in fig. 1. In the following, attention is directed to the more advanced applications of the present invention in order to show its practical industrial value. Checking, aiming at the current physical therapy of acupuncture points or the behaviors related to acupuncture and moxibustion, (i) does not depend on professionals such as TCM doctors or physicians; (II) do not need to be done with the hands of professionals (to obtain correct working position) or fixed relatively large instruments (to often not maintain or obtain the relative position of the acupuncture point and the relevant parts of the instrument); (III) not relying on the professional to have sufficient physical strength to maintain the appropriate relative position or contact relationship of the acupoint workpiece and the acupoint for a given period of time; and (IV) the professional is not relied on within the working time, the mental and mood states are good, the acupoint judgment is not carried out by mistake, and the task of (III) is achieved certainly, but at least because (I) one person is tired, (II) the mood is hard to avoid, and (III) the mind is not convenient, the consumer may not have enough financial power or time to find the health care body at the physiotherapy or the traditional Chinese medicine frequently, and/or (V) the service provider, such as the traditional Chinese medicine provider, may also feel great cost pressure for hiring foot assistant, so that the accurate positioning mechanism is used for completing at least the relative position relation of (I) the accurate acupoint workpiece and the acupoint; (ii) continuous and reliable maintenance of (a) relative positional relationship; thirdly, the user can obtain the precise positioning device of the present invention at a very economical cost for use at home; fourthly, after the user's ailment or discomfort is relieved by the present invention, the user does not go to the hospital for treatment, and the burden of health care should be saved by at least one third (taking taiwan as an example, the amount of new tai coin is more than 2,000 hundred million); and/or (V) rational policy can transfer resources to more favorable countries for people to take action.
Ideally, disclose, or perhaps feel human; but to be able to implement it specifically, it is believed that people can get confidence. From paragraphs 20 to 29 of the present patent specification, we can know or can surmise that: the acupuncture point work pieces which are necessary to have different shapes and colors on the market, such as (A) microwave needles usually have a focusing working point; if the radiator instrument (B) has a planar or curved output end; also, for example, (C) the magnet has a specific working plane; in addition, if (D) the magnetic fork acid discharging rod is provided with a single relatively large dot at one end and three relatively small working dots at the other end. Referring to FIG. 8, an embodiment of a workpiece assembly includes a work base 900 mounted to a healthcare apparatus as described above and identical to the work base 848 described above, having a longitudinal bore 902. In this embodiment, the workpiece holder 906 has a first end 908 with an annular recess 916 and a second end 910 with a connector 912 secured thereon, and the connector 912 has internal threads 914. A workpiece 964 has a first end 918 threaded into the internal threads 914, and a second end 922 that is an acupoint workpiece for performing health care tasks on an acupoint of a user, with the first and second ends 918,922 connected by a connector 920.
In use, work piece 906 is positioned by extending first end 908 of work piece holder 906 through bore 902 and retaining work piece 906 in annular groove 916 with C-clip 904. If the acupoint workpiece, i.e. the second end of the workpiece 922, is only the front-stage microwave or radiation, the relative position relationship between the acupoint workpiece 922 and the acupoint is determined or fixed; however, if the magnet or the magnetic fork acid discharging rod belongs, a certain degree of pressure should be applied to the acupuncture points. To achieve this pressure application, since the connector 912 is cylindrical and the first end 918 is cylindrical, the depth of the screw connection between the two will determine the working pressure applied to the acupuncture point, so that the working pressure of the acupuncture point workpiece 922 can be adjusted in this way. Referring to fig. 8A, the first end of the workpiece holder 930 has a threaded section 932 and an annular recess 934, the threaded section 932 is adapted to mate with the threaded hole 938 of the work base 936 at a specific angle. In this way, a working angle between the acupoint workpiece 922 and the acupoint can be adjusted.
Referring to fig. 8B, which is an embodiment of an acupressure workpiece 940 suitable for use in the present invention, acupressure workpiece 940 is basically an elongated pneumatic cylinder 942 having a threaded end 944 for connecting a workpiece holder and a working end 960. A crank shaft 954, a tip opening 966, a rubber pad 958 rotatably disposed between the crank shaft 954, the tip opening 966, and the working end 962 are disposed at a portion of the working end 962 adjacent to the working end 960, a main connecting member 950 having a first end 968 and a second end 970, the second end 970 being fixedly attached to a ring member 952, an upper connecting ring 948 fixedly attached to a piston rod 946 of a pneumatic cylinder 942 and annularly engaging the ring member 952, and a working ring 956 fixedly attached to the first end 968 and movably engaged to a crank portion of the crank shaft 954. In use, when the piston rod 946 moves downwards, the crankshaft 954 is driven to rotate downwards by the upper connecting ring 948, the main connecting member 950 and the working ring 956; when the piston rod moves upward, the crankshaft 954 is driven to rotate upward by the same element. At this time, the tip opening 966 is in contact with an acupuncture point, and the working ring 956 performs a massage action on the user through the acupuncture point via the rubber pad 958 by the rotation of the crank shaft. Depending on the characteristics of the acupoint, the shape of tip opening 966 may be determined, such as a small circular area, or an arcuate slot corresponding to the working trajectory of working ring 956.
The different embodiments disclosed in the present application at different stages or embodiments can be regarded as alternative embodiments to each other, just as it is expressly noted. In this paragraph, in keeping with the main requirements related to the acupoint work piece, a health care device includes a health care body; a working base (900) arranged on the health care body, wherein the health care body is used for health care of a user, and the user has an acupuncture point; a moving device, installed between the working base (900) and the health care body, for moving a position of the working base (900) relative to the health care body; an acupoint workpiece (922) for performing a health care operation on the user through the acupoint; and a workpiece holder (906) for connecting the acupoint workpiece (922) to the working base (900) so that the acupoint workpiece (922) can continuously perform the health care work at a specific relationship position relative to the working base (900) or the acupoint.
The health device as described above, wherein the workpiece holder (906) has a first end (908) connected to the working base (900) and a second end (910) with a connector (912) fixed thereto, and the connector (912) has internal threads (914); and a working member (964) having a first end (918) screwed with the internal thread (914) and a second end (922) for performing the health care work on a part or acupoint to be treated of the user.
The health device as in the previous paragraph, wherein the connector (912) is cylindrical and the first end (918) of the workpiece (964) is cylindrical, whereby the depth or degree of threading therebetween determines the working pressure applied by the second end (922) to the site or acupoint to be treated.
The health care device as described above, wherein the second end (922) of the workpiece (964) is an acupoint workpiece.
The health device as described above, wherein the working base (900) has a longitudinal through hole (902); the first end (908) of the workpiece holder (906) is provided with an annular groove (916); and a C-clip (904) extending through the through hole (902) at the first end (908) and retaining in the annular groove (916) to position the workpiece (906).
The health device as described above, wherein the working base (900) has a longitudinal through hole (902), and the end of the longitudinal through hole (902) is a screw hole (938); and the first end (908) of the workpiece holder (906) is provided with a threaded section (932), so that the threaded section (932) is tightly matched with the threaded hole (938) at a specific angle, and a working angle of the acupoint workpiece (922) to the part to be treated with health care or the acupoint is adjusted.
Viewed from another perspective, a health care device for holding an acupoint workpiece thereon for performing a health care function on a user, wherein the user has a body part having an acupoint, and the health care device comprises: a body for supporting the body part thereon so as to maintain a first specific positional relationship with the body part; a working base 900,936 disposed on the health body; an acupoint workpiece mounted on the working base, so that the acupoint workpiece can perform a health-related work on the user through the acupoint; a moving device (e.g. 836-846,972,1040) installed between the working base and the health care body for moving a position of the acupoint workpiece relative to the health care body; and a workpiece holder (e.g., 906,930) having: a first end connected to the working base; and a second end for holding the acupoint workpiece thereon, so that the acupoint workpiece performs the health-related work under the condition of a second specific positional relationship with the acupoint in the first specific positional relationship.
Viewed from a further angle, a health care body comprising: a body-building body for carrying a body part of a user thereon so as to maintain a first specific positional relationship with the body part, wherein the body part has an acupuncture point; a working base 900,936 disposed on the health body for performing a health-related work on the user through the acupuncture points; a moving device (e.g. 836-846,972,1040) installed between the working base and the health care body for moving a position of the working base on the health care body relative to the health care body; and a workpiece holder (e.g., 906,930) having: a first end connected to the working base; and a second end for holding an acupoint workpiece thereon for performing the health-related work, such that the acupoint workpiece performs the health-related work under the condition of a second specific positional relationship with the acupoint in the first specific positional relationship.
A health-care working piece (940) which is arranged in a health-care device to carry out health-care work on an acupuncture point of a user, wherein the health-care device is provided with a working base (900), and the acupuncture point working piece (940) comprises a working body (942) which is provided with a first end (944) and a second end (960), wherein the first end (944) is connected with the working base (900); and a health care agent (922,956) disposed at the second end (960) for performing the health care task.
The workpiece as described above, wherein the working body is an elongated pneumatic cylinder (942), and the elongated pneumatic cylinder (942) has a piston rod (946).
The workpiece of the preceding paragraph, wherein the working end (960) further includes a crank shaft (954) rotatably disposed at the working end (960); a tip opening (966); a rubber pad (958) disposed between the crank axle (954) and the tip opening (966); and a main connecting member (950) connected between the piston rod (946) and the crank shaft (954) so that the piston rod (946) drives the crank shaft (954) to perform the health care work.
The workpiece as in the preceding paragraph, wherein the primary connector (950) has a first end (968) and a second end (970); the second end (970) is fixedly provided with a ring member (952); the workpiece (940) further includes an upper coupling ring (948) connected between the piston rod (946) and the ring (952); and a working ring (956) fixedly attached to the first end (968) and movably looped around the crank shaft (954).
The workpiece as in the previous paragraph, wherein the working ring (956) massages the body part or acupuncture points through the rubber pad (958).
The workpiece as in the previous section, wherein the tip opening (966) is a small circular opening, or an arcuate slot corresponding to a working trajectory of the working ring (956).
The workpiece as described above, wherein the first end is threaded.
The acupoint workpiece as mentioned above, wherein the working medium of the health-care medium is microwave, millimeter wave, radiant heat, magnetic force, frequency signal, micro-current or moxa-hot gas.
Viewed from another perspective, a health-care acupoint workpiece (942,964) for mounting on a health-care body (e.g., 502,562,582) for performing a health-care operation on an acupoint on a body part of a user, wherein the health-care body has a working base (900,934), the health-care body is configured to carry and position the body part so as to maintain a first specific positional relationship with the body part, and the acupoint workpiece comprises: a working body (922,942) having a first end (944) and a second end, wherein the first end is connected to the working base; and a health-care medium (922; 946-958) disposed at the second end (960) for performing the health-care operation under the condition that the acupoint workpiece has a second specific positional relationship with the acupoint in the first specific positional relationship.
Viewed from a further perspective, a health care acupoint workpiece (942,964) comprising: a working body (922,942) configured to be mounted on a health care body (e.g., 502,562,582), wherein the health care body is configured to carry and position a body part of a user, the health care body and the body part are maintained in a first specific positional relationship with each other, the body part has an acupuncture point, the health care body has a working base (900,934) for performing a health care work on the user through the acupuncture point, and the working body has: a first end (944) coupled to the work base; and a second end (960); and a health-care medium (922; 946-958) disposed at the second end for performing the health-care operation under the condition that the acupoint workpiece has a second specific positional relationship with the acupoint in the first specific positional relationship.
For increasing the precision of adjusting the working angle of the acupoint workpiece, it is not difficult for modern technology. Please refer to fig. 8C for a second embodiment of the workpiece assembly. A work base 971 is shown corresponding to the work base 848 on which is mounted an angle controller 972 comprising an angle control assembly 974 and a workpiece support 976. The support member 976 fixes a screw cylinder 980 to it via a fixing member 978, whereby the support member 976 is controlled by the angle control assembly 974 such that the screw cylinder 980 has a specific angle with respect to the work base 971 or the acupuncture point. Figure 8D shows a high spring force acupoint workpiece clip 984 secured by screws or rivets 986 to a workpiece support 982, and the acupoint workpiece clip 984 has a pair of retaining portions 988 for securely retaining an acupoint workpiece therebetween.
This paragraph considers the acupuncture point work piece related to the precise adjustment of working angle, i.e. a health care device, which comprises a health care body; a working base (971) arranged on the health care body, wherein the health care body is used for health care of a user, and the user has an acupuncture point; an acupoint work piece is used for carrying out health care work on the user through the acupoint; and an angle controller (972) for connecting the acupoint workpiece to the working base (971) so that the acupoint workpiece can continuously perform the health care work at a specific angle with respect to the working base (971) or the acupoint.
The health device further comprises a moving device disposed between the working base (971) and the health body for moving a position of the working base (971) relative to the health body.
The health care apparatus as described above, wherein the angle controller includes an angle control assembly (974) and a workpiece support (976) connected thereto, whereby a specific working angle of the workpiece support (976) with respect to the working base (971) or the acupuncture point is obtained.
The healthcare device as in the preceding paragraph, wherein the workpiece holder (976) is a high-elasticity point workpiece clip (984) and is secured to the workpiece support (982) by rivets or screws (986).
The health care apparatus as in the preceding paragraph, wherein the workpiece holder (984) has a pair of resilient holding portions (988) for securely holding an acupoint workpiece therebetween.
With the above-mentioned workpiece and health care device, the technical disclosure of the present invention relating to acupoint health care is complete and may not be questioned. In detail, although the last embodiment can solve the problem of precise angle control, in the case of the gallbladder meridian of foot shaoyang, there are irregular acupoints, such as Yanglingquan (international code GB34, mainly for treating knee joint pain, sciatica, hemiplegia, numbness of lower limbs and cholecystitis), Yanglingjie (international code GB35, mainly for treating fullness in chest and hypochondrium, fullness in chest and throat, knee pain, flaccidity, fright and swollen face) and Juglans (international code GB36, mainly for treating headache, neck pain, hepatitis, paralysis of lower limbs, and virus of bad dogs) which cross the anterior, medial and posterior sides of the yang face of the lower leg. Even though we can solve the positioning problem as mentioned above, it is not obvious that only a few acupuncture points need to be "big moving dry and go". Therefore, a design is provided to enable the acupuncture point workpiece to be arbitrarily inclined relative to the working base, and the applicability or satisfaction of the scheme is greatly improved.
To achieve the foregoing, reference is made to FIG. 9, which is an embodiment of a workpiece assembly 1000 incorporating a robot. Modern science and technology often brings an exclamation that a robot or a mechanical arm can work accurately. The work assembly 1000 includes a work base 1022 of FIG. 9, corresponding to the work base 848 of FIG. 7, upon which a work table 1020 is secured. The work table 1020 carries a turntable 1018 with a fine control of the rotation angle, and the turntable 1018 is pivotally connected to a first end 1024 of a connection base 1014 with a fine control of the pivoting angle. An extension base 1010 is pivotally connected at a first end 1012 thereof to a rotating shaft 1016 at a second end 1026 of the connection base 1014 with a fine controllable pivoting angle, and is secured at a second end 1028 to a first end 1030 of a rotator head 1008, the second end 1032 of the rotator head being secured to a motorized chuck 1002 with a fine rotation. The power chuck 1002 has two clamping members 1004 each having a pair of retaining surfaces 1006 for retaining an acupoint workpiece therebetween as described previously. By these four rotation actions, we can easily imagine immediately: (1) some of the offset designs or requirements in FIG. 7 may be replaced; (2) if such a workpiece assembly 1000 is attached to the health care body 660 of the lower limb of FIG. 5, it becomes easy to make irregular points on the gallbladder meridian of foot shaoyang; (3) the plane distance, vertical height and relative angle of the acupoint workpiece relative to the specific part or acupoint of the body to be treated can be completely controlled (obtained by accurate calculation through the four rotation actions); and (4) therefore, it has been expected that the acupoint workpiece will be used to perform a medical grade action on the acupoint. In this regard, the principles are explained with the following paragraphs.
As mentioned above, the criteria for the size of the hand and leg are mentioned. With reference to the above-disclosed structure, we can understand the following criteria for the thoracoabdominal region: after finding the reference points, can find and calculate the specific size of the individual? And help to automatically find other acupuncture points by computer according to the clue, thereby avoiding the missearching of acupuncture points caused by the fatigue of doctors or human beings, which will be described later. Chest size criteria: 6.8 cun from Tiantu acupoint (International code CV22) to Tanzhong acupoint (International code CV17, two-breast median); (II) the standard of the upper abdomen size: 8 cun from the crotch (xiphoid process) to the navel (international code CV8, Shenque); (III) lower abdomen size standard: 5 inches from navel (international code CV8) to bent bone (international code CV 2); (IV) flank abdomen size criteria: the size from the chapter gate (international code LR13) to the ring jump (international code GB30) is 9 inches; and (V) the transverse dimension standard of the trunk part: 8 cun between the two breasts. Thus, the Danzhong acupoint, 1.6 cun below, is also known as Zhongting acupoint (International code CV 16). In detail, according to the above-mentioned mechanical arm device (element 1002 and 1020), (a) first rotation mechanism (between elements 1018 and 1020), the angular relationship between the working base or the health care body and an acupuncture point can be determined; (ii) a second pivoting mechanism (between elements 1018 and 1014) that alone or in combination with other mechanisms at least determines the linear distance relationship of the work base or health care body to an acupoint; (iii) a third pivoting mechanism (between elements 1010 and 1014) that alone or in combination with other mechanisms at least determines the height relationship of the work base or health care body to an acupoint; and (four) a fourth rotation mechanism (between elements 1010 and 1002) for determining an angular relationship between the acupoint workpiece and an acupoint; and (V) the above relations can be easily and automatically calculated by a computer, so as to obtain the distance and the direction (actually representing the position of a certain acupuncture point) of the mechanical arm device, and the angle of the acupuncture point workpiece passing through the acupuncture point for the health care or medical treatment of the user. Therefore, it is always necessary to perform oblique acupuncture on the acupuncture points on the head or face, but the control and adjustment of the relative inclination angle between the acupuncture point workpiece and the working base are possible by the above-mentioned mechanism, so it is no longer a trouble. Of course, earlier, it has been described that the robotic device may be mounted directly to a health care body, or to a work base already mounted to the health care body.
With the foregoing and related features in mind, a health device comprising a health body for health care of a user, the user having an acupuncture point; a working machine (1020) disposed on the health body; an acupoint work piece for performing a health care work on the user through the acupoint; and a mechanical arm device (element assembly 1002 and 1020) connected to the working machine (1020) for holding the acupoint workpiece so that the acupoint workpiece can perform the health care work at a specific position relative to the working machine (1020) or the acupoint.
The health device further includes a working base (1022) disposed between the health body and the working machine (1020); and a moving device (fig. 7) disposed between the working base (1022) and the health care body.
The health device further includes a rotary table (1018) supported on the working table (1020) in a manner of precisely controlling the rotation angle.
The health device as described in the previous paragraph further includes a connection base (1014) connected to the rotary table (1018) in a manner that allows precise control of the pivot angle.
The health care apparatus as in the preceding paragraph further includes an extension base (1010) having a first end (1012) and being connected to the connection base (1014) in a manner allowing precise control of the pivot angle.
The health care apparatus as described above, wherein the robot device comprises a rotating head (1008) for rotatably securing an electric chuck (1002) precisely, wherein the electric chuck (1002) has two clamping members (1004), and the two clamping members (1004) have a pair of holding surfaces (1006) respectively for holding the acupoint workpiece therebetween.
As can be imagined, the disclosed health care device is highly accurate, and it is expected that the device can be applied to the insertion of acupuncture needles. Since the control and adjustment of the angle can be achieved by the previous embodiment, we can easily understand that the automatic needle insertion for acupuncture is feasible with reference to fig. 9A. Probably our hopes about the strong and specific acupuncture behavior, how to mark the need to be new or different, or try to do so mechanically? The fox question is actually called by the science of traditional Chinese medicine, and the scientific spirit of the lattice for knowing is not naturally lacking in China. The "big universe of acupuncture" states that: "precious and slow needle out, and urgent and much hurt" means that the needle out is slow and does not have the action of mood or emotion because the machine can be heard by the person. Therefore, the optimal speed of the needle can be mechanically determined. Huang Di Nei Jing Xie is a theory that the thorns are "floating and sinking", with deep and shallow thorns, and do not go beyond the theory. Excessive invasion of the body will cause internal injury, and accumulation of the body will cause external obstruction, while the congestion will cause pathogenic factors to flow out. The large disease occurs after the internal movement of five zang organs, which is caused by the large cuttle fish. "it is not easy to do an arithmetic on the basis of the principle that the depth of the needle should be determined mechanically and the depth should be determined mechanically to exclude the interference of human factors? Two of them are also disclosed.
Fig. 9A shows an embodiment of an automatic needle insertion acupoint workpiece 1040, which includes a rotating head 1042 similar to the rotating head 1008 in fig. 9 and an automatic needle insertion device 1044. The automatic needle inserting device 1044 includes an electric holder 1048 (or non-electric holder) for holding an acupuncture point working device (e.g., acupuncture point work piece), and a needle inserting mechanism 1046 capable of longitudinally displacing the electric holder 1048 and pivotally mounted to the rotary head 1042. The needle inserting mechanism 1046 allows the acupuncture point working device to sequentially insert needles or control the needle inserting speed thereof by means of a stepless speed-changing motor, which is a part of technical task that can be easily realized by those skilled in the relevant art, and is not cumbersome. Of course, if it is necessary to purge pathogenic qi, the needle hole should be enlarged. In this case, the needle insertion parameters are not limited to the speed, and include the front, back, left and right polarization. In view of the above technical disclosure, the technical task in this section should be easily accomplished by those skilled in the art, and is not burdensome.
In order to keep the above-mentioned automatic acupuncture point insertion work piece 1040 in the abstract and the related requirements in mind, a health care device comprises a health care body, wherein the health care body is used for health care of a user, and the user has an acupuncture point; an acupuncture point work piece for performing acupuncture work on the user through the acupuncture point; a mechanical arm device (element assembly 1002 and 1020) disposed on the health care body and holding the acupoint work piece so that the acupoint work piece can perform the acupuncture work at a specific position relative to the health care body or the acupoint; and a needle inserting mechanism (1046) disposed between the acupoint work workpiece and the mechanical arm, so that the acupoint work workpiece performs the acupuncture work on the user with a specific control parameter.
The automatic acupuncture point work piece as described above, wherein the specific control parameter is a speed control parameter.
The automatic acupuncture point work piece as described above, wherein the specific control parameter is a polarization parameter.
The automatic acupuncture point work piece further includes a holder (1048) for holding the acupuncture point work piece.
The self-insertion acupuncture work-piece of the previous paragraph further includes an insertion mechanism (1046) configured to longitudinally displace the holder (1048).
The automatic needle insertion acupoint workpiece as described in the previous paragraph further includes a rotating head (1042) for rotatably mounting the needle insertion mechanism (1046) on the robotic arm device.
Viewed from another perspective, a health care device 1000 for holding an acupoint workpiece thereon for performing a health care function on a user, wherein the user has a body part having an acupoint, and the health care device comprises: a health care body (e.g., 502,562,582) for carrying and positioning the body part so as to maintain a first specific positional relationship with the body part; a working machine (1020) disposed on the health body; and a manipulator device (1002-1018) connected to the working machine for holding the acupoint workpiece such that the acupoint workpiece performs the health care task under the condition of a second specific positional relationship with the working machine or the acupoint under the first specific positional relationship.
Viewed from a further angle, a health care device (1000) comprising: a body (e.g., 502,562,582) for carrying and positioning a body part of a user so as to maintain a first specific positional relationship with the body part for performing a health care task on the user, wherein the body part has an acupuncture point; a working machine (1020) disposed on the health body; and a manipulator device (1002-1018) connected to the working machine for holding an acupoint workpiece such that the acupoint workpiece performs the health care task under the first specific position relationship and under the condition of having a second specific position relationship with the working machine or the acupoint.
The related hardware part of the present invention until now disclosed and invented, we can find that each paragraph is not focused on adjusting the "" air field "" of the whole body by the device disclosed so far to condition the body at the beginning of the disease sign, but rather, the "" death and near-birth, and growth and longevity "" in the yellow emperor essence-shift theory is obtained, so as to be healthy and long-lived. The flow chart of fig. 10 is used to summarize the effects of the present invention as follows: providing a health care body 1100, wherein the health care body and a body part of a user have a first relative position relationship with each other, and the body part has an acupuncture point; providing an acupoint workpiece 1110 having a second positional relationship with the health care body and a third positional relationship with the acupoint to perform a health care operation on the user through the acupoint; and providing a positioning device 1120 disposed between the acupoint workpiece and the health-care body for positioning the acupoint workpiece on the health-care body and allowing the acupoint workpiece to perform the health-care operation in the second positional relationship and the third positional relationship.
Viewed from another perspective, the present invention is a method for health care of a user, wherein the user has a body part having an acupoint, comprising: providing a health care body (1130); positioning the body part on the health care body (1140) under the condition that the health care body and the body part have a first relative position relationship with each other; providing an acupoint workpiece (1150) for performing a health care operation on the user through the acupoint; providing a position adjusting device (1160) disposed between the acupoint workpiece and the health-care body to maintain a second position relationship between the health-care body and the acupoint workpiece; and making the acupoint work piece perform the health care work according to a control parameter (1180).
The health-care method as described above, wherein the first relative position relationship is to maintain the body part in a specific posture relative to the health-care body.
As mentioned above, the health care method further comprises the step of providing the acupoint workpiece with a specific angular relationship relative to the acupoint (1170) between the step of providing the position adjustment device (1160) and the step of making the acupoint workpiece perform the health care work according to a control parameter (1180).
The health-care method as described above, wherein the second relative position relationship is to maintain the acupoint workpiece at a specific distance, direction and/or height relative to the health-care body.
The health care method as described above, wherein the control parameter is a working mode of the acupoint workpiece for health care.
The method of the preceding paragraph, wherein the operating mode is to maintain the acupoint workpiece and the acupoint stationary.
The health-care method as described above, wherein the working manner is to maintain a specific contact relationship between the acupoint workpiece and the acupoint.
The method of the preceding paragraph, wherein the specific contact relationship is a massage action performed by the acupoint workpiece to the user through the acupoints.
The health care method as described above, wherein the work mode is that the acupoint workpiece is inserted into or withdrawn from the acupoint at a specific speed.
Viewed from another perspective, a method of performing a healthcare task with an acupoint workpiece for a user, wherein the user has a body part with an acupoint, the method comprising: providing a body 1110 for supporting the body part; positioning the body part on the health care body to make the health care body and the body part have a first relative position relation 1120; and providing a position adjusting device 1160 to maintain a second position relationship between the health care body and the acupoint workpiece, or between the acupoint workpiece and the acupoint, so that the acupoint workpiece can perform the health care work according to a control parameter.
Viewed from another perspective, a method of health care, comprising: providing a health care body 1110 for health care of a user, wherein the user has a body part having an acupuncture point, and the health care body is used for supporting the body part, so that when the health care body holds an acupuncture point workpiece thereon, a health care effect can be performed on the user; positioning the body part on the health care body to make the health care body and the body part have a first relative position relation 1120; and providing a position adjusting device 1160 to maintain a second position relationship between the health care body and the acupoint workpiece, or between the acupoint workpiece and the acupoint, so that the acupoint workpiece can perform the health care work according to a control parameter.
The aforementioned methods, as related to medical practice, may be classified as disease treatment methods, and perhaps taiwan and mainland, may not be considered patentable. But only for health care, and should not be treated, as stated herein.
For the purpose of the previous paragraph, please refer to fig. 10B, which is an embodiment of a healthcare system 1200 according to the present invention, and includes a healthcare body 1210. The health entity 1210 has a small computer 1215 for network connection to a cloud database 1400 and a service center 1500. The small computer 1215 includes/incorporates a central processing unit 1220, a memory 1230, a screen 1270, a keyboard and/or mouse 1280, a microphone 1290 and a lens 1300. Since the connection and arrangement of the two members belong to the conventional technique, the connection and arrangement are not cumbersome; the screen 1270 may be touch-sensitive or non-touch-sensitive, and is not discussed. The memory 1230 stores application software required for interaction between the user and the cloud database 1400 and the service center, such as the symptom pair treatment module 1240, and the cloud database 1400 provides acupuncture points or plans for health care by selecting or inputting current discomfort symptoms from the symptom pair treatment module 1240. Or a personal health history recording module 1250 for recording a health history. Of course, it is also possible to use the satisfaction or the feedback/report module 1260 of the selected acupuncture points suggested by the cloud database 1400 for health care. The modules 1240, 1250,1260 and other health-related modules may be separate or stand-alone modules, or small modules integrated into the same program.
Through the cloud database 1400, the user can search and confirm the symptoms or treatment methods by means of the screen 1270 and/or keyboard and/or mouse 1280. Through the service center 1500, the user can consult, ask and/or confirm the acupuncture action of the acupuncture point workpiece by means of the microphone 1290 and/or the lens 1300. Of course, the health care system 1200 must first be qualified by the health care unit as a doctor or medical practice and then be started to perform a needle insertion procedure. As described above, the cloud database 1400, together with the service center 1500 on which the TCM officer resides, can exert remarkable health or medical effects through the collection, research and confirmation, deep learning and continuous user feedback of the acupuncture data available so far. Of course, there is no way to learn, but this disclosure is only a good start, and there is still much effort to come up with the magpie or magpie. The control module 1600 is stored and commands the disclosed health care device or health care body to execute each related health care task under the support of the central processor 1220.
The health care system (1200) is similar to the above-mentioned system, that is, a health care system (1200) includes a health care body (1210) for caring a user, wherein the user has a body part having an acupuncture point; a positioning medium (524,680,714,804) disposed on the health care body (1210) for positioning a positional relationship between the body part and the health care body; an acupoint workpiece arranged on the health care body and used for carrying out health care work on the user through the acupoint; and a computer device (1215) arranged on the health care body and used for controlling and/or monitoring the acupoint workpiece to carry out the health care work.
The healthcare system further includes a cloud database (1400) networked to the computer device (1215) for allowing the user to access healthcare and medical knowledge and protocols relating to acupuncture.
As in the previous paragraph, the computer device (1215) further includes a symptom treating module 1240 for the user to select or input the current symptom of discomfort, and the cloud database (1400) provides the treating scheme or the acupuncture points for health care.
As in the previous paragraph, the computer system 1215 further includes a feedback/report module 1260 for providing feedback/report to the cloud database 1400 of the user satisfaction or problems encountered during use after the user proposes the selected acupuncture points for health care based on the cloud database 1400.
As in the previous paragraph, the computer device (1215) further includes a screen (1270) and a keyboard and/or mouse (1280) to facilitate the user to search and confirm the symptoms or treatment methods thereof via the cloud database (1400).
The health care system further comprises a service center (1500) connected to the computer device (1215) through network for the user to consult with acupuncture-related aspects and to confirm the self-performed medical grade activities of the user.
As in the previous paragraph, the health system wherein the computer device (1215) further includes a microphone (1290) and lens (1300) to facilitate user consultation, inquiry and/or confirmation of acupuncture on the acupunctural workpiece through the service center (1500).
The healthcare system as described above, wherein the computer device (1215) includes a screen (1270), and the screen may be touch-sensitive or non-touch-sensitive.
The healthcare system as described above, wherein the computer device (1215) further includes a personal healthcare history recording module (1250) for recording a healthcare history.
The health care system as described above, wherein the computer device (1215) further includes a control module (1600) for directing the health care body or the acupoint workpiece to perform each related health care task.
The health care system further includes a position adjusting device disposed between the health care body (1140) and the acupoint workpiece, so that the acupoint workpiece has a relative position relation with respect to the health care body (1140).
Viewed from another perspective, a healthcare system 1200 for performing a healthcare task on a user using an acupoint workpiece, wherein the user has a body part with an acupoint, comprises: a body (1210) for supporting the body part; a positioning medium (524,680,714,804) disposed on the health care body for positioning the body part on the health care body so that the health care body and the body part have a first relative position relationship; and a computer device (1215) arranged on the health care body for controlling and/or monitoring the acupoint workpiece to carry out the health care work under the condition that the health care body and the acupoint workpiece or the acupoint workpiece and the acupoint workpiece are in a second position relation.
Viewed from a further angle, a health care system (1200), comprising: a health care body (1210) for health care of a user, wherein the user has a body part having an acupuncture point, and the health care body is used for supporting the body part, so that when the health care body holds an acupuncture point workpiece thereon, a health care effect can be performed on the user; a positioning medium (524,680,714,804) disposed on the health care body for positioning the body part on the health care body so that the health care body and the body part have a first relative position relationship; and a computer device (1215) arranged on the health care body for controlling and/or monitoring the acupoint workpiece to carry out the health care work under the condition that the health care body and the acupoint workpiece or the acupoint workpiece and the acupoint workpiece are in a second position relation.
Although the embodiments described above are not illustrated in detail, there are many possible ways in which embodiments may be referenced or substituted for one another, and it is likely that one embodiment will be a reference or a substitute for another embodiment. Since the present disclosure is not limited, it will not be described in detail herein to save the burden of each party.
In summary, the present embodiments may be modified as desired by those skilled in the art without departing from the scope of the appended claims.
Although the embodiments disclosed in the present application are described above, the descriptions are only for the convenience of understanding the present application, and are not intended to limit the present application. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims.
Claims (10)
1. A healthcare device comprising:
a body-building body having two abutting portions for respectively positioning two different portions of a body portion of a user relatively so as to maintain a first specific positional relationship with the body portion, wherein the body portion has an acupuncture point;
an acupoint work piece for performing a health care work on the user through the acupoint; and
a workpiece holder having:
a first end fixedly connected to the health care body; and
a second end for holding the acupoint workpiece thereon, so that the acupoint workpiece performs the health care work under the condition of a second specific position relation with the acupoint under the first specific position relation.
2. The health device as recited in claim 1, wherein the acupoint is located between the two different sites, the acupoint workpiece has an acupoint workpiece, and the second specific positional relationship is a positional relationship between the acupoint and the acupoint workpiece.
3. The health device as claimed in claim 1, wherein the health body is used to relatively position two digits of the user.
4. The health device of claim 1, wherein the health body has two finger or toe receiving portions.
5. The health device as claimed in claim 4, wherein each of the toe or toe receiving portions includes a recess defined by two side shoulders, two springs respectively disposed in the two shoulders, and two pressing plates respectively connected to the springs.
6. The health device of claim 4, wherein each of the toe or toe receiving areas comprises a stop, a shoulder, a recess defined by the stop and the shoulder, a spring disposed within the shoulder, and a reverse L-shaped retaining plate pivotally connected to the spring.
7. The health device of claim 1, wherein the health body has a concave portion for accommodating a short thumb muscle of a user to give the user a feeling of being able to hold the health body.
8. The health device as claimed in claim 1, wherein the health body further comprises an index finger distal section accommodating groove, a middle finger accommodating groove, a ring finger accommodating groove and a little finger accommodating groove.
9. A health care device for holding an acupoint workpiece thereon for a user to perform a health care function, wherein the user has a body part having two different parts with an acupoint therebetween, and the health care device comprises:
a body-building body having two abutting portions for respectively positioning two different portions of a body portion of a user relatively so as to maintain a first specific positional relationship with the body portion; and
a workpiece holder having:
a first end arranged on the health care body; and
a second end for holding the acupoint workpiece, so that the acupoint workpiece performs the health care work under the condition of a second specific positional relationship with the acupoint under the first specific positional relationship.
10. A healthcare device comprising:
a body-building body having two abutting portions for respectively positioning two different portions of a body portion of a user relatively so as to maintain a first specific positional relationship with the body portion, wherein an acupuncture point is provided between the two different portions; and
a workpiece holder having:
a first end arranged on the health care body; and
a second end for holding an acupoint workpiece thereon, so that the acupoint workpiece performs a health care operation under the condition of a second specific position relation with the acupoint under the first specific position relation.
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