CN210992656U - Laser cancer therapeutic instrument combining graphene infrared thermal therapy - Google Patents

Abstract

The utility model belongs to the technical field of infrared thermotherapy and laser therapy cancer technology and specifically relates to a laser cancer therapeutic instrument combining graphene infrared thermotherapy, be equipped with the treatment bed through sliding rail structure sliding connection in the treatment storehouse, the treatment bed reaches the bin inboard in treatment storehouse all is equipped with a plurality of radiating element constitution graphene infrared heating source and single or a plurality of array's laser therapy source utilizes the method of graphite alkene electric heating material combination laser through combining the dual function, and rising body temperature or local heating and selectively controlling laser irradiation, because its unique advantage and good compatibility, furthest protects normal cell and its function, adjusts and mobilizes organism defense system, activates human immune system, changes the environment that cancer cell locates to block and restrain the production of cancer cell, and make its degeneration, necrosis, kill cancer cell indirectly furthest, thereby achieving the aim of completely curing various cancers.

Description

Laser cancer therapeutic instrument combining graphene infrared thermal therapy

Technical Field

The utility model relates to an infrared thermotherapy and laser therapy cancer technical field especially relate to a laser cancer therapy appearance that combines infrared thermotherapy of graphite alkene.

Background art 1

Cancer is one of the disease types with the highest morbidity and mortality in recent years, and threatens human life all the time, although a large number of medical science and technology workers exist, in order to overcome the difficulty, the diligent struggle is made; however, as the pathogenic factors are diversified, complicated and normalized, the incidence of diseases is increased year by year, and the human life is greatly damaged. In the treatment of cancer, the chemotherapy and surgery of drugs can damage normal tissues to different degrees, and are affected by the growth position and complexity of cancer cells, so that medical workers are ineffectual and the treatment effect is greatly limited.

The thermal therapy adopts a graphene infrared heating technology, and short-wave infrared rays with the wavelength of 0.76-1.5 microns are used. Various tissues and body fluids of the human body are composed of charged ions and polar molecules. When the body contacts the microwave with high-speed frequency change, the ions and molecules are not just following the change of the alternating rapid magnetic field to generate molecule twisting, and the molecules in the human body are twisted to generate molecule oscillation, friction and heat generation. When short-wave infrared rays with the wavelength of 0.76-1.5 microns penetrate through human tissues, deep great vessels, lymphatic vessels, nerve endings and other subcutaneous tissues can be heated, and the heat can reach all parts of the whole body by blood circulation, so that the purpose of whole body thermotherapy is achieved. In brief, the water molecules in the human body are heated by high-frequency oscillation through short-wave infrared irradiation, 39.5-41.5 ℃ is kept for 60-90 minutes (normal cells can tolerate the temperature below 45 ℃), cancer cells are killed systemically from inside to outside in a non-invasive way, deep malignant tumor tissues can be treated, and the treatment equipment is completely different from the traditional external thermotherapy treatment equipment. In fact, the whole body thermotherapy is based on making full use of the temperature difference, protecting normal cells and functions thereof to the maximum extent, killing cancer cells to the maximum extent, and simultaneously combining operation and radiotherapy, unexpected and surprising curative effect can be achieved, and the progress of modern heating and temperature control technology makes all the possible.

Medical experiments have proved that cancer cells die completely when the temperature exceeds 70 ℃, Beijing has developed a research institution in combination with the United states that a silver needle of cow hair penetrates the skin directly and is inserted on a cancer lump and is heated by micro-current to kill the cancer cells, and has achieved obvious curative effect; however, the method is still not popular because of its somewhat imperfect implementation and inflexible selectivity, which still kills normal cells.

Background art 2

The laser is an artificial light source and has the characteristics of small emission angle, pure spectrum, high energy density and the like. It has many applications in life, such as laser drilling, lidar, laser cosmetology, laser heat treatment, etc. In the medical field, the treatment method utilizes the characteristics of laser to cut, cauterize and coagulate body tissues, and has incomparable advantages compared with the traditional operation: small incision, no bleeding, light wound, and no scar. Therefore, laser therapy has shown great advantages in the diagnosis and treatment of malignant tumors (easy metastasis, many lesions).

The laser is generated by special means, the rays excite the amplifying light, which excites the substances, such as carbon dioxide, argon and neodymium, yttrium, aluminium, travertine, to the high energy state. When these materials return to their "resting" state, they release additional energy in the form of high energy rays with a specific energy. This light vaporizes human tissue, including primarily tumor cells. This form of energy can be used for cancer therapy. Based on its ability to accurately target, the laser can be focused very accurately on a very small treatment area. Laser endoscopic treatment is usually performed with special laser light through flexible tubing (endoscope), which is also used for diagnosis of cancer. The endoscope can enter target organs of human body through mouth, nose, anus, urethra and vagina. During laser treatment, tumors can be directly observed through an endoscope. And the laser is directed precisely at the target tissue, and the device is turned on, producing the laser. The laser generates intense heat in close proximity to the S-tumor tissue. Protein can be coagulated at 60 deg.C, and tissue can be vaporized at 100 deg.C by laser. The tissue is usually burned within a few seconds, releasing smoke and leaving behind a hole and ulcer. Laser ablation of tumors is not as effective as surgery. Surgery can remove all visible tumors and can remove normal tissues around the tumor, laser treatment can only remove tumors visible on the surface of organs, such as large solid tumors, and laser treatment can only kill superficial tumors. The requirement of thorough treatment on the tumor below the surface of the human body part cannot be met. There is also photodynamic laser therapy, i.e. the injection of a chemical substance which makes the tissue more sensitive to light (e.g. after sensitization to haemoline) and which is more selective for killing tumour cells. Cancer is also treated with specific wavelengths by taking advantage of the characteristic of cancer tissue having a particular affinity for light.

Background Art 3

The pathogenesis of cancer has different statements and bases in the fields of traditional Chinese medicine and western medicine research. The traditional Chinese medicine generally considers that: cancer cells are anaerobic cells, favoring an anoxic environment; people can not normally discharge toxins accumulated in the body due to reasons of stress, tension, anger, depression, hate complaints, emotional discomfort and the like, and toxin expelling hematopoietic functions of the liver, the kidney, the large intestine, the spleen and the like are seriously damaged, so that the yin-yang balance of each system of the human body is destroyed, and the breeding environment of cancer cells is provided to cause cancer. The Western doctor considers that: the human body can cause the gene expression disorder of normal DNA molecules due to the ingestion of more biological virus carcinogens, or cause the carcinogenesis due to the factors such as low immunity, immunologic dysfunction and the like; but western medicine also considers cancer cells as anaerobic cells.

Numerous clinical studies have confirmed that the electron robbing of human cells is a source of many diseases, and ozone (radical ORS) is a substance lacking electrons (unsaturated electron substance) and competes for electrons everywhere after entering the human body, and if the electron depriving of cell protein molecules alkylates the protein with branched chains to form distorted molecules, which are carcinogenic. The aberrant molecule in turn distorts adjacent molecules, and the vicious circle forms a large number of distorted protein molecules. Through the malignant cycle of such clone or pseudo-clone, a large number of aberrant cells are propagated and replicated, resulting in gene mutation, thereby forming a large number of tumor cells and causing malignant tumors, i.e., cancers.

The negative oxygen ions are also called air negative ions, and refer to oxygen ions which obtain redundant electrons and are negatively charged. The negative ion of air is not only used in immunotherapy, but also in the case of human body, because the negative oxygen ion has negative charge and has surplus electrons, it can provide electrons for cell deletion, so that it can block malignant circulation and prevent or inhibit cancer cell. Meanwhile, recent research results also show that the antioxidant therapy has very important clinical significance for treating tumors. The antioxidant effect of negative ions, one of the most important cancer suppressor genes, has an isoqu isogenic effect.

Surgical resection is currently widely recognized by the medical community as one of the better methods for treating cancer, but surgical resection is late for patients with middle or advanced cancer. Since malignant tumors in the middle and late stages grow rapidly, and some tumors sometimes grow in sensitive positions of patients, the tumors cannot be completely removed by the operation, and even little tumor is obtained, and the malignant tumors can relapse after the accumulation of time. In particular, mature cancer cells can be destroyed by chemotherapy, but those cancer cells that have not yet matured do not necessarily destroy them. If the patient's own resistance is low, the cancer cells which are not mature can recover and develop into mature cancer cells, so that the excised tumor can recur again, and the current medical level can not completely eradicate all kinds of tumors.

Based on the above knowledge, it is necessary to explore a new diversified cancer treatment method based on the existing graphene infrared thermotherapy, and therefore, a laser cancer treatment apparatus combining the graphene infrared thermotherapy is developed. The medicine can comprehensively improve the functions of the immune system of a patient, eliminate factors causing canceration of cells, change the acidic anoxic constitution of the patient, dredge the diaphragm nervous tissue, break the DNA chain of cancer cells to cause apoptosis and atrophy, inactivate the free cancer cells transferred to blood and lymph fluid, block the relapse, the transfer and the generation of new blood vessels of tumors, comprehensively activate the activity of immune cells such as macrophages, NK cells, T cells and the like in a human body, treat from the root of causes of diseases, and aim to improve the life quality of the patient and prolong the service life of the patient.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the laser cancer therapeutic apparatus combining the graphene infrared thermal therapy is difficult to realize and has no defects of diversified combination of treatment schemes because malignant tumors have the characteristics of quick growth of infiltration, easy transfer and relapse by only depending on any treatment means and the living quality of patients by eradicating the tumors.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the laser cancer therapeutic apparatus combined with the graphene infrared thermal therapy is designed, and comprises a treatment chamber and is characterized in that a treatment bed is arranged in the treatment chamber in a sliding connection mode through a sliding rail structure, a negative oxygen ion generator is arranged on one side of the treatment chamber, the output end of the negative oxygen ion generator extends into a chamber of the treatment chamber, a plurality of radiation units are arranged on the inner sides of the treatment bed and the chamber of the treatment chamber to form a graphene infrared heating source and a single or a plurality of arrayed laser treatment sources, a plurality of rotating rings are movably connected in the treatment chamber through a mechanical transmission structure or a sliding rail transmission mechanism or a gear rack transmission mechanism which is directly arranged in a straight line, a spiral or a circular arc shape, the graphene infrared heating source and the laser treatment sources are both arranged on the rotating rings, lighting equipment is arranged in the treatment chamber, and ventilation equipment is arranged at the top of the treatment chamber, the top of the negative oxygen ion generator is fixedly provided with a centralized control unit, the centralized control unit is externally connected with a power supply through a lead, the centralized control unit is a touch control screen or a combined control screen with a built-in CPU (central processing unit), and a control module of the negative oxygen ion generator is electrically connected with the centralized control unit through a lead.

Preferably, the graphene infrared heating source comprises a graphene infrared heating body, a temperature control panel, an infrared imaging device, a temperature measuring device and a radiation enhancement device, wherein the graphene infrared heating body is one or more of a graphene infrared heating plate, a heating film, heating cloth and a heating module; a shielding and reflecting device is arranged on the back side of the heating end of the graphene infrared heating body, the power input end of the graphene infrared heating body is electrically connected with the temperature control panel through a silica gel connecting wire, the temperature control panel is electrically connected with the centralized control unit through a wire, and the infrared imaging device is an infrared thermal imager; the temperature measuring device is a temperature measuring probe which is fixed on one side of the heating end of the graphene heating body; the radiation enhancement device is an independent high-power heating body, the external reflection structure of the radiation enhancement device is a radiation enhancement reflection bowl, the radiation enhancement reflection structure is positioned behind the high-power heating body, the radiation enhancement reflection structure gathers and enhances the radiation heat of the heating device, the radiation treatment effect is increased, and the external heat insulation protection shell is also arranged outside the radiation enhancement device and used for local thermotherapy.

Preferably, the graphene infrared heating body is specifically a graphene infrared heating plate or a heating film, and comprises a bottom layer, a heating part, a current carrying strip part and a surface layer; the surface layer is specifically a polyimide film and polypropylene cloth; the heating part is graphene infrared heating slurry; the current-carrying bar part is a silver or copper metal current-carrying bar.

Preferably, the shielding reflection device comprises heat insulation cotton or a heat insulation plate and a reflection film; the insulation board is positioned behind the reflection film, and is specifically a polyimide insulation board; the reflecting film is an aluminized metal mirror reflecting film, and the reflecting film and the heat-insulating board can be compounded into a whole.

Preferably, the silica gel connecting wire is a customized multi-strand tinned copper stranded wire, silica gel is used for drawing the silica gel connecting wire to form a single power wire, then two single wires are subjected to injection molding and drawing, and the external wrapping material is also a silica gel material.

Preferably, the temperature measuring device is a negative temperature coefficient temperature measuring probe with the B value of 3950.

Preferably, the laser treatment source comprises a host and a treatment part, wherein the host comprises a laser power supply system, a butterfly laser driving board, a laser and a control panel, and the treatment part mainly comprises a coupler and a light beam transmission device; the laser treatment part is a semiconductor laser treatment instrument; the laser power supply is a semiconductor laser power supply; the butterfly laser drive board is a dual-channel drive board; the laser comprises an active region, an optical feedback device, a frequency selection element and an optical waveguide; the coupler is used for distributing an input optical signal to a plurality of outputs or combining a plurality of optical signal inputs into a signal output; the light beam transmission device is an optical fiber connector and is divided into a single fiber and a plurality of fibers, the light beam transmission device is mainly used for realizing effective transmission of laser, the light beam transmission device is divided into a micro-lens fiber, a dispersion fiber, a ball head fiber and a flat head fiber according to use functions, and a control panel of the host is electrically connected with the centralized control unit through a wire.

Preferably, the laser power supply is a semiconductor laser power supply, and the common internal driving board is a butterfly laser dual-channel driving board.

Preferably, the laser comprises an active region, an optical feedback device, a frequency selection element and an optical waveguide, and further comprises an optical isolator, an optical circulator, an optical modulator and an optical switch, and the laser is classified into visible light semiconductor laser therapeutic instruments according to the wavelength of working light beams.

The utility model provides a pair of combine infrared thermotherapy's of graphite alkene laser cancer therapy appearance, beneficial effect lies in: the utility model discloses because its unique advantage and good compatibility, furthest protects normal cell and function, furthest kills cancer cell, combines operation, radiotherapy simultaneously, often can gain unexpected curative effect, along with the progress of modern technology for this everything becomes possible, will become in future new vitality army in tumour diagnosis and the treatment, play important role in the comprehensive treatment of tumour, the utility model discloses a thermotherapy combines with laser therapy, and the thermotherapy treatment is for assisting, uses laser therapy after reaching the treatment condition, has promoted cancer cure rate.

Drawings

Fig. 1 is a schematic structural view of a laser cancer therapeutic apparatus combining graphene infrared thermal therapy provided by the present invention;

fig. 2 is a schematic view of a cross-sectional structure of the graphene infrared heating element provided in the present invention;

fig. 3 is a schematic block diagram of a laser cancer therapeutic apparatus combining with graphene infrared thermal therapy.

In the figure: the treatment device comprises a treatment cabin 1, a treatment bed 2, a graphene infrared heating source 21, a surface layer 211, a heating part 212, a current carrying strip part 213, a bottom layer 214, a laser treatment source 22, a shielding and reflecting device 3, a centralized control unit 4, a rotating ring 5, a ventilation device 6, an illuminating device 7 and a negative oxygen ion generator 8.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, a laser cancer therapeutic apparatus combining graphene infrared thermal therapy comprises a treatment chamber 1, a treatment bed 2 is slidably connected and arranged in the treatment chamber 1 through a sliding rail structure, a negative oxygen ion generator 8 is arranged on one side of the treatment chamber 1, the output end of the negative oxygen ion generator 8 extends into the treatment chamber 1, a plurality of radiation units are arranged on the inner sides of the treatment bed 2 and the treatment chamber 1 to form a graphene infrared heating source 21 and a single or a plurality of arrayed laser treatment sources 22, a plurality of rotating rings 5 are movably connected and arranged in the treatment chamber 1 through a mechanical transmission structure or a sliding rail transmission mechanism or a gear rack transmission mechanism which is directly arranged in a straight line, a spiral or a circular arc shape, the graphene infrared heating source 21 and the laser treatment source 22 are both arranged on the rotating rings 5, an illumination device 7 is arranged in the treatment chamber 1, a ventilation device 6 is arranged on the top of the treatment chamber, the top of the negative oxygen ion generator 8 is fixedly provided with a centralized control unit 4, and the centralized control unit 4 is externally connected with a power supply through a lead.

The graphene infrared heating source 21 comprises a graphene infrared heating body, a temperature control panel, an infrared imaging device, a temperature measuring device and a radiation enhancement device, wherein the graphene infrared heating body is a graphene infrared heating plate or a heating film; the shielding and reflecting device 3 is arranged on the back side of the heating end of the graphene infrared heating body, the power input end of the graphene infrared heating body is electrically connected with the temperature control panel through a silica gel connecting wire, the temperature control panel is electrically connected with the centralized control unit 4 through a wire, and the infrared imaging device is an infrared thermal imager; the temperature measuring device is a negative temperature coefficient temperature measuring probe with the B value of 3950.

The temperature measuring probe is fixed on one side of the heating end of the graphene heating body; the radiation enhancement device is an independent high-power heating body, the external reflection structure of the radiation enhancement device is a radiation enhancement reflection bowl, the radiation enhancement reflection structure is positioned behind the high-power heating body, the radiation heat of the heating device is gathered and enhanced, the radiation treatment effect is improved, the external part of the radiation enhancement device is also provided with a heat insulation protection shell for local thermotherapy, the graphene infrared heating body is specifically one or more of a graphene infrared heating plate, a heating film, heating cloth and a heating module, and the graphene infrared heating body comprises a bottom layer 214, a heating part 212, a current carrying strip part 213 and a surface layer 211; the surface layer 211 is specifically a polyimide film and polypropylene cloth; the heating part 212 is graphene infrared heating slurry; the current carrying strip part 213 is a silver or copper metal current carrying strip, and the shielding and reflecting device 3 comprises heat insulation cotton or a heat insulation plate and a reflecting film; the insulation board is positioned behind the reflecting film, and is specifically a polyimide insulation board; the reflecting film is an aluminized metal mirror reflecting film, the reflecting film can be combined with the heat-insulating board into a whole, the silica gel connecting line is a customized multi-strand tinned copper stranded wire, the silica gel is used outside the silica gel connecting line to be drawn into a single power line, then two single wires are injection-molded and drawn into the silica gel connecting line, the external wrapping material is also a silica gel material, the centralized control unit 4 is a touch control screen or a combined control screen with a built-in CPU (central processing unit), and a control module of the negative oxygen ion generator 8 is electrically connected with the centralized control unit 4 through a conducting wire.

The laser treatment source 22 comprises a host and a treatment part, wherein the host comprises a laser power supply system, a butterfly laser drive board, a laser and a control panel, and the treatment part mainly comprises a coupler and a light beam transmission device; the laser treatment part is a semiconductor laser treatment instrument; the laser power supply is a semiconductor laser power supply; the butterfly laser drive board is a dual-channel drive board; the laser comprises an active region, an optical feedback device, a frequency selection element and an optical waveguide; the coupler is used for distributing an input optical signal to a plurality of outputs or combining a plurality of optical signal inputs into one signal output; the light beam transmission device is an optical fiber connector, is divided into a single light beam and a plurality of light beams, and is mainly used for realizing the effective transmission of laser, a control panel of a host is electrically connected with a centralized control unit 4 through a lead, conductor laser working substances comprise potassium arsenide gaas, indium arsenide inas, indium antimonide insn, gallium aluminide gaalas and the like, the output wavelength of the conductor laser working substances is mostly between the long wave and the near infrared of visible light, the emission wavelength is 630nm, 810nm and 980nm, a laser power supply is a semiconductor laser power supply, an internal driving board is a butterfly laser dual-channel driving board, the laser comprises an active area, an optical feedback device, a frequency selection element and an optical waveguide, and further comprises an optical isolator, an optical circulator, an optical modulator and an optical switch, the visible light semiconductor laser therapeutic apparatus is classified into the visible light semiconductor laser therapeutic apparatus according to the wavelength of working light beams, the coupler is used for distributing an input optical signal to a plurality of, the light beam transmission device is an optical fiber connector, is divided into a single piece and a plurality of pieces and is mainly used for realizing the effective transmission of laser; the optical fiber is divided into a micro-lens optical fiber, a dispersion optical fiber, a ball head optical fiber and a flat head optical fiber according to the using functions.

The heat treatment of the utility model is divided into local heat treatment and whole body heat treatment. The local treatment is a heating method that infrared radiation acts on local deep tissues, the heating range is limited to pathological changes and small part of surrounding normal tissues, the temperature of the whole body is not obviously increased, the temperature of a certain area of an organism reaches 40-44 ℃, the local treatment is combined with radiotherapy and chemotherapy to be applied to increase the thermotherapy effect, and the local thermotherapy is suitable for various superficial tumors, such as superficial lymph node metastatic cancer, skin cancer, malignant melanoma and other tumors in the superficial part of the organism. The whole body thermotherapy is a method for heating all parts of a body by adopting an infrared principle, heating tissues to a temperature (42.5-43.5 ℃) capable of killing tumor cells for 40-60 minutes, and achieving the purposes of damaging the tumor cells and not damaging normal tissues (the temperature safety limit of normal tissue cells is 45 +/-1 ℃). The working principle of laser therapy is characterized in that a laser is excited by an excitation power supply to generate laser, and the laser is effectively transmitted to a treatment part through a light beam transmission device to play a role in treatment. The semiconductor laser uses semiconductor materials with different doping types as laser working substances, a natural cleavage plane forms a resonant cavity, the population inversion of non-equilibrium carriers is formed between a conduction band and a valence band of the semiconductor substances in a certain excitation mode, and when a large number of electrons and holes in the population inversion state are compounded, redundant energy is released in the form of light. Because the resonance amplification of cleavage face resonant cavity realizes the stimulated feedback to realize directional transmission and output laser, the utility model discloses because its unique advantage and good compatibility, furthest protects normal cell and function, furthest kills cancer cell, combines operation, radiotherapy simultaneously, often can gain unexpected curative effect, along with the progress of modern technology, make this all possible, will certainly become a new vitality army in tumour diagnosis and the treatment in the future, play important role in the integrated treatment of tumour, the utility model discloses a thermotherapy combines with laser therapy, cooperative therapy, and thermotherapy treatment is for assisting, uses laser therapy after reaching the treatment condition, has promoted cancer cure rate.

Above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the design of the present invention, equivalent replacement or change should be covered within the protection scope of the present invention.

Claims (9)

1. A laser cancer therapeutic apparatus combining graphene infrared thermal therapy comprises a treatment bin (1) and is characterized in that a treatment bed (2) is arranged in the treatment bin (1) in a sliding connection mode through a sliding rail structure, a negative oxygen ion generator (8) is arranged on one side of the treatment bin (1), the output end of the negative oxygen ion generator (8) extends into a bin of the treatment bin (1), a plurality of radiation units are arranged on the inner sides of the treatment bed (2) and the bin of the treatment bin (1) to form a graphene infrared heating source (21) and a single or a plurality of arrayed laser treatment sources (22), a plurality of rotating rings (5) are movably connected in the treatment bin (1) in a mechanical transmission structure or a sliding rail transmission mechanism or a gear rack transmission mechanism which is directly arranged in a straight line, a spiral or a circular arc shape, and the graphene infrared heating source (21) and the laser treatment sources (22) are both arranged on the rotating rings (5), the treatment device is characterized in that an illuminating device (7) is arranged in the treatment bin (1), a ventilating device (6) is arranged at the top of the treatment bin (1), a centralized control unit (4) is fixedly arranged at the top of the negative oxygen ion generator (8), the centralized control unit (4) is externally connected with a power supply through a lead, the centralized control unit (4) is a touch control screen or a combined control screen with a built-in CPU (central processing unit) processor, and a control module of the negative oxygen ion generator (8) is electrically connected with the centralized control unit (4) through a lead.

2. The laser cancer therapeutic apparatus combining graphene infrared thermotherapy according to claim 1, wherein the graphene infrared heating source (21) comprises a graphene infrared heating body, a temperature control panel, an infrared imaging device, a temperature measuring device and a radiation enhancement device, and the graphene infrared heating body is one or more of a graphene infrared heating plate, a heating film, heating cloth and a heating module; a shielding and reflecting device (3) is arranged on the back side of the heating end of the graphene infrared heating body, the power input end of the graphene infrared heating body is electrically connected with the temperature control panel through a silica gel connecting wire, the temperature control panel is electrically connected with the centralized control unit (4) through a lead, and the infrared imaging device is an infrared thermal imager; the temperature measuring device is a temperature measuring probe which is fixed on one side of the heating end of the graphene heating body; the radiation enhancement device is an independent high-power heating body, the external reflection structure of the radiation enhancement device is a radiation enhancement reflection bowl, the radiation enhancement reflection structure is positioned behind the high-power heating body, the radiation enhancement reflection structure gathers and enhances the radiation heat of the heating device, the radiation treatment effect is increased, and the external heat insulation protection shell is also arranged outside the radiation enhancement device and used for local thermotherapy.

3. The laser cancer therapeutic apparatus with graphene infrared thermotherapy according to claim 2, wherein the graphene infrared heating element is a graphene infrared heating plate or a heating film, and comprises a bottom layer (214), a heating portion (212), a current carrying strip portion (213), and a surface layer (211); the surface layer (211) is specifically a polyimide film and polypropylene cloth; the heating part (212) is graphene infrared heating slurry; the current carrying strip part (213) is a silver or copper metal current carrying strip.

4. The laser cancer therapeutic instrument combining graphene infrared thermal therapy according to claim 2, characterized in that the shielding and reflecting device (3) comprises heat insulation cotton or heat insulation board, reflecting film; the insulation board is positioned behind the reflection film, and is specifically a polyimide insulation board; the reflecting film is an aluminized metal mirror reflecting film, and the reflecting film and the heat-insulating board can be compounded into a whole.

5. The laser cancer therapeutic apparatus with graphene combined infrared thermal therapy according to claim 2, wherein the silica gel connecting wire is a customized multi-strand tinned copper stranded wire, a single power wire is formed by drawing silica gel on the outside of the silica gel connecting wire, the two single wires are formed by injection molding and drawing, and the external wrapping material is also a silica gel material.

6. The laser cancer therapeutic apparatus with graphene infrared thermotherapy according to claim 2, wherein the temperature measuring device is a negative temperature coefficient temperature measuring probe with B value of 3950.

7. The laser cancer therapeutic apparatus combining graphene infrared thermal therapy according to claim 1, characterized in that the laser therapy source (22) comprises a host and a therapy component, wherein the host comprises a laser power system, a butterfly laser driving board, a laser and a control panel, and the therapy component mainly comprises a coupler and a light beam transmission device; the laser treatment part is a semiconductor laser treatment instrument; the laser power supply is a semiconductor laser power supply; the butterfly laser drive board is a dual-channel drive board; the laser comprises an active region, an optical feedback device, a frequency selection element and an optical waveguide; the coupler is used for distributing an input optical signal to a plurality of outputs or combining a plurality of optical signal inputs into a signal output; the light beam transmission device is an optical fiber connector and is divided into a single fiber and a plurality of fibers, the light beam transmission device is mainly used for realizing effective transmission of laser, the light beam transmission device is divided into a micro-lens fiber, a dispersion fiber, a ball head fiber and a flat head fiber according to use functions, and a control panel of the host is electrically connected with the centralized control unit (4) through a wire.

8. The laser cancer therapy apparatus with graphene infrared thermal therapy combined according to claim 7, wherein the laser power supply is a semiconductor laser power supply, and the common internal driving board is a butterfly laser dual-channel driving board.

9. A laser cancer treatment apparatus with integrated graphene infrared thermal therapy according to claim 7, wherein the laser includes an active region, an optical feedback device, a frequency selective element and an optical waveguide, and further includes an optical isolator, an optical circulator, an optical modulator and an optical switch, and is classified into visible light semiconductor laser treatment apparatuses according to the wavelength of the working light beam.

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