WO2016085205A1 - Light irradiation apparatus using multi-color light - Google Patents

Abstract

The present invention relates to a light irradiation apparatus using multi-color light. The light irradiation apparatus using multi-color light according to the present invention comprises: a light selection unit for selecting light with a corresponding color on the basis of a chakra principle or a five-element principle; a light source unit having a blue light source, a red light source, and a green light source; a light control unit for selecting at least one light source from the light source unit in response to a light selection signal through the light selection unit, and controlling the on/off, light intensity, flickering operation, and flickering speed of the selected at least one light source; a light synthesis unit for, when light of one light source is transmitted from the light source unit, passing the light, and when light of at least two light sources is transmitted from the light source unit, synthesizing the light of at least two light sources to thus generate light with a color corresponding to the light selection signal; and a light irradiation unit for transmitting the light passed or synthesized by the light synthesis unit so as to enable a desired area to be irradiated with the light.

Description

Light irradiation device using polychromatic light

The present invention relates to a light irradiation apparatus using a multi-color light, and more particularly, to a light irradiation apparatus using a multi-color light to maximize the therapeutic effect or constitution improvement by realizing the color mentioned in the five principles or chakra system as light. It is about.

In general, one of methods for improving the health or beauty of the body is a method of stimulating or massaging the body. In Chinese medicine, specific methods of stimulation such as stimulation of acupuncture points, moxibustion, acupuncture points, acupuncture points, and percutaneous parts of the body, such as acupuncture points and acupuncture points, are known. Here, the percutaneous refers to the surrounding skin through which the meridian passes, and the pectoral muscle refers to the surrounding muscle through which the meridian passes.

Such stimulation may be performed directly by the operator's hand or by a mechanical device. As a method using the mechanical device, there is a method of flowing or drawing current to a predetermined part of the human body. In addition, a method of stimulating by irradiating light to a predetermined part of the human body is known.

As a method of stimulating or treating using light, a laser needle or an optical massager is known.

However, the conventional technology of stimulating or treating a specific part of the human body using such light has a method of using light of a specific wavelength band or using light without color separation.

According to the five theory of Oriental Philosophy, all components and all parts of the human body can be classified into five types, such as neck, flower, soil, gold, and water, and have corresponding colors. It may have a bad effect on the health and beauty of the body, and the treatment effect is also lowered, which may cause problems.

Accordingly, an object of the present invention is to provide a light irradiation apparatus using a multi-color light that can overcome the above-mentioned conventional problems.

Another object of the present invention is to apply the five theory theory or chakra system, by irradiating the light of the color corresponding to the specific part of the human body or by applying the complementary method to improve the health state, beauty improvement and treatment effect of the human body The present invention provides a light irradiation apparatus using polychromatic light.

Another object of the present invention is to provide a light irradiation apparatus using a multi-color light that can have the effect of a single needle.

According to an embodiment of the present invention for achieving some of the technical problems described above, the light irradiation apparatus using the multi-color light according to the present invention, for selecting the light of the corresponding color based on the chakra principle or the five principle An optical selection unit; A light source unit including a blue light source, a red light source, and a green light source; A light control unit for selecting at least one light source from the light source unit in response to a light selection signal through the light selection unit, and controlling on / off, light intensity, blinking, and blinking speed of the selected at least one light source; When the light of one light source is transmitted from the light source unit, the light passes. When the light of at least two light sources is transmitted from the light source unit, the light corresponding to the light selection signal is synthesized by synthesizing the light of at least two light sources. A light synthesizing unit generating light having a light; It is provided with a light irradiation unit for irradiating the light passing or synthesized in the light synthesis unit to a desired portion.

The light irradiation apparatus using the multi-color light. A light amount adjusting unit may be further provided to adjust the amount of light transmitted from the light source unit to the photosynthesis unit individually for each of the light sources to synthesize the desired color through the photosynthesis unit.

When the color of the light selected by the light selection unit is red (red), blue (blue), or green (green), the light control unit selects and controls a light source having a corresponding color in the light source unit, and selects the light. When the color of the light selected through the unit is orange, yellow (yellow), indigo, or purple, at least two light sources are selected from the light sources of the light source unit, and the light synthesis unit adjusts the light amount of the selected light sources. By controlling to be synthesized, the color of the light synthesized in the photosynthesis unit may be controlled to be the same as the color of the light selected through the light selection unit.

The light source unit further includes an ultraviolet light source and an infrared light source, and when the color of the light selected through the light selection unit is red or blue, the light source selects and controls a light source having a corresponding color, and the light When the color of the light selected through the selection unit is yellow, at least a red light source and a green light source are controlled to be synthesized by selecting from among the light sources of the light source unit, and when the color of the light selected by the light selection unit is white, the ultraviolet light source is selected. If the color of the light selected by the light selection unit is black, the infrared light source can be selected and controlled.

The light source unit further includes an infrared light source, and when the color of the light selected through the light selector is red or blue, the light source selects and controls a light source of a corresponding color, and then, through the light selector When the color of the selected light is yellow, the red light source and the green light source are controlled to be synthesized by selecting from the light sources of the light source unit, and when the color of the light selected through the light selection unit is white, the red light source among the light sources of the light source unit. When the blue light source and the green light source are selected and controlled to be synthesized, and the color of the light selected through the light selection unit is black, the infrared light source may be selected and controlled.

The light irradiation apparatus using the multicolored light includes a plurality of video signals or a plurality of sounds each having any one of a property of a neck, a property of a fire, a property of a discussion, a property of a gold, a property of a gold, and a property of a number according to a principle of misunderstanding. A memory unit in which signals are stored; And a light converting unit which receives at least one video signal or at least one sound signal having a property corresponding to the color of the light selected by the light selecting unit, converts the light signal into an optical signal and provides the light signal to the photosynthesis unit. The photosynthesis unit may combine the light signal provided through the light conversion unit with the light provided through the light source unit and provide the light signal to the light irradiation unit.

The memory unit stores wave signals including a gamma wave having a neck property, a beta wave having a nature of nature, an alpha wave having a soil property, a theta wave having a nature of gold, and a delta wave having a nature of water, The light conversion unit may receive at least one wave signal having a property corresponding to the color of the light selected by the light selection unit from the memory unit, convert the light signal into an optical signal, and provide it to the light synthesis unit.

The light irradiation part may irradiate the light provided from the photosynthetic part while rotating clockwise or counterclockwise.

According to another embodiment of the present invention for achieving some of the technical problems described above, the light irradiation apparatus using the multi-color light according to the present invention, according to the principle of five kinds of wood, fire, soil, gold, And a light selector for selecting light of a color corresponding to the nature of the number; A light source unit including a red light source, a blue light source, a yellow light source, an ultraviolet light source corresponding to white, and an infrared light source corresponding to black; A memory unit for storing a plurality of video signals or a plurality of sound signals classified according to the principle of misunderstanding according to the nature of the neck, the nature of the talk, the nature of the discussion, the nature of the gold, and the nature of the number; A light control unit for individually controlling at least one of on / off, light intensity, blinking speed, and blinking speed of light sources provided in the light source unit in response to a light selection signal through the light selection unit; An optical conversion unit receiving at least one image signal or at least one sound signal having a property corresponding to the color of light selected by the optical selection unit, and converting the optical signal into an optical signal; A photosynthesis unit for synthesizing the light transmitted from the light source unit and the optical signal converted and transmitted from the light conversion unit; It is provided with a light irradiation unit for irradiating the light synthesized in the photosynthetic unit to a desired site.

According to another embodiment of the present invention for achieving some of the technical problems described above, the light irradiation apparatus using the multi-color light according to the present invention according to the principle of five kinds of wood, fire, soil, gold, And a light selector for selecting light of a color corresponding to the nature of the number; A light source unit including a red light source, a blue light source, a yellow light source, a white light source, and an infrared light source corresponding to black; A memory unit for storing a plurality of video signals or a plurality of sound signals classified according to the principle of misunderstanding according to the nature of the neck, the nature of the talk, the nature of the discussion, the nature of the gold, and the nature of the number; A light control unit for individually controlling at least one of on / off, light intensity, blinking speed, and blinking speed of light sources provided in the light source unit in response to a light selection signal through the light selection unit; An optical conversion unit receiving at least one image signal or at least one sound signal having a property corresponding to the color of light selected by the optical selection unit, and converting the optical signal into an optical signal; A photosynthesis unit for synthesizing the light transmitted from the light source unit and the optical signal converted and transmitted from the light conversion unit; It is provided with a light irradiation unit for irradiating the light synthesized in the photosynthetic unit to a desired site.

The memory unit stores wave signals including a gamma wave having a neck property, a beta wave having a nature of nature, an alpha wave having a soil property, a theta wave having a nature of gold, and a delta wave having a nature of water, The light conversion unit may receive at least one wave signal having a property corresponding to the color of the light selected by the light selection unit from the memory unit, convert the light signal into an optical signal, and provide it to the light synthesis unit.

The light irradiation part may irradiate the light provided from the photosynthetic part while rotating clockwise or counterclockwise.

According to another embodiment of the present invention for achieving some of the technical problems described above, the light irradiation apparatus having a needle function according to the present invention, respectively generating different wavelengths or different colors of light A light source unit having a plurality of light sources; A stimulus for light of a specific human body on which the light is irradiated by sequentially selecting a plurality of light sources and controlling the light to be generated in order from the light source generating the light having the shortest wavelength in the light source unit in order of increasing wavelength. A light control unit controlling the depth of the light to be sequentially deepened; The light source unit is provided with a light irradiation unit for continuously irradiating the light generated and transmitted sequentially in the order of increasing the wavelength to a specific part of the human body, the depth of the stimulus caused by the light becomes deeper.

The light source unit includes a red light source, an orange light source, a yellow light source, a green light source, a blue light source, a blue light source, and a purple light source, and the light control unit includes a violet light source, a blue light source, a blue light source, a green light source, a yellow light source, an orange light source, and It may be sequentially turned on according to the color sequence or the wavelength sequence of the red light source.

When light of one light source is transmitted from the light source unit, the light passes. When the light of at least two light sources is transmitted from the light source unit, the photosynthesis unit synthesizes the light of at least two light sources and provides the light to the light irradiation unit. The light source unit includes a blue light source, a green light source, and a red light source, and the light control unit controls the lighting of the light sources of the light source unit individually to control purple color of the light synthesis unit. Light, indigo light, blue light, green light, yellow light, orange light, and red light may be controlled to be synthesized or passed in the color order or the wavelength order to be transmitted to the light irradiation unit.

When the light control unit generates light of a predetermined wavelength band or a predetermined color through the light source unit, the light control unit controls the at least one light source corresponding to the previously generated light of the wavelength band or the colored band to maintain a lighting state or to turn off the light. Can be controlled.

The light source unit may further include an ultraviolet light source, an infrared light source, and a terahertz light source, and the light control unit may generate ultraviolet rays by the ultraviolet light source before the violet light, and after the red light is generated, the infrared light source and the terrazzo light source. The hertz light source may be controlled to be sequentially turned on.

The light irradiation apparatus adjusts the intensity of the stimulus of the specific human body position by the light irradiated through the light irradiation unit by adjusting the light intensity of the light sources provided in the light source unit through the light control unit, and the light control unit By adjusting the rate of change of the wavelength of the light or the rate of change of the color through the light, the speed of the stimulus of the specific human body due to the light irradiated through the light irradiation unit is adjusted, and through the light control unit to the light sources provided in the light source unit A light irradiation unit for controlling the change of the stimulus of the specific human body position by the light irradiated through the light irradiation unit and controlling the width or the diameter of the light irradiated to a specific part of the human body through the blinking control and the blinking speed control. It is provided in the light irradiation unit, it is possible to adjust the range of stimulation of the specific human body position by the light irradiated through the light irradiation unit.

The light irradiation unit may include a rotary unit for irradiating the light transmitted from the light source unit in a clockwise or counterclockwise direction or a vibration unit for irradiating the specific body part while vibrating the light transmitted from the light source unit. .

The light irradiation apparatus further includes a light selection unit for selecting light having a wavelength corresponding to the depth to adjust the penetration depth according to the stimulus of the light, and the light control unit is gradually longer in wavelength from the light having the shortest wavelength. In order to control the light to be generated sequentially, the light penetration depth of the light can be adjusted by controlling the light to be generated only up to the light having the selected wavelength through the light selection unit.

According to the present invention, by implementing the color mentioned in the chakra system or the five principles of light as light can be used to stimulate or perform a specific part of the human body using the light having a corresponding color can obtain a therapeutic effect and constitution improvement effect . In addition, according to the principle of misunderstanding, optical signals such as image signals, sound signals, and wave signals of the same property can be synthesized and irradiated, thereby doubling the effect. In addition, it can be used as acupuncture instead of acupuncture, it can be treated without pain and can prevent the risk of infection.

1 is a block diagram of a light irradiation apparatus using multi-color light according to a first embodiment of the present invention,

2 is a block diagram of a light irradiation apparatus using multi-color light according to a second embodiment of the present invention,

3 is a block diagram of a light irradiation apparatus using multi-color light according to a third embodiment of the present invention,

4 is a block diagram of a light irradiation apparatus using multi-color light according to a fourth embodiment of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, without any other intention than to provide a thorough understanding of the present invention to those skilled in the art.

The present invention relates to a light irradiation apparatus using a multi-colored light for implementing the therapeutic effect and constitution improvement effect by applying to the five theory theory of oriental medicine and chakra system of Indian medicine using the light of various colors.

As described below, the chakra system is known to correspond to seven colors of red, orange, yellow, green, blue, indigo, and violet, and five colors of blue, red, yellow, white, and black correspond to the five elements. . Accordingly, the present invention applies the seven colors mentioned in the chakra system and / or the five colors mentioned in the theory of five stars to the light (light) to irradiate the human body parts mentioned in the chakra system or five theory of the theory To achieve the therapeutic effect and constitution improvement effect.

In order to facilitate understanding of the present invention, the yin and yang five acts of oriental medicine and the chakra system of indian medicine will be briefly described.

Yin and Yang (陰陽) is a concept of two relative to each other, which is the energy of the two stems that make up the human body, by these two energies circulate the blood of the human body and many life activities are maintained. From the point of view of Yin-Yang theory, our body can be physiologically healthy only if the relative balance of Yin-Yang is maintained. If the relative balance of Yin-Yang is destroyed in the body, the disease will occur and this disease will be balanced by Yin-Yang. It must be treated.

Among the relative or opposing attributes of yin and yang, the representative ones are hot and cold, ascending and descending, invisible and visible, transparent, clear and cloudy, and vigorous. It is lifelike, lifeless and dying, and the former are positive, and the latter are negative. These yin and yang have relative and opposing properties, but they do not exist in isolation from each other, but are dependent on each other and are not unchanged and fixed. Yin and Yang are constantly changing, but under normal conditions they are not too biased, and the relative balance of yin and yang is maintained. However, when some etiology acts and the relative balance of yin and yang is broken in the body, illness occurs. Therefore, in Yin-Yang theory of oriental medicine, the cause of illness is regarded as the destruction of the relative balance of yin-yang.

There are two major processes of destroying the balance of yin and yang. That is, one appears when one side of yin and yang becomes too vigorous or strengthened, and the other appears when either side of yin and yang becomes too weak or decayed. The treatment of the disease caused by the yin and yang of the yang yang, yin and yang of the yin and yang piggybacked according to the pathological mechanism of its development, the disease caused by the yin and yang has its weak side, that is, yin and yang The principle of restoring balance must be treated.

On the other hand, the five elements are a more detailed breakdown of yin and yang, such as wood, fire, earth, and gold.

), Water has five different characteristics. In Oriental Medicine and Oriental Philosophy, the following presuppositions were made on the characteristics of five materials of five elements, and the theory of the interrelationship of materials under the premise was presented. In other words, wood is a material that has a tendency to shake smoothly and communicate well and extend straight out, and fire is a material that has hot, burning, burning, and rising energy. It is a substance that nourishs, nourishes, has a gentle and low-change material.

) Is a beautiful, cold, firm, pounding sound that can be melted and melted in fire. Water is a material that is wet and cold, and has a property of flowing from high to low. .

Because the five substances of five elements have different characteristics, there is a relationship between each other that helps, nourish, and promote each other, while also restraining and restricting each other. As these interrelationships gradually expanded and developed, each line of five elements found the relationship between various phenomena in connection with the development process of living things, five colors, and five kinds of five kinds, and the relationship between the development and change of things. The comprehensive relationship was explained. In particular, five jang are closely related to physiological functions or pathologies such as five bodies, five tubes, five branches, five colors, five colors, and so on. In association with (部), five pipes, five colors, five tones, the relationship of the first series is formed as shown in Table 1.

Table 1

As shown in Table 1, the five elements are neck, tues, earth, gold, and water, and the corresponding five colors are blue, red, yellow, white, and black. , Heart, spleen, lungs, kidneys, meat is divided into gallbladder, small intestine, stomach, large intestine, bladder, five ducts are classified into eyes, tongue, mouth, nose, ear, etc. , Skin, bones (bones), etc. are classified. For example, the five necks are known to affect five colors of blue, five angles, human liver, gallbladder, muscles, eyes, and the like. Therefore, they will be expressed as having the nature of the neck. In addition, anger of the pentagram with anger nature corresponds to red, penis teeth, small intestine of the human body, heart, tongue, blood vessels, etc. Gold corresponding to 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5 of the five elements of the five elements of gold, white, 5, 5, 5, 5 It is known to correspond to the bladder, kidney, ear, bone (bone) of the. In addition, it is known that the affected part or acupuncture points of the human body can be classified as five elements, and each part can be classified as five elements within a specific part of the human body.

In order to understand the concept of misunderstanding, it is important that the misrepresentation of misunderstanding, mutuality, ascension, and mutual relations.

The reciprocity of the five elements refers to the relationship in which each organ line promotes and depends on each other. In other words, the life of coexistence (相 生) means to nourish, to generate or to promote. There are five kinds of coexistence of five kinds of species: wood flower, wild soil, sage money, geumsaeng water and aquatic trees. Here, the promotion of things among each other is called the coexistence of five elements, and the relationship between one material generating and promoting another material is understood as the relationship between mother and son.

In the five-point theory, the term "pole" refers to the interrelationship between long-term systems that constrain and overcome each other. In other words, the upper pole means to constrain or overcome. There are five kinds of five poles: Geummok Wood, Mokgeuk Soil, Geumsu Water, Hydrogenization, and Geumgeum Geum.

In the five phases of misunderstanding, the distinction is made between the constrainer and the constrained. This coexistence and misrepresentation of misunderstandings has been used regularly to understand and treat synergistic pathologies.

Mutual coexistence and epidemic refer to the normal relation of things. In other words, if Win-Win and Sang-Guk explain the physiological relationship in oriental medicine, it can be said that rise and Sang-Mo describe pathological shapes. The rise of the falsity, the upper head, may all occur when either of the falsities is piggybacked or braided, resulting in an imbalance between them. Here, the win of the ascendant means to attack by taking advantage of the favorable opportunity, and the mother of the father is despised. In other words, an increase in misrepresentation refers to an interrelationship in which the constrained self in the relationship is ideally constrained harder than normal. Say a relationship.

In oriental medicine, all acupuncture points and parts of the human body are classified as five elements, and treatment is carried out using mutual growth, epidemic, ascension, epithelial relationship, and complementary methods. . Here, the law of the law refers to acupuncture, and if the energy of the affected area (acupuncture points or meridians) is weak, the law is carried out. If the energy is too excessive, the law is carried out. Rotating is known as judicial.

The chakra system, on the other hand, is a system created by Indian medicine that finds that energy is involved in the regulation of the autonomic nervous system and hormone secretion and applies it to specific areas of the body. 'Chakra' is a language derived from the Sanskrit 'cuakrum' which means circulation, which is a realm of swirling force in the shape of a cartwheel that constantly absorbs the flow of energy.

Located in seven places of the body, each area is sensitive to specific wavelengths and has a strong influence on the body and emotions. Thus, chakras are trigger points for treatment, meaning areas where the body and tissues are strongly affected when the body is stimulated by color particles. The seven chakras are divided into seven chakras. The first chakra means the source of all energy and is located in the perineum, the base of the human spine, and the corresponding color is red. The second chakra is located in the human lower abdominal plexus, prostate, uterine-ovary, genital, bladder, and kidney. The color is orange. The third chakra is located on the stomach, liver, spleen, and pancreas, the solar plexus of the human body that is responsible for digestion and assimilation of the body. The corresponding color is yellow. The fourth chakra is the part of the cardiac plexus that is responsible for blood circulation and is located in the middle of the body, heart, lungs, diaphragm, and the corresponding color is green. The fifth chakra is the carotid artery plexus, located in the throat of the human body, and the corresponding color is blue. The sixth chakra is the pineal gland plexus, located between the two livers of the human body, and the corresponding color is indigo blue. The seventh chakra is a part of the cerebral plexus, located in the human pituitary gland, all the endocrine glands, and the parietal pericardium. The corresponding color is purple.

Hereinafter, the seven colors mentioned in the chakra system described above and / or five colors mentioned in the theory of five elements are implemented by light (light) and irradiated to the parts of the human body known in the chakra system or the five elements of the theory known to influence each other. The embodiments of the light irradiation apparatus for obtaining the therapeutic effect and the constitution improvement effect will be described.

1 is a block diagram of a light irradiation apparatus using multi-color light according to a first embodiment of the present invention.

As shown in FIG. 1, the light irradiation apparatus 100 using the multicolored light according to the first embodiment of the present invention includes a light selection unit 110, a light source unit 120, a light control unit 130, and a photosynthesis unit 140. ), A light irradiation unit 150 is provided.

The light selection unit 110 is for selecting the light of the corresponding color based on the chakra principle or the principle of five. As described above, the chakra system is known to correspond to seven colors of red, orange, yellow, green, blue, indigo, and violet, and five colors of blue, red, yellow, white, and black correspond to five rows. . Therefore, it is possible to select the color of light irradiated to a specific body part, acupuncture points, acupuncture points, apical muscles, percutaneous body, etc. based on the human body part or the guiding principle corresponding to the chakra system. Here, the percutaneous refers to the surrounding skin through which the meridian passes, and the pectoral muscle refers to the surrounding muscle through which the meridian passes.

That is, when the chakra system is applied, the light selector 110 includes seven types of red (red), orange, yellow (yellow), green, blue (blue), indigo, and violet corresponding to the first to seventh chakras. Select at least one of the colors or at least one of red (red), blue (blue), yellow (yellow), white, black (infrared or terahertz light) It is for.

In the present invention, the white light can be realized by synthesizing the light of the red light source, the green light source, and the blue light source provided in the light source unit 120, but has a separate ultraviolet light source to realize the gold property of five theory. It is also possible.

That is, when white light is selected through the light selection unit 110, white light implemented by synthesizing the light of the red light source, the green light source, and the blue light source may be selected as necessary or selectively. It is also possible to implement the ultraviolet light generated through the white light.

In addition, since black light is difficult to implement, it is possible to implement black light as infrared rays.

As a result, white light can be replaced with ultraviolet light, which is judged to have gold properties according to the five-point theory, or synthesized by synthesizing the light of the three primary colors of red, green, and blue light sources, and black light According to the theory, it is possible to replace with infrared rays which are judged to have the properties of numbers.

Since the skin is known to have the properties of gold among the parts of the human body, it is possible to grasp the ultraviolet rays that are effective for skin stimulation and treatment as having the properties of gold. This is also known to have a number property, because the wavelength of the infrared ray is relatively long, so that it can be approached to the bones of the human body, so that stimulation is possible, it is possible to identify the infrared ray as having a number property.

In addition, terahertz light (also known as 't' wave or terahertz wave), which is harmless to the human body and is known to have a longer wavelength than infrared rays, may be used as the water. It is also possible to apply the infrared and terahertz light together.

Ultraviolet rays, which can replace white light, are known to have therapeutic effects on the skin through various immune responses in the skin, inhibition of cell differentiation, inhibition of DNA synthesis, and induction of melanin synthesis. Psoriasis, vitiligo, rosaceous nasal cavity It is known to be effective in various inflammatory skin diseases including atopic dermatitis.

The light selector 110 selects the color of the light according to a property based on the five-point theory of the desired area for treatment or treatment. That is, the selection of the color of light is selected based on the chakra system or the principle of misunderstanding.

For example, if you want to stimulate or perform the affected area related to the heart or tongue, or the acupuncture points or meridians, which are the parts of fire theory in the theory of five senses, and the perineal part of the human body corresponding to the first chakra of the chakra system In case of stimulation or procedure, red light is selected, and in case of stimulation or treatment of liver or eye-related lesions or acupuncture points or meridians in the liver or other five-theory theory, which is the part corresponding to the neck, the chakra system Blue light may be selected in order to stimulate or perform a spinal portion behind the neck of the human body, such as the thyroid gland of the human body or the throat of the human body corresponding to the fifth chakra. In addition, the light of the corresponding color is selected according to the stimulus or the treatment site.

The light selector 110 generates a light select signal for selecting light of a desired color and provides the light selector to the light controller 130. To this end, the light selection unit 110 may include buttons for color selection, a touch screen for selecting through touch, or a remote controller.

The light source unit 120 includes a blue light source, a red light source, and a green light source. In addition, an infrared light source (or a terahertz light source) may be further provided, and the ultraviolet light source may be optionally provided.

When the color of the light selected through the light selection unit 110 is white, the white light may be realized by combining the red light source, the green light source, and the blue light source of the light source unit 120 to be selected, and the ultraviolet light may be provided separately. The light source can be selected. In addition, when the color of the light selected by the light selector 110 is black, the infrared light source and / or the terahertz light source may be selected.

As the light source provided in the light source unit 120, a light source well known to LEDs or other persons skilled in the art may be used, and the blue light source generates blue light having a blue wavelength range of sunlight, and red The red light source generates red light in the red wavelength range band of sunlight, and the green light source generates green light in the green wavelength range band of sunlight.

In the case of the infrared light source (or the terahertz light source) and the ultraviolet light source, when the light source does not need to be combined with other light sources, the photosynthesis unit 140 may be configured to be directly transmitted to the light irradiation unit 150 without passing through. have. On the other hand, when the infrared light and the ultraviolet light of the infrared light source and the ultraviolet light source need to be combined with the light of other light sources, the light is synthesized with the other light through the photosynthesis unit 140 and irradiated through the light irradiation unit 150. can do.

The light control unit 130 selects at least one light source from the light source unit 120 in response to a light selection signal through the light selection unit 110, and turns on / off, light intensity, and blinking of the selected at least one light source. It will control whether or not and blinking speed.

In this case, the light controller 130 selects at least one light source in response to the light selection signal to perform only an operation of controlling on / off of the selected light source, and through a separate control command, the light intensity of the selected light source, You can control the blinking and blinking speed. For example, a separate control button or a touch screen device for controlling whether the selected light blinks and the blinking speed may be provided in the light control unit 130 or the light selection unit 110.

For example, when the color of the light selected by the light selection unit 110 is blue, red, or green, the light source unit 120 includes blue, green, and red light sources, and thus, the light control unit ( 130 selects a light source of a corresponding color from the light source unit 120 to turn on the light source, and to control the intensity of the light and the flashing speed. Accordingly, light of a corresponding color passes through the photosynthesis unit 140 to be irradiated through the light irradiation unit 150.

However, when the color of the light selected through the light selection unit 110 is orange, yellow, indigo, or purple, since the light source for generating light of the corresponding color is not provided in the light source unit 120, in this case, At least two light sources of the light sources provided in the light source unit 120 are selected and turned on to be synthesized through the photosynthesis unit 140, and the light intensity or the flashing speed are controlled. Accordingly, the light of at least two light sources are synthesized to be generated through the photosynthesis unit 140 of the light of the corresponding color.

For example, when yellow (yellow) is selected as the color of light, when the light source unit 120 turns on the red light source and the green light source and transmits the generated light to the photosynthesis unit 140, the photosynthesis unit 140 includes: Yellow light is generated by mixing or combining red light and green light transmitted from the light source unit 120. In addition, in the case of orange, indigo, and purple, the light of the blue, red, and green light sources of the light source unit 120 may be appropriately adjusted according to the synthesis principle of three primary colors of light.

In this case, a light amount adjusting unit 170 may be added to appropriately adjust the amount of light transmitted from the light source unit 120 to the photosynthesis unit 140 so that light of a desired color is generated.

The light amount adjusting unit 170 is to adjust the amount of light transmitted from the light source unit 120 to the photosynthesis unit 140 for each light source to be synthesized in the desired color in the photosynthesis unit 140. . That is, when at least two light sources are turned on through the light control unit 130 and light is generated from the at least two light sources, they may be synthesized in a ratio of 1: 1 and 2: 1 or 3: 1. Since the synthesis rate varies depending on the color, the amount of light is adjusted to match the desired color. This case is similarly applied to the case where all three light sources of red, blue and green are selected.

For example, in the case of yellow (yellow) and orange, the light amount adjusting unit 170 may have a different synthesis ratio between red light and green light, and according to the synthesis principle of color to generate light of a desired color, 140 individually adjusts the amount of light transmitted.

As a result, when orange, indigo, and purple are selected, the light control unit 130 selects at least two light sources from the light sources of the light source unit 120 in response to the light selection signal, and operates the selected light sources. The color of the light synthesized by the photosynthesis unit 140 is controlled to be the same as the color of the light selected by the light selection unit 110 by adjusting the light amount of the light sources selected through the light amount adjusting unit 170.

In this way, the light control unit 130, in addition to the control of the light sources provided in the light source unit 120, the overall operation of the light irradiation apparatus 100 according to the present invention, that is, the photosynthesis unit 140, light irradiation unit 150, light amount adjusting unit ( 170 may be configured to control the overall operation of the light irradiation apparatus 100 according to the present invention through a separate main controller.

The photosynthesis unit 140 is to generate light of a color selected through the light selection unit 110, and synthesizes the light transmitted from the light source unit 120 to provide or transmit the light to the light irradiation unit 150. . Therefore, when the light of one light source such as red, green, and blue is transmitted from the light source unit 120, the corresponding light passes through the light source, and at least two light sources of at least two light sources are transmitted from the light source unit 120. The light of the three light sources is synthesized to generate light having a color corresponding to the light selection signal.

For example, when the color of the light selected through the light selector 110 is blue, red, or green, the light source includes blue, green, and red light sources, and in this case, the light control unit ( 130. One light source of a corresponding color is selected and operated. In this case, since no separate synthesis is necessary, the photosynthesis unit 140 performs only a role of light transmission without an additional operation.

When the color of the light selected by the light selection unit 110 is orange, yellow, indigo or purple, the light control unit 130 selects and operates at least two light sources from the light sources of the light source unit 120. . In this case, the light amount of the light sources selected through the light amount adjusting unit 170 is adjusted, and the adjusted light is synthesized in the photosynthesis unit 140 to generate light of a desired color. The color of light generated at this time is the same as the color of the light selected through the light selection unit 110.

The light irradiator 150 is for irradiating the light passing through or synthesized by the light combining unit 140 to a desired portion. Here, the desired site may include affected areas, acupuncture points, meridians, and the like.

The light irradiation unit 150 may include an optical fiber or other light transmission means well known to those skilled in the art, and may be provided with a condenser lens for efficient transmission and use of light.

The light irradiation unit 150 may be connected to the non-invasive needle or invasive needle to be used in the form of a single needle, such as a laser needle, depending on the use form using light, for the case used for light massage or light irradiation Various light irradiation units may be provided. In addition, it may include various devices or tools or may be connected to various devices or tools according to the use form.

The light irradiation unit 150 may be provided with a rotating unit to transmit or irradiate by rotating the light provided from the photosynthesis unit 140 in a clockwise or counterclockwise direction. In order to achieve the same effect, it is also possible to place a propeller or polarizing plate at a portion to which light is irradiated, thereby rotating in a clockwise or counterclockwise direction so that the light rotating effect is exhibited. Alternatively, when the end portion of the light irradiation unit 350 is rotated through the rotating unit in the state in which the light is irradiated in the shape of a star or other angle to the star shape or angled through the rotating unit, the rotation effect of the light You will be able to get

The cause of the light to be irradiated clockwise or counterclockwise is based on the theory of acupuncture (the theory of performing gait or judging by rotating the needle clockwise or counterclockwise after applying the needle to the affected area) and the theory of misleadingness. Since it is judged that it can function as a pedestrian or judicial depending on the direction of irradiation, this is to implement a pedagogical or judicial effect by using the irradiated light. For example, in the case of a heart disease, tongue disease, vascular disease, a person who has the nature of anger, or to stimulate the menstrual or meridians of the human body, such as to administer or to administer.

And, through the light control unit 130, it is possible to adjust the intensity of the light of the light sources provided in the light source unit 120, accordingly, the intensity of the stimulus of the human body specific position by the light irradiated through the light irradiation unit 150 It is possible to adjust.

In addition, through the light control unit 130 through the flashing control and the flashing speed control for the light sources provided in the light source unit 120, the stimulus of the human body specific position by the light irradiated through the light irradiation unit 150 Change can be controlled. This can have an effect similar to that of acupuncture's method of stabbing and repetiting needles.

On the other hand, the light irradiation unit 150 is provided with a light irradiation unit (not shown) that can adjust the width or diameter of the light irradiated to a specific part of the human body, the human body specific position by the light irradiated through the light irradiation unit 150 You can adjust the range of stimulation. This may have an effect similar to that of acupuncture, which can select various thicknesses of needles as needed.

In addition, the light irradiation unit 150 may be provided with a vibration unit for irradiating a specific body part while vibrating the light transmitted from the light source unit 120. The vibration unit may be mounted inside or outside the light irradiation unit. When the vibration unit is provided and irradiated in a vibration state when the light is irradiated, it will be possible to obtain a similar effect to the acupuncture method of acupuncture to transfer the vibration to the needle through the vibrator in the state of the needle to enhance the effect of the stimulation.

As described above, according to the first embodiment of the present invention, a light that can stimulate or perform a specific part of the human body by using a light having a corresponding color by realizing the color mentioned in the chakra system and the principle of misunderstanding with light. By constructing the irradiation device, the therapeutic effect and the constitution improvement effect can be obtained.

2 is a block diagram of a light irradiation apparatus 200 using multi-color light according to a second embodiment of the present invention.

As shown in FIG. 2, the light irradiation apparatus 200 using the multi-color light according to the second embodiment of the present invention includes a light selection unit 110, a light source unit 120, a light control unit 130, and a photosynthesis unit 140. ), A light irradiation unit 150, a memory unit 180, and a light conversion unit 190.

Since the configuration of the light selection unit 110, the light source unit 120, the light control unit 130, the light irradiation unit 150 has the same configuration as described through the first embodiment of the present invention will be described further Omit. In addition, the light amount adjusting unit 170 may be added as described above through the first embodiment of the present invention.

The photosynthesis unit 140 has the same configuration as described through the first embodiment of the present invention, and is provided through the light signal and the light source unit 120 provided through the light conversion unit 190. By synthesizing the light together, the function to provide the light irradiation unit 150 is additionally performed. That is, when the optical signal converted through the light conversion unit 190 is provided, the photosynthesis unit 140 synthesizes the light provided through the light source unit 120 and provides the light signal to the light irradiation unit 150. When the optical signal is not provided through the light conversion unit 190, the light provided through the light source unit 120 passes or synthesizes the light signal to the light irradiation unit 150.

The memory unit 180 stores a plurality of image signals or a plurality of sound signals each having any one of a property of a neck, a property of a fire, a property of a discussion, a property of a discussion, a property of a gold, and a property of a number according to a principle of misunderstanding. do.

In this case, the video signal should be understood as a concept including both a video signal in the form of a picture file or a picture file or a video signal having a video file format. In addition, in the case of a sound signal, it should be understood as including a sound signal in the form of a voice file, including various sounds such as musical instrument sounds, water sounds, and wind sounds.

As image signals stored in the memory unit 180, examples of image signals having a neck property include a photo or video file of Jupiter, which is a planet, and various photo or video signals known to have a neck property. Can be. And, even in the case of video signals having a nature of nature may include a picture or video files related to Mars, and may include a variety of pictures or video signals for objects known to have nature of nature. The nature of the discussion may include photos or videos relating to Saturn, and various pictures or videos relating to Saturn, and the nature of gold may include photos or videos relating to Venus, and other pictures or videos relating to gold. For example, the nature of numbers may include photos or videos related to Mercury and other photos or videos relating to Mercury.

As sound signals stored in the memory unit 180, examples of sound signals having a characteristic of a neck include 'angle' sound (one degree sound of Western scale), bumping sounds between trees, and palate sound. , Django sounds, etc., which are musical instruments, may include all sound signals known to have neck properties. Examples of sound signals that have the nature of anger include, for example, 'chi' sound, which is one of the five tones, 'le' sound of the Western scale, sounds of burning, beeping sound, and drum sound of musical instruments. All sound signals known to have may be included.

Examples of the sound signals having a vowel property include 'gung' sound (one of the Western scales), 'soil' sound, bumping soil or falling soil, throat sound, jing sound, musical instrument, etc. In addition, all sound signals known to have a discussion property may be included.

Examples of sound signals having the property of gold include one of the five vowels, the 'sound' (the 'la' sound of the Western scale), the sound of metal bumping, the sound of metal, the sound of gums, and the sound of musical instruments. In addition, all sound signals known to have gold properties may be included.

Examples of sound signals that have the property of number include one of the five sounds, 'woo' sound (the 'me' sound of Western scale), the sound of flowing or dripping water, and the sound of water colliding. Sound and the like may be included, and may include all sound signals known to have a number property.

Image signals or sound signals stored in the memory unit 180 are selected by the control through the light control unit 130 to be provided to the light conversion unit 190.

That is, when the color of the light is selected through the light selector 110, the light control unit 130 selects at least one image signal or a sound signal having a property corresponding to the selected color and the light converting unit 190. To be provided. For example, when 'blue' light corresponding to the nature of the neck is selected through the light selection unit 110, the light control unit 130 may display an image corresponding to the nature of the neck in the memory unit 180. At least one signal or sound signal is selected and transmitted to the light conversion unit 190. Even when light of a different color is selected, a corresponding video signal or a sound signal is selected and provided to the light conversion unit 190.

The light conversion unit 190 receives at least one image signal or at least one sound signal having a property corresponding to the color of the light selected by the light selection unit 110 from the memory unit 180. The conversion is provided to the photosynthesis unit 140. Since the image signal or the sound signal stored in the memory unit 180 is an electrical signal, that is, a digital signal, the light conversion unit 190 is required to convert the signal into an optical signal. Therefore, when the image signal or the sound signal can be provided in the form of an optical signal, the optical converter 190 may not be necessary.

The light conversion unit 190 is for converting an electrical signal into an optical signal, and generally may include an optical converter well known to those skilled in the art. In the case of transmitting multimedia content such as a moving picture, a technology of converting a content, which is an electric signal, into an optical signal and transmitting the optical signal using an optical cable such as an optical fiber is known to those skilled in the art, and thus it is possible to substitute and apply it.

 When the optical signal converted through the light conversion unit 190 is provided, the photosynthesis unit 140 synthesizes the light provided through the light source unit 120 and provides the light to the light irradiation unit 150. When the optical signal is not provided through the conversion unit 190, the same as in the first embodiment of the present invention passes or synthesizes the light provided through the light source unit 120 to provide to the light irradiation unit 150 will be.

Additionally, in addition to the above-described video signal or sound signal, the memory unit 180 includes gamma waves having a wood property, beta waves having a fire property, alpha waves having a soil property, theta waves having a gold property, and numbers. Wave signals (or EEG signals) including a delta wave having a property of may be stored.

In this case, the light control unit 130 transmits at least one wave signal having a property corresponding to the color of the light selected by the light selection unit 110 from the memory unit 180 to the light conversion unit 190. Will be provided. The light control unit 130 may provide the wave signal to the light conversion unit 190 together with the image signal or the sound signal as necessary, and select only the wave signal to provide the light conversion unit 190. It is also possible. This case also applies to the video signal and the sound signal. It is possible to select and provide only a video signal or a sound signal and to provide them together.

In this case, the light conversion unit 190 converts an image signal, a sound signal, a wave signal, and the like provided from the memory unit 180 into an optical signal and provides the optical signal to the photosynthesis unit 140. In this case, the optical signals are combined with the light provided from the light source unit 120 and provided to the light irradiation unit 150.

In the case of the second embodiment of the present invention, the light irradiated to a specific part of the human body through the light irradiation unit 150, the light provided through the light source of the light source unit 120, and stored in the memory unit 180 Optical signals such as video signals, sound signals, and wave signals of the same nature can be synthesized and irradiated, thereby doubling their effects.

3 is a block diagram of a light irradiation apparatus using multi-color light according to a third embodiment of the present invention.

As shown in FIG. 3, the light irradiation apparatus 300 using the multi-color light according to the third embodiment of the present invention includes a light selection unit 310, a light source unit 320, a light control unit 330, and a photosynthesis unit ( 340, a light irradiation unit 350, a memory unit 380, and a light conversion unit 390.

The light selection unit 310 is for selecting the light of the color corresponding to the nature of the neck, the nature of the fire, the nature of the soil, the nature of the soil, the nature of gold, and the nature of water.

As described above, five colors are known to correspond to each other in the five elements, such as blue, red, yellow, white, and black. Therefore, it is possible to select the color of light irradiated to a specific body part or acupuncture points, acupuncture points, apical muscles, percutaneous body, etc. based on the principle of five elements. Here, the percutaneous refers to the surrounding skin through which the meridian passes, and the pectoral muscle refers to the surrounding muscle through which the meridian passes.

That is, the light selection unit 310 is for selecting at least one color of red (red), blue (blue), yellow (yellow), white, black (infrared).

In the present invention, the light corresponding to white can be realized through a white light source or an ultraviolet light source, and terahertz light (also known as 't' wave), which is known to have a number of properties and is harmless to infrared rays or longer than infrared rays. Or terahertz waves) can be used. In this case, it is also possible to apply a combination of infrared and terahertz light as light having a number property.

That is, white can be realized by selecting a white light source provided in the light source unit 320, or can be implemented by having an ultraviolet light source to have the gold property of the five-point theory.

That is, when white light is selected through the light selection unit 310, a white light source or an ultraviolet light source may be provided as a corresponding light source in the light source unit 320 as needed or selectively. As another example, a white light source and an ultraviolet light source may be provided in the light source unit 320 to allow a user to select a light source corresponding to white as needed.

As a result, the white light can be replaced with ultraviolet light that is judged to have gold properties according to the five-point theory, or it can be realized through a white light source, and the black light is infrared or terahertz light source judged to have a number property according to the five-point theory. It is possible to replace Since the skin is known to have the properties of gold among the parts of the human body, it is possible to identify ultraviolet rays that have an effect on skin stimulation as having the properties of gold. It is known that it has a number property. Since the wavelength of infrared ray or terahertz layer light is relatively long, it can be approached to the bone of the human body so that it can be stimulated.

Ultraviolet rays, which can replace white light, are known to have therapeutic effects on the skin through various immune responses in the skin, inhibition of cell differentiation, inhibition of DNA synthesis, and induction of melanin synthesis. Psoriasis, vitiligo, rosaceous nasal cavity It is known to be effective in various inflammatory skin diseases including atopic dermatitis.

In the light selector 310, the color of light is selected according to a desired area for treatment or treatment. The choice of color of light is based on the principle of misunderstanding.

For example, if you want to irritate or treat the affected area related to the heart or tongue, or the acupuncture points or meridians, which is a part of fire theory in the theory of theory, red light is selected and the area corresponding to the neck. In human or other misconceptions, blue light may be selected to stimulate or perform a liver- or eye-related lesion or acupuncture points or meridians. In addition, the light of the corresponding color is selected according to the stimulus or the treatment site.

The light selection unit 310 generates a light selection signal for selecting light of a desired color and provides the light selection signal to the light control unit 330. To this end, the light selector 310 may include buttons for color selection, a touch screen for selecting through touch, or a remote controller.

The light source unit 320 may include a blue light source, a red light source, a yellow light source, a white light source (or an ultraviolet light source), and an infrared light source corresponding to black (or terahertz light source). ). If the color of the light selected by the light selector 110 is blue, red, or yellow, a light source of a corresponding color is selected, and when the light is white, the ultraviolet light source or the white light source is selected, and the light selector 110 is selected. When the color of the light selected through) is black, the infrared light source and / or the terahertz light source may be selected.

As a light source provided in the light source unit 320, a light source well known to LEDs or other persons skilled in the art may be used, and the blue light source generates blue light having a blue wavelength range of sunlight, and red The red light source generates red light in the red wavelength range of sunlight, and the yellow light source generates yellow light in the yellow wavelength range of sunlight. The white light source generates white light similar to sunlight, the ultraviolet light source generates ultraviolet light in the ultraviolet band of sunlight, and the infrared light source generates infrared light in the infrared band of sunlight.

The light control unit 330 selects at least one light source from the light source unit 320 in response to a light selection signal through the light selection unit 310, and turns on / off, light intensity, and blinking of the selected at least one light source. It will control whether or not and blinking speed.

In this case, the light control unit 330 selects at least one light source in response to the light selection signal to perform only an operation of controlling on / off of the selected light source, and through a separate control command, the light intensity of the selected light source, You can control the blinking and blinking speed. For example, a separate control button or a touch screen device for controlling whether the selected light blinks and the blinking speed may be provided in the light controller 330 or the light selector 310.

For example, when the color of the light selected by the light selector 310 is any one of blue, red, yellow, white, and black, the light controller 130 may provide a light source of a corresponding color to the light source 120. ) To turn on the light source and control the intensity of the light and the flashing speed. Accordingly, light of a corresponding color passes through the photosynthesis unit 340 to be irradiated through the light irradiation unit 350.

As such, the light control unit 330 may control the overall operation of the light irradiation apparatus 300 according to the present invention, namely, the photosynthetic unit 340, the light irradiation unit 350, and the memory unit in addition to the control of the light sources provided in the light source unit 320. 380 and the light conversion unit 390 may be configured to control the overall operation of the light irradiation apparatus 300 according to the present invention through a separate main controller.

The memory unit 380 stores a plurality of image signals or a plurality of sound signals each having any one of a property of a neck, a property of a fire, a property of a discussion, a property of a gold, a property of a gold, and a property of a number according to a principle of misunderstanding. do.

In this case, the video signal should be understood as a concept including both a video signal in the form of a picture file or a picture file or a video signal having a video file format. In addition, in the case of a sound signal, it should be understood as including a sound signal in the form of a voice file, including various sounds such as musical instrument sounds, water sounds, and wind sounds.

As the image signals stored in the memory unit 380, examples of image signals having a neck property include a picture or a video file of Jupiter, which is a planet, and various photo or video signals known to have a neck property. Can be. And, even in the case of video signals having a nature of nature may include a picture or video files related to Mars, and may include a variety of pictures or video signals for objects known to have nature of nature. The nature of the discussion may include photos or videos relating to Saturn, and various pictures or videos relating to Saturn, and the nature of gold may include photos or videos relating to Venus, and other pictures or videos relating to gold. For example, the nature of numbers may include photos or videos related to Mercury and other photos or videos relating to Mercury.

As the sound signals stored in the memory unit 380, examples of sound signals having a neck property include 'angle' sound (one degree sound of Western scale), bumping sounds between trees, and palate sound. , Django sounds, etc., which are musical instruments, may include all sound signals known to have neck properties. Examples of sound signals that have the nature of anger include, for example, 'chi' sound, which is one of the five tones, 'le' sound of the Western scale, sounds of burning, beeping sound, and drum sound of musical instruments. All sound signals known to have may be included.

Examples of the sound signals having a vowel property include 'gung' sound (one of the Western scales), 'soil' sound, bumping soil or falling soil, throat sound, jing sound, musical instrument, etc. In addition, all sound signals known to have a discussion property may be included.

Examples of sound signals having the property of gold include one of the five vowels, the 'sound' (the 'la' sound of the Western scale), the sound of metal bumping, the sound of metal, the sound of gums, and the sound of musical instruments. In addition, all sound signals known to have gold properties may be included.

Examples of sound signals that have the property of number include one of the five sounds, 'woo' sound (the 'me' sound of Western scale), the sound of flowing or dripping water, and the sound of water colliding. Sound and the like may be included, and may include all sound signals known to have a number property.

Image signals or sound signals stored in the memory unit 380 are selected by the control through the light control unit 130 to be provided to the light conversion unit 390.

That is, when the color of the light is selected through the light selection unit 310, the light control unit 330 selects at least one image signal or sound signal having a property corresponding to the selected color and the light conversion unit 390. To be provided. For example, when light of 'blue' corresponding to the nature of the neck is selected through the light selection unit 310, the light control unit 330 may display an image corresponding to the nature of the neck in the memory unit 380. At least one signal or sound signal is selected and transmitted to the light conversion unit 390. Even when light of a different color is selected, a corresponding video signal or a sound signal is selected and provided to the light conversion unit 390.

The light conversion unit 390 receives at least one image signal or at least one sound signal having a property corresponding to the color of the light selected by the light selection unit 310 from the memory unit 380 and receives an optical signal. The conversion is provided to the photosynthesis unit 340. Since the image signal or the sound signal stored in the memory unit 380 is an electrical signal, that is, a digital signal, the light conversion unit 390 is required to convert the image signal or the sound signal into an optical signal. Therefore, when the image signal or the sound signal can be provided in the form of an optical signal, the optical converter 390 may not be necessary.

The light conversion unit 390 converts an electrical signal into an optical signal, and generally may include an optical converter well known to those skilled in the art. In the case of transmitting multimedia content such as a video, a technology of converting a content, which is an electric signal, into an optical signal and transmitting it using an optical cable such as an optical fiber is known to those skilled in the art.

 The photosynthesis unit 340 synthesizes (or mixes) the light signal converted through the light conversion unit 390 and the light provided through the light source unit 120 to provide the light irradiation unit 350.

In addition, the memory unit 380 has a gamma wave having a nature of wood, a beta wave having a nature of nature, an alpha wave having a soil property, a theta wave having a nature of gold, and a number other than the above-described video signal or sound signal. Wave signals (or EEG signals) including a delta wave having a property of may be stored.

In this case, the light control unit 330 transmits at least one wave signal having a property corresponding to the color of the light selected by the light selection unit 310 from the memory unit 380 to the light conversion unit 390. Will be provided. The light control unit 330 may provide the wave signal to the light conversion unit 390 together with the image signal or the sound signal as needed, and select only the wave signal to provide the light conversion unit 390. It is also possible. This case also applies to the video signal and the sound signal. It is possible to select and provide only a video signal or a sound signal and to provide them together.

In this case, the light conversion unit 390 converts an image signal, a sound signal, a wave signal, etc. provided from the memory unit 380 into an optical signal and provides the optical signal to the photosynthesis unit 340. In this case, the optical signals are combined with the light provided from the light source 320 to provide the light to the light irradiation unit 350.

The light irradiator 350 transmits the light synthesized by the photosynthetic unit 340 to be irradiated to a desired portion. Here, the desired site may include affected areas, acupuncture points, meridians, and the like.

The light irradiator 350 may include an optical fiber or a light transmission means well known to those skilled in the art, and may be provided with a condenser lens for efficient transmission and irradiation of light.

The light irradiation unit 350 may be connected to a non-invasive needle or invasive needle to be used in the form of a single needle, such as a laser needle, depending on the use form using light, for the case used for light massage or light irradiation Various light irradiation units can be connected. In addition, depending on the type of use, it may be connected to various devices or tools for light irradiation or may be provided with various devices or tools.

The light irradiator 350 may rotate or rotate the light provided from the photosynthesis 340 in a clockwise or counterclockwise direction to transmit or irradiate the light. For the same effect, it is also possible to position the rotation unit such as a propeller or the polarizing plate in the area to which the light is irradiated to rotate the clockwise or counterclockwise direction so that the rotation effect of the light appears. Alternatively, when the end portion of the light irradiation unit 350 is rotated through the rotating unit in the state in which the light is irradiated in the shape of a star or other angle to the star shape or angled through the rotating unit, the rotation effect of the light You will be able to get

The cause of the light to be irradiated clockwise or counterclockwise is based on the theory of acupuncture (the theory of performing gait or judging by rotating the needle clockwise or counterclockwise after applying the needle to the affected area) and the theory of misleadingness. Since it is judged that it can function as a pedestrian or judicial depending on the direction of irradiation, this is to implement a pedagogical or judicial effect by using the irradiated light. For example, in the case of a heart disease, tongue disease, vascular disease, a person who has the nature of anger, or to stimulate the menstrual or meridians of the human body, such as to administer or to administer.

And, through the light control unit 330, it is possible to adjust the intensity of the light of the light sources provided in the light source unit 320, accordingly the intensity of the stimulus of the human body specific position by the light irradiated through the light irradiation unit 350 It is possible to adjust.

In addition, through the light control unit 330 through the flashing control and the flashing speed control for the light sources provided in the light source unit 320, the stimulation of the specific human body position by the light irradiated through the light irradiation unit 350 Change can be controlled. This can have an effect similar to that of acupuncture's method of stabbing and repetiting needles.

On the other hand, the light irradiation unit 350 is provided with a light irradiation unit (not shown) that can adjust the width or diameter of light irradiated to a specific part of the human body, the human body specific position by the light irradiated through the light irradiation unit 350 You can adjust the range of stimulation. This may have an effect similar to that of acupuncture, which can select various thicknesses of needles as needed.

In addition, the light irradiation unit 350 may include a vibration unit for irradiating a specific body part while vibrating the light transmitted from the light source unit 320. The vibration unit may be mounted inside or outside the light irradiation unit. When the vibration unit is provided and irradiated in a vibration state when the light is irradiated, it will be possible to obtain a similar effect to the acupuncture method of acupuncture to transfer the vibration to the needle through the vibrator in the state of the needle to enhance the effect of the stimulation.

As described above, according to the third embodiment of the present invention, by implementing the color mentioned in the five principles of light as light to stimulate or perform a specific part of the human body by using a light having a corresponding color treatment effect and constitution The improvement effect can be obtained. In addition, according to the principle of misunderstanding, optical signals such as image signals, sound signals, and wave signals of the same property can be synthesized and irradiated, thereby doubling the effect.

4 is a block diagram of a light irradiation apparatus 400 according to a fourth embodiment of the present invention.

The fourth embodiment of the present invention is intended to have the effect of the policy through the irradiation of light, applying the compensation method through the depth of the needle, the thickness of the needle, the needle rotation, the needle strength, the vibration of the needle The theory of acupuncture is to embody light.

As shown in FIG. 4, the light irradiation apparatus 400 according to the fourth embodiment of the present invention includes a light source unit 420, a light control unit 430, and a light irradiation unit 450. If necessary, the photosynthesis unit 440 may be further provided. The photosynthesis unit 440 performs the function of synthesizing light as in the case of the photosynthesis unit 140 of the first embodiment of the present invention.

The light source unit 420 includes a plurality of light sources each generating light of different wavelengths or different colors.

As in the case of the first embodiment of the present invention, the light source unit 420 may include a red light source, a green light source, and a blue light source. In this case, by synthesizing or passing them in the photosynthesis unit 440 according to the mixing principle using the three primary colors of these lights, purple light, indigo light, blue (blue) light, green (green) light, yellow The light may be sequentially generated in the order of colors such as (yellow) light, orange light, red (red) light, or in order of increasing wavelength. At this time, the intermediate light is generated between purple light, indigo light, blue (blue) light, green (green) light, yellow (yellow) light, orange light, and red (red) light. It is also possible.

In contrast, the light source unit 420 includes a red light source, an orange light source, a yellow light source, a green light source, a blue light source, a indigo light source, and a purple light source, respectively, and a purple light source, a indigo light source, a blue light source, a green light source, a yellow light source, and an orange light source. The light source may be controlled to be sequentially turned on according to the color order or the wavelength order of the red light source.

The light control unit 430 generates a light by sequentially selecting a plurality of light sources in order of increasing wavelength from the light source generating the light having the shortest wavelength in the light source unit 420, thereby identifying the human body of the irradiated light. The depth of stimulation with respect to the light of the site is controlled to deepen sequentially. That is, the light controller 430 may control the light to be generated while the color of the light is sequentially changed from the purple side to the red direction, or may be controlled to generate the light in the direction from the light having the shortest wavelength.

For example, when the light source unit 420 includes a blue light source, a green light source, and a red light source, the light source unit 420 synthesizes the light source unit 440 to shorten the wavelength from the violet light. It is possible to cause the light to be generated in an order of increasing wavelength in the order of the long red light.

In contrast, when the light source unit 420 is provided with a red light source, an orange light source, a yellow light source, a green light source, a blue light source, a blue light source, and a purple light source, a purple light source, a blue light source, a blue light source, and a green light source are provided separately. It is possible to light sequentially in the order of color or wavelength of light source, yellow light source, orange light source, and red light source, so that light is generated in order of increasing wavelength in order of violet light with short wavelength and red light with long wavelength. Do.

In this case, a luminance having a mixed color or an intermediate color between each color light such as purple light, indigo light, blue (blue) light, green (green) light, yellow (yellow) light, orange light and red (red) light. It is natural that it can be generated.

When light of a predetermined wavelength band or a predetermined color band is generated through the light source unit 420, the light control unit 430 maintains a lighting state with respect to at least one light source corresponding to previously generated light of the wavelength band or color band. It is possible to control so that it is possible to control so that it may turn off. For example, in the case where violet light is generated and indigo light is subsequently generated, it is also possible to keep the violet light continuously and to make only indigo light and to turn off the violet light. In addition, when light is generated in the order of violet light, indigo light, blue light, green light, etc., it is also possible to turn off the violet light after the green light is generated in between, and maintaining and turning off the light at various intervals or times. It is possible to adjust.

The light irradiation unit 450 is for sequentially or successively irradiating the light transmitted from the light source unit 420 to a specific portion of the human body in the light of various wavelengths.

The light generated through the light source unit 420 is sequentially or continuously specified in the order of the wavelengths gradually increasing in the order of the violet light having a short wavelength through the light having a long wavelength through the light irradiation unit 450. When irradiated at one site, light having a short wavelength penetrates into the skin and is stimulated, and as the wavelength is increased, the penetration depth of the stimulus is gradually increased, and the effect of applying a stimulus similar to stabbing a single needle is applied. You can get it. Therefore, when the needle is pulled out, the light should be controlled to be turned off in the reverse order to the needle sticking. In other words, if the red light is turned off in the order of decreasing wavelength, the effect of removing the needle will be obtained.

The light source unit 420 may further include an ultraviolet light source, an infrared light source, and a terahertz light source, and the light control unit 430 may generate ultraviolet light by the ultraviolet light source before the violet light when light is generated. The infrared light source and the terahertz light source may be sequentially turned on after the red light is generated.

The light irradiation apparatus 400 described above may perform the following control operation in order to obtain an effect similar to that of acupuncture using a metal needle actually used in one shot. Such stimulation may be performed in a step of irradiating light of a specific wavelength band or color, or may be performed after the light of the longest wavelength is irradiated, and may be selected as necessary. For example, in the case of sequentially irradiating to terahertz light in order from ultraviolet rays to longer wavelengths, when yellow light is irradiated as necessary, adjustment of intensity, speed, change, thickness, rotation, vibration, etc. of the stimulus described later It is possible to carry out, and when terahertz light is irradiated. That is, it is possible to perform by selecting a wavelength band or color band that can maximize the effect.

First, through the light control unit 430, it is possible to adjust the intensity of the light of the light sources provided in the light source unit 420, and accordingly the intensity of the stimulus of the specific human body by the light irradiated through the light irradiation unit 450 It is possible to adjust.

In addition, by controlling the speed of change of the wavelength or color of the light through the light control unit 430, it is possible to adjust the speed of the stimulation of the specific human body position by the light irradiated through the light irradiation unit 450. . This may have a similar effect to that of acupuncture, such as stabbing fast or stabbing slowly.

And, through the light control unit 430 through the flashing control and the flashing speed control for the light sources provided in the light source unit 420, the stimulation of the human body specific position by the light irradiated through the light irradiation unit 450 Change can be controlled. This can have an effect similar to that of acupuncture's method of stabbing and repetiting needles.

On the other hand, the light irradiation unit 450 is provided with a light irradiation unit (not shown) that can adjust the width or diameter of the light irradiated to a specific part of the human body, the human body specific position by the light irradiated through the light irradiation unit 450 You can adjust the range of stimulation. This may have an effect similar to that of acupuncture, which can select various thicknesses of needles as needed.

The light irradiation unit 450 may include a rotation unit for irradiating the light transmitted from the light source unit 420 while rotating it clockwise or counterclockwise, and the light transmitted from the light source unit 420. It is possible to include a vibration unit for irradiating on a specific body part while vibrating. The rotating unit or the vibration unit may be mounted inside or outside the light irradiation unit.

When the rotating unit is provided to rotate the light while irradiating, it will be possible to obtain an effect similar to that of acupuncture method of stabbing or pulling while rotating the needle clockwise or counterclockwise.

The configuration of the rotating unit is the same as described through the first and third embodiments of the present invention.

In addition, when the vibration unit is provided to irradiate the vibration state when the light is irradiated, it will be able to obtain a similar effect to the acupuncture method of acupuncture to transfer the vibration to the needle through the vibrator in the state of the needle to enhance the effect of the stimulation.

In addition, the depth control of the magnetic pole may be implemented by further including a light selection unit (not shown) in the light irradiation apparatus 400.

That is, the light selector may be configured to select light having a wavelength corresponding to the depth to control penetration depth according to the stimulus of the light, so that light having a specific color or a specific wavelength may be selected.

In this case, only the light having the wavelength selected through the light selection unit through the light control unit 430 may be controlled to generate light sequentially, thereby controlling the penetration depth of the light.

For example, when the green light is selected through the light selection unit, the light control unit 430 allows the light to be irradiated in order of increasing wavelengths in the order of ultraviolet light, violet light, indigo light, blue light, and green light. It is controlled to generate only the green light selected through the negative, and does not generate yellow light, orange light, red light, infrared light, etc. having a longer wavelength than green light. Alternatively, if red light is selected, it will be generated sequentially from ultraviolet to red light. Since red light has a longer wavelength than green light, it can penetrate deeply into the human body, and thus it is possible to control the penetration depth of the stimulus through light selection.

In this case, an effect similar to the effect of adjusting the depth of the needle used in the acupuncture compensatory method may be obtained.

As described above, according to the fourth embodiment of the present invention, it is possible to apply the acupuncture assisted method through light irradiation, so that compared to the actual use of acupuncture, it is possible to prevent pain and the risk of infection, etc. There is an advantage that can have acupuncture treatment similar to metal acupuncture.

The description of the above embodiments is merely given by way of example with reference to the drawings for a more thorough understanding of the present invention, and should not be construed as limiting the present invention. In addition, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the basic principles of the present invention.

Claims (20)

1. In a light irradiation apparatus using polychromatic light:

   An optical selection unit for generating an optical selection signal for selecting light of a corresponding color based on a chakra principle or a misunderstanding principle;

   A light source unit including a blue light source, a red light source, and a green light source;

   A light control unit for selecting at least one light source from the light source unit in response to the light selection signal and controlling on / off, light intensity, blinking, and blinking speed of the selected at least one light source;

   When the light of one light source is transmitted from the light source unit, the light passes. When the light of at least two light sources is transmitted from the light source unit, the light of the at least two light sources is synthesized, and the color corresponding to the light selection signal. A light synthesizing unit generating light having a light;

   And a light irradiating unit for irradiating the light passing through or synthesized by the light combining unit to a desired portion.
2. The method according to claim 1. The light irradiation apparatus using the multi-color light.

   The multi-color light is further provided to adjust the amount of light transmitted from the light source unit to the photosynthesis unit for each of the light sources individually to provide the photosynthesis unit, to be synthesized in a desired color through the photosynthesis unit. Light irradiation apparatus using the.
3. The method according to claim 2, The light control unit,

   When the color of the light selected through the light selection unit is red (red), blue (blue), or green (green) color, the light source unit selects and controls the corresponding color light source,

   When the color of the light selected through the light selection unit is orange, yellow (yellow), indigo, or purple, at least two light sources are selected from the light sources of the light source unit, and the light quantity of the selected light sources is adjusted by the light amount adjusting unit. And controlling the light to be synthesized by the photosynthesis unit so that the color of the light synthesized by the photosynthesis unit is the same as the color of the light selected through the light selection unit.
4. The method according to claim 2,

   The light source unit further includes one of an infrared light source and a terahertz light source and an ultraviolet light source.

   The light control unit,

   When the color of the light selected through the light selection unit is red or blue, the light source unit selects and controls the corresponding color light source,

   When the color of the light selected through the light selection unit is yellow, at least a red light source and a green light source are selected from among the light sources of the light source unit and controlled to be synthesized.

   When the color of the light selected through the light selection unit is white, the ultraviolet light source is selected and controlled,

   When the color of the light selected by the light selection unit is black, the light irradiation apparatus using the multi-color light, characterized in that for selecting and controlling the infrared light source or terahertz light source.
5. The method according to claim 2,

   The light source unit further comprises an infrared light source or a terahertz light source,

   The light control unit,

   When the color of the light selected through the light selection unit is red or blue, the light source unit selects and controls the corresponding color light source,

   When the color of the light selected through the light selection unit is yellow, the red light source and the green light source are selected from the light sources of the light source unit and controlled to be synthesized.

   When the color of the light selected through the light selection unit is white, the red light source, the blue light source and the green light source are selected and synthesized from the light sources of the light source unit.

   When the color of the light selected by the light selection unit is black, the light irradiation apparatus using the multi-color light, characterized in that for selecting and controlling the infrared light source or terahertz light source.
6. The light irradiation apparatus using the multicolored light according to claim 4 or 5,

   A memory unit for storing a plurality of image signals or a plurality of sound signals each having any one of a nature of a neck, a nature of a fire, a nature of a discussion, a nature of a gold, and a property of a number according to a principle of misunderstanding;

   And a light converting unit which receives at least one video signal or at least one sound signal having a property corresponding to the color of the light selected by the light selecting unit, converts the light signal into an optical signal and provides the light signal to the photosynthesis unit.

   And the photosynthesis unit synthesizes an optical signal provided through the light conversion unit with light provided through the light source unit and provides the light signal to the light irradiation unit.
7. The method according to claim 6,

   The memory unit stores wave signals including a gamma wave having a neck property, a beta wave having a nature of nature, an alpha wave having a soil property, a theta wave having a nature of gold, and a delta wave having a nature of water, ,

   The light conversion unit receives at least one wave signal having a property corresponding to the color of the light selected by the light selection unit, is converted into an optical signal received from the memory unit and provided to the photosynthesis unit, characterized in that Probe device.
8. The method according to claim 4 or 5,

   And the light irradiating unit irradiates the light provided by the photosynthetic unit while rotating it clockwise or counterclockwise.
9. A light selection unit for selecting light of a color corresponding to the nature of the neck, the nature of the fire, the nature of the earth, the nature of the earth, the nature of the gold, and the nature of the water;

   A light source unit including a red light source, a blue light source, a yellow light source, and an ultraviolet light source corresponding to white, and an infrared light source or a terahertz light source corresponding to black;

   A memory unit for storing a plurality of video signals or a plurality of sound signals classified according to the principle of misunderstanding according to the nature of the neck, the nature of the talk, the nature of the discussion, the nature of the gold, and the nature of the number;

   A light control unit for individually controlling at least one of on / off, light intensity, blinking speed, and blinking speed of light sources provided in the light source unit in response to a light selection signal through the light selection unit;

   An optical conversion unit receiving at least one image signal or at least one sound signal having a property corresponding to the color of light selected by the optical selection unit, and converting the optical signal into an optical signal;

   A photosynthesis unit for synthesizing the light transmitted from the light source unit and the optical signal converted and transmitted from the light conversion unit;

   And a light irradiation unit for irradiating the light synthesized by the photosynthetic unit to a desired portion.
10. A light selection unit for selecting light of a color corresponding to the nature of the neck, the nature of the fire, the nature of the earth, the nature of the earth, the nature of the gold, and the nature of the water;

    A light source unit including a red light source, a blue light source, a yellow light source, and a white light source, and an infrared light source or a terahertz light source corresponding to black;

    A memory unit for storing a plurality of video signals or a plurality of sound signals classified according to the principle of misunderstanding according to the nature of the neck, the nature of the talk, the nature of the discussion, the nature of the gold, and the nature of the number;

    A light control unit for individually controlling at least one of on / off, light intensity, blinking speed, and blinking speed of light sources provided in the light source unit in response to a light selection signal through the light selection unit;

    An optical conversion unit receiving at least one image signal or at least one sound signal having a property corresponding to the color of light selected by the optical selection unit, and converting the optical signal into an optical signal;

    A photosynthesis unit for synthesizing the light transmitted from the light source unit and the optical signal converted and transmitted from the light conversion unit;

    And a light irradiation unit for irradiating the light synthesized by the photosynthetic unit to a desired portion.
11. The method according to claim 9 or 10,

    The memory unit stores wave signals including a gamma wave having a neck property, a beta wave having a nature of nature, an alpha wave having a soil property, a theta wave having a nature of gold, and a delta wave having a nature of water, ,

    The light conversion unit receives at least one wave signal having a property corresponding to the color of the light selected by the light selection unit, is converted into an optical signal received from the memory unit and provided to the photosynthesis unit, characterized in that Probe device.
12. The method according to claim 9 or 10,

    And the light irradiating unit irradiates the light provided by the photosynthetic unit while rotating it clockwise or counterclockwise.
13. In a light irradiation apparatus having a needle function:

    A light source unit having a plurality of light sources each generating light of different wavelengths or colors;

    A stimulus for light of a specific human body on which the light is irradiated by sequentially selecting a plurality of light sources and controlling the light to be generated in order from the light source generating the light having the shortest wavelength in the light source unit in order of increasing wavelength. A light control unit controlling the depth of the light to be sequentially deepened;

    The light irradiation unit comprises a light irradiation unit for continuously irradiating the light generated and transmitted sequentially in the order in which the wavelength from the light source unit is gradually transmitted to a specific part of the human body, the depth of the stimulus caused by the light becomes deeper Device.
14. The method according to claim 13,

    The light source unit includes a red light source, an orange light source, a yellow light source, a green light source, a blue light source, a blue light source, and a purple light source,

    The light control unit illuminates sequentially according to the color order or wavelength order of the purple light source, indigo light source, blue light source, green light source, yellow light source, orange light source, and red light source.
15. The method according to claim 13,

    When light of one light source is transmitted from the light source unit, the light passes. When the light of at least two light sources is transmitted from the light source unit, the photosynthesis unit synthesizes the light of at least two light sources and provides the light to the light irradiation unit. Equipped,

    The light source unit includes a blue light source, a green light source, and a red light source,

    The light control unit individually controls the lighting of the light sources of the light source unit so that the light is synthesized in the color order or wavelength order of purple light, indigo light, blue light, green light, yellow light, orange light, and red light in the photosynthesis unit. A light irradiation apparatus characterized in that it is controlled to pass through and transmitted to the light irradiation unit.
16. The method according to claim 14 or 15,

    When the light control unit generates light of a predetermined wavelength band or a predetermined color through the light source unit, the light control unit controls the at least one light source corresponding to the previously generated light of the wavelength band or the colored band to maintain a lighting state or to turn off the light. Light irradiation apparatus characterized in that the control so that.
17. The method according to claim 14 or 15,

    The light source unit further includes an ultraviolet light source, an infrared light source, and a terahertz light source.

    The light control unit, characterized in that the ultraviolet light generated by the ultraviolet light source before the violet light is generated first, and after the generation of the red light, the infrared light source and terahertz light source is controlled to turn on sequentially.
18. The method according to claim 17, The light irradiation apparatus,

    By adjusting the intensity of the light of the light sources provided in the light source through the light control unit, and adjusts the intensity of the stimulus of the specific human body by the light irradiated through the light irradiation unit,

    By adjusting the speed of change of the wavelength of the light or the speed of change of the color through the light control unit, to adjust the speed of the stimulus of the specific human body by the light irradiated through the light irradiation unit,

    Through the light control unit to control the change of the stimulus of the human body specific position caused by the light irradiated through the light irradiation unit and the blinking rate control for the light source provided in the light source unit,

    The light irradiation unit is provided with a light irradiation unit that can adjust the width or diameter of the light irradiated to a specific part of the human body, characterized in that to adjust the range of the stimulation of the specific human body position by the light irradiated through the light irradiation unit Light irradiation device.
19. The method according to claim 17, The light irradiation unit,

    And a rotary unit for irradiating the light transmitted from the light source unit in a clockwise or counterclockwise direction or a vibrating unit for irradiating the specific body part while vibrating the light transmitted from the light source unit. .
20. The method according to claim 17, The light irradiation apparatus,

    Further provided with a light selector for selecting the light of the wavelength corresponding to the depth for adjusting the depth of penetration according to the stimulation of light,

    The light control unit controls the light to be sequentially generated in order of increasing wavelength from the light having the shortest wavelength, and adjusts the penetration depth of the light by controlling the light to be generated only to the light having the selected wavelength through the light selection unit. Light irradiation apparatus characterized in that.

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