KR101708904B1 - Acupuncture device for light acupuncture and medicine needle syringe - Google Patents

Abstract

The present invention relates to an acupuncture device that irradiates a needle acupuncture site with ultraviolet rays after the needle acupuncture site is confirmed. More particularly, the acupuncture device confirms the needle acupuncture site with an instrument using a fiber optic endoscope principle and connected to a beam needle device, allows the beam needle device to invade the surface of skin corresponding to the confirmed needle acupuncture site, and irradiates the invaded part with the ultraviolet rays. The present invention further includes a medicine needle liquid injection device capable of medicine needle liquid injection. In this acupuncture device according to the present invention, the medicine needle liquid is injected after the beam needle device comes into contact with the target needle acupuncture site with accuracy via the instrument using the fiber optic endoscope principle. A light source device of the present invention is provided with a light changing unit that is capable of frequently changing and emitting ultraviolet rays and white light moving toward a tip of the beam needle device through an optical fiber, is provided with a light adjusting unit that is capable of adjusting the intensity of the light and the length of time of the emission, and thus the light can be changed and the intensity of the light and the length of time of the emission can be adjusted.

Description

[0001] Description [0002] ACUPUNCTURE DEVICE FOR LIGHT ACUPUNCTURE AND MEDICINE NEEDLE SYRINGE [0003]

The present invention relates to an acupuncture device for irradiating ultraviolet rays to a stomach area after confirming a stomach area, and more particularly, to an acupuncture device using a device using a fiberoptic endoscope principle connected to a photosensor, To an acupuncture device for irradiating an ultraviolet ray to an invasive site by infiltrating a radial needle apparatus on the surface of the skin corresponding to the acupuncture point.

The present invention further relates to an acupuncture device for injecting a medicine solution after a light irradiation device contacts a desired target area through a device using a fiber optic endoscope principle .

In the present invention, the light source device includes a light modulator capable of modulating the intensity and the irradiation time of the light, the light modulator being capable of irradiating white light and ultraviolet light, The present invention relates to an acupuncture device for adjusting a change in light intensity and an irradiation time.

The place where acupuncture is placed in one room or moxibustion is performed, and the part on the meridian route of the human body is called acupuncture (经 孔), and the line that goes along with acupuncture is called gangap (经脉).

The gyeongmaek belong to the twelve gyeongmaek, the twelve gyeongsik, the twelve gyeongseok, and the twisted gyeonggak. The gypsum has its own moving parts and is associated with certain books and organs. Through this gyeonggi (经 气) to go to the books and institutions to maintain the normal function and functioning to connect the whole body to a unified body.

In addition to the gyeongmaek gyeongmaek out of the ganglion spread throughout the body as a network of naturopae (絡脉) is called, and the vagina are again laced with (孫 絡) It acts to supply glioma. In oriental medicine, gyeonggak is called collective gyeonggak.

The chi (气) through the meridian, chi (flow) or clogging the flow of the accumulation of books and organs and causes abnormalities and diseases. As a way to cure this, stimulation with acupuncture or moxibustion will restore normal circulation and restore health.

Several hypotheses have been raised on the basis of acupuncture and moxibustion. Among them, Dr. Kim Bong-Han's "Study on the actual condition of meridian (Aug. 1961)", the third of the body's immunity with blood vessels and lymphatic system The circulatory system claims a "sealed theory" called the primo vascular system.

According to Dr. Bonghan 's theory of Bonghan, Acupuncture points to the position of an egg - shaped primordode on the dermal layer of the skin. The primordial nodule is surrounded by connective tissue and consists of cortex and submucosal. In addition, a small vascular network is abundantly distributed around and inside the primonal node, and it is connected to another primonal node by the primordial tube.

The Primo tube and the primon node are not only on the skin but also spread throughout the body to the inside of the body. This is called the primo-network. The physiological function of the Primo network is done by liquid flowing through the primo tube, which contains hyaluronic acid, adrenaline, noradrenaline and other sex hormones.

Primo microcells, which have the shape of a ball-shaped granule, flow through the primo network, where the primo microcells are sometimes interpreted as the spherical granules of DNA.

The primo microcells move along the primo tube and regenerate the cells when they reach the damaged tissue or cells. At this time, the primo microcell is constituted as a cell, and it becomes a primo microcell in the course of cell apoptosis do.

In addition, recent studies have shown that primo microcells activate regenerative function when light is received from primordodes, particularly when irradiated with ultraviolet light at wavelengths ranging from 355 to 375 nm (J International Society of Life Information Science, 23 (2), 297-300, 2005, UV-A-Induced Activation of Bonghan Granules in Motion, Kwang-Sup SOH).

In other words, Kim Bong-han's "Bonghan doctrine" is a physical entity in which meridian exists in the body, and thus meridian has anatomical organization separately. There is a continuing claim that Dr. Kim's research results are appropriate (The Scientific Ideology, Vol. 47 (2003 Winter) pp.68-88, The Actuality of Acupuncture and Meridian in Bongan Theory, So Kwang-Sup).

The acupuncture point detecting apparatus and the acupuncture treatment apparatus based on the "seal theory" have been developed. In the acupuncture treatment apparatus, recently, in the oriental medicine, a device or equipment capable of irradiating natural or artificial light, Ray therapy to treat disease by stimulating the flow of blood (气) and blood (blood).

Phototherapy is largely classified into non-invasive therapies and invasive therapies. Non-invasive therapies direct light to the surface of the skin to penetrate light into the acupoint. It penetrates into the skin and irradiates the light to penetrate the light to the point of acupuncture.

Most of the non-invasive therapies are used because most of the rays irradiated on the surface of the skin are reflected or scattered on the surface of the skin and are lost, so that the rays can not reach the acupuncture point efficiently. In addition, when ultraviolet rays are irradiated to the skin, ultraviolet rays penetrate less than 1 mm inside the skin because the dermal layer of the skin is 1 to 4 mm, and ultraviolet rays can not penetrate to the dermal layer of the skin. Therefore, There is a problem that it is difficult to achieve.

In this regard, an invasive therapeutic method of irradiating a needle into the skin by irradiating the needle into the skin has been developed. The invasive therapeutic method can exhibit the effect of the ray because the ray can reach the self-healing part more efficiently than the non- There is a problem that it is difficult to detect the position of the self-healing portion of the light beam. That is, the ultraviolet activated cells (the cells whose activity is increased by ultraviolet rays, which are located within the area of the self-healing zone, typically, as mentioned above, have a primo microcell) Should be provided.

Therefore, it is required to develop an acupuncture device which confirms the detected area of the stomach to irradiate the light at the stomach area and acquires an image to invade the surface of the skin where the stomach area is located.

Further, it is required to develop an acupuncture device which confirms the area of the self-healing area to inject the medicine solution at the area of the self-healing area and acquires an image to invade the surface of the skin where the self-healing area is located.

Accordingly, the present inventors have found an acupuncture device which irradiates light to the identified area of the stomach after confirming the position of the stomach area.

Further, the present inventors have found an acupuncture device for injecting a solution of a medicine for treatment at the identified spot of the acupuncture after confirming the position of the acupuncture point.

The prior art related to the present invention is disclosed in Korean Patent Registration No. 10-1499433 (prior art document 1), which describes an endoscope equipped with a scanning function. Korean Patent Registration No. 10-1472565 (Prior Art 2) discloses an invasive light irradiation apparatus for activation of primo-micro cells.

The present invention relates to an endoscope equipped with a scanning function capable of injecting a drug, which is similar to the present invention in that the injection needle is capable of injecting a drug. However, in the construction of a device using the endoscope principle Unlike the present invention in which an instrument using an endoscopic principle is installed inside a needle, in the prior art document 1, an endoscope apparatus is mounted outside the injection needle separately from the injection needle. The device using the endoscopic principle of the present invention is configured for detecting the tissue and the location of the cells in the skin. The device of the endoscope constructed in the prior art document 1 can not detect the tissue in the skin and the position of the cell. In the prior art document 1, the irradiation device is also mounted outside the injection needle separately from the injection needle.

Therefore, the prior art 1 can not exhibit the therapeutic efficacy of the present invention in which the needle penetrates the surface of the skin to detect the position of the tissue and the cells in the skin, and irradiate light and tissue in the skin.

Background Art [0002] In the prior art document 2, an invasive light irradiation apparatus for activating primo-microcytes that promotes tissue regeneration in premature micro-cells damaged by aging or disease, The present invention is similar to the present invention in that the activity of the ultraviolet activated cell is increased by irradiating the ultraviolet region on the ultraviolet region. However, the structure and principle of the apparatus for identifying the spot region differ. In the prior art document 2, the emitted electron beam is irradiated to the skin, and the transmitted electrons transmitted through the skin among the electron beams irradiated to the skin are received by the camera to acquire an image. In the present invention, .

Also, in the prior art document 2, it is possible to acquire an image by providing a means (camera or the like) for acquiring an image to the probe, but a detailed description of the device configuration is not described. In the prior art 2, when the probe is equipped with a means for image acquisition, an optical fiber for image acquisition and an optical fiber for irradiating ultraviolet light are used. However, in the present invention, since the optical fiber for image acquisition and the optical fiber for irradiating ultraviolet rays are used through a single optical fiber, the diameter of the acupuncture device can be further reduced. As a result, the pain felt at the invasive site can be reduced.

Also, in the prior art document 2, there is no description about a structure capable of injecting the medicine solution into the mastication site.

Therefore, the prior art 2 can not show the therapeutic efficacy of the present invention of directly infiltrating the acupuncture surface into the skin to directly detect the position of the tissues and cells in the skin, and injecting the drug solution into tissues and cells in the skin.

Korean Registered Patent No. 10-1499433 (Feb. Korean Registered Patent No. 10-1472565 (Aug. 2014)

An object of the present invention is to provide an acupuncture device for detecting the exact position of a stomach area through a device using a fiberoptic endoscope principle connected to the inside of a stomal device by invading a surface of the skin, .

Another object of the present invention is to provide a method for detecting the exact position of a mastication site through a device using a fiber optic endoscope principle connected to the inside of a light ray apparatus by infiltrating a light ray apparatus on the surface of the skin, To provide an acupuncture device.

It is still another object of the present invention to provide an acupuncture device capable of modifying the light flowing through the optical fiber toward the tip of the light beam device and controlling the light intensity and the irradiation time.

It is another object of the present invention to provide an acupuncture device capable of absorbing a drug solution injected around a primordode through an ultrasonic stimulator into a primordode to deliver a drug.

In order to solve the above problems, an acupuncture device according to the present invention includes a light source device for generating and controlling white light, which is illumination light for illuminating a dark body, and ultraviolet light, which is therapeutic light for activating ultraviolet activated cells; A light ray irradiating device for irradiating the light generated by the light source device to the skin and irradiating the light ray; A video device capable of confirming the self-healing part and confirming with the image; And a drug solution injecting device capable of injecting a drug solution into the detected spot of the autopsy region confirmed from the imaging device, wherein ultraviolet rays activating the ultraviolet activated cells are irradiated to the detected spot portion observed through the imaging device, Injected into the chamber.

To this end, the ray guiding unit of the present invention comprises a light propagating unit including an optical fiber for optical propagation, an optical lens and a prism; And an upper wave portion including an optical fiber for phase wave, an optical lens and a prism.

In addition, the present invention further provides an ultrasonic stimulator to absorb the drug solution injected around the primordode into the primordode, thereby transferring the drug.

The acupuncture apparatus according to the present invention is capable of precisely detecting the position of the self-healing portion through the device using the fiber optic endoscope principle, and accordingly the optical needle can invade the exact position of the self-healing portion and irradiate ultraviolet rays, And has an effect of rapidly irradiating ultraviolet rays to a portion of a magnetic contact area.

In addition, since the optical needle immersion device can infiltrate the exact position of the self-healing part and inject the medicine solution, the medicine solution can be injected more finely and quickly at the self-immersion area.

Further, since the light flowing through the optical fiber can be changed through the light source device and the intensity and irradiation time of the light can be adjusted, the light can be changed according to the purpose of use to increase the easiness of detection of the self-healing portion, And has an effect of irradiating appropriate light.

In addition, an ultrasound stimulator is additionally provided to inject drug solution, stimulate ultrasound, absorb drug injected into premormode, and deliver drug.

1 shows a configuration of an acupuncture device according to a first embodiment of the present invention.
FIG. 2 shows a configuration of a light beam acupuncture device in an acupuncture device according to a first embodiment of the present invention.
FIG. 3 illustrates an example of light and image propagated through a light source in the acupuncture device according to the first embodiment of the present invention.
4 is a view illustrating a configuration of an imaging apparatus connected to a light beam acupuncture device in an acupuncture device according to a first embodiment of the present invention.
FIG. 5 shows a configuration of an imaging apparatus in an acupuncture apparatus according to the first embodiment of the present invention.
FIG. 6 illustrates the structure of a drug solution injection device connected to a light beam line in an acupuncture device according to the first embodiment of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor can properly define the concept of the term to describe it in the best way of its own invention And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents And variations are possible.

Before describing the present invention with reference to the accompanying drawings, it is not shown what is not necessary in order to reveal the gist of the present invention, that is, a publicly known structure that a person skilled in the art can easily add, .

In other words, the present specification emphasizes that the present invention is not limited to the above-described configuration.

The present invention relates to a method of irradiating ultraviolet light to a spot of a stomach by irradiating ultraviolet rays and injecting a solution of the stomach with the spot of the stomach being visually inspected through a device using a fiber optic endoscope principle, The present invention also relates to an acupuncture device capable of activating ultraviolet activated cells present in a self-healing area.

Primo-microcells, primo-vessels, and primo-nodes are described as follows.

Primo-microcell refers to a live egg (meaning live eggs) in Dr Bong-Han Kim's philosophy. Primo-microcells are composed of a primo-tube and a primonode (hereinafter referred to as "Primo-microcell" Referred to as a " primo circulatory system "), and includes DNA grains.

These primo-microcells are known to replicate dead cells in response to aging or disease through the primo-vascular system.

A primo tube means a tube that connects the primordes present in the human body.

Primordodes are known to exist in the dermis and organs of the skin.

Recent studies have shown that primomicell cells extracted from prionnodes increase their motility when irradiated with ultraviolet light at wavelengths of 355 to 375 nm. This means that the motility of the primo-micro cells is activated when ultraviolet light of 355 ~ 375 nm wavelength is irradiated in the primonal.

That is, the ultraviolet rays should be irradiated to the tissue by detecting tissues in which ultraviolet activated cells including the primo microcells having increased activity when irradiated with ultraviolet light are distributed. To this end, The position of the self-healing part was visually confirmed through the imaging device by connecting the devices using the optical endoscope principle, and the motility of the ultraviolet activated cells was increased by irradiating the spot of the self-healing part with the ultraviolet light.

Example  1. Acupuncture device for glare and flu shot

1 shows a configuration of an acupuncture device according to a first embodiment of the present invention.

The light source apparatus 100 may include a light generating unit 110, a light modifying unit 120, and a light modulating unit 130 to generate and change light that flows through the optical fiber.

The light generating unit 110 generates light that flows through the optical waveguide optical fiber 211 in a light ray sink 200 to be described later. The light generating unit 110 includes a button and an input unit The interface can be configured.

The light may include white light using all wavelengths of visible light and ultraviolet light using shorter wavelengths than visible light. The white light can perform the function of illuminating the dark body and the ultraviolet light can perform the function of increasing the motility of the ultraviolet activated cell at the self-healing part.

The ultraviolet rays to be irradiated may be irradiated with ultraviolet rays having a wavelength of 180 to 400 nm, and ultraviolet rays having a wavelength capable of activating the primonal points of the self-immersion area may be irradiated.

The white light and the ultraviolet light flow in the direction of the front end of the light guide apparatus 200 through the optical waveguide optical fiber 211 among the optical fibers installed in the light guide apparatus 200 and are mutually converted through the light source changing unit 120, . ≪ / RTI >

That is, when it is used for illuminating a dark body, it is selected as a white light when it is used for confirming a stomach area, and then it is irradiated by ultraviolet light to increase the motility of a UV activated cell after a spotted area is confirmed.

The light control unit 130 may include an optical intensity controller 131 and an irradiation time controller 132. The optical intensity controller 130 controls intensity and intensity of light passing through the optical fiber.

The light intensity adjusting unit 131 adjusts the intensity of the light irradiated from the light guide apparatus 200. The light source apparatus 100 is provided with an interface such as buttons and input means for controlling the intensity Lt; / RTI >

The irradiation time adjusting unit 132 adjusts the irradiation time of the light irradiated from the light irradiator 200. The light source device 100 may be provided with an interface such as a button and an input unit for adjusting the irradiation time of the light .

FIG. 2 is a perspective view illustrating a configuration of a light beam acupuncture device in an acupuncture device according to a first embodiment of the present invention. FIG. 3 is a perspective view of an acupuncture device according to a first embodiment of the present invention. For example.

The light ray irradiator 200 may be configured to include a light propagating unit 210 and an upper wave unit 220,

The light propagating unit 210 may include a light propagating optical fiber 211, an optical lens, and a prism 213 through which light emitted from the light source device 100 propagates.

As described above, the optical waveguide optical fiber 211 is an optical fiber through which white light, which is an illumination light for illuminating a dark body, and ultraviolet light, which is a therapeutic light for increasing the motility of an ultraviolet activated cell, are transmitted through a mast portion. The light emitted from the light source device 100 may propagate in the direction of the tip end of the light guide apparatus 200 through the optical waveguide optical fiber 211.

The optical lens of the light propagating unit 210 mounted on the inner end of the light guide apparatus 200 collects the light propagated through the light propagating optical fiber 211 from the light source device 100 into one place, It is possible to concentrate the light in a desired direction when irradiating the autofocus area through the tip of the optical fiber 211 for propagation.

As the optical lens of the light propagating unit 210, various lenses may be used, for example, a condenser lens 212 may be used, and other means other than the lens described above may be used according to design conditions, Device. ≪ / RTI >

In addition, the optical lens of the light propagating unit 210 may be composed of a plurality of optical lenses, for example, two optical lenses.

The prism 213 of the light propagating unit 210 causes dispersion, refraction, and / or reflection of light, and the light propagated from the light source device 100 through the light propagating optical fiber 211 through the prism 213 The propagation direction can be adjusted so that it can be transmitted to the tip of the light guide apparatus 200.

The prism 213 of the light propagating unit 210 may be a dispersion prism, a refraction prism and / or a reflection prism. For example, a reflection prism may be used. Depending on design conditions, Means can be used and can be replaced by a device accordingly.

In addition, the prism 213 of the light propagating unit 210 may be composed of a plurality of prisms 213, for example, four prisms 213.

The phase wave portion 220 propagates to the imaging device 300 using the light emitted through the light propagating portion 210 and detected by the optical lens. The phase wave portion 220 includes an optical waveguide 221, an optical lens, and a prism 223).

The phase-wave optical fiber 221 is an optical fiber that is detected by the optical lens using the light irradiated through the optical waveguide 210 and flows through the phase. The image detected by the optical lens can propagate in the direction of the image device 300 through the optical fiber 221 for the phase wave.

The optical lens of the phase wave portion 220 mounted on the end of the inner side of the light beam irradiator 200 detects the phase of the image propagated through the prism 223 of the phase wave portion 220, It can be transmitted to the optical waveguide 221.

Various lenses may be used for the optical lens of the phase wave portion 220, and for example, the objective lens 222 may be used, and other means than the above-described lens may be used according to the design conditions, Device. ≪ / RTI >

In addition, the optical lens of the phase wave section 220 may be composed of a plurality of optical lenses, for example, two optical lenses.

The prism 223 of the phase wave section 220 causes dispersion, refraction, and / or reflection of light, so that the direction of propagation of the phase can be adjusted so that the phase of the objective lens 222 can be easily detected through the prism 223 .

The prism 223 of the phase wave section 220 may be a dispersion prism, a refraction prism and / or a reflection prism. For example, a reflection prism may be used. Depending on design conditions, Means can be used and can be replaced by a device accordingly.

In addition, the prism 223 of the phase wave section 220 may be composed of a plurality of prism elements, for example, four prisms.

An optical fiber 211 for a light wave propagation which is a path for connecting the light source device 100 and the light needle device 200 and an optical fiber 221 for a phase wave which is a path for connecting the light sink 200 and the image device 300 The optical fiber may be made of a material which does not transmit light and may be totally reflected at the inner boundary of the optical fiber so that light may not be leaked out of the optical fiber.

In addition, the light guide device 200 may be made of a material harmless to the human body. For example, the light guide device 200 may be made of a natural resin such as gold or resin and a synthetic resin. In addition to the above- Other materials that are harmless to the human body can be used while having the strength to be invasive.

When the optical needle stapler 200 is invaded into the skin, the depth of invasion at the stapled area may be limited so that targeted cells and tissues are not passed and invaded. The depth of penetration at the stab site can be 1 to 9 mm, for example 1 to 4 mm.

The light guide apparatus 200 can be used in accordance with the user's intention. The light beam stitching device 200 is infiltrated into the skin, and the disease can be infected if the light stitching device used for the patient who holds the disease is used for the other person.

Since the ray irradiator 200 can be replaced and used in this way, the hygiene problem can be improved and the infectious disease can be prevented.

4 is a view illustrating the configuration of an imaging apparatus connected to a light beam acupuncture apparatus according to a first embodiment of the present invention, and FIG. 5 is a view illustrating the configuration of an imaging apparatus in an acupuncture apparatus according to the first embodiment of the present invention will be.

The image device 300 is an apparatus for confirming an image transmitted through the phase wave unit 220 through at least one selected from the naked eye and a display device and includes an image verification unit 310 and a video display unit 320 .

The image verification unit 310 can be configured to include an optical lens, which can be connected to the phase wave unit 220 by visually confirming an image transmitted through the phase wave unit 220.

As the optical lens of the image check unit 310, various lenses may be used. For example, the alternative lens 311 may be used, and other means other than the lens described above may be used according to design conditions. Device. ≪ / RTI >

The alternative lens 311 further enlarges the image created by the objective lens 222 mounted on the light beam steerer 200 so that the position of the accurate miter portion can be visually confirmed.

The image display unit 320 displays an image formed by the objective lens 222 through a signal conversion process and can be connected to the phase wave unit 220 and the image verification unit 310. The image acquisition unit 321, A signal conversion module 322, and a signal output module 323.

The image detected by the objective lens 222 is first visually checked by the image check unit 310 through the image check unit 310 connected to the image display unit 320 and then the image of the mover is viewed through the image display unit 320 .

The phase detected by the objective lens 222 through the phase wave part 220 of the light source 200 connected to the image display part 320 is directly detected by the image display part 320 without passing through the image checking part 310 You can also see the image of the area of the self-healing.

That is, at least one of the image verification unit 310 and the image display unit 320 may be selected and used as needed.

In the image acquisition module 321, an image can be acquired based on the image detected by the objective lens 222 of the phase wave section 220.

In the signal conversion module 322, the image acquired by the image acquisition module 321 may be converted into a video signal in a signal unit.

In the signal output module 323, a video signal converted into a signal unit may be output through the signal conversion module 322. That is, the image signal converted by the image conversion module 322 can be viewed as a display.

FIG. 6 illustrates the structure of a drug solution injection device connected to a light beam line in an acupuncture device according to the first embodiment of the present invention.

The drug solution injector 400 includes a drug solution injector 410, a drug solution storage part 420, and a pressing part 430, which can be injected with a medicine solution at a needle- .

The medicinal liquid injection unit 410 may be connected to the light irradiation apparatus 200 and the medicinal liquid injection apparatus 400 as a passageway through which the medicinal liquid can be injected into the self-

The drug solution storage portion 420 may be connected to the drug solution injection portion 410 as a space where the drug solution injectable into the drug solution injecting portion 410 can be stored.

The drug solution can be easily injected through the pressurizing part 430 which can apply a pressure to inject the drug solution stored in the drug solution storage part 420 into the drug solution injecting part 410. [ The medicine solution stored in the medicine solution storage part 420 can be injected into the self-healing part through the light guide device 200 connected to the medicine solution injection part 410 by using the pressure, So that the amount of the medicine solution injected into the medicine solution injecting part 410 can be controlled.

The acupuncture device according to the present invention thus constructed can accurately position the self-healing part with the naked eye and / or the image, so that the optical needle can invade the exact position of the self-healing part and irradiate ultraviolet rays. Ultraviolet rays can be irradiated to the portion of the self-polishing finely and quickly.

In addition, since the optical needle immersion device can infiltrate the correct position of the self-healing part and inject the medicine solution, the medicine solution can be injected into the self-immersion area more precisely and quickly.

In addition, since the light flowing through the optical fiber can be changed through the light source device and the intensity and the irradiation time of the light can be adjusted, the light can be changed according to the purpose of use to increase the easiness in detecting the position of the self-healing portion, It is possible to irradiate appropriate light.

In addition, the apparatus according to the present invention may further include an ultrasonic stimulator to inject the medicine solution and then to stimulate the absorption of the injected medicine solution into the primone by applying ultrasonic stimulation.

In other words, the acupuncture device according to the present invention can activate the primordode by irradiating ultraviolet rays to the mop area, and can promote the absorption of the drug into the primordode through the ultrasonic stimulation.

The ultrasonic stimulator can generate ultrasonic stimulation by controlling the frequency and wavelength of the ultrasonic wave, and can be appropriately set according to the design conditions.

Ultrasonic waves have different transmission depths depending on the frequency. Generally, as the frequency is lower and the wavelength is longer, the absorption amount of ultrasonic energy in the tissue decreases.

As the frequency is lowered, the energy absorption in the superficial tissue is low, so that low-frequency ultrasound can reach energy depth. Therefore, the use of low frequency ultrasound is very efficient in reaching the deep layer of the drug, effectively promoting the absorption of drug by increasing the deep tissue temperature.

1 to 6 are merely the main points of the present invention. As various designs can be made within the technical scope of the present invention, the present invention is limited to the configurations of Figs. 1 to 6 It is self-evident.

100: light source device 110:
120: light changing unit 130: light adjusting unit
131: light intensity adjusting unit 132: irradiation time adjusting unit
200: ray irradiator 210:
211: optical waveguide optical fiber 212: condenser lens
213: prism 220: phase-
221: phase waveguide optical fiber 222: objective lens
223: prism 300: imaging device
310: image check unit 311: alternative lens
320: image display unit 321: image acquisition module
322: Signal conversion module 323: Signal output module
400: Medicine solution injection device 410: Medicine solution injection part
420: Medicine solution storage part 430: Pressurizing part

Claims (15)

An image device (300) capable of detecting a self-immersion area and confirming the image by an image; A light irradiation device 200 capable of irradiating ultraviolet light, which is light for activating ultraviolet activated cells, at a spotted area determined from the imaging device 300; And a medicinal liquid infusion device (400) capable of injecting a medicinal solution into a stapled area determined from the imaging device (300)
The acupuncture device further includes an ultrasonic stimulator to accelerate absorption of the drug solution into the primon by injecting the drug solution and applying ultrasonic stimulation.
A light source device (100) for generating and modulating light;
A light irradiating device (200) for irradiating the light generated in the light source device into the skin and irradiating the light;
An image device (300) capable of confirming a self-healing portion with an image using light emitted from the light ray sink; And
And a drug solution dispensing device (400) capable of injecting a solution of drug solution into the area of the staple verified by the imaging device (300)
The light ray directing device (200)
Wherein the acupuncture device is irradiated with ultraviolet rays for activating ultraviolet activated cells and injected with a solution of acupuncture to a spot of the stamina identified through the imaging device (300).
The method of claim 2,
Wherein the light is ultraviolet light that is light for activating ultraviolet activated cells and white light for illumination light for illuminating a dark body.
The method of claim 2,
Wherein the acupuncture point comprises at least one selected from a primordode and a myocardial point.
The method of claim 2,
Wherein the ultraviolet activated cell comprises a primo microcell whose activity increases when irradiated with ultraviolet light.
The method of claim 2,
The light source device (100)
A light generating unit 110 capable of generating the light;
A light changing unit 120 capable of changing the type of light generated by the light generating unit 110 according to a purpose of use; And
And a light control unit (130) capable of adjusting the intensity of the light generated in the light generating unit (110) and the irradiation time according to a therapeutic purpose.
The method of claim 6,
The light control unit 130 includes:
A light intensity controller 131 for adjusting the intensity of the light emitted from the light guide apparatus 200; And
And an irradiation time adjusting unit (132) adjusting the irradiation time of the light irradiated from the light ray sink apparatus (200).
The method of claim 2,
The light ray directing device (200)
A light propagating unit 210 for propagating light generated in the light source device 100; And
And an upper wave part (220) for propagating the image detected by the objective lens (222) to the imaging device (300) by using the light emitted from the light propagating part (210).
The method of claim 8,
The light propagating unit 210 includes:
A light propagating optical fiber 211, which is an optical fiber that propagates light generated in the light source device 100;
A condenser lens 212 for collecting the light propagated from the light source device 100 through the optical waveguide optical fiber 211 in one place; And
And a prism (213) capable of adjusting the propagation direction of the light propagated through the optical waveguide optical fiber (211) from the light source device (100).
The method of claim 8,
The phase-wave propagating unit 220 includes:
A prism 223 capable of adjusting an image propagation direction so that the phase of the objective lens 222 can be easily detected;
An objective lens 222 for detecting an image propagated through the prism 223; And
And an upper optical fiber (221) for transmitting an image generated by the objective lens (222).
The method of claim 2,
The video apparatus 300 includes:
An image checking unit 310 for visually confirming an image detected by the light ray sink 200; And
An image display unit 320 for displaying an image detected by the light guide apparatus 200 as a display; ≪ RTI ID = 0.0 > 1, < / RTI >
The method of claim 11,
The image verification unit 310 may be configured to,
And an alternative lens (311) for further magnifying and displaying the image detected by the light guide (200).
The method of claim 11,
The image display unit 320 displays,
An image acquisition module (321) for acquiring an image detected at the optical needle device (200);
An image conversion module 322 for converting the image acquired by the image acquisition module 321 into a video signal; And
And a signal output module (323) for displaying the image signal converted by the image conversion module (322) as a display.
The method of claim 2,
The drug solution injection device (400)
A medicine solution injecting part 410 which is a passage through which the medicine solution can be injected into the stapled area determined by the imaging device 300;
A drug solution storage part 420 which is a space for storing a drug solution which can be injected into the drug solution injecting part 410; And
And a pressure unit 430 for applying pressure to inject the medicine solution stored in the medicine solution storage unit 420 into the medicine solution injection unit.
delete

Images