TWI782006B - Portable non-invasive devices for integrative medicine and holistic healing - Google Patents

Abstract

A therapeutic device is provided that utilizes a microprocessor-controlled assembly having a heater and a ceramic plate which emits a Far Infrared wavelength of 8-10 microns and a Terahertz frequency vibration that flows throughout and deep into the human body. The Far Infrared heat energy produced by the therapy device stimulates the fow of internal energy in a person resulting in many therapeutic benefits.

Description

Portable, non-invasive device for integrative medicine and whole-person therapy

The present invention generally relates to the application of specific dedicated therapeutic devices and the like to the alignment of the human body. More specifically, the present invention relates to a portable, non-invasive therapeutic device especially adapted for integrative medicine and holistic treatment of various diseases.

From the earliest recorded history of mankind, people have suffered from various diseases and injuries. According to ancient medical literature, such as the 4,700-year-old Huangdi Neijing (Huangdi Internal Medicine Classic), which is regarded as the bible of traditional Chinese medicine, humans have a long history of trying to treat diseases and injuries by following traditional medical principles and theories. Most of this early medicine included various herbal remedies and in the case of ancient Chinese medicine manipulations acupuncture. In a sense, the foundation of modern Western medicine was formed in part by what was learned from ancient Native Americans, Asians, Indians, and Europeans. According to ancient medical principles, the energy pathways of the human body are called meridians. According to ancient Chinese medical literature, the legendary Shennong developed several theories about body functions, including the first concepts of circulation, pulse and heart, and the theory that internal energy flows through the human body along specific meridian lines. This power is named Qi (pronounced "chee" in Chinese Pinyin) or Ki (Japanese). It should be understood that its energy affects all aspects of an individual, including emotional, mental and physical health. Specifically, an individual's health is affected by the flow of Qi energy in an individual's body together with the cosmic forces of Yin (eg, negative charge) and Yang (eg, positive charge). According to these ancient medical principles, it is necessary to maintain a balance in the flow of Qi energy in an individual in order to maintain good health of the individual. The meridians of the human body are further divided into Yin and Yang meridians. In general, Yin meridians run upwards along an individual's legs and inner portions of arms (from the ground), while Yang meridians flow downwards along an individual's arms, back, and outer portions of legs (from the sky/sun). Normally, Qi energy in an individual's body flows continuously up and down along the meridian lines. When something happens that interrupts or blocks the flow of an individual's Qi energy, it results in a diseased state in that individual. At times, the pathways along which an individual's Qi energy flows can become overloaded due to various unwanted factors and events in an individual's daily life and depletion of the many pathogens and chemicals that an individual has ingested into their body. Stagnant energy in the body can lead to various diseases, particularly those related to the immune system of the individual. Over the years, therapies along the lines of attempting to manipulate the flow of Qi energy in the body to treat a wide variety of health conditions, primarily pain management and healing wounds and some other chronic conditions, have been developed and therapeutic devices have been developed for these purposes. Examples of related technologies are described below: U.S. Patent No. 5,451,199 shows a portable device carried by the human body, which includes a far-infrared ray generating composition board, a magnetic radiation unit, an electronic circuit unit, and a mercury battery. Arranged on the far-infrared ray generating composition board, it is used for self-radiation bio-energy so as to eliminate and relieve human fatigue and stress. U.S. Patent No. 6,461,377 shows a portable therapeutic device, in addition to generating magnetic vibrations through the rotation of two permanent magnets with different magnetic polarities from each other, and also radiating far-infrared rays from the Macbanseok received therein and by means of an electric The needles apply electrical stimulation to the body. The portable therapeutic device makes blood circulation smooth by means of magnetic vibration, and can relieve neuralgia and arthritis by applying electrical stimulation to a painful area of the human body. Also, the portable therapeutic device can be easily worn on a desired area of the human body by using a belt. US Patent No. 6,516,229 shows a personal therapeutic device comprising a support member on which a far-infrared ray emitting body providing a member for enhancing human health is placed. The device can be carried on the outside of the part of the human body exposed to far infrared radiation. The result is improved blood circulation and metabolism and reduced stress and fatigue. US Patent No. 6,860,896 shows an energy therapy device that utilizes an array of energy emitting elements to stimulate the flow of Qi energy along acupuncture meridians. The energy emitting elements are activated and deactivated sequentially to generate an energy wave. The energy waves are brought into contact with or close to the anatomical locations on the individual's body that have the underlying acupuncture meridians. The energy waves generated by the energy healing device stimulate the flow of Qi energy, resulting in a number of therapeutic benefits, including pain relief and reduced inflammation. U.S. Patent Application No. 2009/0306607 shows a flat iron-shaped moxibustion device, which has: a flat iron-shaped main body 2; a heater 5; a dome-shaped transparent glass cover 6; an inwardly curved inner surface, which is compatible with One of the outwardly curved outer surfaces in contact with the human body and fine irregularities 6b are formed thereon; a far-infrared ray radiation layer 7, which is coated on the inner surface of the glass cover 6 with fine irregularities 6b formed thereon and a clay-like far-infrared ray radiation material 8, which is filled into the inside of the glass cover 6 along with the far-infrared ray radiation layer 7 in close contact, and the moxibustion device can have substantially uniform far-infrared rays Radiant and has an excellent appearance. None of the techniques described above solves all of the problems addressed by the present invention, nor does it provide all of the solutions proposed by this application. Different from what is mentioned above, the present invention relates to an Onnetsu method using special sunlight and cosmic energy, and the treatment device used in the Onnetsu method is referred to herein as Onnetsuki. The Onnetsu method is related to cosmic energies, not just dependent on mundane, physical three-dimensional technology, and the treatment device Onnetsuki is not a conventional electrical machine or any gadget, but provides the individual, subject or patient receiving treatment with a near " "Miracle" relieves the symptoms of other diseases. On planet Earth (sometimes called Gaia) all things vibrate in a vibrant form according to the laws of nature, this constant alignment and recalibration of the yin and yang balance supports the harmony that helps sustain the prosperity of life. partnership. In Gaia, all things exist as opposites. Our life force is also part of the life force of the planet Earth. Onnetsu means comfort heat. In the present invention, our human cells are treated according to the laws of nature. This is a completely new and completely natural and non-invasive holistic treatment without side effects, which involves NASA's solar ray vibration technology and traditional Japanese healing methods by receiving heat, sunlight and balancing the autonomic nervous system and promoting flow in the body . In fact, Onnetsu Meridian Therapy has been used in more than 108,000 treatments over the past 15 years and many conditions have been seen to improve naturally with no adverse effects or side effects. This is possible because Onnetsu therapy promotes the patient's own healing power rather than symptoms. Disease list includes (but is not limited to) the following: Arthritis, Asthma, Atopic Dermatitis, Autonomic Disorders, Brain Problems, Blood Pressure, Bone Problems, Cancer (various), Heart Arrhythmias, Colds, Diabetes, Digestive Problems, Dizziness , Eye and Ear Problems, Face, Fibroids, Kidney and Liver Problems, Hemorrhoids, Hepatitis, Herpes, Insomnia, Liver Disease, Lung Disease Lyme Disease, Melanoma, Pain Relief, Parasites, Parkinson's Disease (Parkinson's Disease), Pneumonia, Prostate/Bladder Problems, Scoliosis, Spinal Cord Injury, Stroke, Thyroid Problems, TMJ, Tuberculosis, Tumors, Ulcerative Colitis and Uterine Disorders. More specifically, the method and device of the present invention preferably emit 8 microns to 10 microns of far-infrared heat energy and 1 MHz frequency vibration for treatment. Far-infrared rays have been studied both in vitro and in vivo to stimulate cells and tissues and are considered a beneficial approach for certain medical conditions such as improving vascular function, antibacterial, generating endothelial cell angiogenesis, inflammation. No adverse effects of far-infrared rays on pacemakers and other implants have been reported. Far infrared rays are not absorbed into inorganic materials but reflect themselves back. Far-infrared rays are like warm vibrations from the sun. The heat only warms the surface of the material, but the far-infrared rays penetrate deep into the human skin, exceeding 10'' when using megahertz frequency vibrations. Far-infrared solar energy is absorbed into the organic material and starts activating the movement of water molecules and thus it generates some heat inside. The detoxification process also begins. Conventional heat warms the material from the surface, but far infrared warms it from the inside. The methods and devices of the present invention have three aspects: 1) The methods and devices balance the autonomic nervous system and enhance the individual's internal healing ability without adverse side effects. 2) These methods and devices use far-infrared solar vibration and heat to detect the location of unhealthy cells deep inside the body. This appears as a "hot spot". 3) These methods and devices are improved versions of traditional Japanese moxibustion without burning moxa smoke and smell, and they work as well as acupuncture without needles. These methods and devices are based on intertwined historical and scientific truths. The main factors in the method and device of the present invention are: 1. Light (LIGHT): NASA's discovery of the far-infrared therapeutic vibration about the sun; 2. Heat (HEAT): the traditional Japanese understanding of the importance of body temperature, such as by Proven by moxibustion methods; 3. BALANCE: modern immunology medical science: the balance of the autonomic nervous system promotes immunity and enhances the individual's own healing power; 4. Flow (FLOW) and organ relationship: four kinds of body energy flow : Blood, lymph, oxygen and Ki (Qi) in organ relations. The theory of Yin and Yang and the theory of five elements and the relationship between organs and the flow between them; the following discussion is about these factors in more detail: The first factor is light (LIGHT): according to the accuracy of 8 microns to 10 microns (it is in the far infrared radiation Vibrating sunlight in the infrared spectrum). In the 1960s, NASA's review of far-infrared solar frequencies explained that all living organisms on this planet receive specific solar frequencies to maintain and improve their vitality. NASA commented that this is a very narrow frequency range (frequencies from 0.76 microns to 1,000 microns) in the infrared spectrum that exists between the visible and microwave ranges. This narrow range of far-infrared frequencies is the solar energy that promotes and restores life. When it is received, far-infrared solar energy vibrates in cells synchronized with water molecules to promote the maintenance of healthy cells and improve the disease of unhealthy cells. The method and device of the present invention utilizes a dedicated Onnetsu device (ie, "Onnetsuki") in which special ceramics emit far-infrared solar waves with vibrations of 8 microns (sometimes referred to as mc) to 10 microns. The method and apparatus of the present invention utilize a ceramic which is an improved ceramic first invented and patented in Japan in 1980. Moxibustion, which originated in Tibet, then became popular in Japan as one of the traditional far-infrared treatments using heat. Mugwort (Artemisia herb) is dried under the strong sun to receive powerful far-infrared energy. Pellets of herbs are placed on the skin over areas of unhealthy cells and then ignited and burned. Mugwort (artemisia herb) causes smoke and smell like marijuana and often produces a "burn point". Mugwort (Artemisia herb) heats deep inside the body and sends medicinal energy and far infrared vibrations to heat specific cold spots inside. For hundreds of years, moxibustion has been used to treat diseases in Japan. Moxibustion can achieve the following results in human physiology: a sharp increase in white blood cell count (by repeated use, the size is twice the normal count); increase the phagocytic activity of white blood cells; promote free radical scavenging; increase red blood cell count and hemoglobin; oxygen. Moxibustion is responsible for creating antibodies against virus-promoting killer T cells that can even reduce cancer cells. When experimenting with TB-infected mice, moxibustion was effective in treating and preventing one of TB. The method and device of the present invention are a modern version of moxibustion. The methods and devices of the present invention also bring about beneficial effects similar to those of moxibustion. The second factor is heat (HEAT): The reason why far-infrared heat is effective for human organisms is that far-infrared rays with a wavelength of 8 microns to 10 microns make the water molecules in our body (the basis of our life) resonate and vibrate and make it full of vitality activated. Then micro-vibration massages the cells and tissues of the body to promote the elimination of toxins from our body, such as sweat. Far-infrared heat causes better blood circulation, accelerates metabolism and promotes nutrient absorption and detoxification. Far infrared heat penetrates deep inside and heats from the inside out instead of the outside in. The devices and methods of the present invention make use of this technology. Body temperature is often associated with symptoms and physical conditions of an individual's physiology. To give an example: 97.7~98.6ºF, 36.5~37.0℃: ideal internal body temperature. Healthy, your immunity is strong. 96.8~97.5ºF, 36.0~36.4℃: The body trembles unconsciously to increase body temperature. 95.0~96.6ºF, 35.0~35.9℃: If this temperature range continues, the functions of the autonomic nervous system such as excretion and digestion will weaken. Other symptoms of ANS malfunction appear: allergic reactions, blood pressure, etc. 95.0ºF, 35.0℃: Severely weakened immunity. Ideal temperature for rapid growth of cancer cells. 93.2ºF, 34.0℃: This is the key point for survival after drowning. 91.4ºF, 33.0°C: Subject hallucinates before freezing to death on the mountain. 84.2~86.0ºF, 29.0~30.0℃: Consciousness is loose and pupils are open. 80.4ºF, 27.0℃: The temperature at which a person dies. New discoveries related to heat and cancer show that cancer cells are cold! When we feel cold, we engage in the act of keeping warm, turning up the thermostat a notch or sparingly putting on an extra layer of clothing. The mice were lined exactly the same, and if the mouse felt cold, the mouse was moved to a warmer place. When healthy mice were able to choose the temperature at which they wanted to go out (where the options were 22°C, 28°C, 30°C, 34°C or 38°C), they usually migrated to a comfortable 30°C room. Mice with tumors tended to choose the hottest 38°C room. Cancer patients also commonly report experiencing deep chills, especially after chemotherapy treatments. The Japanese concept of internal body temperature proposes that unhealthy cells are cold and the temperature must be raised. Exposure of the internal body to heat has been a traditional therapy but the methods and devices of the present invention improve upon such traditional therapy. Cancer cells die at 42°C (109ºF) and fight at 35°C (95ºF). If the body is lowered by one degree, the immunity will also be damaged by 50% to 100%. The methods and apparatus of the invention achieve these results when used appropriately. The third factor is balance (BALANCE): For an individual or patient, it is important to maintain balance in their entire autonomic nervous system (ANS). This balance will enhance the individual or patient's immune system and thus their own healing power. The balance of the ANS must be achieved by balancing the sympathetic nervous system of the patient or individual with its parasympathetic nervous system. In doing so, a stronger immune-boosting form of the individual or patient can be achieved. When individuals are sometimes referred to as workaholics it is said that they are experiencing sympathetic innervation (SND). SNDs are responsible for motivating and becoming active at work, exercise and emotionally. Has too much sun and causes SND. Characteristics of SNA include: workaholism, loud voice, excitability, rapid movement, higher body temperature, and eating more meat. Symptoms of SND include: rapid and tense pulse, muscle tension, facial twitching and weakness, shortness of breath, palpitations, emotional lability, headache, back pain, decreased frequency and frequency of urination, insomnia, lack of appetite, dizziness, nausea, eye Pain, cold hands and feet and "Oketsu" (blood bruising) symptoms, tense reflex areas. SND restricts blood flow and thus increases granulocytes. This in turn increases red blood cell destruction and can be a factor in the formation of "Oketsu" or bruising. Parasympathetic innervation (PND) is sometimes called a couch potato. PND produces a resting state prone to rest, sleep, or laziness. Organs are also quite lazy when it comes to functioning. Has too much shade. PND traits include: lazy, quiet, hypothermic, not excitable, slow moving, and possibly more vegetarian. Symptoms of PND include: often feeling dull or generally sick, poor digestive function, decreased adrenal function, tiredness, lower back and/or shoulder pain, general nervousness, lack of sweating, decreased pulse rate, heavy pulse and cold lower back, abdomen and limbs. PNDs can suffer from constricted airways that can cause wheezing, shortness of breath, and coughing. PND can cause allergies, asthma, frequent urination, abdominal cramping, excessive salivation, gas, and diarrhea. The methods and devices of the present invention help achieve ANS balance in an individual or patient. The autonomic nervous system (ANS) controls the major organs and their processes in the body and automatically maintains general homeostasis. This feature is an integral part of controlling health. However, the sympathetic nervous system (SNS) and parasympathetic nervous system (PNS) of the autonomic nervous system must be balanced. An unhealthy situation is established if the sympathetic or parasympathetic nervous system is dominant. Specific types of disease are often found to be associated with the dominance of systems. The present method teaches a specific technique for balancing the ANS. Due to the modulatory effects of far infrared energy and megahertz frequency vibrations on the ANS, this monotherapeutic approach can be applied in either SNC-dominant or PNC-dominant situations using the device of the present invention. The method focuses on applying the device (referred to herein as Onnetsuki) along the entire length of the spine and at acupuncture point locations, and applying the Onnetsuki on both sides of the sternocleidomastoid muscle (SCM) and in the surrounding area. Also includes the thyroid region. Application of this device on the spine may help warm and activate the ANS. This is a simple yet very effective way to improve immunity, the patient's own healing power and improve most health problems while maintaining their health. During this application there will be "hot spots" which will occur (actually cold spots) and these spots will be treated with the device of the invention until the temperature of the spot is in equilibrium with the rest of the back area. In our daily life, it is extremely difficult to balance SNS and PNS, except for maintaining the balance of yin and yang through meditation, breathing exercises and reasonable diet. However, these results can be achieved in a substantial amount of time using the methods and apparatus of the present invention. The fourth factor is flow (FLOW) and organ relationship. There are four kinds of energy flows or currents in the human body: 1. Blood flow, blood stasis; 2. Oxygen flow; 3. Fluid flow (lymph); and 4. Ki (Qi) flow. The method and device of the present invention promote four smooth flows or currents in the body: blood, lymph, oxygen, and Ki (Qi), by applying the device on the spine, anterior abdominal region, and upper chest. These four flows are also aided by sliding the Onnetsuki in the appropriate direction. The devices and methods of the present invention are used to heat cold spots to relieve disease symptoms and clear blood stasis. The method and apparatus of the present invention help to ensure that all four major currents flow smoothly and smoothly. This results in cleansing of blood vessels and veins allowing rapid elimination of spider veins. In the concept of acupuncture and moxibustion, our ten main organs are paired into five pairs of yin and yang organs. The main organs are paired and each has a partner organ. When the paired organs are related to yin and yang, they are: liver (yin)-gallbladder (yang); heart (yin)-small intestine (yang); spleen (yin)-stomach (yang); lung (yin)-large intestine (yang); And kidney (yin)-bladder (yang). For example, if the lungs are unhealthy, the large intestine is also unhealthy. Similarly, the meridians in the human body are believed to be all connected end to end so that an individual's Qi energy can flow from one meridian to another in a continuous cycle. The major organs are arranged in the following order: gallbladder connects to liver, liver connects to lungs, lungs connects to large intestine, large intestine connects to stomach, stomach connects to spleen, spleen connects to heart, heart connects to small intestine, small intestine connects to bladder, bladder connects to Kidney, the kidney is connected to the pericardium, the pericardium is connected to the triple energizer heater, and the triple energizer heater is connected to the gallbladder. Each of these paired organs is thus in a continuous cycle of Qi flow in relation to each other. The methods and devices of the present invention use this acupuncture theory to help unhealthy organs by utilizing the meridian flow in or between each of the ten major organs. Each partner organ has a mother-child relationship with another pair of organs. The methods and devices of the present invention use these relationships to help the mother's organs help the child's organs when the child's organs are weak. The methods and devices of the present invention enable localization of tumors in cancer therapy. The sensations felt in the presence of a tumor were: a constant heat sensation and a very sharp tingling sensation due to the abnormality in the area. If this simple but powerful form of treatment is performed with Onnetsu therapy, the results are excellent: Onnetsuki devices can be administered to these points instead of acupuncture needles. Many similar machines exist in Japan, but none are as effective as the present invention. This is because other methods and devices more or less carry heat and some far-infrared radiation only to the surface of the body. Heat and far-infrared vibrations cannot reach infected areas deep inside the body. The unique combination of materials of this invention can penetrate human skin and body much deeper, up to 30 cm or up to 12 inches deeper than other machines. The present method and device is a new, improved, simple and non-invasive treatment for difficult chronic medical conditions using traditional teachings of heat, light, autonomic nervous system and acupuncture meridian system (without needles). The device of the present invention is a rapid and effective way of treating many diseases.

In one embodiment of the invention there is provided a portable, non-invasive therapeutic device adapted for therapy comprising: a) a plate having a central opening defining a front portion of the device and a wall extending outwardly from it and enclosing a hollow interior space behind the inner surface of the plate, wherein the plate is coated with a specific ore adapted to emit light energy at a therapeutically effective level; b) a heating element, It is disposed in the hollow interior space behind the inner surface of the panel and is attached to the inner surface of the energy emitting panel; wherein, during operation, the panel is positioned such that light emitted from the panel contacts the subject The body or part of the body of the individual, and the energy emitting diaphragm is positioned above at least one or more sensitive points or above a part of the individual's body; and c) a power circuit, which is electrically connected to a microprocessor, the microprocessor further is electrically connected to a heater tube/thermal control circuit, a temperature sensor circuit, a digital display circuit and a switching control circuit, wherein the heater tube/thermal control circuit is in turn electrically connected to the heating element; and wherein the micro the processor is programmed to cause the thermal control circuit to intermittently pulse heat the heating element along the individual's body, and in turn pulse heat the energy emitting plate; and wherein the microprocessor further sends digital data to the digital The display circuit and the switching control circuit communicate digitally with the digital display circuit and the switching control circuit. In one aspect of the invention, the energy emitting plate is made of a material or a material treated with another material such that the plate emits light energy in the far infrared region after being heated. In another aspect of the invention, the energy emitting plate is made of or treated with a material, wherein the material is selected from the group consisting of ceramic, germanium. In yet another aspect of the present invention, the energy emission plate emits far-infrared rays according to a wavelength range selected from the group consisting of: (i) 8 microns to 10 microns after being heated to 70 degrees Celsius; ii) 800 nm to 1000 nm; (iii) 80,000 angstroms to 10,000 angstroms; and (iv) combinations thereof. In yet another aspect of the present invention, the energy emitting plate emits far-infrared light energy with a wavelength range of 8 micrometers to 10 micrometers and vibrates at a MHz frequency after being heated. In another embodiment of the present invention, a portable, non-invasive therapeutic device adapted for therapy is provided, wherein the device is a hand-held device, and wherein one of the or plates of multiple anatomical locations. In another embodiment of the present invention there is provided a portable, non-invasive therapeutic device adapted for therapy, wherein the device is in the form of a mat on which an individual sits or lies, the mat Further comprising one or more flexible protective layers attached to the energy emitting plate, and wherein at least a portion of the one or more protective layers aligned with the energy emitting plate is sensitive to the far-infrared light energy emitted by the diaphragm Transparent or translucent. In one aspect of embodiment, the protective layers for the therapy pad are textured. In another aspect of embodiment, the protective layers for the therapy pad are smooth. In yet another embodiment of the present invention, a method of treating a body region of a subject while applying therapeutically effective levels of far-infrared light energy to the region is provided, the method comprising: providing a non-invasive treatment A handheld device for non-invasive treatment adapted to perform treatment on a surface area of an individual's body, the device comprising: (i) a plate having a central opening defining a front portion of the device and A wall extending outwardly therefrom and enclosing a hollow interior space behind the inner surface of the panel, wherein the panel is adapted to emit therapeutically effective levels of light energy; (ii) a heating element disposed on the diaphragm In the hollow interior space behind the interior surface and attached to the interior surface of the energy emitting membrane; (iii) a microprocessor electrically connected to a heater control circuit which in turn communicates with the heater element connection; and (iv) the microprocessor is programmed to cause the heater control circuit to pulse the heating element and then the energy emitting plate intermittently along the individual's body; Positioning it to a surface area of the subject's body during operation such that the panel is positioned so that light emitted from the panel contacts the individual's body or part of the body, wherein the energy emitting panel is positioned on at least one or more sensitive point or a portion of the individual's body; when the therapeutic device is attached to the body area, program the microprocessor to cause the heater control circuit to drive the heating element to heat and cause the energy emitting diaphragm to operate in a predetermined pattern and for Therapeutic levels of far-infrared energy are time-emitted and aligned with the anatomical locations of individual body regions. In yet another embodiment of the present invention, a method of treating a body region of a subject while applying therapeutically effective levels of far-infrared light energy to the region is provided, the method comprising: providing a non-invasive treatment A pad, the non-invasive treatment pad adapted for treatment on a surface area of an individual's body, the treatment pad comprising: (i) a plurality of plates adapted to emit light energy at a therapeutically effective level; (ii ) a plurality of heating elements disposed behind and attached to the energy emitting plate diaphragm; (iii) a microprocessor electrically connected to a heater control circuit which in turn is connected to the heating element; and (iv) the microprocessor is programmed to cause the heater control circuit to pulse the heating element intermittently in a predetermined pattern along the individual's body and thereby emit the energy plate pulsation; during operation of the therapy pad, the subject sits or lies on the therapy pad such that one or more surface areas of the individual's body are positioned adjacent to the energy emitting plate so that light energy emitted from the diaphragm contacts the subject the subject's body or part of the body in which the energy emitting plate is positioned over at least one or more sensitive points or a part of the individual's body; when the therapeutic device is attached to an area of the body where the therapeutic mat is sitting or lying When in the vicinity of a subject's body region, the control unit is programmed to cause the microprocessor to drive the heating element to heat and cause the energy emitting diaphragm to emit therapy in a predetermined pattern and duration aligned with the anatomical location of the individual's body region level of far-infrared energy. In one aspect of this embodiment of the invention, the energy emitting plate is made of a material or a material treated with another material such that the plate emits light energy in the far infrared region after being heated. In another aspect of this embodiment of the invention, the energy emitting plate is made of or treated with a material, wherein the material is selected from the group consisting of: iron, polysilicon, aluminum, Titanium, manganese, calcium, vanadium, zirconium, potassium, strontium, rubidium, zinc, copper, platinum and megahertz. In yet another aspect of this embodiment of the invention, the energy emitting plate is made of a material or treated with germanium. In yet another aspect of this embodiment of the present invention, the energy emitting plate emits far-infrared rays according to a wavelength range selected from the group consisting of: (i) 8 microns to 10 microns after being heated; ii) 800 nm to 1000 nm; (iii) 80,000 angstroms to 10,000 angstroms; and (iv) combinations thereof. In yet another aspect of this embodiment of the present invention, the energy emitting plate emits light having a wavelength range of 8 microns to 10 microns and a specific range of megahertz frequency vibrations. In yet another aspect of this embodiment of the invention, programming the device causes the energy emitting panel to emit far infrared light in a pulse. In yet another aspect of this embodiment of the invention, the programming step includes programming the light energy direction to follow the flow direction of Chee energy in one or more meridians. In yet another embodiment of the present invention there is provided a portable, non-invasive, hand-held device comprising: a) a plate having a central opening defining a front of the device and outwardly A wall extending and enclosing a hollow interior space behind an inner surface of the panel, wherein the panel is adapted to emit therapeutically effective levels of light energy, and wherein the handheld device is designed to conform to a subject's body b) a heating element disposed in the hollow interior space behind the inner surface of the plate and attached to the inner surface of the energy emitting plate; wherein, during operation, the energy the emitting panel is positioned such that light emitted from the panel contacts a subject's body or body part, and the energy emitting panel is positioned over at least one or more sensitive points or a portion of an individual's body; c) a microprocessor , which is electrically connected to a control circuit, which in turn is electrically connected to the heating element, wherein the microprocessor is programmed to cause the control circuit to intermittently drive the heating element in a predetermined pattern along the individual's body. pulsing the heating element and in turn pulsating the energy emitting plate; and d) a microprocessor electrically connected to a control circuit which in turn is electrically connected to the heating element, wherein the microprocessor is programmed to cause the A control circuit intermittently pulses the heating element and in turn the energy emitting plate in a predetermined pattern; wherein the energy emitting plate pulsating in the pattern is aligned with the body of the individual. It is an object of the present invention to provide one or more therapeutic devices and methods of using such devices to manipulate body energy along appropriate pathways.

Claim of Priority This application is a US non-provisional application and does not claim priority to any prior US patent applications. Preferred embodiments of the present invention will now be described with reference to the accompanying drawings. The same elements in different figures are identified by the same element numbers. Reference will now be made in detail to various embodiments of the invention. These examples are provided by way of illustration of the invention and are not intended to be limiting thereto. In fact, those skilled in the art can understand that various modifications and changes can be made thereto after reading this specification and viewing the drawings of the present invention. In the present invention, the plates of the device are made by mixing up to 15 natural mineral powders together in specific ratios at precise temperatures using special techniques and baking them. The device of the present invention includes a ceramic containing iron, polysiloxane, aluminum, titanium, manganese, calcium, vanadium, zirconium, potassium, strontium, rubidium, zinc, copper, platinum, and megahertz, among other elements. This forms a plate which also contains elemental germanium displaced in the center of the ceramic plate in the form of a rivet. Ceramic plates can also be ground into powder and inserted into a layer of mats. With Onnetsuki, non-invasive stimulation of Qi flow, which is considered to be the energy and electromagnetic center of the body, becomes possible. Additionally, one can use Onnetsuki to regulate flow in the sternum and linea alba, as well as in the spine. By applying far-infrared energy and heat, under pressure from Onnetsuki, the connective tissue can be reset to allow it to change its normal shape by energizing and increasing energy circulation in it. When Onnetsuki is applied, the thermoelectric properties of connective tissue/fascia facilitate this (bioelectric flow increases upon application of heat/light/pressure), and the properties of Onnetsuki assist this flow. In fact, a balanced distribution of energy throughout an organ can be achieved by the device and method of the present invention, and if utilized correctly, much faster results than can be achieved by acupuncture. In another embodiment, other minerals can be used when preparing ceramic plates or rivets, mainly minerals and rare earth metals that emit far-infrared radiation with a wavelength of 8 microns to 10 microns and can realize megahertz frequency vibration. Reference is now made to FIGS. 1A and 1B , which illustrate an embodiment of the present invention providing a top and side view of a therapeutic device (i.e., Onnetsuki) with a portion of a power line extending outside the device, and a digital display and control buttons. The line is visible in Figure 1B. Referring now to Figure 2, which shows the same embodiment of the invention as in Figures 1A and 1B, providing another appearance of Onnetsuki. Referring now to FIG. 3, there is shown a top perspective view of another embodiment of the device of the present invention. Similar to Figure 1B, an Onnetsuki with its digital display and several control buttons is shown in this particular embodiment of the invention with a portion of bundled power lines extending outside the Onnetsuki. An exploded view of another embodiment of an Onnetsuki 100 having various structural layers is shown in FIG. 4 . In this embodiment of the invention, Onnetsuki 100 is enclosed by two shell-type outer enclosures 110 and 120, each shell-type outer enclosure having an oval-shaped first end and a long, straight third end for holding. Two ends. A large oval opening 130 is disposed on the first end of the front enclosure 120, and two circular openings 131 are disposed on the hand-held end of the enclosure 120 through which two screws (not shown) can pass. through the two circular openings 131 to reach and screw onto the opposite rear enclosure 110 . Once the two outer shell enclosures 110 and 120 are so attached/assembled and secured by the two screws, two rubber end caps 122 can be used to cover/conceal the outer sides of the two circular openings. A marking plate 121 is disposed on the outer surface of the front enclosure 120 . A square opening and two pairs of circular openings are disposed on the lower portion of the hand-held end of the rear enclosure 110 such that the positions and shapes of the openings match corresponding components positioned on a printed circuit board (PCB) 140, PCB 140 It accommodates circuit components (including a thermal control circuit 240 , a digital display circuit 250 , a switching control circuit 260 and a temperature sensor circuit 270 , see FIG. 5 below for details). When the PCB 140 is attached to the inside of the lower hand-held end of the rear enclosure 110 and is properly aligned with the opening on the enclosure 110, a square digital display socket 141 on the PCB 140 protrudes through the square opening and is positioned on the PCB 140. A pair of light sources (such as LEDs) 142 on 140 protrude through the top pair of circular openings and another pair of control switches 143 located on PCB 140 below the light sources 142 protrude through the lower pair of circular openings, respectively. On the protruded control switch 143 , a pair of plastic switch buttons 113 are attached to the control switch 143 . Separately, a digital display circuit board 111 is attached to the protruding square digital display socket 141 on the PCB 140 . Finally, a protective display cover panel 112 with matching and alignment openings for the digital display, light source 142 and control switch 143 is attached to the rear enclosure 110 outer surface. The openings in the protective panel 112 are such that the protective panel 112 does not obstruct the readings on the digital display, the light emitted from the light source 142 and the control switch 143 when they are properly aligned with the aforementioned components on the PCB 140. operate. Furthermore, the two circular openings 146 are positioned on the PCB 140 in such a way that when the front enclosure 120 and the rear enclosure 110 are fully assembled, the various aforementioned components on the PCB 140 and the various components on the rear enclosure 110 With the openings properly aligned, the two circular openings 146 on the PCB 140 are aligned with the aforementioned two circular openings 131 on the handle end of the front enclosure 120 . Therefore, when the aforementioned two screws pass through the two circular openings 131 on the front enclosure 120 to be screwed to the rear enclosure 110, they also pass through the two circular openings 146 on the PCB 140, whereby This secures the PCB 140 including the various components in place within the interior cavity of the hand-held end of the assembly formed by the two halves of the shell enclosures 110 and 120 . Additionally, a ridge structure 132 surrounding the two circular openings 131 is disposed on the inside of the front enclosure 120 and the inside of the rear enclosure (not shown) to provide additional structural support and rigidity to the resulting assembly and its internal components . A wire 145 has a first end having a USB or pin connector 144 and a second end attached directly to the PCB 140 . In another preferred embodiment, both ends of the wire 145 are equipped with male USB connectors and thus the PCB 140 is equipped with a female USB connector for easy transportation of the treatment device Onnetsuki 100 . In another embodiment, the processor of the device will be able to store in the device information and data about a particular individual with whom the device is used. The device comprises a ceramic plate 153 which is then heated, preferably comprising up to 15 minerals (iron, polysiloxane, aluminum, titanium, manganese, calcium, vanadium, zirconium, potassium, strontium, rubidium, zinc, copper , platinum and megahertz). After heating to a suitable temperature range, the germanium 133 positioned at the center of the ceramic plate of the device is also heated. The germanium rivets 133 are also displaced on the bottom side of the device, which is in contact with the individual's body. The germanium and ceramic plates are heated up to the desired temperature of 70 degrees Celsius and emit desired megahertz frequency vibrations along with 8 micron to 10 micron far infrared rays. A stainless steel sleeve 152 with a rectangular cutout holding a heater 154 in place is placed behind the plate 153. The heater 154 is connected to the heater tube/thermal control circuit 240 on the PCB 140 by means of the heater tube/thermal control circuit 240. Circuit 240 controls and draws power from heater tube/thermal control circuit 240 . Shaped to form on the inside of the oval opening 130 of the front enclosure 120 an oval silicone gasket 151 that fits snugly against an oval ridge 157 and presses against the stainless steel sleeve 152 which presses against the stainless steel sleeve 152 This is then pressed against the special/ceramic plate 153 and the heater 154 and thus helps to secure the entire sub-assembly of the stainless steel sleeve 152, the special/ceramic plate 153 and the heater 154 to the front enclosure 120 by friction within the confines of the elliptical ridge 157 on the inner side (see FIGS. 7A and 7B below for a more detailed discussion). An electrical flow/mechanism 200 for the Onnetsuki 100 heater and temperature control and digital display is shown in block diagram in FIG. 5 . Onnetsuki 100 includes an AC/DC adapter 220 that inputs regular (110 V) AC power and outputs DC power (24 V, 1.5 A) to a power circuit 230 that in turn receives DC power from the adapter 220 The power (24 V) is converted into DC 5 volts to be supplied to a central processing unit (CPU) 210, the power is further supplied to a heater tube/thermal control circuit 240 through the CPU 210, and a temperature sense is determined by the CPU 210 The output/feedback of the detector circuit 270 is used to regulate the supplied power. Independently, the CPU 210 further sends power to a digital display circuit 250 and a switching control circuit 260 and controls the digital display circuit 250 and the switching control circuit 260 . The CPU 210 also sends digital data to the digital display circuit 250 and communicates with the digital display circuit 250 . The data sent by the CPU 210 to the digital display includes temperature, among other things. In another embodiment, the CPU sends a signal to a digital display and acts as a timer for the therapist implementing the method of the present invention. The digital display can act as a timer and can also record data on how long the device has been displaced on the body (if the person or individual himself utilizes the device of the invention). In another embodiment, the device may have two timers that may count down at predetermined or programmed second intervals. The device was held by placing the index and ring fingers on either side of the stick device. The cone top 153 of the Onnetsuki should be in the center of your palm and become part of your hand. The plate is shaped into a cone to assist the device when placed over the contours of the spine or other part of the body. The cone shape allows for a smooth flow of the device through these parts of the body. When the device is held in the palm of the individual, the digital display faces the therapist or individual handling the device. A digital display showing a temperature reading or seconds countdown will always be facing the individual holding the device. Reference is now made to FIG. 6A which shows the same embodiment of the invention as in FIGS. 1A-1B and 2-3 , providing the appearance of a fully assembled Onnetsuki 100, although very similar to the previous embodiment shown in FIG. 4 , however Onnetsuki 100 includes a germanium rivet 133 at the center of the oval "head" end of the assembly. The germanium rivet 133 helps to provide additional structural support, security and rigidity to the resulting fully assembled Onnetsuki 100 and its internal components, but is also a heat concentration point for the device and corresponds directly to a germanium rivet on the bottom side of the device. When the therapist or patient using the machine does so by holding the device in their palm, the germanium 133 is displaced in the middle of the device, as described later. The germanium rivet fits directly into the middle part of the palm, or as it is sometimes called Rokyu. In another embodiment, the germanium can be located on different parts of the device but the different parts directly correspond to a part of the human body that contains an energy point, as taught by traditional acupuncture methods. In a preferred embodiment of the present invention, the germanium rivets are preferably aligned with the palm of a person. Referring now to FIGS. 6B and 6C , which show the same embodiment of the invention as in FIG. 6A , two further appearances of the assembled Onnetsuki 100 as in FIG. 6A are provided. Referring now to FIG. 7A , which shows the same embodiment of the invention as in FIG. 4 , it is provided that after the Onnetsuki 100 is rotated for the first time with the rear enclosure 110 facing upwards and disengaged so that the rear enclosure 110 is only in contact with the Onnetsuki An open view of Onnetsuki 100 with the remainder of 100 separated, thereby revealing the internal components and their interrelationships in a fully assembled state. As compared to FIG. 4, the same embodiment of the invention in FIGS. 7A and 7B (which is an enlarged view of a portion of FIG. 7A) provides a temperature sensor 155 disposed on the back of the heater 154 and The thermal switch 156 , and the heater 154 is connected to the PCB 140 and the thermal switch 156 ; the thermal switch 156 and the temperature sensor 155 are connected to the wiring of the PCB 140 . In summary, as shown in and discussed in detail with reference to the preceding figures, Onnetsuki 100 includes an external AC that inputs regular (110 V) AC power and outputs DC power (24 V, 1.5 A) to the electronic components on PCB 140 /DC adapter 220, wherein a power circuit 230 converts DC power (24 V) from the adapter 220 into DC 5 volts to be supplied to a central processing unit (CPU) 210, and the power passes through the thermal control circuit 240 The CPU 210 is further supplied to the heater 154, and this supplied power is regulated by the thermal control circuit 240 via the thermal switch 156 depending on the output/feedback of a temperature sensor circuit 270, which in turn self-regulates A temperature sensor 155 located near the back of the heater draws its input. When the heater for heating the special/ceramic plate 153 for the hot junction reaches the desired temperature of 70 degrees Celsius, the special/ceramic plate 153 can transmit the desired MHz frequency vibrations through the oval opening 130 of the enclosure 120 in front of the Onnetsuki 100 along with 8 Far-infrared radiation from microns to 10 microns. Independently, the CPU 210 further sends power to a digital display circuit 250 and a switching control circuit 260 and controls the digital display circuit 250 and the switching control circuit 260 . The CPU 210 also sends digital data to the digital display circuit 250 and communicates with the digital display circuit 250 . The data sent by the CPU 210 to the digital display includes temperature, among other things. The best use of the present invention is to cover the skin with a 100% cotton cloth covering plate that is not too thick and has no wrinkle-free treatment. The cloth is antimicrobial, loosely woven and chemical free. This special cotton cloth is called "Sarashi" and is unadulterated, natural, high quality and loosely woven. The fabric is threaded very loosely to allow air to pass through. A small cotton sock-like sheath should be used to cover the board for personal self-healing only. Liquids, creams, oils or water should not be placed on the device user, client, patient or individual or Onnetsuki. The temperature of the device was raised in 5ºC (9ºF) increments. The recommended treatment setting is 70ºC (158ºF) to 65ºC. The device should be smoothed over the spine for at least 15 minutes by stroking slowly with some pressure. The user of the device should not stop at one site for more than 5 seconds (count of 10) unless instructed to do so by using a specific breath count. In another embodiment, the device will display a countdown of seconds on a digital display. In another embodiment, the device will incorporate a metronome in its construction. The metronome will allow normalization of the amount of time an individual can indicate their isothermic sensation. When performing the method of the present invention, the Onnetsuki should be removed immediately when the patient or individual feels the heat of the device through the cloth and at the same time signals it with a cry (this usually occurs before the count of 10 (equal to 5 seconds) ends). This cry lets the therapist and your client know that this is an area that is linked to some kind of tension/energy contraction/lack of energy/"cold" and unhealthy area. Complete the treatment regimen in the series (example: middle back) and then return to the "hot (cold) spot" and try again. Usually in the second round, the client's body has absorbed enough far-infrared energy and heat that the user can count to a maximum of 10 counts (or 5 seconds). The area is now warmed and treatment has begun. Never change the temperature. This would confound the diagnosis of where the hot (cold) spot of treatment is. Referring now to FIG. 8, it shows a top perspective view of another embodiment of the device of the present invention, providing a far-infrared mat 820, which includes a heater and plate similar to those described above in a soft cloth/leather shell 810. A plurality of assemblies for grinding contents, and corresponding control circuits. This mat does not get very hot. For short duration treatments, set the temperature knob to 5, and for sleeping on the mat overnight for extra therapeutic benefits, set the temperature knob to 1 or 2. Mats come in three sizes: small, medium and large. These dimensions range from 35 inches long to 61 inches long to 8 inches wide to 21 inches wide. In another embodiment, a specially prepared cushion can be custom made. Preferably, the method and device of the invention should be based on use in conjunction with a mat, since the mat comprises the same material from which the boards of the device are made, except that the board material is ground and inserted into the mat layers. For best results, the pads should be used at the same time as the device. In yet another embodiment of the present invention, a novel combination of ceramic plates made of up to 15 minerals and megahertz are ground and used in sheet form in other products such as cushions, sock covers, underwear, socks, Cups, cooking utensils, sauna jackets. These electric sheets eliminate pain by generating heat energy that emits far-infrared wavelengths of 8 microns to 10 microns and vibrations at megahertz frequencies. The device of the present invention produces ceramics of the highest quality that radiate precisely 8 microns to 10 microns of far-infrared wavelength in a surprisingly accurate manner. This ceramic works with a mixture of germanium and other minerals in the plate that emit megahertz frequency vibrations that give the best and fastest results to the patient. Cancer dies from heating at 42ºC (107ºF). The method and apparatus of the present invention deliver heat up to 70°C. The device manages to emit far-infrared radiation that can reach into the human body deep into the skin as deep as 30 cm or as deep as 12 inches without damaging the skin, as shown in Figures 10A and 10B. Mechanisms that generate far-infrared therapeutic vibrations and heat will penetrate effectively. When the wavelength of far-infrared rays hits the human body, the far-infrared effect starts to activate at the cellular level. Far-infrared rays travel deep into the water molecules in the cells of the body. This far-infrared effect is a therapeutic and detoxification mechanism. This spreads throughout the body as far infrared rays pass through the blood vessels. The megahertz frequency vibration acts as a carrier of far infrared rays and heat so that it can reach infected and diseased parts of the human body being treated by the device. Megahertz frequency vibrations carry far-infrared rays and heat to penetrate water molecules inside the body at an astonishing speed. The device and method of the present invention generate heat at a temperature of 70 degrees centigrade and generate far-infrared radiation of 8 microns to 10 microns, both of which are carried by megahertz frequency vibrations into the human body deep into the skin Up to 30 cm or up to 12 inches deep. As shown in FIG. 12 , occupies a middle ground between microwave and infrared light waves known as the megahertz gap, where the technology for generating and manipulating megahertz frequency vibrations is in its infancy. Megahertz frequency vibrations represent regions in the electromagnetic spectrum, as shown in Figure 11, where the frequency of electromagnetic radiation becomes too high to be measured digitally by electronic counters, so the properties of wavelength and energy must be used by surrogates Measurement. Similarly, it is no longer possible to generate and modulate coherent electromagnetic signals in this frequency range by conventional electronic devices for generating radio waves and microwaves, thus requiring the development of new devices and techniques. The megahertz frequency region within the electromagnetic spectrum covers a frequency range approximately one hundred times that currently occupied by all radio, television, cellular radio, Wi-Fi, radar, and other users, and has proven useful in everything from molecular spectroscopy to communications, Potential applications in the context of high resolution imaging (eg in the medical and pharmaceutical sector) and safety screening. The device of the present invention utilizes vibrations in the Terahertz (THz) of a specific frequency region. In another embodiment, as shown in Figures 13, 14 and 15, the device may be narrow to allow access to parts of the body that do not have much skin surface area, such as the face or inner thighs. The stenosis device comprises the same materials and is used in the same manner as the devices described above. The germanium rivets of the narrow device are positioned on the elliptical contoured outer edge and remain in contact with the palm of the therapist or individual holding the device. Although the invention has been described in some detail, it is to be understood that the invention has been presented by way of illustration only and that several changes in details of construction and arrangement of parts may be adopted without departing from the spirit and scope of the invention.

100‧‧‧Onnetsuki110‧‧‧Shell-type outer enclosure/rear enclosure/outer shell-type enclosure/enclosure/shell-type enclosure 111‧‧‧digital display circuit board 112‧‧‧protective Display cover panel/protective panel 113‧‧‧Plastic switching button 120‧‧‧Shell-type outer enclosure/front enclosure/enclosure/outer shell-type enclosure/shell-type enclosure 121‧‧ ‧Marking plate 122‧‧‧Rubber end cap 130‧‧‧Oval opening 131‧‧‧Circular opening 132‧‧‧Ridge structure 133‧‧‧Germanium/germanium rivet 140‧‧‧Printed circuit board (PCB) 141‧ ‧‧Square digital display socket 142‧‧‧Light source 143‧‧‧Control switch 144‧‧‧Connector 145‧‧‧Conductor 146‧‧‧Circular opening 151‧‧‧Oval polysiloxane gasket 152‧‧‧ Stainless steel sleeve 153‧‧‧ceramic plate/plate/cone top 154‧‧‧heater 155‧‧‧temperature sensor 156‧‧‧heat control switch 157‧‧‧elliptical ridge 200‧‧‧electron flow/ Mechanism 210‧‧‧Central Processing Unit (CPU) 220‧‧‧AC/DC Adapter/Adapter 230‧‧‧Power Circuit 240‧‧‧Heater Tube/Heat Control Circuit 250‧‧‧Digital Display Circuit 260 ‧‧‧Switching control circuit 270‧‧‧Temperature sensor circuit 810‧‧‧Far-infrared mat 820‧‧‧Soft cloth/leather shell

FIG. 1A shows a side view of an embodiment of the present invention. Figure 1B shows a top view of the same embodiment of the invention as in Figure 1A. Figure 2 shows a rear view of an embodiment of the invention as in Figure 1A. Figure 3A shows a top perspective view of an embodiment of the present invention. Figure 3B shows a bottom perspective view of an embodiment of the present invention. Figure 4 shows a perspective view of an embodiment of the present invention. FIG. 5 shows a block diagram of an embodiment of the present invention. FIG. 6A shows a top view of an embodiment of the present invention. Figure 6B shows a side view of the same embodiment of the invention as in Figure 6A. Figure 6C shows another side view of the same embodiment of the invention as in Figure 6A. FIG. 7A shows an open top view of an embodiment of the present invention. Figure 7B shows an enlarged view of a portion of one embodiment of the invention. Figure 8 shows a mat of the present invention. FIG. 9 shows wavelengths in micrometers of far infrared rays. Figure 10A shows a graphical representation of far infrared rays penetrating the skin. Figure 10B shows a pictorial representation of a device that penetrates the skin. Figure 11 shows a graphical representation of one of the far infrared wavelengths. Figure 12 shows one of the graphical representations of megahertz frequency vibrations. Figure 13 shows a top perspective view of a stenosis device of the present invention. FIG. 14 shows a bottom perspective view of the same embodiment of the invention as in FIG. 13 . FIG. 15 shows a side perspective view of the same embodiment of the invention as in FIG. 13 .

100‧‧‧Onnetsuki

110‧‧‧Shell type outer enclosure/rear enclosure/outer shell enclosure/enclosure/shell type enclosure

111‧‧‧Digital display circuit board

112‧‧‧Protective display cover panel/protective panel

113‧‧‧Plastic toggle button

120‧‧‧Shell type outer enclosure/front enclosure/enclosure/outer shell enclosure/shell enclosure

121‧‧‧Marking board

122‧‧‧Rubber end cap

130‧‧‧Oval opening

131‧‧‧round opening

132‧‧‧ridge structure

133‧‧‧Germanium/germanium rivets

140‧‧‧Printed Circuit Board (PCB)

141‧‧‧Square digital display socket

142‧‧‧Light source

143‧‧‧Control Switcher

144‧‧‧connector

145‧‧‧wire

146‧‧‧circular opening

151‧‧‧Oval silicone gasket

152‧‧‧Stainless steel sleeve

153‧‧‧Ceramic plate/plate/cone top

154‧‧‧heater

157‧‧‧elliptical ridge

Claims (19)

A portable, non-invasive therapeutic device adapted for therapy comprising: a) an energy emitting plate having a central opening defining a front portion of the device and extending outwardly therefrom and enclosing the a wall of a hollow interior space behind the inner surface of an energy emitting plate coated with an ore adapted to emit a therapeutically effective level of light energy; b) a rivet comprising germanium located on the near the center point of the energy emitting plate; c) a heating element disposed in the hollow interior space behind the inner surface of the energy emitting plate and attached to the inner surface of the energy emitting plate; and d ) a power circuit electrically connected to a microprocessor which is further electrically connected to a heater tube/thermal control circuit, a temperature sensor circuit, a digital display circuit and a switching control circuit, wherein The heater tube/thermal control circuit is in turn electrically connected to the heating element; and wherein the microprocessor is programmed to cause the thermal control circuit to pulse heat the heating element intermittently along the individual's body, and then pulse heating the energy emission plate; wherein the microprocessor further sends digital data to the digital display circuit and the switching control circuit, and digitally communicates with the digital display circuit and the switching control circuit; and wherein the energy emission plate and the rivet configured to provide light energy to an individual's body when placed on at least one or more sensitive points or portions of the individual's body. The treatment device according to claim 1, wherein the energy emitting plate is made of a material that emits light energy in the far infrared region after being heated. The therapeutic device as claimed in claim 2, wherein the material is selected from the group consisting of: Iron, polysiloxane, aluminum, titanium, manganese, calcium, vanadium, zirconium, potassium, strontium, rubidium, zinc, copper, platinum, and megahertz. The treatment device as claimed in item 2, wherein the energy emitting plate emits far-infrared rays according to a wavelength range selected from the group consisting of: (i) 8 microns to 10 microns; (ii) 800nm to 1000nm; (iii) ) from 80,000 angstroms to 10,000 angstroms; and (iv) combinations thereof. The treatment device according to claim 2, wherein the energy emitting plate emits far-infrared rays having a wavelength range of 8 microns to 10 microns and vibrating at a frequency of 1 MHz. The treatment device according to claim 1, wherein the device is a hand-held device, wherein the energy emitting plate can be manufactured to conform to one or more anatomical positions on the subject's body. The therapeutic device of claim 1, wherein the device is in the form of a mat on which a subject can sit or lie, the mat further comprising one or more flexible pads attached to the energy emitting plate. A protective layer, and wherein at least a portion of the one or more protective layers aligned with the energy emitting plate is transparent or translucent to the far-infrared light energy emitted by the energy emitting plate. The therapeutic device according to claim 7, wherein the protective layers are textured. The treatment device according to claim 7, wherein the protective layers are smooth. A method for operating a non-invasive therapeutic hand-held device, the method comprising: The non-invasive therapeutic hand-held device is provided, comprising: (i) an energy emitting plate having a central opening defining a front portion of the device, and an inner surface extending outwardly therefrom and enclosing the energy emitting plate a wall of a rear hollow interior space; (ii) a heating element disposed in the hollow interior space behind the inner surface of the energy emission plate and attached to the inner surface of the energy emission plate ; (iii) a microprocessor, which is electrically connected to a heater control circuit, which in turn is connected to the heating element; and (iv) the microprocessor is programmed to cause the heater control circuit to pulsating the heating element intermittently in a predetermined pattern along the individual's body, and in turn pulsating the energy emitting plate; during operation of the therapeutic device, it is positioned to one of the subject's body a surface area, wherein the energy emitting plate is positioned over at least one or more sensitive points of the individual's body or a portion of the individual's body; and the microprocessor is programmed when the therapeutic device is attached to the body area. A method for operating a non-invasive therapeutic pad, the method comprising: providing the non-invasive therapeutic pad comprising: (i) a plurality of energy emitting plates; (ii) a plurality of heating elements disposed on the behind and attached to the energy emitting plate; (iii) a microprocessor electrically connected to a heater control circuit which in turn is connected to the heating element; and (iv) The microprocessor is programmed to cause the heater control circuit to pulse the heating element and, in turn, the energy emitting pad in a predetermined pattern intermittently along the individual's body; operating on the therapy pad During this time, the subject sits or lies on the therapy mat such that one or more surface areas of the individual's body are positioned adjacent to the energy emitting pad, wherein the energy emitting pad is positioned on at least one or more of the individual's body over a sensitive point or part of an individual's body; and The microprocessor is programmed when the therapy pad is worn about the body area of the subject. The method of claim 10 or 11, wherein the energy emitting plate is made of a ceramic material that emits light energy in the far infrared region after being heated. The method of claim 12, wherein the ceramic material is selected from the group consisting of iron, polysiloxane, aluminum, titanium, manganese, calcium, vanadium, zirconium, potassium, strontium, rubidium, zinc, copper, Platinum, and MHz. The method of claim 12, further comprising a rivet comprising germanium. The method of claim 12, wherein the energy emission plate emits far infrared rays according to a wavelength range selected from the group consisting of: (i) 8 microns to 10 microns after being heated to 70 degrees Celsius; ) from 800 nm to 1000 nm; (iii) from 80,000 angstroms to 10,000 angstroms; and (iv) combinations thereof. The method according to claim 12, wherein the energy emitting plate emits far-infrared rays with a wavelength range of 8 microns to 10 microns and vibrates at a frequency of 1 MHz after being heated. The method of claim 12, wherein the programming of the device causes the energy emitting plate to emit far-infrared light in a pulsed manner. The method of claim 12, wherein the stylization step includes stylization of light energy directions to follow The flow direction of Qi energy in one or more meridians. A portable, non-invasive, hand-held therapeutic device comprising: a) an energy emitting plate having a central opening defining a front portion of the device and extending outwardly therefrom and enclosing the energy emitting plate a wall of a hollow interior space behind the inner surface, wherein the energy emitting panel is adapted to emit therapeutically effective levels of light energy, and wherein the handheld device is designed to conform to a specific anatomical location on the individual's body; b ) a rivet comprising germanium and located near the center point of the energy emitting plate; c) a heating element disposed in the hollow interior space behind the inner surface of the energy emitting plate and attached to the The inner surface of the energy emitting plate; d) a first microprocessor, which is electrically connected to a control circuit, which in turn is electrically connected to the heating element, wherein the first microprocessor is programmed to cause The control circuit pulses the heating element intermittently in a predetermined pattern along the individual's body, and in turn pulses the energy emitting plate; and e) a second microprocessor coupled to a control circuit electrically connected, the control circuit is in turn electrically connected to the heating element, wherein the second microprocessor is programmed to cause the control circuit to pulse the heating element on and off in a preset pattern, and in turn The energy emitting plate pulses; wherein the energy emitting plate and the rivets are configured to provide light energy to the individual's body when placed on at least one or more sensitive points or portions of the individual's body.

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