KR100893761B1 - A light treatment apparatus for capsule type - Google Patents

Abstract

A capsule type light treatment apparatus is provided to offer the user bio stimulation effect by radiating low level light to the stomach or intestine when the user takes the apparatus. A capsule type light treatment apparatus(10) comprises a light source(100), a power supply part(200), and a capsule part(300). The light source emits the light within a wavelength range verified by the LLLT(Low Level Laser Therapy), where the wavelength range is 400~950nm having treatment effect through bio stimulation. The power supply part, including a battery and a power on/off switch, supplies power to the light source. The capsule part, encapsulating the light source and the power supply part, is made of silicon so that the light emitted from the light source can be transmitted.

Description

A light treatment apparatus for capsule type

The present invention relates to a capsule-type light therapy device, and more particularly, by stimulating the bio-stimulation and treatment effect through low-power light (monochrome light) to the internal organs of the human body such as stomach and intestine by the user taking a capsule containing the LED or LD To provide.

The therapeutic effect through the stimulation of the living body by low-power light irradiation is the physiological result of the energy level of a specific element is increased and the cell or tissue unit is activated when the light is irradiated to the cell or the living tissue, promoting cell division, promoting tissue regeneration, promoting tissue metabolism, etc. It generates anti-inflammatory effects, pain reduction, and cell growth effects.

Recently, low-level laser light therapy (LLLT) has been developed to actively use this action to treat various diseases, and has been started to be used in various disease fields. The biochemical action of light is the wavelength, polarization, and intensity of light. According to the experiment, light having energy of less than 1W as polarized light in the range of 400nm to 950nm is known to be the most effective.

The low-power laser light therapy (LLLT) described above corresponds to internationally recognized therapies. This provides a therapeutic effect such as pain relief, tissue regeneration, and elimination of a cause disease.

In addition, a light source means for generating a wavelength band in the range of 400nm to 950nm is applied to various medical apparatuses to which the low power laser light therapy (LLLT) is applied. LED (Light Emitting Diode) or LD (Laser Diode) It is commonly used.

However, the conventional low-power light therapy is a body skin tissue or muscle tissue that is the target, various forms for irradiating the human skin has been proposed and in use, a method of irradiating light to the internal tissues of the human body And the device has not been proposed.

According to the prior art, a configuration in which the lighting means is installed together with the photographing means has been used in order to smoothly photograph the internal organs of the human body including the stomach in various types of endoscope devices.

However, such an endoscope device has a purpose for taking pictures of the internal organs of the human body, and the luminaire has a purpose for illuminating only a dark place. That is, the above-described illuminating means for the purpose of the illumination function is that the wavelength range does not belong to the wavelength range required by the low power laser light therapy (LLLT), and the treatment effect does not occur as multi-wavelength light.

If the wavelength range having the therapeutic effect required by the low power laser light therapy (LLLT) is applied as the lighting means, the light is a short wavelength (monochromatic light) and thus cannot perform an illumination function.

As described above, the therapeutic effect through the biological stimulation through low-power light irradiation is to provide a function of physiological activation of the living body, but methods and apparatuses for applying it to internal human tissues (digestive organs including the stomach and intestine) have been conventionally There was no suggestion.

If the low power light therapy is applied to the internal tissues of the human body (the digestive system including the stomach and the intestine), it is thought that many users can improve the therapeutic effect while reducing the number of medications. The extension of the range of applications was more demanding in modern medical technology.

Hereinafter, a paper containing a medical effect and its contents according to the wavelength of light will be presented. Figure 1 shows the spectrum of the light arranged in accordance with the wavelength range of the light.

① 590 nm effect -Texture, Wrinkles, Erythema, Pigmentation

Mechanism-Skin texture improvement by surface profilometry accompanied by increase collagen1 deposition with reduced MMP-1 (Collagenase) activity in papillary dermis.

     Paper-“Clinical Trial of a Novel Non-Thermal LED Array for Reversal of Photoaging: Clinical, Histologic, and Surface Profilometric Results.”

By Robert A Weiss, et al. Lasers in Surgery and Medicine 36: 85-91.2005.

② 660 nm effect -sunburn & Post Inflammatory Hyperpigmentation (PIH) prevention

Mechanism-The induction of cellular resistance to UV insults may be explained by the induction of a state a natural resistance to the skin via specific cell signaling pathways.

Paper-“LED Photoprevention: Reduced MED Response Following Multiple LED Exposures” By Daniel Barolet, MD. Et al. Lasers Surg. Med. 40: 106-112.2008.

③ 415 & 633 nm effect -acne

Mechanism- Light absorbed by coproporphyrin III, a porphyrin produced by p.acnes, the cause of acne, causes a photodynamic reaction, killing the causative bacteria.

Paper-“Blue & Red Light Combination LED Phototheraty for Acne Vulgaris in Patient with Skin Phototype IV.” By Seung Yoon Lee, MD. et al. Lasers Surg. Med. 39: 180-188.2007.

④ 730 & 880 nm effect- wound healing, regeneration.

-Upregulate the production of proangiogenic factors (VEGF, NO) by macrophages in the wound bed.

Paper-“LED Therapy Increase VEGF and NO Production in Raw 264.7 Cells.” By M Leong. Et al. Sound Repair and Regeneration Vol 12.2008.

Therefore, the present invention has been made to solve the above-mentioned problems of the prior art, the object of the present invention to accommodate the user to take the light source portion made of LED or LD inside the sealed capsule.

In addition, the light source unit of the present invention is to generate a light source in the wavelength range of 400nm ~ 950nm is another object to provide a therapeutic effect through the biological stimulation inside the human body.

As a technical means for achieving the above object, the present invention comprises a light source unit for generating and irradiating a light source in the wavelength range of 400nm ~ 950nm having a therapeutic effect through a biological stimulation; A power supply unit supplying operation power to the light source unit; And a capsule part formed of a light-transmissive material through which light emitted from the light source part can pass, by sealing the light source part and the power supply part.

Preferably, the light source unit is characterized in that a light emitting diode (LED) is applied.

Preferably, the light source unit is characterized in that the laser diode (LD) is applied.

Preferably, the capsule portion is characterized in that made of glass.

Preferably, the capsule portion is characterized in that made of silicon.

According to the capsule-type light therapy device according to the present invention, the user can take the LED or LD that emits a light source having a specific wavelength within the sealed capsule, the user can take it, and thus the internal tissue of the human body (digestive organ) It has an effect of providing a therapeutic effect through the biological stimulation by low-power light irradiation.

In addition, the capsule-type phototherapy device according to the present invention is not harmful to the human body because it is discharged to the stool after taking, and when the treatment is applied, the patient has the effect of improving the therapeutic effect while reducing the number of medications. .

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 is a perspective view schematically showing a capsule-type light therapy apparatus according to an embodiment of the present invention, Figure 3 is a front sectional view of the capsule-type light therapy device, Figure 4 is an exploded view of the internal configuration of the capsule-type light therapy device to be.

As shown in Figures 2 to 4, the capsule-type light therapy device 10 operates on the light source unit 100 and the light source unit 100 for generating and irradiating a light source having a specific wavelength band having a therapeutic effect through biological stimulation. It is configured to include a power supply unit 200 for supplying power, and the capsule unit 300 of the function to seal the light source unit 100 and the power source unit 200 to be blocked from the outside.

The light source unit 100 generates a light source of a specific wavelength having a therapeutic effect, LED or LD is applied, the wavelength range of the light source generated from the light source unit 100 corresponds to 400nm ~ 950nm, the output value is 1mW ~ 1000mW It is characterized by the scope of application. Preferably, the wavelength of the light source having a therapeutic effect is characterized in that 415nm, 590nm, 635nm, 660nm, 670nm, 730nm, 808nm, 880nm are applied, respectively.

The wavelength range of the light source unit 100 as described above is a range in which the therapeutic effect is verified by Low Level Laser Therapy (LLLT), and the specific wavelength range of the light source unit 100 has a therapeutic effect. Short wavelengths are applied, which is distinguished from multi-wavelength luminaires that only want to illuminate light in the dark.

The power supply unit 200 provides operating power through electrical connection with the light source unit 100. The power supply unit 200 may include a battery and further include switching means for controlling on / off of the power supply. .

Preferably, the switching means may be a method using a magnetic force or a method using a wireless signal, and the like, a variety of switching methods using such a non-contact method is already known.

The capsule part 300 seals the light source part 100 and the battery 200, and is made of a light-transmissive material through which light emitted from the light source part 100 can pass. Preferably, the capsule portion 300 is characterized in that the molded by applying a glass or silicon material.

5 is a state diagram used for the capsule-type light therapy device according to an embodiment of the present invention.

As described above, the capsule type light treatment device 10 taken by the user is a therapeutic effect through the biological stimulation according to the low-power light irradiation from the inside of the body, it is various to the digestive system inside the body until it is discharged to the feces through the stomach and intestines To provide an effect.

As described above, although the technical idea of the present invention has been described with reference to the preferred embodiments, those skilled in the art will be able to vary the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. Can be modified and changed.

Figure 1 shows the spectrum of the light arranged in accordance with the wavelength range of the light,

2 is a perspective view schematically showing a capsule-type light therapy apparatus according to an embodiment of the present invention,

Figure 3 is a front cross-sectional view of the capsule phototherapy device,

Figure 4 is an exploded view of the internal configuration of the capsule phototherapy device,

5 is a state diagram used for the capsule-type light therapy device according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

10: capsule type light treatment device 100: light source

200: power supply portion 300: capsule portion

Claims (5)

A light source unit 100 for generating and irradiating a light source in a wavelength range of 400 nm to 950 nm having a therapeutic effect through biological stimulation; A power supply unit 200 supplying operation power to the light source unit 100; The encapsulated light, comprising: a capsule part 300 formed of a light-transmissive material through which light emitted from the light source part 100 may be transmitted by sealing the light source part 100 and the power source part 200. Treatment device. The method of claim 1, The light source unit 100 is a capsule light treatment device, characterized in that the LED (Light Emitting Diode) is applied. The method of claim 1, The light source unit 100 is a capsule type light treatment device, characterized in that the LD (Laser Diode) is applied. The method of claim 1, The capsule portion 300 is a capsule-type light therapy device, characterized in that made of glass. The method of claim 1, The capsule portion 300 is a capsule-type light therapy device, characterized in that made of silicon.

Images