CN101919783A - Combined laser and infrared light acupuncture treatment instrument - Google Patents

Abstract

The invention provides a laser light-infrared light combined acupuncture instrument which comprises a control host and an output therapeutic lamp holder, wherein the control host comprises a power circuit, a pulse generating and regulating circuit, a laser control and drive circuit and an infrared control and feedback circuit; the pulse generating and regulating circuit generates a signal to directly control the output of an infrared tube and generates a signal to control the output of a laser device through the laser control and drive circuit; the infrared control and feedback circuit feeds back according to skin temperature rise caused by infrared illumination so as to control infrared output; the interior of the output therapeutic lamp holder is sequentially provided with a laser tube assembly, a thermal-protective coating with holes and an infrared tube assembly from the benmost side to an output port; and the output end of the lamp holder is provided with an IR-transmission glass cover on which a temperature sensor is arranged. The laser-infrared combined acupuncture instrument has the functions of laser acupunctural needle and infrared thermal moxibustion which not only can be applied simultaneously but also can be applied independently, and is suitable for carrying out irradiation treatment on various acupuncture points or diseased parts.

Description

Combined laser and infrared light acupuncture treatment instrument

technical field

The invention relates to optoelectronic medical equipment technology, in particular to an acupuncture and moxibustion therapy instrument combined with laser and infrared light.

Background technique

Traditional Chinese acupuncture and moxibustion have various therapeutic effects, but they have the following problems:

1. When the metal needle is inserted into the human body, it is prone to infection;

2. The temperature of hot moxibustion in moxibustion is difficult to control, and burns are prone to occur;

3. The professional requirements are high, and the techniques are difficult to master.

A large number of previous studies have shown that lasers and infrared rays with wavelengths such as λ≥633nm have biostimulation and warming effects. When acting on acupoints in the human body, they can produce effects similar to acupuncture acupoints, and are suitable for various clinical treatments. Because laser and infrared irradiation do not require any physical contact and entry into the human body, there is no risk of acupuncture wounds and infection, and basically no side effects, which are easier to be accepted by patients than traditional acupuncture. Therefore, people have developed various types of laser acupuncture treatment instruments to replace metal needles.

So far, the laser acupuncture treatment instruments that have been developed and produced or reported in the reports basically only have the "light needle" function of simulating traditional Chinese medicine acupuncture, but not the "light moxibustion" function of simulating moxibustion. For example, the patent announcement number is CN1144134 With the therapeutic instrument described in CN1060413, it does not have the function of "light moxibustion". The function of "moxibustion" is very important. Traditional Chinese medicine should clarify that "if the disease is beyond the reach of medicine and needles, it must be moxibustion." That is to say, there are many diseases that acupuncture and medicine cannot do. "Moxibustion" for treatment. In the past, it has also been reported that some infrared therapeutic devices or warm therapeutic devices try to simulate the function of "moxibustion", but there are still the following defects:

1. These instruments are not combined with laser light needle;

2. Most of them use infrared lamps, which are heavy in structure, consume a lot of power, the heating temperature is not easy to control, and the emission spectrum is quite different from the moxibustion spectrum;

3. Some use erbium laser and carbon dioxide laser for "light moxibustion", but the laser can only output light of monochromatic wavelength, which is far from the continuous wave spectrum from 1250nm to 10000nm emitted by moxibustion.

4. Some semiconductor infrared light-emitting tubes are used, which only radiate near-infrared light with a wavelength shorter than one micron, and the difference from the moxibustion band is greater than that of infrared lamps.

Contents of the invention

The purpose of the present invention is to overcome the shortcomings and deficiencies of the prior art, to provide a device that can simultaneously simulate acupuncture and moxibustion in traditional Chinese medicine, has laser light needles and emits infrared spectral lines similar to moxibustion bands, and can play a role in biological stimulation. Functional laser and infrared light combination acupuncture treatment instrument.

The purpose of the present invention is achieved through the following technical solutions: a combination of laser and infrared light acupuncture treatment instrument, including a control host and an output treatment lamp head, the control host and the output treatment lamp head are connected through a low-voltage wire; the control host includes a power circuit, Pulse generation and adjustment circuit, laser control and drive circuit, and infrared light control and feedback circuit; the power supply circuit is connected with the pulse generation and adjustment circuit, laser control and drive circuit, infrared light control and feedback circuit at the same time and supplies power to them; The pulse generation and adjustment circuit is composed of a pulse generation circuit and a signal excitation circuit, directly controls the output of the infrared tube, and generates a signal to control the output of the laser through the laser control and drive circuit; for the output of two kinds of light (infrared light, laser) The control includes the selection of constant or pulse output mode, the adjustment of pulse width and pulse repetition frequency and the control of output intensity; the infrared light control and feedback circuit controls the infrared light output according to the skin temperature rise feedback caused by infrared light irradiation. Inside the output treatment lamp head, a laser tube assembly, a heat insulation layer and an infrared tube assembly are installed in sequence from the innermost side to the output port. The heat insulation layer separates the laser tube assembly and the infrared tube assembly, and only a small hole is opened in the center for The laser beam emitted by the laser tube passes through; the output end of the lamp head is provided with an infrared transparent glass cover, and a temperature sensor is provided on the infrared transparent glass cover. The material of the heat insulation layer is a chemical material with good heat insulation performance such as Teflon, and the temperature resistance can exceed 100°C.

The power supply circuit includes an AC-DC conversion power supply and a time control circuit, and the AC-DC conversion power supply outputs 5 volts of DC voltage and 7.5 volts of DC voltage after passing through the time control circuit, wherein the 5 volts of DC voltage is mainly for the luminescence of the infrared tube Power supply; the other 7.5V DC voltage is mainly used to supply power to the pulse generation and regulation circuit, laser control and drive circuit, and infrared light control and feedback circuit after being adjusted by the voltage stabilization circuit.

The pulse generation and adjustment circuit includes a pulse generation circuit and a signal excitation circuit connected to each other, and the pulse generation circuit includes a positive and negative pulse oscillation circuit, a pulse frequency control circuit, a pulse width control circuit, an exponential waveform forming circuit and a voltage follower. The pulse generating circuit generates a rectangular wave through its internal oscillation circuit, and the frequency and pulse width of the rectangular wave are adjusted by a modulation circuit, and then the integral effect of the capacitor is used for shaping to output a controllable exponential waveform pulse. The function of the signal excitation circuit is to amplify the power of the rectangular wave signal. The exponential waveform signal sent by the pulse circuit is amplified by the signal excitation circuit, and then drives the high-power tube to control the working current of the infrared light tube. Make the output infrared light power change according to the signal waveform, so as to control the output light energy of the infrared light tube, or control the output of the laser through the laser output control circuit. Therefore, the pulse generating and regulating circuit is to directly control the output of infrared light and the output of laser through the laser control and driving circuit at the same time in a constant or pulse output mode, pulse width and pulse repetition frequency. Therefore, the pulse generation and adjustment circuit is a selection circuit with constant or pulse output mode; at the same time, it is a control circuit with pulse width, pulse repetition frequency adjustment and output intensity.

The laser control and drive circuit includes an interconnected laser soft-start protection circuit, a laser temperature feedback circuit and a laser output control circuit; the laser soft-start protection circuit is used to make the laser tube working current from small to large at the moment of starting up, and gradually increase To the normal working current, because the surge current of the laser tube will be large at the moment of starting up, which will easily burn out the laser tube. The laser temperature feedback circuit is used to compensate and control the driving current of the laser tube to stabilize the power output of the laser tube when the working temperature of the laser tube rises. Because the output optical power of the laser tube is greatly affected by the temperature, the current must be adjusted to make it stable. The laser output control circuit is used to control the laser tube to generate a pulse output of laser power according to the pulse frequency and pulse width, or a constant output. This circuit is also used to control the power of the laser output.

The infrared light control and feedback circuit is a skin temperature control circuit; the skin temperature control circuit is a general temperature detection and feedback control circuit, which is caused by the infrared light irradiation through the temperature sensor arranged on the outside of the output lamp head through the infrared glass cover. The temperature rise of the part, in order to close the driving circuit of the infrared tube before the temperature of the irradiated part rises to the critical point that will cause skin burns, so as to prevent burns.

The laser tube assembly includes a laser tube, a heat sink and a spherical lens. The laser tube is fixed on the heat sink for better heat dissipation. The heat sink can be composed of two pieces of copper, which are fixed on the inner wall of the lamp head. The spherical lens is installed on the In front of the output end of the laser tube, the laser spot can be focused into tiny light spots and irradiated to the acupuncture points or diseased parts to be irradiated. The laser tube is a semiconductor laser tube with an output wavelength in the range of 633nm to 805nm, and its output laser is output through a small hole in the heat insulation layer. It is used to monitor the temperature rise of the laser tube, so that the driving current of the laser tube can be compensated and controlled to stabilize the power output of the laser tube when the temperature of the laser tube rises. The laser tube is preferably a semiconductor laser tube with an output wavelength of 635nm.

The infrared tube assembly includes a semiconductor infrared light-emitting tube or a semiconductor infrared LED, an infrared light tube circuit board, an infrared light reflector, and an infrared reflective film; the semiconductor infrared light-emitting tube or semiconductor infrared LED is welded on the infrared light tube circuit board, and The quantity is 1-N, and N is a natural number. The tube body of semiconductor infrared light-emitting tube or semiconductor infrared LED passes through the infrared light reflector through the perforation on the infrared light reflector; the infrared reflective film is attached to the wall inside the lamp head, and the semiconductor infrared light emits light The output spectrum range of the tube or semiconductor infrared LED is continuous wave infrared from 1250nm to 10000nm.

The material of the lamp body of the output treatment lamp head is heat-resistant high-temperature plastic, with one or more ventilation holes, and the shape of the lamp head can be a cup shape with a diameter of 2 cm to 15 cm. In order to meet the needs of different parts of the human body and different treatment occasions, the output therapy lamp head is equipped with a fastening belt, through which the lamp head can be fastened to various parts of the human body very conveniently, aiming at relevant acupoints or treatment parts for self-irradiation treatment.

The working principle of the present invention is: by using the red laser (such as wavelength 635nm) with strong biostimulation effect to simulate the acupuncture effect of traditional Chinese medicine, using the wide-spectrum semiconductor infrared light tube which is very similar to the infrared spectrum of moxa stick to generate The thermal effect simulates traditional Chinese medicine moxibustion therapy. And combine the two together to achieve two kinds of therapy on the same instrument at the same time, both light acupuncture and light moxibustion can be performed at the same time to improve the curative effect, or they can be performed separately according to the situation. And because the infrared spectrum of moxibustion is very similar to the infrared spectrum of traditional moxibustion, the effect of moxibustion is better than that of single-wavelength moxibustion instruments at home and abroad. nice resemblance. In addition, by controlling the output mode, pulse width, pulse frequency and output intensity of laser needles and infrared moxibustion, the present invention simulates traditional Chinese medicine in various manipulations and treatments of acupuncture and moxibustion. For example, the pulse stimulation simulates the sparrow pecking moxibustion of traditional Chinese medicine, and the pulse width adjustment simulates the reinforcing and reducing method of traditional Chinese medicine. The control is convenient and easy to operate. Because the treatment head is relatively small, and the infrared photothermal moxibustion is combined with the acupuncture effect of the laser, it is very convenient to perform acupuncture or moxibustion on any part that needs treatment.

Compared with the prior art, the present invention has the following advantages and beneficial effects:

1. At the same time, it has the functions of laser light acupuncture and infrared heat moxibustion, both of which can be used at the same time or separately.

2. Both laser light needle and infrared thermal moxibustion are produced by semiconductor laser tubes or luminous tubes, which are small in size, light in weight, low in power consumption, and long in life, and the radiation of infrared luminous tubes is similar to the infrared spectrum of moxibustion bands.

3. The laser tube, semiconductor infrared light-emitting tube or semiconductor infrared LED can be adjusted and controlled for luminous output power, luminous output mode (ie continuous output or pulse output), pulse width and repetition frequency of pulse output, and timing luminous output. It can imitate various manipulations and strength changes of acupuncture and moxibustion for various treatments, such as pulse stimulation simulating sparrow pecking moxibustion in Chinese medicine, pulse width adjustment simulating reinforcing and reducing methods in Chinese medicine, etc., and there is a timing switch to facilitate timing treatment.

4. The laser tube and semiconductor infrared luminescent tube or semiconductor infrared LED are all combined in one output treatment lamp head output. The lamp head of the present invention has a compact structure, and can be easily tied to various parts of the body by its fastening belt to treat relevant acupuncture points or diseased parts. Self-irradiation treatment does not need to be controlled by patients or medical staff, or supported by relevant machine bases; and it can concentrate and converge laser and infrared output to irradiate the part to be irradiated.

5. The output treatment lamp head is equipped with temperature monitoring, which can not only ensure the stable output of the laser, but also help users prevent the temperature of moxibustion from being too high, so as to avoid burns and carry out treatment safely.

6. The host is connected to the output therapeutic lamp head through low-voltage wires, and drives and controls the laser tube, semiconductor infrared light-emitting tube or semiconductor infrared LED and related temperature control circuits, which is safe, simple and convenient.

7. Relevant experiments have proved that the present invention is not only suitable for irradiation treatment of various acupoints, but also directly irradiates various disease parts; various diseases include various arthritis pains; lumbar spine and cervical spondylitis pain; coronary heart disease , angina pectoris; acute and chronic bronchitis; intestinal and stomach pain; stroke; dysmenorrhea; Improve blood circulation and improve tissue condition.

Description of drawings

Fig. 1 is a structural schematic diagram of the combined acupuncture and moxibustion treatment instrument of the present invention.

Fig. 2 is a schematic diagram of the power circuit of the therapeutic apparatus shown in Fig. 1 .

Fig. 3 is a schematic diagram of the pulse generating and regulating circuit of the therapeutic apparatus shown in Fig. 1 .

Fig. 4 is a schematic diagram of the laser control and driving circuit of the therapeutic apparatus shown in Fig. 1 and its connection with the power supply circuit, pulse generation and regulation circuit.

Fig. 5 is the structural representation of the output treatment lamp head of the laser and infrared light combined acupuncture treatment instrument shown in Fig. 1 (can not use the real photo as the accompanying drawing!); wherein the titles of each label are: 1, a cover plate with holes; 2, Laser tube; 3. Thermistor; 4. Heat sink; 5. Spherical lens; 6. Ventilation hole; 7. Heat insulation layer; 8. Infrared light tube circuit board; 9. Infrared light reflector; 10. Laser through hole ; 11, infrared light tube; 12, infrared glass cover; 13, temperature sensor; 14, fastening belt.

Detailed ways

The present invention will be further described in detail below in conjunction with the embodiments and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

Example

The specific structure of this embodiment is shown in Figures 1 to 5, and it can be seen from Figure 1 that the combined laser and infrared light acupuncture treatment instrument includes a control host and an output treatment lamp head, and the control host and the output treatment lamp head are connected through low-voltage wires; The control host includes a power supply circuit, a pulse generation and adjustment circuit, a laser control and drive circuit, and an infrared light control and feedback circuit; The pulse generating and adjusting circuit generates signals to directly control the output of the infrared tube, and generates signals to control the output of the laser through the laser control and driving circuit; the output control of the two kinds of light includes constant or pulse output Mode selection, pulse width, pulse repetition frequency adjustment and output intensity control; the infrared light control and feedback circuit controls the infrared light output according to the skin temperature rise feedback caused by infrared light irradiation.

The power supply circuit is shown in Figure 2, including an AC-DC conversion power supply and a time control circuit, and the AC-DC conversion power supply outputs a 5-volt DC voltage and a 7.5-volt DC voltage after passing through the time control circuit, wherein the 5-volt DC voltage mainly It supplies power to the light emitting of the infrared tube; the other one is a 7.5V DC voltage, which is mainly used to supply power to the pulse generation and regulation circuit, laser control and drive circuit, and infrared light control and feedback circuit after being adjusted by the voltage regulator circuit.

Described pulse generating and regulating circuit as shown in Figure 3, comprises the pulse generating circuit and signal excitation circuit that are connected, and described pulse generating circuit comprises positive and negative pulse oscillation circuit, pulse frequency control circuit, pulse width control circuit, exponential waveform forming circuit and voltage follower. The pulse generating and adjusting circuit simultaneously directly controls the output of infrared light and the output of laser through the laser control and driving circuit in constant or pulse output mode, as well as the adjustment and control of pulse width and pulse repetition frequency. Therefore, the pulse generation and adjustment circuit is a selection circuit with constant or pulse output mode; at the same time, it is a control circuit with pulse width, pulse repetition frequency adjustment and output intensity.

Described laser control and driving circuit are as shown in Figure 4, comprise interconnected laser soft-start protection circuit, laser temperature feedback circuit and laser output control circuit; The maximum value should be increased slowly to the normal operating current, because the surge current of the laser tube will be relatively large at the moment of starting up, which will easily burn out the laser tube. The laser temperature feedback circuit is used to compensate and control the driving current of the laser tube to stabilize the power output of the laser tube when the working temperature of the laser tube rises. Because the output optical power of the laser tube is greatly affected by the temperature, the current must be adjusted to make it stable. The laser output control circuit is used to control the laser tube to generate a pulse output of laser power according to the pulse frequency and pulse width, or a constant output. This circuit is also used to control the power of the laser output. It can also be seen from Fig. 4 that the pulse generating and regulating circuit is connected with the laser temperature feedback circuit, the 5 volt DC voltage of the power supply circuit is connected with the pulse generating circuit and the skin temperature control circuit and supplies power to it, and the 7.5 volt DC voltage It is respectively connected with the pulse generation circuit and the laser control and drive circuit and supplies power to some of the circuits. The 7.5 volt DC power supply is also regulated into a 5 volt stable voltage by the voltage stabilizing module to supply power to some circuits of the laser control and drive circuit.

The infrared light control and feedback circuit is a skin temperature control circuit; the skin temperature control circuit is a general temperature detection and feedback control circuit, which is caused by the infrared light irradiation through the temperature sensor arranged on the outside of the output lamp head through the infrared glass cover. The temperature rise of the part, in order to close the driving circuit of the infrared tube before the temperature of the irradiated part rises to the critical point that will cause skin burns, so as to prevent burns.

The structure of the output treatment lamp head is shown in Figure 5, and the laser tube assembly, the perforated heat insulation layer 7 and the infrared tube assembly are installed sequentially from the innermost side to the output port, and the perforated heat insulation layer 7 separates the laser tube assembly and the infrared tube assembly. In the infrared tube assembly, only a laser passing hole 10 is opened in the center to allow the laser beam emitted by the laser tube to pass through; The material of the perforated heat insulation layer 7 is Teflon, a chemical material with good heat insulation performance, and its temperature resistance can exceed 100°C.

The laser tube assembly includes a laser tube 2, a heat sink 4 and a spherical lens 5. The laser tube 2 is fixed on the heat sink 4 for better heat dissipation. The heat sink 4 can be composed of two pieces of copper and fixed on the lamp head The inner wall of the inner wall, the spherical lens 5 is installed in front of the output end of the laser tube 2, so that the laser spot can be focused into a tiny light spot and irradiated to the acupuncture points or diseased parts to be irradiated. The laser tube 2 is a semiconductor laser tube with an output wavelength in the range of 633nm to 805nm, the output laser is output through the small hole of the perforated heat insulation layer 7, and the back side of the cooling plate 4 is equipped with a temperature detection and compensation circuit. The thermistor 3 is used to monitor the temperature rise of the semiconductor laser during operation, so as to compensate and control the driving current of the laser tube when the temperature of the laser tube rises to stabilize the power output of the laser tube.

The infrared tube assembly includes a semiconductor infrared light emitting tube or a semiconductor infrared LED11, an infrared light tube circuit board 8, an infrared light reflector 9, and an infrared reflective film; the semiconductor infrared light emitting tube or the semiconductor infrared LED11 array is welded on the infrared light tube circuit board 8, its quantity is 1-N, N is a natural number, the tube body of semiconductor infrared light-emitting tube or semiconductor infrared LED11 passes through the perforation on the infrared light reflector 9 through the infrared reflector 9; the infrared reflective film is attached inside the lamp holder The wall surface of the semiconductor infrared ray tube or the semiconductor infrared ray LED 11 has an output spectrum range of 1250nm-10000nm continuous wave infrared rays.

The lamp body material of the output treatment lamp cap is heat-resistant high-temperature plastic, and one end of the lamp cap is set as a perforated cover plate 1, and one or more ventilation holes 6 are opened on the wall surface of the lamp cap, and the shape of the lamp cap can be 2 cm to 15 cm in diameter. Cup shape. In order to meet the needs of different parts of the human body and different treatment occasions, the output treatment lamp head is equipped with a fastening belt 14, which is connected to the side of the output treatment lamp head, and the lamp head can be fastened to the human body very conveniently through the fastening belt 14 For each part, aim at the relevant acupuncture points or treatment parts for self-irradiation treatment.

The above-mentioned embodiment is a preferred embodiment of the present invention, but the embodiment of the present invention is not limited by the above-mentioned embodiment, and any other changes, modifications, substitutions, combinations, Simplifications should be equivalent replacement methods, and all are included in the protection scope of the present invention.

Claims (10)

1. A combination of laser and infrared light acupuncture treatment instrument, characterized in that: it comprises a control host and an output treatment lamp head, and the control host is connected to the output treatment lamp holder; the control host includes a power supply circuit, a pulse generation and adjustment circuit, a laser control And drive circuit and infrared light control and feedback circuit; The power supply circuit is connected with the pulse generation and adjustment circuit, laser control and drive circuit, infrared light control and feedback circuit at the same time and supplies power to it; The pulse generation and adjustment circuit generates The signal directly controls the output of the infrared tube, and generates a signal to control the output of the laser through the laser control and drive circuit; the infrared light control and feedback circuit controls the infrared light output according to the skin temperature rise feedback caused by the infrared light irradiation; the output therapy Inside the lamp head, a laser tube assembly, a heat insulation layer and an infrared tube assembly are installed in sequence from the innermost side to the output port. The heat insulation layer separates the laser tube assembly and the infrared tube assembly. There is only a small hole in the center for the laser tube to emit The laser beam passes through; the output end of the lamp head is provided with an infrared transparent glass cover, and a temperature sensor is provided on the infrared transparent glass cover. 2. The combined laser and infrared light acupuncture treatment instrument according to claim 1, characterized in that: the power circuit includes an AC-DC conversion power supply and a time control circuit, and the AC-DC conversion power supply outputs 5 volts after passing through the time control circuit The direct current voltage and the direct current voltage of 7.5 volts are adjusted by the voltage stabilizing circuit to supply power to the pulse generating and regulating circuit, the laser control and driving circuit, and the infrared light control and feedback circuit. 3. The combination laser and infrared light acupuncture treatment instrument according to claim 1, characterized in that: said pulse generating and regulating circuit includes a pulse generating circuit and a signal excitation circuit connected to each other, and simultaneously directly controls the output of infrared light and Through the laser control and drive circuit, the output of the laser is controlled in a constant or pulse output mode, pulse width, and pulse repetition frequency. 4. The combined laser and infrared light acupuncture treatment instrument according to claim 1, characterized in that: said laser control and drive circuit includes a laser soft-start protection circuit, a laser temperature feedback circuit and a laser output control circuit connected to each other. 5. The combination laser and infrared light acupuncture treatment instrument according to claim 1, characterized in that: the infrared light control and feedback circuit is a skin temperature control circuit; the skin temperature control circuit monitors the temperature caused by infrared light irradiation through a temperature sensor. The temperature rise of the irradiated part, in order to close the driving circuit of the infrared tube before the temperature of the irradiated part rises to a critical point that will cause skin burns. 6. The combination laser and infrared light acupuncture treatment instrument according to claim 1, characterized in that: the laser tube assembly includes a laser tube, a cooling plate and a spherical lens, the laser tube is fixed on the cooling plate, and the cooling plate can be Composed of two pieces of copper, fixed on the inner wall of the lamp head, the spherical lens is installed in front of the output end of the laser tube, so that the laser spot can be focused into a small light spot and irradiated to the acupuncture point or diseased part to be irradiated. 7. The combined laser and infrared light acupuncture treatment instrument according to claim 6, characterized in that: the laser tube is a semiconductor laser tube with an output wavelength in the range of 633nm to 805nm, and the output laser light passes through the small hole of the heat insulation layer Output to the outside, the back side of the cooling plate is equipped with a thermistor of temperature detection and compensation circuit, which is used to monitor the temperature rise of the laser tube, so that when the temperature of the laser tube rises, the driving current of the laser tube can be compensated and controlled to stabilize the laser tube. power output. 8. The combination laser and infrared light acupuncture treatment instrument according to claim 1, characterized in that: the infrared tube assembly includes a semiconductor infrared light emitting tube or a semiconductor infrared LED, an infrared light tube circuit board, an infrared light reflector, an infrared reflector film; the semiconductor infrared light-emitting tube or semiconductor infrared LED is welded on the infrared light tube circuit board, and its number is 1-N, N is a natural number, and the body of the semiconductor infrared light-emitting tube or semiconductor infrared LED passes through the infrared light reflector The perforation passes through the infrared light reflector; the infrared reflective film is attached to the wall inside the lamp head, and the output spectrum of the semiconductor infrared light-emitting tube or semiconductor infrared LED is a continuous wave infrared spectrum ranging from 1250nm to 10000nm. 9. The combined laser and infrared light acupuncture therapeutic instrument according to claim 1, characterized in that: the material of the heat insulation layer with holes is a chemical material with good heat insulation performance, and the temperature resistance exceeds 100°C; the output The material of the lamp body of the treatment lamp head is heat-resistant high-temperature plastic, with one or more ventilation holes, and the shape of the lamp head is a cup shape with a diameter of 2 cm to 15 cm. 10. The combined laser and infrared light acupuncture treatment instrument according to claim 1, characterized in that: said output treatment lamp head is equipped with a fastening belt.

Images