CN112022689A - System for improving mud moxibustion effect by combining dynamic infrared light pulse stimulation and use method - Google Patents

Abstract

The invention provides a system for improving mud moxibustion effect by combining dynamic light pulse stimulation, which comprises a constant-temperature mud moxibustion heating tank, a dynamic infrared light pulse generator, a mud moxibustion isolation medium and mud moxibustion. The constant temperature moxibustion mud heating tank is composed of a constant temperature heater main body, a moxibustion mud container and the like and is used for finishing constant temperature heating and heat preservation of the moxibustion mud. The dynamic infrared light pulse generator consists of an infrared light source or a static infrared light generator, a controller circuit, a moxibustion mud temperature detection unit, a remote controller, a bracket and the like and is used for generating dynamic infrared light pulses. The mud isolation medium is used for isolating mud from mud moxibustion objects. The invention also discloses a use method of the system for improving the mud moxibustion effect by combining dynamic infrared light pulse stimulation. The invention overcomes the defects of uncontrollable temperature and easy burning of the mud moxibustion in the traditional method, has the advantages of reducing the using amount of the mud moxibustion, shortening the conditioning time of the mud moxibustion, improving the sanitary condition of the mud moxibustion and the like, realizes the double-moxibustion integration of the mud moxibustion and the simulated moxibustion, and improves the comprehensive effect of the mud moxibustion.

Description

System for improving mud moxibustion effect by combining dynamic infrared light pulse stimulation and use method

Technical Field

The invention relates to the field of human body physical therapy, in particular to a system for improving mud moxibustion effect by combining dynamic infrared light pulse stimulation and a using method.

Background

With the development of social economy and the continuous improvement of living standard of people, people pay more attention to the health status of themselves and family, and how to keep healthy in daily life, prevent diseases from appearing as early as possible in a disease-desiring state, and recover health in a disease-already state through a state of taking little or no medicine becomes a goal pursued by the public. The traditional Chinese medicine acupuncture, moxibustion and other manipulations can achieve the purpose of preventing and treating diseases by means of no medicine intervention or by means of a small amount of traditional Chinese medicine components of non-chemical medicine preparations. Mud moxibustion is also a traditional Chinese medicine therapy, and is a treatment method for achieving the purposes of treating and preventing diseases by using moxibustion mud for hot burning and ironing stimulation at specific parts of a human body. The moxibustion mud has strong flexibility, can be randomly pasted on any part of a body, has good curative effect and quick response, has multiple effects of activating blood, resisting inflammation, dispelling wind and removing dampness, can quickly dredge channels and collaterals of the human body, dispels pathogenic wind, cold and dampness in the human body and achieves the aim of quickly curing chronic diseases.

However, in the conventional mud moxibustion implementation process, certain problems exist, and if the mud needs to be heated to a certain temperature to realize the effect of using the mud for hot moxibustion, the mud is usually heated by a microwave oven at present. For example, patent CN101897838A discloses a method for heating mud, which comprises heating mud in microwave oven for 3-5 min, melting the mud, adding Chinese medicinal powder, and stirring. However, the temperature of the moxibustion mud fluctuates greatly in different temperature and humidity environments and different microwave oven heating intensities and times, so that the body of a patient is easily burnt due to overhigh temperature, and doctor-patient disputes are caused. Patent CN208448123U discloses a novel control by temperature change formula mud moxibustion instrument, heats the mud moxibustion through the heating device of mud moxibustion instrument bottom to available control by temperature change knob control heating temperature reaches the purpose of heating the mud moxibustion. However, the design of the integration of the moxibustion mud and the heater limits the area of mud moxibustion, and the whole mud moxibustion process needs manpower to keep the moxibustion position.

In addition to the above problems, the conventional mud moxibustion method has other disadvantages, such as: (1) the temperature of the mud moxibustion mud is gradually reduced along with the mud moxibustion time, and the mud moxibustion effect is influenced. (2) The amount of mud used is large. In order to ensure that a certain temperature is kept in a long mud moxibustion time, the mud smearing requirement is a certain thickness, otherwise, the temperature of the mud is rapidly reduced, and the expected effect of mud moxibustion cannot be achieved. (3) The mud is directly smeared on the surface of a human body and is not easy to clean, and the like.

Patent CN101897838A, CN109125517A mention that heated mud can release near infrared rays. From the physical point of view, an object with the temperature not exceeding 60 ℃ cannot have near infrared radiation, and only has far infrared radiation. Scientific research proves that: near infrared thermal radiation is a source of radiant energy that can enter the interior of the human body. The absorption of energy from the near infrared thermal radiation source by the human body helps to improve the health of the human body. Patent CN101073689A teaches that moxibustion imitation effect can be achieved by using composite spectrum. Therefore, the auxiliary light pulse source can generate near infrared thermal radiation spectrum and irradiate the moxibustion mud to improve the curative effect.

From another point of view, a pure light source containing near-infrared thermal radiation spectrum only has physical physiotherapy effect and no medicinal effect of traditional Chinese medicine (or traditional Chinese medicine composition), and if mud moxibustion and simulated moxibustion are combined, the physiotherapy method has the thermal radiation effect of traditional moxibustion and the medicinal effect of the traditional Chinese medicine composition introduction, and has complementary advantages and health maintenance.

Therefore, the device, the system or the method for effectively heating the mud moxibustion and controlling the temperature is provided, the problem of heat loss of the mud moxibustion in the mud moxibustion process is solved, and the device, the system or the method is very helpful for improving the mud moxibustion effect. Meanwhile, the system for improving the mud moxibustion effect by combining dynamic infrared light pulse stimulation and the use method are a new creation.

Disclosure of Invention

The invention aims to solve the problems of uncontrollable temperature of mud moxibustion, heat loss of mud moxibustion in the mud moxibustion process, large using amount of mud moxibustion, difficult cleaning and the like in the existing mud moxibustion technology, achieve accurate control of initial temperature of mud moxibustion by a constant-temperature mud heating tank, supplement the heat loss problem in the mud moxibustion process by a dynamic infrared pulse generator, realize double moxibustion integration of mud moxibustion and simulated moxibustion, detect the temperature of mud moxibustion in real time and increase the easy cleaning performance of mud moxibustion by a mud moxibustion isolation medium.

In order to achieve the purpose, the invention is implemented according to the following technical scheme:

a system for improving mud moxibustion effect by combining dynamic infrared light pulse stimulation comprises a constant temperature moxibustion mud heating tank, a dynamic infrared light pulse generator, a moxibustion mud isolation medium and moxibustion mud.

Further, the constant temperature mud heating pot is composed of a constant temperature heater main body, a mud container and the like.

Further, the constant temperature mud heating pot can heat the mud at a set temperature of 40-70 ℃, and the mud is in a constant temperature state after reaching the set temperature.

Furthermore, the dynamic infrared light pulse generator comprises an infrared light source or a static infrared light generator, a controller circuit, a moxibustion mud temperature detection unit, a remote controller, a bracket and the like.

The infrared light source or the static infrared generator, the moxibustion mud temperature detection unit and the control circuit are electrically connected through leads.

The remote controller can be connected with the control circuit in a wired or wireless mode.

Further, the infrared light source or static infrared generator radiates electromagnetic spectrum covering the 0.55 to 15 micron frequency band.

Further, the controller circuit can receive control signals from a remote controller in a wired or wireless mode, and has the functions of driving and switching the infrared light source or the static infrared generator, controlling radiation time and intensity.

Furthermore, the temperature detection unit of the mud comprises one or more temperature sensors, and can detect the real-time temperature of the mud in a non-contact or contact mode.

Furthermore, the moxibustion mud isolation medium can be made of non-heat-insulating and high-temperature-resistant medical cloth such as non-woven fabric and gauze.

The invention also discloses a use method of the system for improving the mud moxibustion effect by combining dynamic light pulse stimulation, which is characterized by comprising the following steps: the moxibustion mud constant-temperature heating tank is used for heating the moxibustion mud and keeping the temperature constant. In the mud moxibustion process, the dynamic infrared light pulse generator performs dynamic infrared irradiation on the moxibustion mud, and the control circuit can adjust the state of the dynamic infrared irradiation based on the control instruction of the remote controller or the control circuit. In the mud moxibustion process, the controller circuit can detect the real-time temperature of the moxibustion mud through the moxibustion mud temperature detection unit, and the state of dynamic infrared radiation can be adjusted based on the real-time temperature of the moxibustion mud detected by the detection unit. In the mud moxibustion process, the moxibustion mud is smeared on the mud moxibustion isolation medium to complete the physical isolation between the moxibustion mud and the moxibustion object. The moxibustion paste is prepared from mud matrix and Chinese medicinal composition, wherein the Chinese medicinal composition is determined by physiological, psychological and pathological characteristics of moxibustion object.

Further, controlling the infrared light source or static infrared generator radiation state based on the control instruction comprises:

when the instruction is a starting instruction, controlling an infrared light source in the dynamic infrared light pulse generator or a driving circuit of a static infrared light generator to be conducted, and discontinuously carrying out dynamic infrared radiation according to set intensity; when the instruction is a shutdown instruction, controlling a driving circuit of an infrared light source or a static infrared generator in the dynamic infrared light pulse generator to be cut off, stopping the infrared light source or the static infrared generator from carrying out heat radiation, and clearing set radiation time and radiation intensity information; when the instruction is a pause instruction, controlling an infrared light source or a static infrared generator driving circuit in the dynamic infrared light pulse generator to be cut off, and stopping the infrared light source or the static infrared generator from carrying out heat radiation, but keeping set treatment time and treatment intensity information; when the received instruction is a restart instruction in the pause state, controlling an infrared light source in the dynamic infrared light pulse generator or a static infrared light generator to carry out infrared radiation according to the set intensity before the pause state; when the instruction is a timing instruction, controlling an internal memory of the dynamic infrared light pulse generator controller circuit to record radiation time information and displaying the radiation time information on a display device of the control circuit; and when the instruction is a therapeutic intensity adjusting instruction, controlling an internal memory of the dynamic infrared light pulse generator controller circuit to record radiation intensity information so as to adjust the conduction time of the infrared light source or the static infrared light generator in a fixed period and display the conduction time on a display device of the controller circuit.

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

1. the initial temperature of the moxibustion mud can be accurately controlled by utilizing the constant-temperature heating tank of the moxibustion mud, and the defects that the temperature of the moxibustion mud heated by the microwave oven is uncontrollable and easy to burn are overcome.

2. Dynamic infrared light pulse generator can supply the heat dissipation of mud moxibustion in-process through dynamic infrared radiation at mud moxibustion in-process, consequently need not paint too thick moxibustion mud, when reducing the moxibustion mud quantity, realizes imitating moxa-moxibustion effect with infrared light radiation, has realized two moxibustion integration.

3. In the mud moxibustion process, the current real-time temperature of a single point or multiple points of the moxibustion mud can be acquired by the mud moxibustion temperature detection unit, and the closed-loop control of dynamic infrared light pulses can be realized.

4. The mud moxibustion is smeared on the mud moxibustion isolation medium, so that the physical isolation of the mud moxibustion and the mud moxibustion object is realized, the attachment of the mud moxibustion is avoided, and the cleaning easiness is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only one embodiment of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic block diagram of a system for improving moxibustion effect by combining dynamic infrared light pulse stimulation according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a system for improving moxibustion effect by combining dynamic infrared light pulse stimulation according to an embodiment of the present invention.

Fig. 3 is a schematic structural view of a constant temperature moxibustion mud heating tank provided by the embodiment of the invention.

Fig. 4 is a first schematic diagram of a dynamic ir light pulse generator according to an embodiment of the present invention.

Fig. 5 is a schematic diagram of a second embodiment of a dynamic ir light pulse generator according to the present invention.

Fig. 6 is a third schematic diagram of a dynamic ir light pulse generator according to an embodiment of the present invention.

Fig. 7 is a fourth schematic diagram of a dynamic ir light pulse generator according to an embodiment of the present invention.

Fig. 8 is a schematic structural view of a moxibustion mud isolation medium according to an embodiment of the present invention.

Description of reference numerals:

10. a moxibustion mud heating tank; 101. a constant temperature heater main body; 1011. a power line; 1012. a power switch; 1013. setting a temperature display; 1014. a current temperature display; 1015. a temperature setting button; 1016. heating the plate; 102. a moxibustion mud container; 20. a dynamic infrared light pulse generator; 201. heating the plate; 202. a controller; 2021. an AC output interface; 203. a moxibustion mud temperature detection unit; 2031. an adsorption or clamping device; 204. a power line; 205. a remote controller; 206. a support; 30. a moxibustion sludge isolation medium; 301. an upper layer of the moxibustion mud isolation medium; 302. a lower layer of isolation media; 303. a moxibustion sludge temperature detection unit is provided with a hole; 40. moxibustion paste.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. In addition, it should be noted that only a part of the structure related to the present invention is shown in the drawings, not the whole structure.

Fig. 1 is a schematic block diagram of a system for improving moxibustion effect by combining dynamic infrared light pulse stimulation according to an embodiment of the present invention. Fig. 2 is a schematic structural diagram of a system for improving moxibustion effect by combining dynamic infrared light pulse stimulation according to an embodiment of the present invention.

As shown in figures 1 and 2, a system for improving mud moxibustion effect by combining with dynamic infrared light pulse stimulation comprises a mud heating tank 10, a dynamic infrared light pulse generator 20, a mud isolation medium 30 and mud 40.

Fig. 3 is a schematic structural view of a constant temperature moxibustion mud heating tank provided by the embodiment of the invention. As shown in fig. 3, the constant temperature sludge heating pot 10 includes a constant temperature heater body 101 and a sludge container 102.

Specifically, the constant temperature mud heating pot 10 can heat the mud 40 at a set temperature of 40-70 ℃, and is in a constant temperature state after reaching the set temperature.

Specifically, the constant temperature heater main body 101 is composed of a power supply line 1011, a power switch 1012, a set temperature display 1013, a current temperature display 1014, a temperature setting button 1015, a heating plate 1016, and the like.

Specifically, the container 102 is made of a heat conductor such as glass or metal.

Fig. 4 is a first schematic diagram of a dynamic ir light pulse generator according to an embodiment of the present invention. As shown in fig. 4, the dynamic infrared light pulse generator 20 includes an infrared light source 201, a controller 202, a temperature detecting unit 203, a power line 204, a remote controller 205 and a bracket 206.

Specifically, the infrared light source 201, the temperature detection unit 203, the power line 204 and the controller 202 are electrically connected.

Preferably, the infrared light source 201 radiates electromagnetic spectrum covering the 0.55 to 15 micron band.

Preferably, the temperature detecting unit 203 of the moxibustion mud is composed of two infrared non-contact temperature detecting sensors or probes.

Specifically, the remote controller 205 may transmit a control signal to the controller 202 in a wireless or wired manner.

Preferably, the remote control 205 transmits control signals to the controller 202 in a radio frequency wireless manner.

Preferably, the remote controller 205 can send out control commands of on/off, working time, radiation intensity and the like of the dynamic infrared light pulse generator.

Specifically, the infrared light source 201 and the controller 202 are mounted on the bracket 206.

Preferably, the adjustment of the irradiation angle and position of the infrared light source 201 can be completed by adjusting the relevant structure of the bracket 206.

Fig. 5 is a schematic diagram of a second embodiment of a dynamic ir light pulse generator according to the present invention. The difference from the schematic structure of the dynamic infrared light pulse generator shown in fig. 4 is that the moxibustion sludge temperature detection unit 203 is composed of two contact temperature detection sensors.

Fig. 6 is a third schematic diagram of a dynamic ir light pulse generator according to an embodiment of the present invention. The difference from the scheme of the schematic structure of the dynamic infrared light pulse generator shown in fig. 4 is that the scheme is not directly connected to the infrared light source 201, the controller 202 is provided with an ac output interface 2021 for connecting to the static infrared light generator, and the moxibustion mud temperature detection unit 203 is provided with an adsorption or clamping device 2031 which is matched with and mounted on the static infrared light generator.

Fig. 7 is a fourth schematic diagram of a dynamic ir light pulse generator according to an embodiment of the present invention. The difference from the schematic structural diagram of the dynamic infrared light pulse generator shown in fig. 6 is that the moxibustion sludge temperature detection unit 203 is composed of two contact temperature detection sensors.

Fig. 8 is a schematic structural view of a moxibustion mud isolation medium according to an embodiment of the present invention. As shown in fig. 5, the mud isolation medium 30 is composed of a mud upper isolation medium 301 and a mud lower isolation medium 302, and a mud temperature detection unit installation hole 303 is left between the upper isolation medium 301 and the mud lower isolation medium 302.

Specifically, the upper layer of isolation medium 301 and the lower layer of isolation medium 302 of the moxibustion mud are made of non-heat-insulating, high-temperature-resistant and medical materials.

Preferably, the upper and lower isolation mediums 301 and 302 of the moxibustion mud are made of non-woven fabric or medical gauze.

Further, the upper layer of isolation medium 301 and the lower layer of isolation medium 302 of the moxibustion mud can be made of different materials.

The embodiment of the invention also discloses a control method of the system for improving the mud moxibustion effect by combining dynamic infrared light pulse stimulation, which comprises the following steps:

optionally, the control method includes: the moxibustion mud constant temperature heating pot 10 is used for heating the moxibustion mud 40 and keeping the temperature constant. In the mud moxibustion process, the dynamic infrared light pulse generator 20 performs dynamic infrared irradiation on the moxibustion mud, and the controller 202 can adjust the state of the dynamic infrared irradiation based on the control instruction of the remote controller 205 or the controller circuit 202. During mud moxibustion, the controller 202 may detect the real-time temperature of the mud 40 through the mud temperature detecting unit 203. The state of dynamic infrared radiation can be adjusted based on the real-time temperature of the moxibustion mud detected by the detection unit. In the mud moxibustion process, the mud 40 is smeared on the mud moxibustion isolation medium 30 to complete the physical isolation between the mud 40 and the moxibustion object.

Optionally, a method for using the system for improving mud moxibustion effect in combination with dynamic light pulse stimulation, wherein controlling the radiation state of the infrared light source or the static infrared generator based on the control instruction comprises:

specifically, when the instruction is a power-on instruction, the infrared light source in the dynamic infrared light pulse generator 20 or the static infrared light generator driving circuit is controlled to be turned on, and dynamic infrared radiation is performed intermittently according to a set intensity;

specifically, when the instruction is a shutdown instruction, the driving circuit of the infrared light source or the static infrared generator in the dynamic infrared light pulse generator 20 is controlled to be turned off, the infrared light source or the static infrared generator stops performing heat radiation, and set radiation time and radiation intensity information are cleared;

specifically, when the instruction is a pause instruction, the driving circuit of the infrared light source or the static infrared generator in the dynamic infrared light pulse generator 20 is controlled to be turned off, and the infrared light source or the static infrared generator stops performing heat radiation, but the set treatment time and the set treatment intensity information are reserved;

specifically, when the received instruction is a restart instruction in the suspended state, the infrared light source or the static infrared generator in the dynamic infrared light pulse generator 20 is controlled to perform infrared radiation according to the set intensity before the suspended state;

specifically, when the instruction is a timing instruction, controlling the internal memory of the controller 202 of the dynamic infrared light pulse generator 20 to record radiation time information, and displaying the radiation time information on a display device of a control circuit;

specifically, when the instruction is a therapeutic intensity adjustment instruction, the internal memory of the controller 202 of the dynamic infrared light pulse generator 20 is controlled to record radiation intensity information, so as to adjust the conduction time of the infrared light source or the static infrared light generator in a fixed period, and display the conduction time on the display device of the controller 202.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted" and "connected" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood as appropriate by those of ordinary skill in the art.

In the present invention, the above embodiments are only used for illustrating the technical solution of the present invention, and not for limiting the same, and are not limited to the above specific embodiments, and all the technical modifications made according to the technical solution of the present invention fall within the protection scope of the present invention.

Claims (10)

1. A system for improving mud moxibustion effect by combining dynamic infrared light pulse stimulation is characterized by comprising a constant temperature mud heating tank, a dynamic infrared light pulse generator, a mud isolation medium and mud.

2. The system for improving moxibustion effects in combination with dynamic infrared light pulse stimulation according to claim 1, wherein: the constant temperature moxibustion mud heating tank comprises a constant temperature heater main body, a moxibustion mud container and the like.

3. The system for improving moxibustion effects in combination with dynamic infrared light pulse stimulation according to claim 2, wherein: the constant temperature mud heating tank can heat mud at a set temperature of 40-70 ℃, and is in a constant temperature heat preservation state after reaching the set heating temperature.

4. The system for improving moxibustion effects in combination with dynamic infrared light pulse stimulation according to claim 1, wherein: the dynamic infrared light pulse generator comprises an infrared light source or a static infrared light generator, a controller circuit, a moxibustion mud temperature detection unit, a remote controller, a bracket and the like.

The infrared light source or the static infrared generator, the moxibustion mud temperature detection unit and the controller circuit are electrically connected through leads.

The remote controller can be connected with the controller circuit in a wired or wireless mode.

5. The system for improving moxibustion effects in combination with dynamic infrared light pulse stimulation according to claim 4, wherein: the infrared light source or the static infrared generator radiates electromagnetic spectrum covering a frequency range of 0.55 to 15 micrometers.

6. The system for improving moxibustion effects in combination with dynamic infrared light pulse stimulation according to claim 4, wherein: the controller circuit can receive control signals from a remote controller in a wired or wireless mode, and has the functions of driving and switching on and off, radiating time and intensity control of the infrared light source or the static infrared generator.

7. The system for improving moxibustion effects in combination with dynamic infrared light pulse stimulation according to claim 4, wherein: the mud temperature detection unit comprises one or more temperature sensors and can detect the real-time temperature of mud in a non-contact or contact mode.

8. The system for improving moxibustion effects in combination with dynamic infrared light pulse stimulation according to claim 1, wherein: the moxibustion mud isolation medium can be made of non-heat-insulating and high-temperature-resistant medical cloth such as non-woven fabric and gauze.

9. A use method of a system for improving mud moxibustion effect by combining dynamic infrared light pulse stimulation, which is characterized by comprising the following steps:

the moxibustion mud constant-temperature heating tank is used for heating the moxibustion mud and keeping the temperature constant.

In the mud moxibustion process, the dynamic infrared light pulse generator performs dynamic infrared irradiation on the moxibustion mud, and the controller circuit can adjust the state of the dynamic infrared irradiation based on the control instruction of the remote controller or the control circuit.

In the mud moxibustion process, the controller circuit can detect the real-time temperature of the moxibustion mud through the moxibustion mud temperature detection unit, and the state of dynamic infrared radiation can be adjusted based on the real-time temperature of the moxibustion mud detected by the detection unit.

In the mud moxibustion process, the moxibustion mud is smeared on the mud moxibustion isolation medium to complete the physical isolation between the moxibustion mud and the moxibustion object. The moxibustion paste is prepared from mud matrix and Chinese medicinal composition, wherein the Chinese medicinal composition is determined by physiological, psychological and pathological characteristics of moxibustion object.

10. The method of claim 9, wherein controlling the radiation state of the infrared light source or the static infrared light generator based on the control command comprises:

when the instruction is a starting instruction, controlling an infrared light source in the dynamic infrared light pulse generator or a driving circuit of a static infrared light generator to be conducted, and discontinuously carrying out dynamic infrared radiation according to set intensity;

when the instruction is a shutdown instruction, controlling an infrared light source or a static infrared generator driving circuit in the dynamic infrared light pulse generator to be cut off, stopping infrared radiation of the infrared light source or the static infrared generator, and clearing set radiation time and radiation intensity information;

when the instruction is a pause instruction, controlling an infrared light source or a static infrared generator driving circuit in the dynamic infrared light pulse generator to be cut off, and stopping the infrared radiation of the infrared light source or the static infrared generator but keeping set treatment time and treatment intensity information;

when the received instruction is a restart instruction in the pause state, controlling an infrared light source in the dynamic infrared light pulse generator or a static infrared light generator to carry out infrared radiation according to the set intensity before the pause state;

when the instruction is a timing instruction, controlling an internal memory of the dynamic infrared light pulse generator to record radiation time information and displaying the radiation time information on a display device of a controller circuit;

and when the instruction is a therapeutic intensity adjusting instruction, controlling an internal memory of the dynamic infrared light pulse generator to record radiation intensity information so as to adjust the conduction time of the infrared light source or the static infrared light generator in a fixed period and display the conduction time on a display device of the controller circuit.

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