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WO2020024329A1 - 导光结构、发光装置、治疗仪、美容面膜及综合治疗系统 - Google Patents

导光结构、发光装置、治疗仪、美容面膜及综合治疗系统 Download PDF

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Publication number
WO2020024329A1
WO2020024329A1 PCT/CN2018/099813 CN2018099813W WO2020024329A1 WO 2020024329 A1 WO2020024329 A1 WO 2020024329A1 CN 2018099813 W CN2018099813 W CN 2018099813W WO 2020024329 A1 WO2020024329 A1 WO 2020024329A1
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WO
WIPO (PCT)
Prior art keywords
light guide
light
guide structure
structure according
emitting device
Prior art date
Application number
PCT/CN2018/099813
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English (en)
French (fr)
Inventor
夏云程
Original Assignee
夏云程
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Publication date
Application filed by 夏云程 filed Critical 夏云程
Publication of WO2020024329A1 publication Critical patent/WO2020024329A1/zh

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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61NELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
    • A61N5/00Radiation therapy
    • A61N5/06Radiation therapy using light
    • A61N5/0613Apparatus adapted for a specific treatment
    • A61N5/0616Skin treatment other than tanning
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61NELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
    • A61N5/00Radiation therapy
    • A61N5/06Radiation therapy using light
    • A61N5/0613Apparatus adapted for a specific treatment
    • A61N5/0619Acupuncture
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B6/00Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61NELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
    • A61N5/00Radiation therapy
    • A61N5/06Radiation therapy using light
    • A61N2005/0626Monitoring, verifying, controlling systems and methods
    • A61N2005/0627Dose monitoring systems and methods
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61NELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
    • A61N5/00Radiation therapy
    • A61N5/06Radiation therapy using light
    • A61N2005/063Radiation therapy using light comprising light transmitting means, e.g. optical fibres
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61NELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
    • A61N5/00Radiation therapy
    • A61N5/06Radiation therapy using light
    • A61N2005/0635Radiation therapy using light characterised by the body area to be irradiated
    • A61N2005/0643Applicators, probes irradiating specific body areas in close proximity
    • A61N2005/0645Applicators worn by the patient
    • A61N2005/0647Applicators worn by the patient the applicator adapted to be worn on the head

Definitions

  • the present invention relates to the field of optical technology, and in particular, to a light guide structure, a light emitting device, a treatment instrument, a cosmetic mask, and a comprehensive treatment system.
  • the light propagation path is generally completed by light guide materials, and common ones include light guide tubes, light guide posts, lenses, and the like.
  • the light-guiding structure made of light-guiding materials is directly related to the accurate propagation of light.
  • the form of the light guide structure is still relatively limited, and the application area is also limited to a certain extent.
  • the performance in some special application scenarios is not satisfactory.
  • a first object of the present invention is to provide a light guide structure that can effectively diverge and guide light, promote full dispersion of light throughout the light guide structure, and help guide light for directional distribution and accurate emission.
  • a second object of the present invention is to provide a light-emitting device whose light can be sufficiently dispersed along the entire light guide structure, the light can be distributed along the light guide structure, and the accuracy of light emission is very high.
  • a third object of the present invention is to provide a therapeutic instrument, which can be used for treating brain disorders (especially neurological disorders), and can also be used for auxiliary conditioning; its light distribution is accurate and reliable, and the emitted light Even and accurate, the treatment effect is more significant.
  • a fourth object of the present invention is to provide another therapeutic device, which can be used for treating body part disorders (especially neurological disorders), and can also be used for auxiliary conditioning; its light distribution is accurate and reliable, and the emitted The light is even and accurate, and the treatment effect is more significant.
  • a fifth object of the present invention is to provide a cosmetic mask, which improves the dispersion and uniformity of the light irradiated on the human face, the light will not leak out, and the light will not cause damage to the human eye; at the same time, it can effectively treat the human face
  • the activation of internal nerves, acupuncture points and cells is very effective for beauty.
  • a sixth object of the present invention is to provide a comprehensive treatment system, which is suitable for the treatment or auxiliary conditioning of human body diseases (especially neurological diseases), has a high degree of integration, and can monitor and diagnose the human body more comprehensively. , Make the treatment and conditioning process have higher accuracy and specificity, can adapt to individualized targeted treatment and conditioning work, lower labor costs, and is suitable for the integration and streamlining of medical methods.
  • a light guide structure includes a first light guide and a plurality of second light guides.
  • the first light guide includes a first light guide segment and a second light guide segment that are connected.
  • a plurality of second light guides are disposed at both ends of the first light guide in the width direction. One end of the second light guide is connected to the first light guide segment, and the other end is connected to the second light guide segment.
  • the second light guide The middle part is spaced from the first light guide.
  • the first light guide and the second light guide are laid along a plane or a spherical surface, and both the first light guide and the second light guide are made of a light guide material.
  • a light emitting device includes a light source and the above-mentioned light guiding structure.
  • the emitting port of the light source is connected to the incident port of the light guiding structure.
  • a therapeutic apparatus includes a cap body and the above-mentioned light-emitting device.
  • the light guide structure of the light emitting device is laid on the inside of the cap body, the light guide structure is laid on a spherical surface along the inside of the cap body, and the light emitting area of the light guide structure faces the inside thereof.
  • the wavelength of the light emitted by the light source of the light-emitting device includes 620-1200 nm.
  • a therapeutic apparatus includes a board body and the above-mentioned light-emitting device.
  • the plate body is flat, and the light guide structure of the light emitting device is laid on one side of the plate body and is laid flat along the plate surface of the plate body.
  • the light emitting area of the light guide structure faces its side away from the plate body.
  • the wavelength of the light emitted by the light source of the light-emitting device includes 620-1200 nm.
  • a cosmetic mask includes a mask and the above-mentioned light-emitting device.
  • the light guide structure of the light emitting device is laid on the inner side of the mask and is laid in an arc along the inner wall of the mask.
  • the light emitting area of the light guide structure faces the side away from the mask.
  • the light guide structure is provided with yielding holes corresponding to the openings at the eyes, mouth and nose of the mask.
  • the wavelength of the light emitted by the light source of the light-emitting device includes 620-1200 nm.
  • a comprehensive treatment system includes: any one of the above treatment devices, a vibration massage device provided on the treatment device, an audio player with a frequency of 20-50 Hz for playing music, a vibration massage device for controlling vibration, an audio player, and Light source switch of the therapeutic device and control mechanism for working time, detection device for detecting human health parameters, analysis mechanism for analyzing and displaying human data collected by the detection device, and terminal for issuing control commands to the control mechanism A control mechanism; and a transmission mechanism for transmitting the body data collected by the detection device to the analysis mechanism and for transmitting a control command issued by the final control mechanism to the control mechanism.
  • the light guide structure provided by the embodiment of the present invention can effectively diverge and guide light, promote full dispersion of light in the entire light guide structure, and help guide the light for directional distribution and accurate emission.
  • the duct structure can not only be used for illumination (because light can be dispersed along the light guide structure, the intensity per unit area is weakened, especially suitable for soft light illumination), but also can be used as a light emitting element (especially light therapy) in various optical equipment Light-emitting device in the device). It gives accurate light and soft light intensity. On the one hand, it can perform precise treatment, and on the other hand, it can avoid causing damage to the human body.
  • the light-emitting device provided by the embodiment of the present invention uses a light-guiding structure to conduct light generated by the light source, so that the emitted light can be fully dispersed along the entire light-guiding structure, and the light is oriented along the light-guiding structure. high. This enables the light-emitting device to be used as a light-emitting component in a brain optical treatment apparatus.
  • a therapeutic apparatus provided by an embodiment of the present invention uses a cap body as a support, and a light guide structure is laid on the inner side of the cap body.
  • the light guide structure can disperse the light emitted from the light source throughout the entire cap body and finally face the cap Emitted from the body.
  • the treatment instrument is worn on the brain, the light emitted by the light source can fully, uniformly and radiate the entire head.
  • another therapeutic apparatus provided by the embodiment of the present invention can be used for treating neurological disorders of body parts (for example, back, chest, etc.), and can also be used for auxiliary conditioning. Its performance is similar to that of the above-mentioned therapeutic apparatus.
  • the beauty mask provided by the embodiment of the present invention uses a light guide structure to disperse the light emitted from the light source, which can effectively disperse the light across the entire mask and greatly improve the dispersion and uniformity of the light irradiated on the human face. Because the light guide structure can accurately give light, the light will not leak out, which prevents the light from causing harm to human eyes. Light with a wavelength of 620 to 1200 nm can effectively activate facial nerves, acupoints and cells of the human face, and has a good effect on beauty.
  • the comprehensive treatment system realizes the intelligent integration of treatment, has a high degree of integration, and can monitor and diagnose the human body more comprehensively, so that the treatment and conditioning processes have higher accuracy and pertinence.
  • FIG. 1 is a schematic diagram of a light guide structure according to an embodiment of the present invention
  • FIG. 2 is an enlarged view of an area A of the light guiding structure in FIG. 1;
  • FIG. 3 is a schematic diagram of a second optical path hub
  • FIG. 5 is a schematic diagram of still another light guiding structure
  • FIG. 6 is a schematic diagram of a light path transmission direction of the light guiding structure in FIG. 1;
  • FIG. 7 is a schematic diagram of a light gap between sub-holes
  • FIG. 8 is a schematic diagram of a light guide channel around a through hole of a first light guide
  • FIG. 9 is a schematic diagram of three combinations of a light guide structure and a light blocking layer
  • FIG. 10 is a schematic diagram of a therapeutic apparatus provided by an embodiment of the present invention.
  • FIG. 11 is a schematic diagram of the internal structure of the therapeutic apparatus in FIG. 10; FIG.
  • FIG. 12 is a schematic view of the therapeutic apparatus in FIG. 10 from another perspective; FIG.
  • FIG. 13 is a schematic diagram of a light guide structure of a cosmetic mask according to an embodiment of the present invention.
  • Icon 1000, 4000- light guide structure; 100- first light guide; 110- first light guide; 120- second light guide; 200- second light guide; 300- entrance port; 410-pass Hole; 421-sub-hole; 500-optical path; 610-first optical path hub; 620-second optical path hub; 700-third light guide; S1, S2, S3, S4, S5, S6-first preset direction Z1, Z2-the second preset direction; 720-matching section; 810-the first light guide channel; 820-the second light guide channel; 2100-light blocking layer; 2200-light source; 3000-treatment instrument; 3100-cap Body; 3110-fitting section; 3200-vibration massage device; 4100, 4200-receiving hole; 4300-widening section.
  • the light guide structure 1000 includes a first light guide 100 and a plurality of second light guides 200.
  • Both the first light guide 100 and the second light guide 200 are made of a light guide material, such as: silicone, silicone, polystyrene, polycarbonate, polymethyl methacrylate, poly-4-methyl- At least one of 1-pentene or polyurethane is not limited thereto, and the light guide material can be flexibly selected according to actual conditions.
  • both the first light guide 100 and the second light guide 200 are made of silicone resin.
  • the first light guide 100 includes a first light guide section 110 and a second light guide section 120 connected to each other.
  • a plurality of second light guides 200 are disposed at both ends of the first light guide 100 in the width direction K.
  • One end of the second light guide 200 is connected to the first light guide section 110 and the other end is connected to the second light guide section 120.
  • the middle portion of the second light guide 200 is spaced from the first light guide 100 to form a gap.
  • the light After the light is incident on the light guide structure 1000, the light is transmitted along the light guide structure 1000, and the light is dispersed along the first light guide 100 and the second light guide 200. Under the guidance of the second light guide 200, the light diverges along the width direction K of the first light guide 100, which effectively expands the area that the light can reach and greatly improves the effective range of the light.
  • the direction and path of the light are restricted by the light guide structure 1000.
  • the light Under the guidance of the light guide structure 1000, the light can be transmitted. Conducted to the target area.
  • This aspect can effectively improve the directivity of light transmission in the light guide structure 1000 to ensure that the light is accurately transmitted and distributed in a predetermined area. It avoids unnecessary loss of light in the process of free propagation, reduces the loss of light energy on the basis of expanding the effective range of light, and ensures that the light can be fully directionally emitted as large as possible.
  • accurate light transmission can be achieved on the basis of accurate light transmission, improving the accuracy of light transmission and emission, and ensuring the accuracy of light given.
  • the light guide structure 1000 can effectively diverge and guide light, promote the full dispersion of light throughout the light guide structure 1000, and help guide the light for directional distribution and accurate emission.
  • the duct structure can not only be used for lighting (because light can be dispersed along the light guide structure 1000, the intensity per unit area is weakened, especially suitable for soft light illumination), but also can be used as a light emitting element (especially light) in various optical devices Light emitting component in a therapeutic device). It gives accurate light and soft light intensity. On the one hand, it can perform precise treatment, and on the other hand, it can avoid causing damage to the human body.
  • the plurality of second light guides 200 located at the same end of the first light guide 100 in the width direction K are spaced from each other, and the plurality of second light guides 200 are sequentially surrounded to form a multi-layered semi-annular structure.
  • the second light guide 200 is arranged in layers in both directions along the width direction K of the first light guide 100, which not only can further improve the light dispersion effect in the width direction K of the first light guide 100, Moreover, the layered arrangement of the second light guides 200 can also effectively avoid excessively large blank areas between the second light guides 200 and help improve light in the width direction K of the first light guides 100 Effective distribution range, and ensure that the light can be spread more uniformly within this distribution range, and improve the uniformity of the light emission of the entire light emitting area.
  • a plurality of second light guides 200 located at both ends of the first light guide 100 in the width direction K are sequentially surrounded to form a multilayer closed-loop structure.
  • the second light guide 200 is sequentially surrounded to form a multi-layered semi-annular structure, and the second light guide 200 located at both ends of the first light guide 100 in the width direction K is also enclosed.
  • the closed-loop structure is equivalent to providing a multi-layered loop circuit for light transmission, which makes it easier for light to be transmitted between the first light guide 100 and the second light guide 200, which is beneficial to light in the first
  • the light guide 100 and the second light guide 200 are uniformly distributed to improve the uniformity of light emission, and at the same time, the light loss can be reduced to a certain extent.
  • the distance between two adjacent second light guiding members 200 is controlled to be less than or equal to 8 cm, and the two adjacent second light guiding members are simultaneously adjusted.
  • the distance between the connection points of 200 and the first light guide 100 is controlled within a range of 0.1 to 20 cm. In this embodiment, the distance between two adjacent second light guides 200 is 1.5 cm, and the distance between the connection points between two adjacent second light guides 200 and the first light guide 100 is 2cm. It should be noted that when setting the distance between the connection points between two adjacent second light guides 200 and the first light guide 100, the connection points here refer to two adjacent second light guides A connection point between the same end of the two 200 and the first light guide 100.
  • the entrance port 300 of the light guide structure 1000 is disposed at an end of the first light guide 100, and the entrance port 300 is close to an end of the first light guide 100.
  • the diameter gradually increases. Specifically, an outer diameter of an end of the incident port 300 near the first light guide 100 is gradually increased in a width direction K of the first light guide 100.
  • the light when the light enters the first light guide 100 from the entrance port 300, when the light is about to enter the first light guide 100, the light will diverge along the entrance port 300 under the guidance of the entrance port 300, that is, Diverge along the width direction K of the first light guide 100, so that the light can fill the first light guide 100 in the width direction K of the first light guide 100 after entering the first light guide 100
  • the light can be smoothly entered into the second light guide 200, the smoothness of light transmission is improved, and the light loss is reduced to a certain extent.
  • the incident port 300 may also be provided at other positions, such as: the side of the first light guide 100, the second light guide 200, and the like, but it is not limited thereto.
  • FIG. 1 and FIG. 2 there are a plurality of incident ports 300, and the plurality of incident ports 300 are divided at two ends of the first light guide 100 and are located at the first light guide 100. A plurality of incident ports 300 at the same end are arranged in parallel and spaced apart. Specifically, there are a total of six incident ports 300, and the six incident ports 300 are divided into two ends of the first light guide 100, each of which is three. The three incident ports 300 at each end are arranged in parallel and spaced apart.
  • the first light guide 100 has a plurality of through-holes 410 passing through the first light-guiding member 100 in a thickness direction, and the through-holes 410 are arranged at intervals to form a hole group.
  • the hole groups are arranged along the length direction of the first light guide 100, and the plurality of hole groups are arranged in parallel and spaced along the width direction K of the first light guide 100, thereby dividing the first light guide 100 into a plurality of optical paths 500.
  • there are two groups of holes and the two groups of holes divide the first light guide 100 into three light paths 500.
  • Each incident port 300 is correspondingly provided with one optical path 500, and two ends of each optical path 500 are correspondingly provided with an incident port 300.
  • setting the entrance ports 300 on both ends of the first light guide 100 can effectively avoid the problem of light attenuation at one end of the first light guide 100, and ensure that the light guide 100 With sufficient light intensity.
  • it can promote the light from the first light guide section 110 and the second light guide section 120 to enter the second light guide 200, which greatly improves the light distribution effect, the overall light intensity and the uniformity of the light, and avoids dark The appearance of the district.
  • the formation of the optical path 500 can respectively guide the light emitted from the incident port 300, and at the same time, each of the through holes 410 in the hole group located between two adjacent optical paths 500 can effectively perform the light in the optical path 500.
  • Divergence the setting of the through-hole 410 causes a large amount of "air-light-guide material" interface to be added to the first light guide 100), so that the light in each optical path 500 can be diverged in time, and the light in different optical paths 500
  • the light divergence and staggering performance is improved, and the uniformity of light in the entire light guide structure 1000 is also improved, so that the light can not only be accurately dispersed along the light guide structure 1000, but also maintain a high degree of uniformity after the dispersion, greatly
  • the overall luminous effect of the light guide structure 1000 is improved, and its use value in light transmission and light emission is improved, especially in the field of optical medical equipment.
  • a first optical path hub 610 can be formed between two adjacent hole groups, and the “air-light guiding material” provided by the through hole 410 is matched.
  • the interface can effectively promote the large-scale diffusion of light between the multiple optical paths 500 through the first optical path hub 610.
  • a second optical path hub 620 can be formed between two adjacent through holes 410 in the same hole group, and the “air-light guide” provided by the through holes 410 is matched.
  • the “material” interface can effectively promote the diffusion and “communication” of light between two adjacent optical paths 500 through the first optical path hub 610.
  • the dispersion and sharing effect of the first light guide 100 on the optical density can be effectively improved, the uniform dispersion of light is promoted, and the ease with which light enters the second light guide 200 is greatly improved, and the light guide structure 1000 can ensure the light For effective conduction and directional emission.
  • the number of incident ports 300 may be different, and the number of incident ports 300 may be selected according to actual needs. As shown in FIG. 4, there are a total of four incident ports 300, and the four incident ports 300 are respectively disposed at two ends of the first light guide 100, and two are at each end. At this time, the number of light paths 500 and the number of the hole groups corresponding to the hole group have both changed. There are two light paths 500 and the hole group is a group. Similarly, in other embodiments of the present invention, the number of incident ports 300 may be eight, and the eight incident ports 300 are divided into two ends of the first light guide 100, each of which is four, as shown in FIG. 5 . The number of the incident ports 300 may be selected according to actual needs, and is not limited thereto.
  • the incident port 300 may be provided only at one end of the first light guide 100, and at this time, light enters the same section of the first light guide 100 through the entrance port 300. .
  • This setting method is more suitable when the length of the first light guide 100 is small.
  • the area of the cross-section of the through hole 410 is controlled in a range of less than or equal to 8 cm 2 .
  • the light guide structure 1000 further includes a third light guide 700.
  • One end of the third light guide 700 is connected to the first light guide 100, and the other end extends toward the second light guide 200 and the same The second light guide 200 is connected.
  • the third light guide 700 is also made of a light guide material.
  • the third light guide 700 is also made of a silicone resin.
  • the third light guide 700 is set in another conductive path between the first light guide 100 and the second light guide 200, which can effectively compensate the light intensity in the second light guide 200, as much as possible Reduce or eliminate the appearance of dark areas in the second light guide 200, and further improve the overall light guide uniformity of the light guide structure 1000, so that the light guide structure 1000 can meet the requirements of high precision and high uniformity transmission, and make light guide
  • the structure 1000 has the conditions for being applied to high-precision optical medical equipment.
  • a tangential direction of one end of the third light guide 700 near the first light guide 100 toward the other end thereof is a first preset direction
  • a light transmission direction in the first light guide 100 is a second preset direction. direction.
  • An included angle between the first preset direction and the second preset direction is less than 90 °.
  • the first preset directions include: S1, S2, S3, S4, S5, and S6, and the second preset directions include: Z1 and Z2, respectively.
  • the angle between S1 and S6 and Z2 is less than 90 °, and the angle between the two and Z2 is set to 40 °.
  • the angle between S2, S3, S4, and S5 and Z1 is less than 90 °, and the angle between S2 and S5 and Z1 is set to 50 °, and between S3 and S4 and Z1
  • the included angles are all set to 20 °.
  • the light in the first light guide 100 can be effectively introduced into the third light guide 700, so that the second light guide
  • the light in the light member 200 is compensated, which not only improves the light dispersion efficiency, but also avoids the dark area in the second light guide 200, improves the light guide uniformity of the entire light guide structure 1000, and enables the light guide structure 1000 to guide light. Higher light accuracy.
  • an included angle between the first preset direction and the second preset direction may be set to be greater than or equal to 90 °.
  • a reflective coating may be provided on the outer periphery of the connection portion between the third light guide 700 and the first light guide 100. Layer to improve the light reflection effect between the third light guide 700 and the first light guide 100 to promote the light to enter the third light guide 700 smoothly after multiple reflections.
  • the angles between the four of S2, S3, S4, and S5 and Z2 are all greater than 90 °, and the angles between S1 and S6 and Z1 are also greater than 90 °.
  • the outer peripheral edge of the connection portion is provided with a reflective coating, and the reflective coating is along the circumferential direction of the third light guide 700 and the first light guide 100. Apply one turn.
  • the smoothness of the light from the first light guide 100 to the third light guide 700 is further improved, so that the light emitted along Z1 and Z2 can be directed along S1, S2, S3, S4, S5, and S6.
  • the third light guide 700 conducts light, which significantly improves the light dispersion and light transmission efficiency of the entire light guide structure 1000.
  • connection portion between the first light guide 100 and the second light guide 200, and a position between the first light guide 100 and the third light guide 700 are smoothed.
  • the light is fully divergent and greatly increases the probability of the light entering the third light guide 700, thereby shortening the unnecessary transmission path of the light before entering the third light guide 700, reducing light loss, and increasing the entrance to the third light guide
  • the intensity of the light in the 700 and the second light guide 200 increases the utilization rate of light energy.
  • the second light guide 200 may be at least one of a linear type, an elliptical arc type, or a circular arc type
  • the third light guide 700 may also be at least one of a linear type, an elliptical arc type, or a circular arc type.
  • three of the first light guide 100, the second light guide 200, and the third light guide 700 are laid along a spherical surface.
  • the second light guide 200 is an elliptical arc
  • the second light guides 200 located at both ends along the width direction K of the first light guide 100 are combined to form an elliptical closed loop arranged in a layered manner.
  • the third light guide 700 also has an elliptical arc shape, and the plane of the elliptical arc corresponding to the third light guide 700 is perpendicular to the plane of the elliptical arc corresponding to the second light guide 200.
  • the light guide structure 1000 in this shape can be applied to a brain optical medical device, for example, a light emitting part of a brain optical medical device.
  • the entire light guide structure is a flat type, which is suitable for being used as a light-emitting component of a planar (such as a plate-shaped) optical therapy device, or the entire light guide structure is used as a lighting appliance.
  • the light guide structure has a dispersion effect on light, Can achieve the effect of weakening light intensity, suitable for soft lighting.
  • the light guide structure can promote the uniform distribution of light. When used as a lighting appliance, it can ensure the uniformity and softness of the light at the same time, and reduce the damage to the eyes.
  • the Shore A hardness of the silicone resin made into the first light guide 100, the second light guide 200, and the third light guide 700 is 10-80. Specifically, the Shore A hardness of the silicone resin made into the first light guide 100, the second light guide 200, and the third light guide 700 is controlled to 50.
  • the light guide structure 1000 it is not only convenient for the light guiding structure 1000 to be laid along the hat-shaped shell, and it is convenient for the production of brain optical medical equipment, but also it is possible to prevent the light guiding structure 1000 from damaging the scalp and improve safety.
  • the light guide structure 1000 is also easier to fully fit the head, improve the accuracy of light transmission, ensure that the light fully acts on the head, and improve the treatment effect.
  • the area between two adjacent through holes 410 is a matching section 720, the second light guide 200 and the third light guide 700. Both are connected to the matching section 720 to realize the connection with the first light guide 100.
  • the second light guide 200 and the third light guide 700 are fully exposed in the optical path 500 of the first light guide 100, so that the second light guide 200 and the third light guide 700
  • the light-conducting path of the connection portion between the user and the first light guide 100 is very wide, so that the light can enter the second light guide 200 and the third light guide 700 smoothly.
  • the cross-section of the through hole 410 may be a circle, an ellipse, or a polygon.
  • the polygon means that the number of sides is greater than or equal to three. More preferably, the number of sides of the polygon is greater than or equal to four.
  • the hole group includes not only the through hole 410 having an oval cross section, but also the through hole 410 having a circular cross section.
  • the through hole 410 having a circular cross section is disposed at two ends of the first light guide 100 near the entrance port 300, and the through hole 410 having an oval cross section is provided at a middle portion of the first light guide 100. And located between the through holes 410 having a circular cross section.
  • the long axis corresponding to the cross-section is set along the length direction of the first light guide 100.
  • the distance between two adjacent through holes 410 determines the length of the corresponding matching section 720.
  • the length of the connection portion between the second light guide 200 and the third light guide 700 and the first light guide 100 in the length direction of the first light guide 100 is the first preset length, in the same hole group
  • the distance between two adjacent through holes 410 is a second preset length.
  • the second preset length is slightly larger than the first preset length.
  • any one of the through holes 410 in the same hole group may also be a combination hole composed of two or more sub holes 421 in parallel.
  • This structure is very suitable for the case where the distance between two adjacent matching sections 720 is small and the distance between two adjacent optical paths 500 in the first light guide 100 is large.
  • the long axis of the ellipse corresponding to the cross section of the through hole 410 is set along the length direction of the first light guide 100.
  • the second preset It is also necessary to set the length larger, and the length of the long axis corresponding to the corresponding through hole 410 will be reduced.
  • the through hole 410 and the cross section are substantially a perfect circle at this time.
  • the long axis of the ellipse corresponding to the through hole 410 actually becomes the short axis at this time.
  • a combination hole may be used instead of the above-mentioned through hole 410 to improve the smoothness between two adjacent optical paths 500 and promote the dispersion and distribution of light.
  • the cross section of the hole group of the combination hole may be a perfect circle, or may be an ellipse or a polygon. If the cross section of the hole group is oval, the long axis corresponding to the cross section of the hole group is set along the length direction of the first light guide 100, and the long axis corresponding to the cross section of the sub hole 421 of the same combination hole is parallel Settings. If the cross section of the hole group is polygonal, the apex angles of the sub-holes 421 of the same combination hole are opposite to each other.
  • the cross-sectional area of the through hole 410 is less than or equal to 8 cm 2 , and the sum of the cross-sectional areas of all the sub-holes 421 of the same combination hole is less than or equal to 8 cm 2 . Since the length of the long axis corresponding to the through hole 410 is adapted to the length of the matching section 720, the actual cross-sectional area of each through hole 410 is directly related to the two matching sections 720 adjacent to it. The cross sections may not be exactly the same, as long as it is controlled within 8 cm 2 or 8 cm 2 .
  • the hole walls of the through hole 410 are smoothed to eliminate the edges and corners of the hole wall of the through hole 410, to increase the reflection surface of the widened light, and to promote the light between different pipelines.
  • the first light guide 100 and the second light guide 200 are effectively dispersed and conducted between the first light guide 100 and the third light guide 700. At the same time, this solution can also effectively avoid around the through hole 410 Dark areas appear, improving the uniformity of light distribution.
  • the incident direction of the incident port 300 is set along a tangent direction of the end of the first light guide 100, and the incident end surface of the incident port 300 is perpendicular. It is set on the axis line of the incident port 300.
  • the thicknesses of both ends of the first light guide 100, the second light guide 200, and the third light guide 700 in the width direction K gradually decrease and form edges.
  • the light guide structure 1000 of this embodiment when applied to a light emitting part of a brain optical treatment device, it is possible to ensure that light is accurately transmitted from the first light guide 100, the second light guide 200, and the third light guide.
  • the three sides of the 700 are emitted from the side to promote the emitted light to effectively irradiate the corresponding parts of the brain, improving the accuracy, softness and uniformity of the light.
  • connection portion between the hole wall of the through hole 410 and the side of the first light guide 100 is also smoothed.
  • a smooth first light guide channel 810 and a second light guide channel 820, and a first light guide channel 810 and a second light guide can be formed, respectively.
  • the stroke of the light channel 820 can effectively prevent dark areas around the through hole 410, and improve the uniformity of the light guide of the light guide structure 1000 as a whole.
  • the ratio of the length of the first light guide 100, the second light guide 200, and the third light guide 700 in the width direction K to their respective thicknesses is 2 to 5: 1.
  • the ratio of the length of the first light guide 100 in the width direction K to its thickness is 5: 1
  • the lengths of the second light guide 200 and the third light guide 700 in the width direction K and The respective thickness ratios are 2.5: 1.
  • the length of the first light guide 100 in the width direction K is 3 cm and its thickness is 0.6 cm; the length of the second light guide 200 and the third light guide 700 in the width direction K are both 0.8 cm,
  • the thickness is 0.32cm.
  • the three of the first light guide 100, the second light guide 200, and the third light guide 700 are along the width direction K.
  • the length is controlled in the range of 0.3 to 3 cm, and the thickness of the two is controlled in the range of 0.1 to 1 cm.
  • the light guide structure 1000 can fully disperse light along the entire light guide structure 1000, and at the same time, ensure that the dispersed light has a very high uniformity, so that the light is dispersed and uniform. Degree can take into account at the same time.
  • the light emitting device includes a light source and the light guiding structure 1000 described above.
  • the emission port of the light source is connected to the incidence port 300 of the light guide structure 1000.
  • the light emitting device uses the light guide structure 1000 to conduct the light generated by the light source, so that the emitted light can be fully dispersed along the entire light guide structure 1000, and the light is oriented and distributed along the light guide structure 1000, and the accuracy of light emission is very high. This enables the light-emitting device to be used as a light-emitting component in a brain optical treatment apparatus.
  • the light emitting device is Suitable for use as a light-emitting part of a flat-type (eg, plate-shaped) optical therapy device, or as a lighting fixture.
  • the light guide structure has a dispersion effect on light, it can achieve the effect of weakening light intensity, and is suitable for soft lighting.
  • the light guide structure can promote the uniform distribution of light. When used as a lighting appliance, it can ensure the uniformity and softness of the light at the same time, and reduce the damage to the eyes.
  • the transmitting port and the incident port 300 are connected by an optical fiber, and the optical fiber is used to guide the light generated by the light source from the light source and smoothly introduce the light into the incident port 300 to ensure that the light enters the light guide smoothly.
  • Structure 1000 With this design, the connection difficulty between the light source and the light guide structure 1000 can be effectively reduced, and the installation flexibility of both the light source and the light guide structure 1000 can be greatly improved.
  • the use of optical fiber as a relay medium is very convenient for light emitting devices and other instruments. Equipment.
  • a light-blocking layer 2100 is provided on the outside of the light-guiding structure 1000 to block light from exiting, so that light can be more concentratedly emitted from the other side of the light-guiding structure 1000.
  • the light-emitting device can achieve directional light emission while avoiding the loss of light emitted from the other side.
  • the light blocking layer 2100 may be at least one of a reflective coating, a total reflection light sparse layer, or a light blocking baffle. Specifically, in this embodiment, the light blocking layer 2100 is a reflective coating.
  • each light guide member of the light guide structure 1000 (that is, the side provided with the reflective coating) is flat (as shown in FIG. 9 (a)) and stepped (as shown in FIG. 9 (b)).
  • at least one of the curved surface type (shown in FIG. 9 (c)) is set as a stepped type.
  • this embodiment also provides a treatment instrument 3000, as shown in FIGS. 10-12.
  • the treatment apparatus 3000 includes a cap body 3100 and the above-mentioned light emitting device.
  • the light guide structure 1000 of the light emitting device is laid on the inside of the cap body 3100, the light guide structure 1000 is laid on a spherical surface along the inside of the cap body 3100, and the light emitting area of the light guide structure 1000 faces the inside thereof.
  • the wavelength of the light emitted by the light source 2200 of the light-emitting device includes 620-1200 nm.
  • the treatment instrument 3000 uses the cap body 3100 as a support, and the light guide structure 1000 is laid on the inside of the cap body 3100.
  • the light guide structure 1000 can disperse the light emitted by the light source 2200 throughout the entire cap body 3100, and finally face the cap body Launched in 3100.
  • the light emitted by the light source 2200 can fully, uniformly and irradiate a large area of the head.
  • the treatment instrument 3000 uses the light guide structure 1000 to fully, uniformly and irradiate light of the above-mentioned wavelengths to the brain, which can effectively promote the conditioning and treatment of the light on the human brain (especially the brain nerves).
  • the light intensity is weakened to a certain extent, which can effectively prevent scalp damage and significantly improve safety.
  • the emitting surface of the light is greatly increased, and the uniformity of the light is effectively guaranteed.
  • the treatment instrument 3000 can be used to treat brain disorders (especially neurological disorders), and can also be used for auxiliary conditioning. Its light distribution is accurate and reliable, the emitted light is even and accurate, and the treatment effect is more significant.
  • the entrance port 300 of the light guide structure 1000 is provided at the end of the first light guide 100, and the first light guide 100 is extended from the front end of the cap body 3100 toward the rear end thereof.
  • the first light guide 100 extends from the forehead toward the back neck, and the first light guide 100 is arranged along the longer path of the head, which can effectively increase the length of the light path 500, which in turn increases the light.
  • the probability of entering the second light guide 200 and the third light guide 700 is that the light is more easily dispersed, and the uniformity after the dispersion is higher.
  • the cap body 3100 also has a fitting portion 3110 for fitting to the back of the human body.
  • the light guide structure 1000 extends from the front end of the cap body 3100 to the fitting portion 3110.
  • the light source 2200 when the wavelength of the light emitted by the light source 2200 is 620 to 760 nm, the light source 2200 is switched between a switching state at a frequency of 10 to 100 Hz in an operating state.
  • the wavelength of the light emitted by the light source 2200 is 760 to 1200 nm, the light source 2200 switches between switching states at a frequency less than or equal to 60 Hz in the working state.
  • the wavelength of the light emitted by the light source 2200 is 760 ⁇ 1200 nm, and the frequency of the light source 2200 in the working state is switched between a switching state and a 60 Hz frequency.
  • switching between switching states may only be performed by turning on or off, and at this time, the light source 2200 emits light intermittently. It can also be a continuous turning off and on operation when switching, and at this time, the light source 2200 is actually performing a blinking operation. In this embodiment, continuous switching off and switching on are performed when switching is performed.
  • the light source 2200 may be composed of an emission device that emits light with a wavelength of 620 to 760 nm and an emission device that emits light with a wavelength of 760 to 1200 nm, or may be composed of a single emission device capable of simultaneously emitting light with a wavelength of 620 to 1200 nm.
  • the light source 2200 is configured by an emitting device capable of adjusting in a wavelength range of 620 to 1200 nm.
  • the power of the emitted light is less than or equal to 0.5 W / cm 2 .
  • the power of the emitted light is adjusted in the range of 0 to 0.5 W / cm 2 by adjusting the power of the light source 2200 to adapt to users in different situations. At this time, the total dose of light can be determined by adjusting the use time accordingly, which greatly improves the flexibility during use.
  • the light-emitting area of the light guide structure 1000 can also be covered with a filter cloth (not shown in the figure) for reducing the light intensity, which can further reduce the intensity of the emitted light (applicable to the light source 2200 whose power is difficult to adjust) Situation) to meet different usage needs. Even patients with weak scalp tolerance or head wounds can use it.
  • the setting of the filter cloth can also prevent the light guiding structure 1000 from directly contacting the scalp, and has a good protective effect on patients with wounds on the head. In this case, the filter cloth needs to be medically sterilized.
  • the treatment instrument 3000 further includes a vibration massager 3200, the vibration massager 3200 is provided on the cap body 3100, and a massage protrusion for massaging a human head is protruded inside the light guide structure 1000 ( (Not shown).
  • the vibration massager 3200 is directly connected to the cap body 3100. In the working state, the vibration massager 3200 generates mechanical vibration. After the mechanical vibration is transmitted to the cap body 3100, it can be used for vibration massage of the brain and neck, with the light guide structure 1000. On the massage bumps, the massage effect is more significant.
  • the massage bumps are distributed according to the acupoints of the human head, and the massage bumps are also made of silicone resin.
  • the therapeutic apparatus 3000 may further include an audio player with a frequency of 20-50 Hz for playing music. It is also equipped with a remote control for controlling the opening and closing of each electrical component, and the remote control has a display screen with a blinking frequency of 40 Hz for displaying the working status of each electrical component.
  • the therapy instrument 3000 may also be equipped with a control mechanism for controlling switches and working hours of each electrical component, and each electrical component is electrically connected to the control mechanism.
  • the control end of the control mechanism can be used to achieve unified control of the treatment instrument 3000, which greatly improves the degree of intelligence.
  • the control terminal may be a remote controller, a mobile phone APP, or computer software.
  • the light guide structure may also be combined with a flat plate-shaped plate body.
  • the light guide structure is laid on one side of the board body and laid flat along the board surface of the board body, and the light source 2200 is also disposed on the board surface of the board body.
  • This embodiment also provides a cosmetic mask (not shown in the figure). Compared with the treatment instrument 3000, the mask 3100 is replaced by a mask in the cosmetic mask, and the light guide structure 1000 is adjusted to form a new light guide structure 4000.
  • the light guide structure 4000 of the light emitting device is laid on the inside of the mask and is laid in an arc along the inner wall of the mask, and the light emitting area of the light guide structure 4000 faces the side away from the mask. Based on this, the light guide structure 4000 is provided with a yielding hole corresponding to the openings at the eyes, mouth, and nose of the mask.
  • the wavelength of the light emitted by the light source of the light-emitting device includes 620-1200 nm.
  • the light guide structure 4000 is used to give way holes 4100 corresponding to the openings in the mouth of the mask, and the way holes 4200 are used to correspond to the openings in the nose of the mask.
  • Piece 100 it should be noted that if the width of the first light guide 100 is greater than the widths of the yielding holes 4100 and 4200, the yielding holes 4100 and 4200 can be directly opened in the first light guide 100. If the width of the first light guide 100 is smaller than the width of the yield hole 4100 or the yield hole 4200, at this time, the positions of the first light guide 100 corresponding to the yield hole 4100 and the yield hole 4200 need to be widened. In order to satisfy the opening of the yield hole 4100 and the yield hole 4200, as shown in FIG. 13, this embodiment adopts this form.
  • through-holes 410 are provided at both ends of the widened section 4300 of the first light guide 100, the purpose of which is to promote the further dispersion of light along the width direction of the first light guide 100, and to ensure that The light can smoothly bypass the yielding hole 4100 and the yielding hole 4200, thereby ensuring the smoothness of the entire optical path.
  • the end of the through hole 410 located at both ends of the widening section 4300 near the widening section 4300 is enlarged, and the width in the width direction of the first light guide 100 is gradually increased.
  • the smoothness of the light promotes the smooth passage of light around the yield hole 4100 and the yield hole 4200, which promotes uniform light distribution and avoids dark areas.
  • the way hole corresponding to the eye of the mouth of the mask of the light guide structure 4000 is directly used as the gap between the adjacent second light guides 200. In this way, it can not only reduce the processing difficulty, but also not affect the light path and the distribution of light in the light guide structure 4000.
  • the yielding hole corresponding to the eye of the mouth of the mask of the light guide structure 4000 may also be directly on the second light guide 200 and / or the third light guide. 300 is opened, preferably, the second light guide 200 and the third light guide 300 are widened.
  • the cosmetic mask uses the light guide structure 4000 to disperse the light emitted by the light source, which can effectively disperse the light across the entire mask, and greatly improve the dispersion and uniformity of the light irradiated on the human face. Because the light guide structure 4000 can accurately give light, the light will not leak out, which avoids the harm caused by the light to human eyes. Light with a wavelength of 620 to 1200 nm can effectively activate facial nerves, acupoints and cells of the human face, and has a good effect on beauty.
  • the light-emitting area of the light-guiding structure 4000 is also covered with a filter cloth for reducing light intensity, which can further reduce the intensity of the emitted light (applicable to the situation where the power of the light source is not easy to adjust).
  • a filter cloth for reducing light intensity, which can further reduce the intensity of the emitted light (applicable to the situation where the power of the light source is not easy to adjust).
  • the filter cloth needs to be sterilized.
  • the wavelength of the light emitted by the light source is preferably 620 to 760 nm, and the light source is switched between the on and off states at a frequency of 60 to 100 Hz in the working state. In this embodiment, the light source is switched between the switching state at a frequency of 80 Hz in the working state.
  • the comprehensive treatment system includes a treatment instrument 3000, a detection device for detecting human health parameters, an analysis mechanism for analyzing and displaying human data collected by the detection device, a final control mechanism for issuing control commands to the control mechanism, and It is used to send the body data collected by the detection device to the analysis mechanism and to send the control command issued by the final control mechanism to the transmission mechanism of the control mechanism.
  • the health condition of the human body is detected and monitored in real time by the detection device.
  • the collected human data is transmitted by the transmission mechanism to the analysis mechanism.
  • the analysis mechanism displays the test results after basic data analysis and data processing for medical care.
  • the staff analyzes the diagnosis and makes the corresponding medical plan.
  • medical personnel can issue control commands to the control mechanism through the final control mechanism, so that the control mechanism can control the treatment device 3000 to perform light treatment on the human body in accordance with the corresponding light supply mode, light power, light supply time, interval time, treatment course, and the like.
  • the intelligent integration of treatment is realized, and the degree of integration is high. It can monitor and diagnose the human body more comprehensively, so that the treatment and conditioning processes have higher accuracy and specificity, and can adapt to individualized specificity. Treatment and conditioning work also has lower labor costs and is suitable for the integration and streamlining of medical methods. This also represents the development trend of future medical services.
  • the light source may be a general illumination light source, an LED-type light source, a laser light source, and the like, but is not limited thereto.
  • the light source is a laser light source.
  • the light guide structure 1000 provided by the embodiment of the present invention can effectively diverge and guide light, promote the full dispersion of light in the entire light guide structure 1000, and help guide the light for directional distribution and accurate emission.
  • the duct structure can not only be used for lighting (because light can be dispersed along the light guide structure 1000, the intensity per unit area is weakened, especially suitable for soft light illumination), but also can be used as a light emitting element (especially light) in various optical devices Light-emitting device in a therapeutic device). It gives accurate light and soft light intensity. On the one hand, it can perform precise treatment, and on the other hand, it can avoid causing damage to the human body.
  • the light-emitting device uses the light guide structure 1000 to conduct the light generated by the light source 2200, so that the emitted light can be fully dispersed along the entire light guide structure 1000, the light is distributed along the light guide structure 1000, and the light is emitted.
  • the accuracy is very high. This enables the light-emitting device to be used as a light-emitting component in a brain optical treatment apparatus.
  • a therapeutic apparatus 3000 provided by an embodiment of the present invention uses a cap body 3100 as a support, and a light guide structure 1000 is laid on the inside of the cap body 3100.
  • the light guide structure 1000 can illuminate the light emitted by the light source 2200 inside the entire cap body 3100 Dispersion was performed and finally launched into the cap body 3100.
  • the treatment instrument 3000 is worn on the brain, the light emitted by the light source 2200 can fully, uniformly and irradiate a large area of the head.
  • another therapeutic apparatus 3000 provided by the embodiment of the present invention can be used for treating neurological disorders of body parts (for example, back, chest, etc.), and can also be used for auxiliary conditioning. Its performance is also similar to the above-mentioned treatment instrument 3000.
  • the comprehensive treatment system realizes the intelligent integration of treatment, has a high degree of integration, and can monitor and diagnose the human body more comprehensively, so that the treatment and conditioning processes have higher accuracy and pertinence.
  • the light guide structure is definitely not limited to that given in this embodiment.
  • the light guide structure is adjusted based on the concept of the present invention, correspondingly, the light emitting device, the treatment instrument, and the cosmetic mask And the structure of the comprehensive treatment system can be adjusted accordingly, and are not limited to those given in this embodiment.

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Abstract

一种导光结构,涉及光学技术领域。包括第一导光件和多个第二导光件。第一导光件包括相连接的第一导光段和第二导光段。多个第二导光件分设于第一导光件沿宽度方向的两端,第二导光件一端同第一导光段连接,另一端同第二导光段连接,第二导光件的中部同第一导光件间隔设置。第一导光件和第二导光件沿平面或球面铺设,且第一导光件和第二导光件均由导光材料制成。其能对光进行发散引导,促进光线在整个导光结构中充分分散,有助于引导光线进行定向分布和精准发射。基于导光结构进一步制得发光装置、治疗仪、美容面膜及综合治疗系统,对光治疗和照明均作出了进一步的贡献。

Description

导光结构、发光装置、治疗仪、美容面膜及综合治疗系统 技术领域
本发明涉及光学技术领域,具体而言,涉及导光结构、发光装置、治疗仪、美容面膜及综合治疗系统。
背景技术
在光学设备当中,光的传播路径一般都是由导光材料来完成的,常见的包括导光管、导光柱、透镜等。由导光材料制成的导光结构直接关系到光线的准确传播。
目前,导光结构的形式还比较局限,适用面也受到了一定的限制,在一些比较特殊的应用场景下的表现并不令人满意。同时,对这些比较特殊的应用场景也没有非常实用的设备。
发明内容
本发明的第一个目的在于提供一种导光结构,其能够有效地对光线进行发散和引导,促进光线在整个导光结构中充分分散,有助于引导光线进行定向分布和精准发射。
本发明的第二个目的在于提供一种发光装置,其发出的光线能够沿整个导光结构充分分散,光线能够沿着导光结构进行定向分布,光线发射的精确度非常高。
本发明的第三个目的在于提供一种治疗仪,其能够用于对脑部病症(特别是神经类病症)进行治疗,同时也能够用于辅助性调理;其光线分布精准可靠,发射的光线均匀准确,治疗效果也更加显著。
本发明的第四个目的在于提供另一种治疗仪,其能够用于对身体部位病症(特别是神经类病症)进行治疗,同时也能够用于辅助性调理;其光线分布精准可靠,发射的光线均匀准确,治疗效果也更加显著。
本发明的第五个目的在于提供一种美容面膜,其提高了光线照射到人脸部的分散性和均匀性,光线不会漏出,避免光线对人眼睛造成伤害;同时能够有效地对人脸部神经、穴位和细胞进行激活,对于美容具有很好的功效。
本发明的第六个目的在于提供一种综合治疗系统,其适用于对人体病症(特别是神经类病症)进行治疗或辅助性调理,综合化程度高,能够比较全面地对人体进行监控和诊断,使治疗和调理过程均具备更高的准确性和针对性,能够适应个体化针对性治疗和调理工作,人力成本也更低,适用于医疗手段的整合和精简。
本发明的实施例是这样实现的:
一种导光结构,其包括:第一导光件和多个第二导光件。第一导光件包括相连接的第一导光段和第二导光段。多个第二导光件分设于第一导光件沿宽度方向的两端,第二导光件一端同第一导光段连接,另一端同第二导光段连接,第二导光件的中部同第一导光件间隔设置。其中,第一导光件和第二导光件沿平面或球面铺设,且第一导光件和第二导光件均由导光材料制成。
一种发光装置,其包括光源和上述的导光结构。光源的发射端口同导光结构的入射端口连接。
一种治疗仪,其包括:帽体和上述的发光装置。发光装置的导光结构铺设于帽体的内侧,导光结构沿帽体内侧呈球面铺设,且导光结构的发光区朝向其内侧。其中,发光装置的光源所发出的光线的波长包括620~1200nm。
一种治疗仪,其包括:板体和上述的发光装置。板体呈平板状,发光装置的导光结构铺设于板体的一侧并沿板体的板面呈平面铺设,导光结构的发光区朝向其远离板体的一侧。其中,发光装置的光源所发出的光线的波长包括620~1200nm。
一种美容面膜,其包括:面罩和上述的发光装置。发光装置的导光结构铺设于面罩的内侧并沿面罩的内壁呈弧状铺设,导光结构的发光区朝向其远离面罩的一侧。导光结构开设有用于同面罩的眼部、口部、鼻部处的开孔相对应的让位孔。其中,发光装置的光源所发出的光线的波长包括620~1200nm。
一种综合治疗系统,其包括:上述的任意一种治疗仪、设于治疗仪的震动按摩仪、播放音乐的频率为20~50Hz的音频播放器、用于控制震动按摩仪、音频播放器和治疗仪的光源的开关及工作时长的控制机构、用于检测人体健康参数的检测装置、用于分析和显示由检测装置采集到的人体数据的分析机构、用于对控制机构下达控制命令的终控机构;以及用于将由检测装置采集到的人体数据发送至分析机构并用于将由终控机构所发出的控制命令发送至控制机构的传输机构。
本发明实施例的有益效果是:
本发明实施例提供的导光结构能够有效地对光线进行发散和引导,促进光线在整个导光结构中充分分散,有助于引导光线进行定向分布和精准发射。导管结构不仅能够用于照明(由于光线能够沿着导光结构进行分散,单位面积的强度被弱化,特别适用于柔和光照明),还能够在各种光学设备中充当发光元件(特别是光治疗设备中的发光装置)。其给光精准,光强柔和,一方面能够进行精确治疗,另一方面还能够避免对人体造成损伤。
本发明实施例提供的发光装置利用导光结构对光源所产生的光线进行传导,使发出的光线能够沿整个导光结构充分分散,光线沿着导光结构进行定向分布,光线发射的精确度非常高。这样使得发光装置能够用于充当脑部光学治疗设备中的发光部件。
本发明实施例提供的一种治疗仪利用帽体作为依托,将导光结构铺设在了帽体的内侧,导光结构能够将光源所发出的光在整个帽体内部进行分散,并最终朝帽体中发射出来。将治疗仪佩戴在脑部,光源所发出的光线就能够对整个头部进行充分、均匀、大面积照射。而本发明实施例提供的另一种治疗仪则能够用于对身体部位神经类病症(例如:背部、胸部等)进行治疗,同时也能够用于辅助性调理。其性能也与上述的治疗仪相近。
本发明实施例提供的美容面膜利用导光结构对光源所发出的光进行分散,能够有效地使光在整个面罩上进行分散,大大提高光线照射到人脸部的分散性和均匀性。由于导光结构能够进行精准给光,光线不会漏出,避免了光线对人眼睛造成伤害。波长为620~1200nm的光线能够有效地对人脸部神经、穴位和细胞进行激活,对于美容具有很好的功效。
本发明实施例提供的综合治疗系统实现了治疗的智能一体化,综合化程度高,能够比较全面地对人体进行监控和诊断,使治疗和调理过程均具备更高的准确性和针对性,能够适应个体化针对性治疗和调理工作,人力成本也更低,适用于医疗手段的整合和精简。这同时也代表了未来医疗服务的发展趋势。
附图说明
为了更清楚地说明本发明实施例的技术方案,下面将对实施例中所需要使用的附图作简单地介绍,应当理解,以下附图仅示出了本发明的某些实施例,因此不应被看作是对范围的限定,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他相关的附图。
图1为本发明实施例提供的导光结构的示意图;
图2为图1中导光结构的A区域的放大图;
图3为第二光路枢纽的示意图;
图4为另一种导光结构的示意图;
图5为又一种导光结构的示意图;
图6为图1中导光结构的光路传导方向的示意图;
图7为子孔之间的通光间隙的示意图;
图8为第一导光件的通孔周围的导光通道的示意图;
图9为导光结构与挡光层的三种结合方式的示意图;
图10为本发明实施例提供的治疗仪的示意图;
图11为图10中治疗仪的内部结构示意图;
图12为图10中治疗仪的另一视角示意图;
图13为本发明实施例提供的美容面膜的导光结构的示意图。
图标:1000、4000-导光结构;100-第一导光件;110-第一导光段;120-第二导光段;200-第二导光件;300-入射端口;410-通孔;421-子孔;500-光路;610-第一光路枢纽;620-第二光路枢纽;700-第三导光件;S1、S2、S3、S4、S5、S6-第一预设方向;Z1、Z2-第二预设方向;720-匹配段;810-第一导光通道;820-第二导光通道;2100-挡光层;2200-光源;3000-治疗仪;3100-帽体;3110-贴合部;3200-震动按摩仪;4100、4200-让位孔;4300-加宽段。
具体实施方式
为使本发明实施例的目的、技术方案和优点更加清楚,下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例是本发明一部分实施例,而不是全部的实施例。通常在此处附图中描述和示出的本发明实施例的组件可以以各种不同的配置来布置和设计。
因此,以下对在附图中提供的本发明的实施例的详细描述并非旨在限制要求保护的本发明的范围,而是仅仅表示本发明的选定实施例。基于本发明中的实施例,本领域普通技术人员在没有作出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。
应注意到:相似的标号和字母在下面的附图中表示类似项,因此,一旦某一项在一个附图中被定义,则在随后的附图中不需要对其进行进一步定义和解释。
术语“第一”、“第二”、“第三”等仅用于区分描述,而不能理解为指示或暗示相对重 要性。
此外,术语“平行”、“垂直”等并不表示要求部件绝对平行或垂直,而是可以稍微倾斜。如“平行”仅仅是指其方向相对“垂直”而言更加平行,并不是表示该结构一定要完全平行,而是可以稍微倾斜。
在本发明的描述中,还需要说明的是,除非另有明确的规定和限定,术语“设置”、“安装”、“相连”、“连接”应做广义理解,例如,可以是固定连接,也可以是可拆卸连接,或一体地连接;可以是直接相连,也可以通过中间媒介间接相连,可以是两个元件内部的连通。对于本领域的普通技术人员而言,可以具体情况理解上述术语在本发明中的具体含义。
实施例
请参照图1,本实施例提供一种导光结构1000。导光结构1000包括:第一导光件100和多个第二导光件200。第一导光件100和第二导光件200均由导光材料制成,例如:硅胶、硅树脂、聚苯乙烯、聚碳酸酯、聚甲基丙烯酸甲酯、聚-4-甲基-1-戊烯或聚氨酯中的至少一者,但并不仅限于此,导光材料可以根据实际情况进行灵活选择。在本实施例中,第一导光件100和第二导光件200均由硅树脂制成。
第一导光件100包括相连接的第一导光段110和第二导光段120。多个第二导光件200分设于第一导光件100沿宽度方向K的两端,第二导光件200一端同第一导光段110连接,另一端同第二导光段120连接,第二导光件200的中部同第一导光件100间隔设置形成了间隙。
当光线入射到导光结构1000之后,光线沿导光结构1000进行传导,光线会沿着第一导光件100和第二导光件200进行分散。在第二导光件200的引导下,光线沿着第一导光件100的宽度方向K进行发散,有效扩展了光线所能够到达的区域范围,大大提升了光线的有效作用范围。
光线沿第一导光件100和第二导光件200分散传导之后,光线的传导方向和传导路径都受到了导光结构1000的限制的制约,在导光结构1000的引导下,能够将光线传导至目标区域。这一方面能够有效地提高光线在导光结构1000中传导的定向性,确保光线准确传导,并在预定的区域进行分布。规避了光线在自由传播过程中发生的不必要的损失,在扩大光线有效作用范围的基础上减少了光能损失,确保光线能够尽可能地在较大的范围内充分定向发射。另一方面,在光线准确传导的基础上能够实现光线的准确发射,提高光线传导和发射的精准度,确保给光的准确性。
总体而言,导光结构1000能够有效地对光线进行发散和引导,促进光线在整个导光结构1000中充分分散,有助于引导光线进行定向分布和精准发射。导管结构不仅能够用于照明(由于光线能够沿着导光结构1000进行分散,单位面积的强度被弱化,特别适用于柔和光照明),还能够在各种光学设备中充当发光元件(特别是光治疗设备中的发光组件)。其给光精准,光强柔和,一方面能够进行精确治疗,另一方面还能够避免对人体造成损伤。
进一步地,位于第一导光件100沿宽度方向K的同一端的多个第二导光件200均相互间隔设置,且多个第二导光件200依次围设形成多层半环状结构。
通过以上设计,第二导光件200沿第一导光件100的宽度方向K分别向两边呈层状排列,不仅能够进一步提高光线在第一导光件100的宽度方向K上的分散效果,而且第二导光件200的层状排列方式还能够有效地避免在第二导光件200之间出现过大的空白区,有助于提高光线在第一导光件100的宽度方向K上的有效分布范围,并保证在该分布范围内光线能够较为均匀地进行发散,提高发光区整体的发光匀称度。
进一步地,位于第一导光件100沿宽度方向K的两端的多个第二导光件200依次围设形成多层闭环状结构。通过该设计,第二导光件200依次围设形成多层半环状结构的基础上,位于第一导光件100沿宽度方向K的两端的第二导光件200之间还围成了闭环状的结构,相当于为光线传导提供了多层环状回路,这使得光线能够更容易地在第一导光件100和第二导光件200之间进行传导,有利于光在第一导光件100和第二导光件200之间进行均匀分布,提高光线发射的均匀度,同时还能够在一定程度上减少光的损失。
为了使导光结构1000能够具有更好的导光作用,相邻两根第二导光件200之间的间距控制在小于或等于8cm的范围内,同时将相邻两根第二导光件200同第一导光件100的连接点之间的间距控制在0.1~20cm的范围内。在本实施例中,相邻两根第二导光件200之间的间距为1.5cm,且相邻两根第二导光件200同第一导光件100的连接点之间的间距为2cm。需要说明的是,在设置相邻两根第二导光件200同第一导光件100的连接点之间的间距时,这里的连接点指的是相邻的两根第二导光件200二者的同一端与第一导光件100的连接点。
请参阅图1和图2,在本实施例中,导光结构1000的入射端口300设于第一导光件100的端部,且入射端口300的靠近第一导光件100的一端的外径逐渐增大。具体的,入射端口300的靠近第一导光件100的一端的外径在沿第一导光件100的宽度方向K上逐渐增大。
通过以上设计,当光线由入射端口300进入第一导光件100时,当光线即将进入第一导光件100时,在入射端口300的引导下,光线会沿着入射端口300进行发散,即沿着第一导光件100的宽度方向K发散开来,从而使光线在进入到第一导光件100之后能够在第 一导光件100的宽度方向K上充满第一导光件100,进而促进光线顺利进入第二导光件200,提高了光传导的流畅度,在一定程度上减少了光损失。
需要说明的是,在本发明其他的实施例中,入射端口300还可以设置其他位置,例如:第一导光件100的侧边、第二导光件200等,并不限于此。
进一步地,请继续参阅图1和图2,在本实施例中,入射端口300为多个,多个入射端口300分设于第一导光件100的两端,且位于第一导光件100的同一端的多个入射端口300之间并列且间隔设置。具体的,入射端口300一共有6个,6个入射端口300分设于第一导光件100的两端,每端均为3个。每一端的3个入射端口300之间均平行且间隔设置。
第一导光件100具有多个沿其厚度方向将其贯穿的通孔410,通孔410之间间隔设置形成孔组。孔组沿第一导光件100的长度方向设置,沿第一导光件100的宽度方向K多个孔组之间平行且间隔设置,从而将第一导光件100划分为了多个光路500。在本实施例中,孔组为两组,两组孔组将第一导光件100划分为了3条光路500。每个入射端口300均与一个光路500对应设置,每个光路500的两端均对应设置有入射端口300。
通过以上改进,在第一导光件100的两端均设置入射端口300能够有效避免在第一导光件100的一端出现光线减弱的问题,保证在整个第一导光件100中任意位置均具有充足的光强度。在此基础上,能够促进光线分别从第一导光段110和第二导光段120进入第二导光件200,大大提高了光线的分布效果、整体光强度和光线均匀度,避免了暗区的出现。
此外,光路500的形成能够分别对由入射端口300射来的光线进行引导,同时,位于相邻两条光路500之间的孔组中的各个通孔410都能够对光路500中的光线进行有效发散(通孔410的设置使得第一导光件100中额外增加了大量的“空气-导光材料”界面),使得每条光路500中的光线均能够及时得到发散,不同光路500中的光线也能够通过通孔410之间的部分进行相互“交流”,使得整个第一导光件100中光线能够分布地更加均匀,光线也更容易进入到第二导光件200中,避免过于集中,提高了光线的发散和交错性能,整个导光结构1000中光线的均匀性也随之提高,使得光线不仅能够准确地沿着导光结构1000进行分散,并且在分散后保持高度的匀称度,大大改善了导光结构1000的整体发光效果,提升了其在光传导和光发射上的利用价值,特别是在光学医疗器械领域。
需要特别说明的是,如图2所示,在本实施例中,在相邻两个孔组之间能够形成第一光路枢纽610,配合上通孔410所提供的“空气-导光材料”界面,能够有效地促进光线通过第一光路枢纽610在多根光路500之间进行大范围扩散。又如图3所示,在本实施例中,在同一个孔组中的相邻两个通孔410之间能够形成第二光路枢纽620,配合上通孔410所提 供的“空气-导光材料”界面,能够有效地促进光线通过第一光路枢纽610在相邻两根光路500之间进行扩散和“交流”。通过以上设计,能够有效提高第一导光件100对光密度的分散和均摊作用,促进光的均匀分散并大大提高光线进入第二导光件200的容易程度,确保导光结构1000能够对光进行有效传导和定向发射。
需要说明的是,在本发明其他的实施例中,入射端口300的数量可以不同,可以根据实际需要来选择入射端口300的数量。如图4所示,入射端口300一共有4个,4个入射端口300分设于第一导光件100的两端,每端均为2个。此时,孔组相应的光路500的条数和孔组的数量均发生了变化,光路500为两条,孔组为一组。同样的,在本发明另一些实施例中,入射端口300还可以是8个,8个入射端口300分设于第一导光件100的两端,每端均为4个,如图5所示。入射端口300的数量可以根据实际需要来选择,并不局限于此。
特殊的,在本发明的又一些实施例当中,入射端口300也可以仅仅设置于第一导光件100的一端,此时,光线通过入射端口300从第一导光件100的同一段射入。此种设置方式更适用于第一导光件100的长度较小的情况。
进一步地,为了更好地控制光线的发散并尽可能减小光的耗散,通孔410的横截面的面积控制在小于或等于8cm 2的范围。
进一步地,请继续参阅图1,导光结构1000还包括第三导光件700,第三导光件700一端同第一导光件100连接,另一端朝第二导光件200延伸并同第二导光件200连接。第三导光件700也由导光材料制成,在本实施例中,第三导光件700同样是由硅树脂制成。
第三导光件700的设置位第一导光件100和第二导光件200之间架设了另一个传导途径,能够有效地对第二导光件200中的光强进行补偿,尽可能减少或消除第二导光件200中暗区的出现,进一步地提高了导光结构1000的整体导光匀称度,使得导光结构1000能够满足高精度、高均匀度传导的要求,使导光结构1000具备了应用于高精度光学医疗器械的条件。
进一步地,由第三导光件700的靠近第一导光件100一端的指向其另一端的切线方向为第一预设方向,第一导光件100中的光线传导方向为第二预设方向。第一预设方向与第二预设方向之间的夹角小于90°。
请参阅图1和图6,在本实施例中,第一预设方向分别包括:S1、S2、S3、S4、S5和S6,第二预设方向分别包括:Z1和Z2。其中,S1和S6二者同Z2之间的夹角均小于90°,且二者与Z2之间的夹角均设置为40°。而S2、S3、S4和S5四者同Z1之间的夹角均小于 90°,且S2和S5二者与Z1之间的夹角均设置为50°,S3和S4二者与Z1之间的夹角均设置为20°。
通过S1和S6二者同Z2配合、以及S2、S3、S4和S5四者同Z1配合,能够有效地将第一导光件100中的光线引入第三导光件700,从而使第二导光件200中的光线得到补偿,不仅提高了光线分散效率,而且还能够避免第二导光件200中出现暗区,提高整个导光结构1000的导光匀称度,使导光结构1000的导光精度更高。
需要说明的是,在本发明其他的实施例中,第一预设方向与第二预设方向之间的夹角也可以设置为大于或等于90°。此时,为了确保光线能够顺利从第一导光件100进入到第三导光件700,可以在第三导光件700和第一导光件100二者的连接部的外周缘设置反光涂层,以此来提高第三导光件700和第一导光件100之间的光反射效果,以促进光线经多次反射之后顺利进入第三导光件700。
回到本实施例当中,在导光结构1000中,S2、S3、S4和S5四者同Z2之间的夹角均大于90°,S1和S6二者同Z1之间的夹角也均大于90°。为了使沿Z1射来的光线能够沿S1和S6进入第三导光件700,以及使沿Z2射来的光线能够沿S2、S3、S4和S5进入第三导光件700,在本实施例中,第三导光件700和第一导光件100二者的连接部的外周缘均设置有反光涂层,反光涂层沿第三导光件700和第一导光件100的周向涂覆一圈。以此来进一步提高光线由第一导光件100进入到第三导光件700中的顺畅度,使沿Z1和Z2射来的光线都能够沿S1、S2、S3、S4、S5和S6朝第三导光件700传导,明显改善了整个导光结构1000的光分散和光传导效率。
进一步地,如图1所示,在本实施例中,第一导光件100与第二导光件200之间的连接部位、第一导光件100与第三导光件700之间的连接部位、以及第二导光件200与第三导光件700之间的连接部位均做平滑处理。通过该设计,消除了各个导光件连接处的棱角,能够大大提高光线在各个导光件连接处的“空气-导光材料”界面上的反射范围,从而促进第一导光件100中的光线充分发散,并大大提高光线进入第三导光件700的概率,从而缩短光线在进入第三导光件700之前的不必要的传输路径,减少光损失,增加了进入到第三导光件700和第二导光件200中的光的强度,提高了光能的利用率。
进一步地,第二导光件200可以是直线型、椭圆弧型或圆弧型中的至少一者,第三导光件700也可以是直线型、椭圆弧型或圆弧型中的至少一者。在本实施例中,第一导光件100、第二导光件200和第三导光件700三者沿球面铺设。具体的,第二导光件200为椭圆弧型,位于沿第一导光件100宽度方向K的两端的第二导光件200共同组合成呈层状排列的椭圆闭环。而第三导光件700也呈椭圆弧型,且第三导光件700所对应的椭圆弧所在的 平面垂直于第二导光件200所对应的椭圆弧所在的平面。此形状的导光结构1000能够应用于脑部光学医疗器械,例如:脑部光学医疗设备的发光部件。
需要说明的是,在本发明其他的实施例中,第一导光件100、第二导光件200和第三导光件700三者也可以是沿平面铺设。此时,整个导光结构呈平面型,其适用于充当平面型(例如板状)的光学治疗设备的发光部件,或者将整个导光结构作为照明用具,由于导光结构对光线具有分散作用,能够达到弱化光强的作用,适用于柔和照明。加上导光结构能够促进光线的均匀分布,其作为照明用具时能够同时保证光线的均匀性和柔和型,降低对眼睛的伤害。
进一步地,在本实施例中,制成第一导光件100、第二导光件200和第三导光件700的硅树脂的邵尔A硬度为10~80。具体的,制成第一导光件100、第二导光件200和第三导光件700的硅树脂的邵尔A硬度均控制为50。通过该设计,不仅便于导光结构1000沿帽状的壳体进行铺设,便于脑部光学医疗器械的生产,同时还能够避免导光结构1000伤害头皮,提高安全性。在使用过程中,导光结构1000也更容易同头部充分贴合,提高光线输送准确性,保证光线充分作用于头部,提高治疗效果。
进一步地,请参阅图1~3,沿第一导光件100的长度方向,相邻两个通孔410之间的区域为匹配段720,第二导光件200和第三导光件700均连接于匹配段720,以实现与第一导光件100的连接。通过该设计,将第二导光件200和第三导光件700充分地在第一导光件100的光路500中暴露了出来,使第二导光件200和第三导光件700二者与第一导光件100之间的连接部位光线传导路径非常开阔,便于光线顺利进入第二导光件200和第三导光件700。
通孔410的横截面可以是圆形、椭圆形,也可以是多边形,在本发明的实施例中,多边形指边数大于或等于3。较优选地,多边形的边数大于或等于4。
在本实施例中,孔组不仅包括横截面呈椭圆形的通孔410,还包括横截面呈圆形的通孔410。横截面呈圆形的通孔410分设于第一导光件100的两端靠近入射端口300的位置,而横截面呈椭圆形的通孔410则设置于第一导光件100的中间部位,并位于横截面呈圆形的通孔410之间。
需要指出的是,对于横截面呈椭圆形的通孔410而言,其横截面所对应的长轴沿第一导光件100的长度方向设置。其中,同一孔组中,相邻两个通孔410之间的间距决定了相应的匹配段720的长度。第二导光件200和第三导光件700二者同第一导光件100之间的连接部位在第一导光件100长度方向上的长度为第一预设长度,同一孔组中相邻两个通孔 410之间的间距为第二预设长度,为了保持光路500的高度畅通,较优选地,第二预设长度略大于第一预设长度。通过改变通孔410的横截面所对应的长轴的长度,即可达到调节第二预设长度的目的。
需要说明的是,在本发明其他的实施例中,同一个孔组中的任何一个通孔410还可以是由两个或多个子孔421并列构成的组合孔。此时,相邻的子孔421之间均具有供光线穿过的间隙,能够使相邻两条光路500中的光线能够相互入射,例如图7所示的情况,但不仅限于此。此种结构非常适用于相邻两个匹配段720之间的距离较小且第一导光件100中相邻两条光路500之间间距较大的情况。如前所述,在较优选的方案中,通孔410的横截面所对应的椭圆的长轴沿第一导光件100的长度方向设置,当第一预设长度较大时,第二预设长度也需要设置得较大,相应的通孔410所对应的长轴的长度会有所减小。在极限情况下,当通孔410所对应的长轴和短轴的长度相等时,此时通孔410和横截面实质上就是一个正圆形。但是当通孔410沿第一导光件100长度方向的轴进一步缩小时,其实通孔410所对应的椭圆的长轴此时就变成了短轴。此时,就可采取组合孔来替代上述通孔410,以提高相邻两条光路500之间的通畅度,促进光的分散和分布。
较优选地,组合孔的孔组的横截面可以是正圆形,也可以是椭圆形或多边形。若孔组的横截面为椭圆形,那么孔组的横截面所对应的长轴沿第一导光件100的长度方向设置,同一组合孔的子孔421的横截面所对应的长轴均平行设置。若孔组的横截面为多边形,同一组合孔的子孔421的顶角均相互相向设置。
进一步地,在本发明的实施例中,较优选地,通孔410的横截面的面积小于或等于8cm 2,而同一组合孔的全部子孔421的横截面积之和小于或等于8cm 2。由于通孔410所对应的长轴长度是与匹配段720的长度相适应的,每个通孔410的实际横截面积同与其相邻的两个匹配段720直接相关,每个通孔410的横截面可能并不完全相同,只要控制在8cm 2或8cm 2之内即可。
进一步地,在本实施例中,通孔410的孔壁均做平滑处理,以此来消除通孔410的孔壁的棱角,提高加宽光线的反射面,促进光线在不同的管路之间、在第一导光件100和第二导光件200之间、以及在第一导光件100和第三导光件700之间进行有效分散传导,同时该方案还能够有效避免在通孔410周围出现暗区,提高光线分布的均匀度。
进一步地,由于第一导光件沿球面铺设,第一导光件呈弧型,入射端口300的入射方向沿第一导光件100的端部的切线方向设置,入射端口300的入射端面垂直于入射端口300的轴心线设置。通过该设计,能够有效地提高光线从入射端口300进入第一导光件100的入射效率,减少光损失。
进一步地,在本实施例中,第一导光件100、第二导光件200和第三导光件700三者沿宽度方向K的两端的厚度均逐渐减小并形成棱边。通过该设计,能够有效地避免光线从第一导光件100、第二导光件200或第三导光件700的棱边周围射出,有效降低光损失,能够更大限度地促进光从第一导光件100、第二导光件200和第三导光件700三者的侧面射出,提高光线射出的准确性。对于本实施例的导光结构1000而言,当应用于脑部光学治疗设备的发光部件时,能够确保光线准确地从第一导光件100、第二导光件200和第三导光件700三者的侧面射出,促进出射光能够有效地对脑部相应部位进行照射,提高给光的准确性、柔和度和均匀性。
需要注意的是,除了对通孔410的孔壁做平滑处理外,对通孔410的孔壁和第一导光件100的侧面之间的连接部位也做平滑处理。如图8(a)和图8(b)所示,在通孔410周围,分别能够形成平滑的第一导光通道810和第二导光通道820,第一导光通道810和第二导光通道820的行程呢个能够有效地避免通孔410周围出现暗区,提高导光结构1000在整体上的导光均匀度。
在本发明的实施例中,第一导光件100、第二导光件200和第三导光件700三者沿宽度方向K的长度与各自的厚度之比均为2~5:1。在本实施例中,第一导光件100沿宽度方向K的长度与其厚度之比为5:1,而第二导光件200和第三导光件700二者沿宽度方向K的长度与各自的厚度之比均为2.5:1。具体的,第一导光件100沿宽度方向K的长度为3cm,其厚度为0.6cm;第二导光件200和第三导光件700二者沿宽度方向K的长度均为0.8cm,厚度均为0.32cm。
一般地,为了使导光结构1000能够更容易适应在脑部光学治疗设备中的应用,第一导光件100、第二导光件200和第三导光件700三者沿宽度方向K的长度控制在0.3~3cm范围内,且二者的厚度控制在0.1~1cm范围内。
导光结构1000整体上在尽可能减小光损失的基础上,使光线能够沿整个导光结构1000进行充分分散,同时保证分散后的光线具有非常高的均匀度,使得光线的分散性、均匀度能够同时兼顾。
本实施例还提供一种发光装置。发光装置包括光源和上述的导光结构1000。光源的发射端口同导光结构1000的入射端口300连接。发光装置利用导光结构1000对光源所产生的光线进行传导,使发出的光线能够沿整个导光结构1000充分分散,光线沿着导光结构1000 进行定向分布,光线发射的精确度非常高。这样使得发光装置能够用于充当脑部光学治疗设备中的发光部件。
需要说明的是,在本发明其他的实施例中,若导光结构的第一导光件、第二导光件和第三导光件均是沿平面进行铺设的,此时,发光装置则适用于充当平面型(例如板状)的光学治疗设备的发光部件,或者作为照明用具。由于导光结构对光线具有分散作用,能够达到弱化光强的作用,适用于柔和照明。加上导光结构能够促进光线的均匀分布,其作为照明用具时能够同时保证光线的均匀性和柔和型,降低对眼睛的伤害。
进一步地,在本实施例中,发射端口与入射端口300之间由光纤连接,光纤用于将光源所产生的光线从光源中引出,并将光线顺利引入入射端口300,保证光线顺利进入导光结构1000。通过该设计,能够有效地降低光源与导光结构1000之间的连接难度,并且能够大大提高光源和导光结构1000二者的安装灵活性,利用光纤作为中转介质,非常便于发光装置与其他仪器设备进行结合。
除此之外,在导光结构1000的外侧还设置有用于阻挡光线射出的挡光层2100,从而使光线能够更集中地从导光结构1000的另一侧射出。通过该设计,能够使发光装置实现定向发光,同时避免光从另一侧射出损失。
其中,挡光层2100可以是反光涂层、全反射光疏层或隔光挡板中至少一者。具体的,在本实施例中,挡光层2100为反光涂层。
需要说明的是,导光结构1000各个导光件的外侧壁面(即设置有反光涂层的侧面)呈平面型(如图9(a)所示)、阶梯型(如图9(b)所示)或弧面型(如图9(c)所示)中至少一者,在本实施例中均设置为阶梯型。通过该设计,不仅能够明显提高光从内测射出的效果,而且还能有效避免光从导光结构1000的边缘发生泄漏。
除此之外,本实施例还提供一种治疗仪3000,如图10~12所示。治疗仪3000包括:帽体3100和上述的发光装置。发光装置的导光结构1000铺设于帽体3100的内侧,导光结构1000沿帽体3100内侧呈球面铺设,且导光结构1000的发光区朝向其内侧。其中,发光装置的光源2200所发出的光线的波长包括620~1200nm。
治疗仪3000利用帽体3100作为依托,将导光结构1000铺设在了帽体3100的内侧,导光结构1000能够将光源2200所发出的光在整个帽体3100内部进行分散,并最终朝帽体3100中发射出来。将治疗仪3000佩戴在脑部,光源2200所发出的光线就能够对整个头部进行充分、均匀、大面积照射。
经医学研究发现,波长为620~1200nm的光线能够有效地对人体神经进行有效刺激,与人体神经产生协同作用,有助于对神经的生理活动进行激活,能够促进神经的修复。治疗仪3000利用导光结构1000将上述波长的光线充分、均匀、大面积地照射向脑部,能够有效促进光线对人脑部(特别是脑部神经)的调理和治疗作用。光线经过导光结构1000分散传导之后,光强度得到了一定的弱化,能够有效避免伤害头皮,安全性也得到了明显提升。在导光结构1000的引导下,光线的发射面大大增加,且光线的均匀度也得到了有效保障,这样能够保证对脑部进行精准、稳定、充分给光,提高了光治疗环境的稳定性和可靠性,有助于治疗和调节效果的提高。总体上,治疗仪3000能够用于对脑部病症(特别是神经类病症)进行治疗,同时也能够用于辅助性调理。其光线分布精准可靠,发射的光线均匀准确,治疗效果也更加显著。
进一步地,在本实施例中,导光结构1000的入射端口300设于第一导光件100的端部,且第一导光件100由帽体3100的前端朝指向其后端的方向延伸设置。通过该设计,第一导光件100从前额朝后颈的方向延伸,第一导光件100沿头部较长的路径进行设置,能够有效地增加光路500长度,反过来也就增加了光线进入第二导光件200和第三导光件700的概率,光线也就更容易分散,分散后的均匀度也更高。
此外,帽体3100还具有用于同人体后颈相贴合的贴合部3110,导光结构1000均由帽体3100的前端延伸至贴合部3110。通过该设计,能够使治疗仪3000同时有效的覆盖脑部和后颈,并能够同时向脑部和后劲进行给光,大大增加了有效治疗范围,提升了治疗效果。需要说明的是,通过对颈部的脊椎端和脑部进行协同给光,能够更好地起到激活神经的作用。
在本发明的实施例中,光源2200所发出的光线的波长为620~760nm时,光源2200在工作状态下以10~100Hz的频率在开关状态之间进行切换。而当光源2200所发出的光线的波长为760~1200nm,光源2200则在工作状态下以小于或等于60Hz的频率在开关状态之间进行切换。在本实施例中,光源2200所发出的光线的波长为760~1200nm,且光源2200在工作状态下60Hz的频率在开关状态之间进行切换。
其中,在开关状态之间进行切换可以是只进行开启或关闭操作,此时光源2200发光是间歇式的。也可以是在进行切换时进行连续的关闭和开启操作,此时光源2200其实是进行闪烁操作。本实施例中采用的是在进行切换时进行连续的关闭和开启。
需要说明的是,光源2200可以是由发射620~760nm波长光线的发射装置和发射760~1200nm波长光线的发射装置组成,也可以是由单个能够同时发射620~1200nm波长光线的发射装置构成。而在本实施例中,光源2200由能够在620~1200nm波长范围内进行调节的发射装置构成。
进一步地,在本发明的实施例中,光源2200所发出的光经导光结构1000分散并射出后,射出的光线的功率小于或等于0.5W/cm 2。通过该设计,在进行光治疗的过程中,能够防止光线对头皮造成损伤(例如烧伤),对于头部皮肤较脆弱的对象也具有较好的适应性,提升了使用的安全性。在本实施例中,通过调节光源2200的功率实现发射光的功率在0~0.5W/cm 2的范围内进行调节,以适应不同情况的使用者。此时,通过相应调整使用时间即可确定光照的总剂量,这大大提高了在使用过程中的灵活性。
需要说明的是,导光结构1000的发光区还可以盖设用于减弱光线强度的滤光布(图中未示出),这样能够进一步降低发射光的强度(适用于光源2200功率不易调节的情况),以此来满足不同的使用需求。即使是头皮耐受能力较弱或者头部有伤口的患者也能够使用。此外,滤光布的设置还能够避免导光结构1000直接接触头皮,对于头部有伤口的患者具有很好的保护作用。该情况下,滤光布需要经过医用灭菌处理。
进一步地,在本实施例中,治疗仪3000还包括震动按摩仪3200,震动按摩仪3200设于帽体3100,导光结构1000的内侧凸设有用于对人头部进行按摩的按摩凸点(图中未示出)。震动按摩仪3200直接与帽体3100连接,在工作状态下,震动按摩仪3200发生机械振动,机械振动传导至帽体3100后能够用于脑部和后颈进行震动按摩,配合上导光结构1000上的按摩凸点,按摩效果更加显著。
在本实施例中,按摩凸点按照人头部穴位进行分布,且按摩凸点也由硅树脂制成的。
需要说明的是,治疗仪3000还可以包括所播放音乐的频率为20~50Hz的音频播放器。同时配备上用于控制各电气组件开启和关闭的遥控器,而遥控器则具有闪烁频率为40Hz的用于显示各电气组件工作状态的显示屏。
经医学研究发现,频率为20~50Hz的声波和以20~50Hz的频率进行闪动的光波能够在潜意识状态下对人体的神经进行激活,促进神经的自我修复。配合以上辅助性手段,能够进一步提升治疗仪3000的综合效果。
进一步地,还可以为治疗仪3000配备用于控制各电气组件的开关及工作时长的控制机构,各个电气组件均与控制机构电连接。同时加上用于调控控制机构的控制端,即可实现对治疗仪3000的统一调控,大大提高了智能化程度。其中,控制端可以是遥控器、手机APP或电脑软件。
需要说明的是,若导光结构的第一导光件、第二导光件和第三导光件均是沿平面进行铺设的,导光结构还可以与呈平板状的板体相结合。此时,导光结构铺设于板体的一侧并沿板体的板面呈平面铺设,光源2200也设置在板体的板面。这样就构成了另一种治疗仪。 其则能够用于对身体部位神经类病症(例如:背部、胸部等)进行治疗,同时也能够用于辅助性调理。其性能也与上述的治疗仪3000相近。
本实施例还提供一种美容面膜(图中未示出)。与治疗仪3000相比不同的是:在美容面膜中以面罩替代了帽体3100,并对导光结构1000进行了一定的调整,形成了新的导光结构4000。
在美容面膜中,发光装置的导光结构4000铺设于面罩的内侧并沿面罩的内壁呈弧状铺设,导光结构4000的发光区朝向其远离面罩的一侧。在此基础上,导光结构4000开设有用于同面罩的眼部、口部、鼻部处的开孔相对应的让位孔。其中,发光装置的光源所发出的光线的波长包括620~1200nm。
具体的,导光结构4000的用于同面罩的口部的开孔相对应的让位孔4100、用于同面罩的鼻部的开孔相对应的让位孔4200均开设于第一导光件100。需要说明的是,若第一导光件100的宽度大于让位孔4100和让位孔4200的宽度,那么可以将让位孔4100和让位孔4200直接开设在第一导光件100。若第一导光件100的宽度小于让位孔4100或让位孔4200的宽度,此时则需要将第一导光件100的对应让位孔4100和让位孔4200的部位进行加宽,以满足让位孔4100和让位孔4200的开设,如图13所示,本实施例即采用该种形式。
在本实施例中,在第一导光件100的加宽段4300的两端均设置有通孔410,其目的是为了促进光线沿着第一导光件100的宽度方向进一步分散,并保证光线能够顺利绕过让位孔4100和让位孔4200,从而保证整个光路的通畅。且位于加宽段4300两端的通孔410的靠近加宽段4300的一端呈扩大的趋势,在沿第一导光件100的宽度方向上的宽度逐渐变大,通过该设计,能够有效提高光路的顺畅度,促进光线顺利绕过让位孔4100和让位孔4200,促进光线均匀分布,避免出现暗区。
需要说明的是,在本实施例中,导光结构4000的用于同面罩的口部的眼部相对应的让位孔则直接由相邻的第二导光件200之间的间隙来充当,这样不仅能够减小加工难度,同时也不会影响光路和光在导光结构4000中的分布。当然,在本发明的其他实施例中,导光结构4000的用于同面罩的口部的眼部相对应的让位孔还可以直接在第二导光件200和/或第三导光件300上进行开设,优选地,对第二导光件200和第三导光件300进行加宽。
在本实施例中,美容面膜利用导光结构4000对光源所发出的光进行分散,能够有效地使光在整个面罩上进行分散,大大提高光线照射到人脸部的分散性和均匀性。由于导光结构4000能够进行精准给光,光线不会漏出,避免了光线对人眼睛造成伤害。波长为620~1200nm的光线能够有效地对人脸部神经、穴位和细胞进行激活,对于美容具有很好的功效。
进一步地,在本实施例中,导光结构4000的发光区还盖设有用于减弱光线强度的滤光布,这样能够进一步降低发射光的强度(适用于光源功率不易调节的情况),对于脸部皮肤比较敏感的使用者而言具有很好的保护作用,能够有效避免对脸部造成损伤。该情况下,滤光布需要经过灭菌处理。
需要说明的是,在美容面膜中,光源所发出的光线的波长优选为620~760nm,光源在工作状态下以60~100Hz的频率在开关状态之间进行切换。在本实施例中,光源在工作状态下以80Hz的频率在开关状态之间进行切换。
本实施例还提供一种综合治疗系统(图中未示出)。综合治疗系统包括:治疗仪3000、用于检测人体健康参数的检测装置、用于分析和显示由检测装置采集到的人体数据的分析机构、用于对控制机构下达控制命令的终控机构、以及用于将由检测装置采集到的人体数据发送至分析机构并用于将由终控机构所发出的控制命令发送至控制机构的传输机构。
通过以上设计,利用检测装置对人体的健康情况进行实时检测和监控,采集到的人体数据由传输机构传输至分析机构,分析机构通过基本数据分析和数据处理后将检测结果进行显示,以供医护人员分析诊断,从而做出相应的医疗方案。最终,医护人员能够通过终控机构对控制机构下达控制命令,使控制机构按照相应的给光方式、给光功率、给光时间、间歇时间、疗程等来控制治疗仪3000对人体进行光治疗。
通过以上设计,实现了治疗的智能一体化,综合化程度高,能够比较全面地对人体进行监控和诊断,使治疗和调理过程均具备更高的准确性和针对性,能够适应个体化针对性治疗和调理工作,人力成本也更低,适用于医疗手段的整合和精简。这同时也代表了未来医疗服务的发展趋势。
需要说明的是,在本发明的实施例中,光源可以是普通照明光源、LED型光源、激光光源等,但不仅限于此。在本实施例中,光源为激光光源。
综上所述,本发明实施例提供的导光结构1000能够有效地对光线进行发散和引导,促进光线在整个导光结构1000中充分分散,有助于引导光线进行定向分布和精准发射。导管结构不仅能够用于照明(由于光线能够沿着导光结构1000进行分散,单位面积的强度被弱化,特别适用于柔和光照明),还能够在各种光学设备中充当发光元件(特别是光治疗设备 中的发光装置)。其给光精准,光强柔和,一方面能够进行精确治疗,另一方面还能够避免对人体造成损伤。
本发明实施例提供的发光装置利用导光结构1000对光源2200所产生的光线进行传导,使发出的光线能够沿整个导光结构1000充分分散,光线沿着导光结构1000进行定向分布,光线发射的精确度非常高。这样使得发光装置能够用于充当脑部光学治疗设备中的发光部件。
本发明实施例提供的一种治疗仪3000利用帽体3100作为依托,将导光结构1000铺设在了帽体3100的内侧,导光结构1000能够将光源2200所发出的光在整个帽体3100内部进行分散,并最终朝帽体3100中发射出来。将治疗仪3000佩戴在脑部,光源2200所发出的光线就能够对整个头部进行充分、均匀、大面积照射。而本发明实施例提供的另一种治疗仪3000则能够用于对身体部位神经类病症(例如:背部、胸部等)进行治疗,同时也能够用于辅助性调理。其性能也与上述的治疗仪3000相近。
本发明实施例提供的综合治疗系统实现了治疗的智能一体化,综合化程度高,能够比较全面地对人体进行监控和诊断,使治疗和调理过程均具备更高的准确性和针对性,能够适应个体化针对性治疗和调理工作,人力成本也更低,适用于医疗手段的整合和精简。这同时也代表了未来医疗服务的发展趋势。
对于本发明的实施例而言,导光结构肯定并不局限于本实施例所给出的,当导光结构基于本发明的构思做出调整时,相应的,发光装置、治疗仪、美容面膜及综合治疗系统的结构都可以作出相应的调整,都并不局限于本实施例所给出的。
以上所述的也仅为本发明的优选实施例而已,并不用于限制本发明,对于本领域的技术人员来说,本发明可以有各种更改和变化。凡在本发明的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本发明的保护范围之内。

Claims (51)

  1. 一种导光结构,其特征在于,包括:第一导光件和多个第二导光件;所述第一导光件包括相连接的第一导光段和第二导光段;多个所述第二导光件分设于所述第一导光件沿宽度方向的两端,所述第二导光件一端同所述第一导光段连接,另一端同所述第二导光段连接,所述第二导光件的中部同所述第一导光件间隔设置;
    其中,所述第一导光件和所述第二导光件沿平面或球面铺设,且所述第一导光件和所述第二导光件均由导光材料制成。
  2. 根据权利要求1所述的导光结构,其特征在于,位于所述第一导光件沿宽度方向的同一端的多个所述第二导光件均相互间隔设置,且多个所述第二导光件依次围设形成多层半环状结构。
  3. 根据权利要求2所述的导光结构,其特征在于,位于所述第一导光件沿宽度方向的两端的多个所述第二导光件依次围设形成多层闭环状结构。
  4. 根据权利要求2或3所述的导光结构,其特征在于,相邻两根所述第二导光件之间的间距小于或等于8cm。
  5. 根据权利要求2或3所述的导光结构,其特征在于,相邻两根所述第二导光件同所述第一导光件的连接点之间的间距为0.1~20cm。
  6. 根据权利要求3所述的导光结构,其特征在于,所述导光结构的入射端口设于所述第一导光件的端部。
  7. 根据权利要求6所述的导光结构,其特征在于,所述入射端口的靠近所述第一导光件的一端的外径逐渐增大。
  8. 根据权利要求7所述的导光结构,其特征在于,所述入射端口的靠近所述第一导光件的一端的外径在沿所述第一导光件的宽度方向上逐渐增大。
  9. 根据权利要求6所述的导光结构,其特征在于,所述入射端口为多个,多个所述入射端口并列且间隔设置于所述第一导光件的同一端;
    所述第一导光件具有多个沿其厚度方向将其贯穿的通孔,所述通孔之间间隔设置形成孔组;所述孔组沿所述第一导光件的长度方向设置,沿所述第一导光件的宽度方向多个所述孔组平行且间隔设置,以将所述第一导光件划分为多个光路;每个所述入射端口均与一个所述光路对应设置。
  10. 根据权利要求6所述的导光结构,其特征在于,所述入射端口为多个,多个所述入射端口分设于所述第一导光件的两端,位于所述第一导光件的同一端的多个所述入射端口之间并列且间隔设置;
    所述第一导光件具有多个沿其厚度方向将其贯穿的通孔,所述通孔之间间隔设置形成孔组;所述孔组沿所述第一导光件的长度方向设置,沿所述第一导光件的宽度方向多个所述孔组平行且间隔设置,以将所述第一导光件划分为多个光路;每个所述入射端口均与一个所述 光路对应设置,且对应设置有所述入射端口的每个所述光路的两端均对应设置有所述入射端口。
  11. 根据权利要求9或10所述的导光结构,其特征在于,所述通孔的横截面的面积小于或等于8cm 2
  12. 根据权利要求9或10所述的导光结构,其特征在于,所述通孔包括由两个或多个子孔并列构成的组合孔,相邻两个所述子孔之间具有供光线穿过的间隙,以使相邻两条所述光路中的光线能够相互入射。
  13. 根据权利要求12所述的导光结构,其特征在于,所述子孔的横截面呈多边形状,同一所述组合孔的所述子孔的顶角均相互相向设置。
  14. 根据权利要求12所述的导光结构,其特征在于,所述子孔的横截面呈椭圆状,所述子孔的横截面所对应的椭圆的长轴沿所述第一导光件的长度方向设置,且同一所述组合孔的所述子孔的横截面所对应的椭圆的长轴均平行设置。
  15. 根据权利要求1~3、6~10中任意一项所述的导光结构,其特征在于,所述导光结构还包括第三导光件,所述第三导光件一端同所述第一导光件连接,另一端朝所述第二导光件延伸并同所述第二导光件连接;
    其中,所述第一导光件、所述第二导光件和所述第三导光件三者沿平面或球面铺设,且所述第三导光件也由所述导光材料制成。
  16. 根据权利要求15所述的导光结构,其特征在于,由所述第三导光件的靠近所述第一导光件一端的指向其另一端的切线方向为第一预设方向,所述第一导光件中的光线传导方向为第二预设方向;所述第一预设方向与所述第二预设方向之间的夹角小于90°。
  17. 根据权利要求15所述的导光结构,其特征在于,由所述第三导光件的靠近所述第一导光件一端的指向其另一端的切线方向为第一预设方向,所述第一导光件中的光线传导方向为第二预设方向;所述第一预设方向与所述第二预设方向之间的夹角大于或等于90°,且所述第三导光件和所述第一导光件二者的连接部的外周缘具有反光涂层。
  18. 根据权利要求15所述的导光结构,其特征在于,所述第一导光件与所述第二导光件之间的连接部位、所述第一导光件与所述第三导光件之间的连接部位、以及所述第二导光件与所述第三导光件之间的连接部位均做平滑处理。
  19. 根据权利要求15所述的导光结构,其特征在于,所述第三导光件呈直线型、椭圆弧型或圆弧型中的至少一者。
  20. 根据权利要求1~3、6~10中任意一项所述的导光结构,其特征在于,所述第二导光件呈直线型、椭圆弧型或圆弧型中的至少一者。
  21. 根据权利要求15所述的导光结构,其特征在于,所述导光材料的邵尔A硬度为10~80。
  22. 根据权利要求9或10所述的导光结构,其特征在于,所述导光结构还包括第三导光件,所述第三导光件一端同所述第一导光件连接,另一端朝所述第二导光件延伸并同所述第二导光件连接;
    其中,所述第一导光件、所述第二导光件和所述第三导光件三者沿平面或球面铺设,且所述第三导光件也由所述导光材料制成;沿所述第一导光件的长度方向,相邻两个所述通孔之间的区域为匹配段,所述第二导光件和所述第三导光件均连接于所述匹配段。
  23. 根据权利要求9或10所述的导光结构,其特征在于,所述通孔的孔壁均做平滑处理。
  24. 根据权利要求6~10任意一项所述的导光结构,其特征在于,所述入射端口的入射方向沿所述第一导光件的端部的切线方向设置,所述入射端口的入射端面垂直于所述入射端口的轴心线设置。
  25. 根据权利要求15所述的导光结构,其特征在于,所述第一导光件、所述第二导光件和所述第三导光件三者沿宽度方向的两端的厚度均逐渐减小并形成棱边。
  26. 根据权利要求25所述的导光结构,其特征在于,所述第一导光件、所述第二导光件和所述第三导光件三者沿宽度方向的长度与各自的厚度之比均为2~5:1。
  27. 根据权利要求26所述的导光结构,其特征在于,所述第一导光件、所述第二导光件和所述第三导光件三者沿宽度方向的长度均为0.3~3cm,且二者的厚度均为0.1~1cm。
  28. 根据权利要求15所述的导光结构,其特征在于,所述导光材料包括硅胶、硅树脂、聚苯乙烯、聚碳酸酯、聚甲基丙烯酸甲酯、聚-4-甲基-1-戊烯或聚氨酯中的至少一者。
  29. 一种发光装置,其特征在于,包括光源和如权利要求1~28任意一项所述的导光结构;所述光源的发射端口同所述导光结构的入射端口连接。
  30. 根据权利要求29所述的发光装置,其特征在于,所述发射端口与所述入射端口之间由光纤连接。
  31. 根据权利要求29所述的发光装置,其特征在于,所述导光结构的外侧设置有用于阻挡光线射出的挡光层,以使光线能够更集中地从另一侧射出。
  32. 根据权利要求31所述的发光装置,其特征在于,所述挡光层为反光涂层、全反射光疏层或隔光挡板中至少一者。
  33. 根据权利要求31所述的发光装置,其特征在于,所述导光结构各个导光件的外侧壁面呈平面型、阶梯型或弧面型中至少一者。
  34. 一种治疗仪,其特征在于,包括:帽体和如权利要求29~33任意一项所述的发光装置;所述发光装置的所述导光结构铺设于所述帽体的内侧,所述导光结构沿所述帽体内侧呈球面铺设,且所述导光结构的发光区朝向其内侧;
    其中,所述发光装置的所述光源所发出的光线的波长包括620~1200nm。
  35. 根据权利要求34所述的治疗仪,其特征在于,所述导光结构的入射端口设于所述第一导光件的端部,且所述第一导光件由所述帽体的前端朝指向其后端的方向延伸设置。
  36. 根据权利要求35所述的治疗仪,其特征在于,所述帽体具有用于同人体后颈相贴合的贴合部,所述导光结构均由所述帽体的所述前端延伸至所述贴合部。
  37. 根据权利要求34所述的治疗仪,其特征在于,所述光源所发出的光线的波长为620~760nm,且所述光源在工作状态下以10~100Hz的频率在开关状态之间进行切换。
  38. 根据权利要求34所述的治疗仪,其特征在于,所述光源所发出的光线的波长为760~1200nm,且所述光源在工作状态下以小于或等于60Hz的频率在开关状态之间进行切换。
  39. 根据权利要求34所述的治疗仪,其特征在于,由所述发光区所发射出的光线的功率小于或等于0.5W/cm 2
  40. 根据权利要求34所述的治疗仪,其特征在于,所述导光结构的所述发光区还盖设有用于减弱光线强度的滤光布。
  41. 根据权利要求34所述的治疗仪,其特征在于,所述治疗仪还包括震动按摩仪,所述震动按摩仪设于所述帽体,所述导光结构的内侧凸设有用于对人头部进行按摩的按摩凸点。
  42. 根据权利要求41所述的治疗仪,其特征在于,所述按摩凸点按照人头部穴位进行分布。
  43. 根据权利要求41所述的治疗仪,其特征在于,所述按摩凸点也由所述导光材料制成。
  44. 根据权利要求34所述的治疗仪,其特征在于,所述治疗仪还包括所播放音乐的频率为20~50Hz的音频播放器。
  45. 根据权利要求34或41或44所述的治疗仪,其特征在于,所述治疗仪还包括用于控制各电气组件开启和关闭的遥控器,所述遥控器具有闪烁频率为40Hz的用于显示各电气组件工作状态的显示屏。
  46. 根据权利要求34或41或44所述的治疗仪,其特征在于,所述治疗仪还包括用于控制各电气组件的开关及工作时长的控制机构,各个电气组件均与所述控制机构电连接。
  47. 根据权利要求46所述的治疗仪,其特征在于,所述治疗仪还包括用于调控所述控制机构的控制端,所述控制端为遥控器、手机APP或电脑软件。
  48. 一种治疗仪,其特征在于,包括:板体和如权利要求29~33任意一项所述的发光装置;所述板体呈平板状,所述发光装置的所述导光结构铺设于所述板体的一侧并沿所述板体的板面呈平面铺设,所述导光结构的发光区朝向其远离所述板体的一侧;
    其中,所述发光装置的所述光源所发出的光线的波长包括620~1200nm。
  49. 一种美容面膜,其特征在于,包括:面罩和如权利要求29~33任意一项所述的发光装置;所述发光装置的所述导光结构铺设于所述面罩的内侧并沿所述面罩的内壁呈弧状铺设,所述导光结构的发光区朝向其远离所述面罩的一侧;所述导光结构开设有用于同所述面罩的眼部、口部、鼻部处的开孔相对应的让位孔;
    其中,所述发光装置的所述光源所发出的光线的波长包括620~1200nm。
  50. 根据权利要求49所述的美容面膜,其特征在于,所述导光结构的所述发光区还盖设有用于减弱光线强度的滤光布。
  51. 一种综合治疗系统,其特征在于,包括:
    如权利要求34或48所述的治疗仪;
    设于所述治疗仪的震动按摩仪;
    所播放音乐的频率为20~50Hz的音频播放器;
    用于控制所述震动按摩仪、所述音频播放器和所述治疗仪的所述光源的开关及工作时长的控制机构;
    用于检测人体健康参数的检测装置;
    用于分析和显示由所述检测装置采集到的人体数据的分析机构;
    用于对所述控制机构下达控制命令的终控机构;以及
    用于将由所述检测装置采集到的所述人体数据发送至所述分析机构、并用于将由所述终控机构所发出的所述控制命令发送至所述控制机构的传输机构。
PCT/CN2018/099813 2018-08-02 2018-08-10 导光结构、发光装置、治疗仪、美容面膜及综合治疗系统 WO2020024329A1 (zh)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111983747A (zh) * 2020-09-24 2020-11-24 Tcl通力电子(惠州)有限公司 导光结构和智能灯光装置
CN113349546A (zh) * 2021-06-16 2021-09-07 洋浦吉商生物科技有限公司 光疗深层养护、智能反馈按摩导入面膜及其制备方法

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113663226B (zh) * 2021-07-31 2022-06-24 天一智能科技(东莞)有限公司 基于全光谱led光照美容装置及电子设备

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2764433Y (zh) * 2005-01-19 2006-03-15 牛建民 半导体激光散光气血治疗仪
US20100204762A1 (en) * 2006-01-30 2010-08-12 Photothera, Inc. Apparatus and method for indicating treatment site locations for phototherapy to the brain
CN204890973U (zh) * 2015-06-24 2015-12-23 北京脑重大疾病研究院 一种红光头盔
US9724536B1 (en) * 2014-04-22 2017-08-08 Michael I. Rabin Embedded fiber phototherapy light cap

Family Cites Families (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2006192073A (ja) * 2005-01-13 2006-07-27 Matsushita Electric Ind Co Ltd 光線治療器
CN101732804B (zh) * 2008-11-20 2011-06-15 北京大学 昼夜节律紊乱治疗仪及其制作方法
CN102553084B (zh) * 2012-03-02 2014-12-10 中山大学 一种光治疗装置
CN210057152U (zh) * 2018-08-02 2020-02-14 夏云程 导光结构、发光装置、治疗仪、美容面膜及综合治疗系统

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2764433Y (zh) * 2005-01-19 2006-03-15 牛建民 半导体激光散光气血治疗仪
US20100204762A1 (en) * 2006-01-30 2010-08-12 Photothera, Inc. Apparatus and method for indicating treatment site locations for phototherapy to the brain
US9724536B1 (en) * 2014-04-22 2017-08-08 Michael I. Rabin Embedded fiber phototherapy light cap
CN204890973U (zh) * 2015-06-24 2015-12-23 北京脑重大疾病研究院 一种红光头盔

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111983747A (zh) * 2020-09-24 2020-11-24 Tcl通力电子(惠州)有限公司 导光结构和智能灯光装置
CN113349546A (zh) * 2021-06-16 2021-09-07 洋浦吉商生物科技有限公司 光疗深层养护、智能反馈按摩导入面膜及其制备方法

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