CN113975652A - Instrument for realizing human body deep immunity thermal therapy by utilizing far infrared rays - Google Patents

Abstract

The invention discloses an instrument for realizing deep immune thermotherapy of a human body by utilizing far infrared rays, which comprises 1-3 groups of far infrared ray emitting components capable of stably emitting the far infrared rays with the wavelength of 8-10 mu m. The far infrared ray emission assembly comprises a ceramic carrier and a blowing device arranged at the rear end of the ceramic carrier, a plurality of PTCR thermal sensitive ceramic elements connected in parallel are arranged inside the ceramic carrier, the surfaces of the PTCR thermal sensitive ceramic elements are coated with metal oxide nano coatings capable of generating far infrared rays, and the total power of all the PTCR thermal sensitive ceramic elements of each group of ceramic carrier is more than 700 w. The far infrared ray emitting assembly can stably emit far infrared rays with the wavelength of 8-10 mu m, and the emitted far infrared rays and cells in the deep part of subcutaneous tissue of a human body generate same-frequency resonance, so that the temperature in the human body is increased by 1-2 ℃, the deep immune thermotherapy of the human body is realized, the cells in the deep part of the human body can be activated, the temperature in the human body is increased, the thermotherapy effect is achieved, and meanwhile, an immune system can be restarted to relieve various inflammations.

Description

Instrument for realizing human body deep immunity thermal therapy by utilizing far infrared rays

Technical Field

The invention relates to the technical field of health care and physical therapy, in particular to an instrument for realizing deep immune thermotherapy of a human body by utilizing far infrared rays.

Background

Currently, in the medical field, the commonly used division method for infrared rays is as follows: the near infrared ray has a wavelength of 0.8-1.5 μm, the mid infrared ray has a wavelength of 1.5-4 μm, and the far infrared ray has a wavelength of 4-1000 μm, wherein the wavelength band of 4-14 μm can be effectively absorbed by living organisms, and is called "life ray" or "biological wave". The normal temperature of human body is 36.8 deg.C, which is equivalent to the energy carried by far infrared with wavelength of 9.36 μm, 90% of normal healthy people have wavelength of 8-14 μm, and can vibrate ultrashort wave with frequency of 10^12 power per second, which is beneficial to human body and called human body biological wave, and the human body is not only the emitter of biological wave, but also the receiver of biological wave.

The existing thermal therapy methods generally include conduction thermal therapy and radiation thermal therapy, the conduction thermal therapy refers to a therapeutic method of directly contacting the human body using a heat source medium to transfer heat into the human body, such as sweat steaming, etc., and the thermal therapy method has problems: because heat enters the body from the outside of the body, the heat treatment time is long, and for people with the constitution of uneasy sweating, the sweating effect can be achieved only by waiting for a long time in the sweat steaming room; the photothermal therapy refers to a method of therapy using infrared radiation, and commonly used methods include infrared therapy, light bath, spectrum therapy, and the like, and the method achieves a thermal therapy effect by emitting infrared rays and the like, but the existing photothermal therapy methods generally have the following problems: 1. the wavelength of the emitted infrared rays is unstable, and harmful rays with low wavelength, such as x rays, gamma rays, near infrared rays and the like, can be generated while beneficial infrared rays for human bodies are generated, so that the human bodies are easily damaged; 2. most of the medicines only can radiate the surface of a human body to realize epidermal thermotherapy, but cannot activate cells in the deep part of the human body to achieve the effect of deep thermotherapy. Therefore, it is necessary to develop an apparatus for performing the deep immunological thermotherapy on the human body.

Disclosure of Invention

In view of the technical problems in the background art, the present invention aims to provide an apparatus for performing a deep immunological thermal therapy on a human body using far infrared rays.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

an apparatus for realizing deep immunological thermotherapy of human body by using far infrared rays comprises 1-3 groups of far infrared ray emitting components capable of stably emitting far infrared rays with wavelength of 8-10 μm. The far infrared ray emission assembly comprises a ceramic carrier and an air blowing device arranged at the rear end of the ceramic carrier, wherein a plurality of PTCR thermal sensitive ceramic elements connected in parallel are arranged in the ceramic carrier, the surfaces of the PTCR thermal sensitive ceramic elements are coated with metal oxide nano coatings capable of generating far infrared rays, and the total power of all the PTCR thermal sensitive ceramic elements of each group of ceramic carrier is more than 700 w. The far infrared ray emitting component stably emits far infrared rays with the wavelength of 8-10 mu m, and the emitted far infrared rays and cells in the deep part of the subcutaneous tissue of the human body generate same-frequency resonance, so that the temperature in the human body is increased by 1-2 ℃, and the deep immune thermotherapy of the human body is realized.

In one embodiment, the manipulator further comprises a base, a manipulator which is fixed on the base and can adjust the swing angle, and a shell which is fixedly arranged at the tail end of the manipulator. The ceramic air-blowing device is characterized in that an air outlet is formed in the front end of the shell, a pore plate is fixedly mounted at the air outlet, the ceramic carrier is fixedly arranged on the back of the pore plate, and an air inlet is formed in the position, opposite to the air-blowing device, of the rear end of the shell.

In another embodiment, the physiotherapy device further comprises a physiotherapy cabin. The physiotherapy cabin comprises a cabin body capable of being opened and closed, a support body arranged in the cabin body and used for supporting the sitting posture or the lying posture of a human body, and a box body arranged in the cabin body and used for supporting the far infrared emission assembly. The side wall of the bin body is provided with a through hole for the head of a human body to extend out, and the inner wall surface of the bin body is provided with a reflection shielding layer for reflecting far infrared rays and preventing the far infrared rays from penetrating out of the bin body. Under the effect of the reflection shielding layer, the far infrared rays emitted by the far infrared ray emission component do vortex-shaped motion along the whole bin body, so that the deep immune thermotherapy of the whole body of the human body is realized.

Furthermore, the front end face of the box body is provided with at least one air outlet, a net-shaped panel is fixedly installed at the air outlet, the far infrared ray emitting assembly is fixedly installed on the back face of the net-shaped panel, and the rear end face of the box body is respectively provided with an air inlet at the position corresponding to each air blowing device.

Preferably, in order to achieve a better thermal therapy effect, the far infrared emission assemblies are provided with two groups, the front end face of the box body comprises a middle end face and two side end faces which incline forwards from the left side and the right side of the middle end face respectively, an obtuse angle included angle formed between each side end face and the middle end face is 120-165 degrees, and the two groups of far infrared emission assemblies are arranged on the two side end faces respectively.

Further, the storehouse body include storehouse body and cang gai, the internal face of storehouse body and/or cang gai has the cambered surface, the bottom of cang gai pass through the hinge with the storehouse body is articulated mutually, the through-hole establish the lid of cang gai and storehouse body closes the department, the edge of through-hole sets firmly the elastic buffer circle.

Preferably, in order to achieve the optimal emission shielding effect, the reflective shielding layer is a nano silver fiber radiation protection cloth or an aluminum foil fiberglass cloth or a glass fiber coating.

In one embodiment, the supporting body is a liftable seat, and the through hole is formed in the top of the cabin body and is located right above the liftable seat.

In another embodiment, the support body is a bed body, and the through hole is formed in the side edge of the bin body and is opposite to the bed body.

Furthermore, the ceramic carrier further comprises a supporting insulating plate, two conductive plates fixedly arranged on two sides of the supporting insulating plate, two heat-conducting plates fixedly arranged on the outer sides of the two conductive plates, and two outer insulating plates fixedly arranged on the outer sides of the two heat-conducting plates, wherein the supporting insulating plate is provided with a plurality of through mounting holes, and the PTCR thermal sensitive ceramic elements are correspondingly mounted in the mounting holes one by one.

The invention has the following beneficial effects:

1. the instrument can activate cells in the deep part of a human body, emit stable wavelength through the far infrared ray emission component, generate biological waves with the wavelength of 90 percent being 8-10 mu m and the peak value being 9 mu m, and generate resonance effect with the frontal electromagnetic waves with the same frequency as the frequency emitted by the human body so as to excite the movement of the cells in the body. The wave band with the wavelength of 8-10 mu m can generate resonance with a large amount of water molecules in a human body, so that the wave band can be effectively absorbed into the deep layer by the human body, the internal temperature is improved, the effect of deep immune thermotherapy is achieved, and simultaneously, an immune system can be restarted to relieve various inflammations;

2. the instrument can scatter inert molecules in the human body and enter cell membranes, and can carry out physical therapy on disease parts of the human body through far infrared thermal radiation and thermal conduction to dredge channels, diminish inflammation and relieve pain, improve microcirculation of the human body, promote metabolism and achieve the purpose of treating diseases;

3. far infrared rays penetrate into subcutaneous tissues in the deep part of a human body, waste, drug residues, heavy metal toxins and the like in human body cells are discharged from inside to outside, blood circulation is facilitated, the cells can be well activated, water molecules in the human body are reduced, the cell self-repairing function is improved, the cell regeneration capacity is enhanced, and the immunity is enhanced;

4. the PTCR thermal sensitive ceramic element is used as a far infrared emission source, the average output power of 750w can safely, continuously and stably emit the far infrared rays with the wavelength of 8-10 mu m, harmful rays and middle/near infrared rays cannot be generated, and the abnormity such as scalding cannot occur;

5. through the reasonable structural design of the far infrared physiotherapy device, the deep immune thermotherapy of local parts of a human body can be realized, and the deep immune thermotherapy of the whole body of the human body can also be realized;

6. the instrument of the invention can help to burn fat, achieve the body shaping effect, multiply nitric oxide in human body, prevent coronary heart disease, apoplexy and the like, activate stem cells of the human body, improve self-healing force, activate immune system, accelerate blood circulation, promote collagen generation, repair skin, increase skin elasticity, activate cell mitochondria, relieve fatigue, relieve pressure and inhibit cancer cell growth.

Drawings

Fig. 1 is a schematic perspective view of an apparatus according to the first embodiment.

Fig. 2 is an exploded view of a part of a far infrared ray emitting assembly.

Fig. 3 is an exploded view of a part of a ceramic carrier.

Fig. 4 is a schematic perspective view of the apparatus according to the second embodiment.

Fig. 5 is a schematic view of the movement paths of far infrared rays and heat in the physiotherapy cabin according to the second embodiment.

Fig. 6 is a schematic perspective view of the case according to the second embodiment.

Fig. 7 is a top view of the internal structure of fig. 6.

Fig. 8 is a schematic perspective view of a far infrared physiotherapy cabin according to a third embodiment.

Fig. 9 is a graph of the relative radiation spectrum of the present invention.

Description of the main component symbols: 1. a bin body; 10. a through hole; 100. a reflective shielding layer; 1000. an elastic buffer ring; 11. a bin body; 12. a bin cover; 120. a hinge; 2. a support body; 3. a box body; 310 a mesh panel; 311. an air inlet; 312. an air outlet; 313. a middle end face; 314. a side end face; 4. a base; 5. a manipulator; 6. a housing; 61. an air outlet; 610. an orifice plate; 70. a ceramic carrier; 700. mounting holes; 701. supporting an insulating plate; 702. a semiconductor ceramic sheet; 703. a conductive plate; 704. a heat conducting plate; 705. an insulating plate; 71. a fan; α: and an obtuse included angle is formed between the side end surface and the middle end surface.

Detailed Description

The invention is further described with reference to the following drawings and detailed description.

Example one

As shown in fig. 1-3, the instrument of this embodiment includes a base 4, a manipulator 5 fixed on the base 4 and capable of adjusting a swing angle, a housing 6 fixed at a distal end of the manipulator 5, and a set of far infrared ray emitting components fixedly installed inside the housing 6. The far infrared ray emitting assembly includes a ceramic carrier 70 and an air blowing means 71 provided at a rear end of the ceramic carrier 70, the air blowing means 71 preferably employing a fan. The front end of the casing 6 is provided with an air outlet 61, the air outlet 61 is fixedly provided with a pore plate 610, the ceramic carrier 70 is fixedly arranged on the back of the pore plate 610, and the rear end of the casing 6 is provided with an air inlet (not shown) at a position opposite to the blowing device 71.

The ceramic carrier 70 includes a supporting insulating plate 701 having a plurality of through-holes 700 formed on the surface thereof, a plurality of PTCR thermal sensitive ceramic elements 702 installed in the through-holes 700 in a one-to-one correspondence manner, two conductive plates 703 fixed to both sides of the PTCR thermal sensitive ceramic elements 702, two heat conductive plates 704 fixed to the outer sides of the two conductive plates 703, and two outer insulating plates 705 fixed to the outer sides of the two heat conductive plates 704. The surfaces of the PTCR thermal sensitive ceramic elements 702 are coated with a metal oxide nano-coating that can generate far infrared rays, and the total power of all PTCR thermal sensitive ceramic elements 702 of each group of ceramic carriers 70 is more than 700 w. Specifically, in the present embodiment, the power of each PTCR thermal ceramic element 702 is 37.5w, and the total number of the PTCR thermal ceramic elements is 20 pieces, i.e., the total power of all PTCR thermal ceramic elements 702 of each group of ceramic carriers 70 is 750 w. Based on Planck's law, the output power can realize the same frequency resonance with the cell above 700 w.

As shown in FIG. 9, which is a graph showing a relative radiation power spectrum of the present invention, it can be seen that the present invention employs a semiconductor ceramic as a far infrared ray emitting source, which emits far infrared rays having a stable wavelength and rarely generates harmful rays and low-band rays.

The radiation dose value measured by the far infrared physiotherapy device of the embodiment in the startup state is equivalent to the environmental background, the annual effective dose is less than 1mSv according to the regulation of public irradiation dose limit value in appendix B1.2.1 of GB18871-2002 basic standard for ionizing radiation protection and radiation source safety, the requirement is met, and the detection is qualified. The specific detection data are as follows:

first, the background measurement mean value of the dose equivalent rate around ionizing radiation: 0.25 uSv/h;

secondly, detecting the dose equivalent rate of the ionizing radiation:

the working principle of the embodiment is as follows: the air outlet of the instrument of the embodiment is aligned to a part of a human body needing thermal therapy and started up, the distance between the air outlet and the skin is 15-30cm, the far infrared ray emitting component stably emits far infrared rays with the wavelength of 8-10 microns, and the emitted far infrared rays and cells in 20cm of local subcutaneous tissues of the human body generate same-frequency resonance, so that the temperature in the human body is increased by 1-2 ℃, and deep immune thermal therapy of the local part of the human body is realized. The physiotherapy device of the embodiment has the treatment time of 40-60min each time, the interval between two treatments is 48-72h, inflammation and the like are treated for 1 treatment course every 7 times, and the tumor patient is treated for 1 treatment course 10 times.

Example two

As shown in fig. 4-7, the instrument of the present embodiment comprises a physiotherapy cabin, the physiotherapy cabin comprises a cabin body 1 capable of being opened and closed, a support body 2 arranged inside the cabin body 1 and used for supporting the sitting posture or lying posture of the human body, a box body 3 arranged inside the cabin body 1 and used for supporting the far infrared emission components, and two sets of far infrared emission components. The side wall of the bin body 1 is provided with a through hole 10 for the head of a human body to extend out, and the inner wall surface of the bin body 1 is provided with a reflection shielding layer 100 for reflecting far infrared rays and preventing the far infrared rays from penetrating out of the bin body 1. In this embodiment, the supporting body 2 is a liftable seat, and the through hole 10 is disposed at the top of the cabin body 1 and is located right above the liftable seat.

At least one air outlet 312 is arranged on the front end face of the box body 3, a reticular panel 310 is fixedly arranged at the air outlet 312, the far infrared ray emitting component is fixedly arranged on the back face of the reticular panel 310, and an air inlet 311 is respectively arranged on the rear end face of the box body 3 at the position corresponding to each air blowing device 71. The front end face of the box body 3 comprises a middle end face 313 and two side end faces 314 which incline forwards from the left side and the right side of the middle end face 313 respectively, an obtuse included angle alpha formed between each side end face 314 and the middle end face 313 is 120-165 degrees, and the two groups of far infrared emission components are arranged on the two side end faces 314 respectively.

The storehouse body 1 comprises a storehouse body 11 and a storehouse cover 12, the inner wall surface of the storehouse body 11 and/or the storehouse cover 12 is provided with an arc surface, the arc surface can be designed according to the surface curvature of a human body, the bottom of the storehouse cover 12 is hinged with the storehouse body 11 through a hinge 120, and a through hole 10 is formed in the covering position of the storehouse cover 12 and the storehouse body 11. Preferably, an elastic buffer ring 1000 is fixedly arranged at the edge of the through hole 10.

Preferably, the reflective shielding layer 100 is a nano silver fiber radiation protection cloth or an aluminum foil fiberglass cloth or a glass fiber coating. A nano silver fiber radiation-proof shielding fabric is a necessary new material of a radiation-proof fine product, and the fabric is a high-tech product obtained by using an international advanced process, blending silver fibers with far infrared fibers (or cotton, tencel and Modal fibers, and then carrying out negative ion far infrared finishing) by using a nano technology to permanently combine a layer of pure silver on the surfaces of the fibers. The structure not only keeps the original textile attribute of the silver fiber, but also endows all the silver with magical functions and magical effects of the silver fiber. Silver has the most effective antimicrobial properties. The silver fiber radiation-proof fabric made of silver-containing fibers by utilizing the nanotechnology is the latest radiation-proof technology in the world after metal radiation-proof fiber cloth, has the functions of radiation protection, antibiosis and dirt suppression, and is ideal radiation-proof cloth. The radiation-proof effect of the fabric is superior to that of radiation-proof fabrics made of other metal materials. Has strong radiation isolation function, and can shield more than 96.99% of electromagnetic waves (the electromagnetic wave shielding efficiency can be as high as 60DB) from the wide frequency band of 0.1-3000 mhz. According to the detection of an authoritative testing organization, the fabric can reflect and absorb more than 96% of electromagnetic radiation within the range of 30 MHZ-16 GHZ, and the far infrared emissivity is more than 85% (8-10 mu m).

The structure of the far infrared ray emitting assembly of this embodiment is the same as that of the first embodiment.

The working principle of the embodiment is as follows: after the bin cover 12 is opened, a person needing thermal therapy enters the bin body 1, sits on the seat, and the head of the person extends out of the bin body 1, the bin cover 12 is covered, and the power supply is switched on. Open far infrared emitter 3 through establishing the control panel on the outer wall of storehouse body 1, after a few minutes, under the effect of reflection shielding layer 100, simultaneously with blast apparatus 71's existence, can make far infrared and heat can distribute in whole storehouse body 1 fast evenly after the cross reflection, far infrared and heat make swirl motion in storehouse body 1, and the far infrared wavelength that far infrared emitter 3 launches stabilizes gradually in the interval of 8 ~ 10 mu m. The far infrared ray covers the whole body of the human body (except the neck and the head) and generates same-frequency resonance with cells in 20cm of subcutaneous tissue of the whole body of the human body, the temperature in the human body is increased by 1-2 ℃, and thermocurative effects and sweating are generated from inside to outside, so that the effects of restarting the immune system and relieving various inflammations are achieved.

EXAMPLE III

As shown in fig. 8, the present embodiment is different from the second embodiment only in that: in this embodiment, the supporting body 2 is a bed body, and the through hole 10 is disposed on the side of the cabin body 1 and opposite to the bed body. In order to facilitate the support of the head, a support cushion can be arranged at the position where the head extends out. The rest of the structure and principle of the embodiment are the same as those of the embodiment.

This embodiment is through replacing the seat into the bed body, and the personnel that need the thermotherapy can lie in storehouse body 1 inside, and experience feels better, and the thermotherapy is more comfortable.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. An instrument for realizing human body deep immunity thermotherapy by utilizing far infrared rays is characterized in that: the far infrared ray radiation device comprises 1-3 groups of far infrared ray radiation components capable of stably radiating far infrared rays with the wavelength of 8-10 mu m, wherein each far infrared ray radiation component comprises a ceramic carrier and a blowing device arranged at the rear end of the ceramic carrier, a plurality of PTCR (positive temperature coefficient resistor) thermal sensitive ceramic elements connected in parallel are arranged in the ceramic carrier, the surfaces of the PTCR thermal sensitive ceramic elements are coated with metal oxide nano coatings capable of generating the far infrared rays, and the total power of all the PTCR thermal sensitive ceramic elements of each group of ceramic carriers is more than 700 w.

2. The apparatus for performing immunological thermotherapy on the deep part of a human body using far infrared rays as set forth in claim 1, wherein: the ceramic vacuum cleaner is characterized by further comprising a base, a manipulator which is fixed on the base and can adjust the swing angle, and a shell which is fixedly arranged at the tail end of the manipulator, wherein an air outlet is formed in the front end of the shell, a pore plate is fixedly arranged at the air outlet, a ceramic carrier is fixedly arranged on the back of the pore plate, and an air inlet is formed in the position, opposite to the blowing device, of the rear end of the shell.

3. The apparatus for performing immunological thermotherapy on the deep part of a human body using far infrared rays as set forth in claim 1, wherein: still include the physiotherapy storehouse, the physiotherapy storehouse including the storehouse body that can open and shut, establish the internal portion in storehouse and be used for supporting human position of sitting or the supporter of the appearance of lying and establish in the internal portion in storehouse and be used for supporting far infrared emission subassembly's box, set up the through-hole that supplies human head to stretch out on the lateral wall in the storehouse body, be equipped with on the internal wall surface in storehouse and be used for reflecting far infrared and prevent that the far infrared from pierces through the external reflection shielding layer in storehouse.

4. An apparatus for performing immunological thermotherapy on the deep part of a human body using far infrared rays as claimed in claim 3, wherein: the far infrared ray transmitting device is characterized in that at least one air outlet is formed in the front end face of the box body, a net-shaped panel is fixedly installed at the position of the air outlet, the far infrared ray transmitting assembly is fixedly installed on the back face of the net-shaped panel, and air inlets are formed in the positions, opposite to each air blowing device, of the rear end face of the box body respectively.

5. An apparatus for performing immunological thermotherapy on the deep part of a human body using far infrared rays as claimed in claim 3, wherein: far infrared emission subassembly be equipped with two sets ofly, the preceding terminal surface of box include middle terminal surface and certainly the both sides terminal surface that inclines forward respectively in the left and right sides of middle terminal surface, the obtuse angle contained angle that forms between side end surface and the middle terminal surface is 120 ~ 165, two sets of far infrared emission subassemblies are installed respectively on both sides terminal surface.

6. An apparatus for performing immunological thermotherapy on the deep part of a human body using far infrared rays as claimed in claim 3, wherein: the storehouse body include storehouse body and cang gai, the internal face of storehouse body and/or cang gai has the cambered surface, the bottom of cang gai pass through the hinge with the storehouse body is articulated mutually, the through-hole establish the lid of cang gai and storehouse body closes the department, the edge of through-hole sets firmly the elastic buffer circle.

7. An apparatus for performing immunological thermotherapy on the deep part of a human body using far infrared rays as set forth in any one of claims 3 to 6, wherein: the reflection shielding layer is made of nano silver fiber radiation-proof cloth or aluminum foil glass fiber cloth or a glass fiber coating.

8. The apparatus for performing immunological thermotherapy on the deep part of a human body using far infrared rays as claimed in claim 7, wherein: the supporter be liftable formula seat, the through-hole is established at storehouse body top and is located directly over the liftable formula seat.

9. The apparatus for performing immunological thermotherapy on the deep part of a human body using far infrared rays as claimed in claim 7, wherein: the support body is a bed body, and the through hole is formed in the side edge of the bin body and is opposite to the bed body in position.

10. The apparatus for performing immunological thermotherapy on the deep part of a human body using far infrared rays as set forth in claim 1, wherein: the ceramic carrier further comprises a supporting insulation plate, two current-conducting plates fixedly arranged on two sides of the supporting insulation plate, two heat-conducting plates fixedly arranged on the outer sides of the two current-conducting plates and two outer insulation plates fixedly arranged on the outer sides of the two heat-conducting plates, the supporting insulation plate is provided with a plurality of through mounting holes, and the PTCR thermal sensitive ceramic elements are correspondingly mounted in the mounting holes one by one.

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