CN216319525U - Magnetoelectric pulse therapeutic instrument - Google Patents

Abstract

The technical scheme relates to the technical field of medical equipment, and discloses a magnetoelectric pulse therapeutic apparatus which comprises a host and a therapeutic apparatus, wherein a multi-core wire is arranged between the host and the therapeutic apparatus and is detachably connected through the multi-core wire; the main machine comprises a power supply assembly, a main control circuit assembly, a man-machine interaction assembly and an interface assembly, and the therapeutic apparatus comprises an external assembly, a temperature control assembly, a heating wire and an electromagnetic conductor, wherein the temperature control assembly, the heating wire and the electromagnetic conductor are arranged in the external assembly; the power supply assembly controls the on-off of a host power supply, and the human-computer interaction assembly is in signal connection with the main control circuit assembly to realize human-computer interaction; when the power supply assembly is connected with a power supply, the therapeutic device is connected with the main control circuit assembly through the multi-core lead and the interface assembly, the heating wire is heated, and the electromagnetic conductor generates a magnetic field and pulse current. The utility model provides a therapentic equipment can design into different size of a dimension, including but not limited to multiple forms such as cushion, mattress or hand-held type therapentic equipment, and it is more convenient to use, and the external component adopts different materials, more satisfies user's demand.

Description

Magnetoelectric pulse therapeutic instrument

Technical Field

The utility model relates to the technical field of medical equipment, in particular to a magnetoelectric pulse therapeutic instrument.

Background

With the development of science and medical technology, more and more safe and effective medical equipment enters the lives of people, and the physical conditions of people are improved. Among them, the magnetoelectric pulse therapeutic apparatus is a medical equipment favored by people in recent years, and has an effective physical therapy effect on improving diseases such as arthralgia and muscle injury of people. However, the existing magnetoelectric pulse therapeutic apparatus is generally of an integrated structure, and a host machine which plays a control role is arranged in a shell which plays a heat transfer role, so that the structural design is generally complex, the manufacturing cost is high, the whole volume is large and heavy, the carrying is inconvenient, and the use is troublesome; moreover, the existing magnetic electric pulse therapeutic apparatus is not waterproof, has single function and poor heat transfer performance, and fails to exert the optimal therapeutic effect of the therapeutic apparatus.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome at least one defect of the prior art and provides an electromagnetic pulse therapeutic apparatus for solving the problem of inconvenient use of the therapeutic apparatus.

In order to solve the technical problems, the utility model adopts the technical scheme that:

a magnetoelectric pulse therapeutic apparatus comprises a host and a therapeutic apparatus, wherein the host and the therapeutic apparatus are detachably connected; the main machine comprises a power supply assembly, a main control circuit assembly, a man-machine interaction assembly and an interface assembly, and the therapeutic apparatus comprises an external assembly, a temperature control assembly, a heating wire and an electromagnetic conductor, wherein the temperature control assembly, the heating wire and the electromagnetic conductor are arranged in the external assembly; the power supply assembly controls the on-off of a host power supply, and the human-computer interaction assembly is in signal connection with the main control circuit assembly to realize human-computer interaction; when the power supply assembly is connected with a power supply, the therapeutic device is connected with the main control circuit assembly through the interface assembly, the heating wire is heated, and the electromagnetic conductor generates a magnetic field and pulse current.

Among this technical scheme, through connecting host computer and therapentic equipment through dismantling, form split type design, like this when using, really be the therapentic equipment with the user contact, the therapentic equipment quality after detaching the host computer is lighter, and the volume is also littleer, and it can be more convenient that the user carries to take, and it is also more convenient to use. The utility model provides a therapentic equipment can design into different size of a dimension, including but not limited to multiple forms such as cushion, mattress or hand-held type therapentic equipment, and it is more convenient to use, and the external component adopts different materials, more satisfies user's demand.

In addition, the host is independent, so that the operation of a user is simpler and more intuitive. More importantly, all circuit components are built in the existing integrated therapeutic apparatus, so that the integrated therapeutic apparatus cannot be waterproof, the circuit safety problem is easy to occur, and a user cannot feel relieved when using the integrated therapeutic apparatus. Through setting up host computer and therapentic equipment into split type design, avoid user direct contact host computer, the security performance improves greatly, simultaneously, because the therapentic equipment passes through the multicore wire and is connected with the host computer, as long as with therapentic equipment inner circuit sealed, then can effectively play waterproof effect, improved the use limitation of therapeutic instrument, also improved the security performance.

Furthermore, the host is provided with a human-computer interaction component, the human-computer interaction component comprises a display screen, and the display screen is preferably a touch screen, so that a user can quickly select a required functional mode or program by directly touching the display screen. Therefore, the use is more concise and convenient. More importantly, because the middle-aged and the elderly people generally use the therapeutic apparatus, even if the therapeutic apparatus has a use instruction, the existing integrated therapeutic apparatus has a complex structure, and the use of the integrated therapeutic apparatus is inconvenient. And the therapeutic instrument of this application can use through touch-control display screen for man-machine interaction's therapeutic instrument, more accords with the user and needs.

Furthermore, the main control circuit component comprises a DC-DC voltage reduction circuit, a DC-AC alternating circuit, a temperature detection circuit, an electric heating regulation circuit, an audio frequency amplitude modulation circuit, an electric stimulation pulse regulation circuit and a serial port communication circuit.

Wherein, the therapeutic device has the functions of treatment and massage. The therapeutic device can be a cushion on which a user sits for physiotherapy, or a foot pad, a waist pad or a holding pad and the like, so as to be used by different body parts of the user, and has wider use effect.

Furthermore, an electromagnetic conductor, a heating wire and a temperature control component are arranged in the therapeutic apparatus, the heating wire generates heat radiation energy through heating, and the heat energy has good auxiliary effects on blood circulation and dredging channels and collaterals; the electromagnetic conductor generates magnetic energy after being electrified, and the host machine transmits electrical stimulation pulse current to the therapeutic device through the electromagnetic lead; under the stimulation of the heat energy, the magnetic energy and the pulse current, the effects of relieving joint pain of a user, promoting metabolism of a human body and the like are achieved, and the effects of relaxing tendons and activating collaterals, dredging blood vessels, diminishing inflammation and removing swelling and the like are achieved. And the temperature control component can detect the temperature condition of the therapeutic device, and ensures that the therapeutic device is in a proper temperature range when in work.

Preferably, 2-16 electromagnetic conductors are uniformly arranged in each therapeutic device. More preferably, 8-9 electromagnetic conductors are arranged in the therapeutic device. The electromagnetic conductors in the number range better meet the size requirement of the therapeutic apparatus, and the comprehensive output heat is higher, and the therapeutic effect is good.

Furthermore, the electric stimulation therapy patch is connected with an interface component on the host through an electrotherapy wire.

In the technical scheme, the electric stimulation treatment patch is additionally arranged, can play the roles of electrotherapy and thermotherapy and can generate better physiotherapy effect when being used with a therapeutic apparatus. Or the system can be supplied to users with different requirements for use, so that the function of one machine with multiple purposes is achieved.

Furthermore, the therapeutic device and the electrical stimulation therapy patch can be added with a medicine hot compress bag, the medicine hot compress bag is directly sleeved outside the therapeutic device and the electrical stimulation therapy patch, and the medicine can permeate a tissue layer under the stimulation of electric pulse and can reach a pathological change part more deeply through the absorption of pores, so that the medicine property of the medicine can be better exerted. The thermotherapy function of the treatment patch can not only ensure the comfort level of the user, but also promote the human body to better absorb the property of the medicine, thereby playing the role of medication. Compared with the traditional single medicine application mode, the four functions are integrated together by adding the medicine therapy treatment mode in the heat therapy mode, the magnetic therapy mode and the electrotherapy mode, and the generated effect is far greater than the four effects, so the absorption effect is better, the disease source can be more directly reached, and the focus is broken.

Specifically, the electric stimulation treatment patch is a viscous electrode plate, and pulse current is uniformly conducted to a human body through the viscous electrode plate, so that the effects of dredging channels and collaterals, eliminating pain and promoting blood circulation are achieved.

Furthermore, a multi-core wire is arranged between the host and the therapeutic apparatus and is detachably connected through the multi-core wire; the interface assembly comprises a multi-core wire interface, an electrotherapy wire interface and an audio wire interface, and the audio wire interface is connected with external audio playing equipment.

In the technical scheme, the audio wire interface is arranged, so that a user can play audio for relaxation and entertainment in the using process, and the using function of the therapeutic apparatus is further improved.

Wherein, the heating wire and the electromagnetic conductor are respectively electrically connected with the multi-core wire. The heating wire supplies power for 220V independently, and the electromagnetic conductor supplies power for 25V independently.

Furthermore, the man-machine interaction assembly is provided with a function debugging module, a temperature debugging module, a time setting module, a voice prompt module and an audio playing module which are in signal connection with the main control circuit assembly.

Wherein, the time setting module is convenient for a user to select the needed physiotherapy time according to the requirement.

Furthermore, the electromagnetic conductor comprises an electromagnetic winding, a magnetic conduction column, a magnetism increasing sheet and a permanent magnet ring for generating a static magnetic field, the electromagnetic winding generates a dynamic magnetic field after being electrified, the energy of the dynamic magnetic field is transmitted to a human body through the magnetic conduction column, and the magnetic field intensity of the dynamic magnetic field changes along with the change of current.

Preferably, the electromagnetic winding is sleeved on the magnetic conduction column, the electromagnetic winding and the permanent magnet ring are designed in an annular shape, and the permanent magnet ring is wound outside the electromagnetic winding. The magnetism increasing sheet is in a circular sheet structure, wherein the magnetic conduction column is attracted to the magnetism increasing sheet, and the permanent magnet ring is attracted to the magnetism increasing sheet. The electromagnetic winding and the permanent magnet ring are fixedly connected through the sealing glue, so that vibration or movement of each component in work is prevented, and collision and damage of each component of the electromagnetic conductor in the transportation process of the therapeutic apparatus can also be prevented.

The electromagnetic winding generates an alternating magnetic field, namely a dynamic magnetic field after being electrified through the coil. Changing the current can change the magnetic field strength of the moving magnetic field. The magnetic conduction column is made of soft magnetic materials, preferably easily magnetized electrical iron materials, and the magnetic conduction column enhances the strength of a magnetic field by gathering magnetic lines of force into the cross section of the magnetic guide column.

Preferably, the magnetic field intensity of the static magnetic field is 80-200 mT, the magnetic field intensity of the dynamic magnetic field is 2-30mT, and the magnetic field intensity of the surface of the therapeutic device is 2-90 mT. The magnetic field intensity is higher by combining the factors of the volume, the driving and the heat dissipation of the therapeutic apparatus, the parameters of the magnetic material and the like, and a better therapeutic effect can be obtained.

Further, the heating wire generates heat radiation energy, and the wavelength of the heat radiation energy is 2-25 mu m.

After the heating wire is electrified and heated, heat radiation energy is generated. The application controls the wavelength of thermal radiation energy between 2-25 mu m, and the wavelength between 2-25 mu m is the wavelength of far infrared invisible light, thereby playing the role of far infrared treatment.

Furthermore, the temperature control component comprises a micro-control processor, two temperature control switches and two NTC temperature sensors, wherein the temperature control switches are connected with the heating wire in series and used for controlling the temperature of the heating wire; the NTC temperature sensor is electrically connected with the micro-control processor and used for monitoring the temperature of the therapeutic apparatus in real time.

Preferably, the protection operation temperature of the two temperature control switches is 70-80 ℃, the two temperature control switches are connected with the heating wire in series, and the working voltage is AC 220V.

The two NTC temperature sensors are connected with a micro-control processor in the therapeutic device, and the two temperature sensors play a role in double temperature protection. Wherein the working temperature range is-40-150 ℃, and the temperature monitoring device is used for monitoring the temperature of the therapeutic device in real time. Wherein the protection temperature of the therapeutic device is set to be 55-60 ℃ so as to realize the heating and constant-temperature work of the therapeutic device.

Further, the power supply assembly includes a power switch and a power transformer.

Further, the external component of the therapeutic apparatus comprises a shell, and the shell is made of silica gel.

The external components of the existing therapeutic apparatus are generally made of metal materials, and are mainly used for heat transfer and protection of an internal host. However, the design has the advantages of single function, heavy weight, no water resistance and no safety. Adopt silica gel as the shell of therapentic equipment, silica gel both had good heat conductivility, can also effectively be waterproof, and the texture of silica gel is soft, and the travelling comfort of use is better. The utility model provides a therapentic equipment shell, including being not limited to the material of moulding plastics, the metal material, the chemical industry material, the ceramic material, the cloth material, the stone material.

Furthermore, the therapeutic apparatus comprises two or more therapeutic apparatuses which are connected in parallel with the host machine through the multi-core lead in sequence; or the therapeutic devices are connected in series in sequence and then connected in series with the host machine through the multi-core lead.

The existing therapeutic apparatus can only be used by one machine, namely each therapeutic apparatus is only used by one person, if the existing therapeutic apparatus is required to be used by multiple persons, enough therapeutic apparatuses need to be purchased or queued for use, the cost is high, and the use is inconvenient. The technology can meet the requirement of one machine for multiple purposes by arranging two or more than two therapeutic devices, thereby saving the cost for purchasing a host machine.

Compared with the prior art, the utility model has the beneficial effects that:

(1) the utility model discloses a split type magnetoelectric pulse therapeutic apparatus, which has the advantages of simple split type design structure, simple manufacture, contribution to quantitative production, contribution to use, more stable and reliable product quality, safety and water resistance; the host machine can be connected with a therapeutic apparatus to carry out magnetic therapy, electrotherapy and thermotherapy, can also be connected with an electrostimulation therapy paste to carry out electrotherapy and pharmacotherapy, and simultaneously controls the wavelength of thermal radiation energy of the heating wire during thermotherapy, and can also enable the heating wire to generate thermal radiation infrared light waves to carry out far infrared physiotherapy.

(2) In the technical scheme, the therapeutic apparatus can be designed into different sizes, including but not limited to various forms such as a cushion, a mattress or a handheld therapeutic apparatus, the use is more convenient, and the external components are made of different materials, so that the requirements of users are met.

(3) The host can also be connected with audio equipment, and further achieves the effects of relaxing the body and mind and entertainment by playing audio.

Drawings

FIG. 1 is a block diagram of the present invention.

Fig. 2 is a block diagram of the present invention.

Fig. 3 is a block diagram of the components of the host portion.

Fig. 4 is a split structure diagram of the host.

Fig. 5 is an internal structure view of the treatment device.

Fig. 6 is a perspective view of the electromagnetic conductor.

Detailed Description

The drawings are only for purposes of illustration and are not to be construed as limiting the utility model. For a better understanding of the following embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example 1

As shown in fig. 1, the present embodiment discloses a magnetoelectric pulse therapeutic apparatus, which comprises a main unit 100 and a therapeutic apparatus 200, wherein a multi-core wire 510 is arranged between the main unit 100 and the therapeutic apparatus 200, and is connected through the multi-core wire 510. By connecting the main unit 100 and the therapeutic device 200 through the multi-core wire 510, a split design is formed, so that the therapeutic device 200 is really contacted with a user when in use, the therapeutic device 200 with the main unit 100 removed is lighter in weight and smaller in volume, and the user can lift and take the therapeutic device more conveniently and use the therapeutic device more conveniently.

As shown in fig. 2, it is preferable that an electrical stimulation treatment patch 300 and an audio playing device 400 are further included, and the electrical stimulation treatment patch 300 and the audio playing device 400 are connected to the host 100 through an electrical therapy lead 520 and an audio lead 530, respectively.

The electrical stimulation therapy patch 300 can perform the functions of electrical therapy and thermal therapy, and can produce a better physical therapy effect when used together with the therapeutic device 200. The audio conducting wire 530 interface is arranged, so that a user can play audio for relaxation and entertainment in the using process, and the using function of the therapeutic apparatus is further improved.

As shown in fig. 1 and 3, further, the host 100 includes a power supply component 110, a main control circuit component 120, a human-computer interaction component 130, and an interface component 140; the power supply assembly 110 includes a power switch 111 and a power transformer 112, and is used for controlling the on/off of the power supply of the host 100. The human-computer interaction assembly 130 is in signal connection with the main control circuit assembly 120 to realize human-computer interaction. The main control circuit assembly 120 comprises a DC-DC voltage reduction circuit, a DC-AC alternating circuit, a temperature detection circuit, an electric heating regulation circuit, an audio frequency amplitude modulation circuit, an electric stimulation pulse regulation circuit and a serial port communication circuit.

The human-computer interaction component 130 includes a display screen, which is preferably a touch screen, and is convenient for a user to use more intuitively and conveniently. The human-computer interaction assembly 130 is provided with a function debugging module, a temperature debugging module, a time setting module, a voice prompt module and an audio playing module which are in signal connection with the main control circuit assembly 120. The time setting module is convenient for a user to select the needed physiotherapy time according to the requirement.

Wherein, the whole shape of the curer 200 is the shape of a cushion, which is light and convenient to use, and the contact surface with the user is larger and smoother. It can be a cushion on which a user sits for physiotherapy, or a foot pad, a waist pad or a holding pad, etc. for different body parts of the user.

Preferably, the external components of the therapeutic device 200 include a housing made of silicone. Silica gel has good heat conductivity, and the use of silica gel as an external component of the therapeutic device 200 can also effectively prevent water, thereby prolonging the service life of the therapeutic device 200. In addition, the texture of the silica gel is softer, and the use comfort is better.

As shown in fig. 4, the main unit 100 includes a front shell 102 and a rear seat 106, the rear seat 106 has a cavity structure with an open front, wherein the main control circuit assembly 120 is installed in the cavity structure of the rear seat 106, and the front shell 102 covers the open position of the rear seat 106. The front surface of the front shell 102 is provided with a surface paste 101, the back surface of the front shell 102 is sequentially provided with a decorative window 103 and a man-machine interaction assembly 130, the main control circuit assembly 120 is provided with an interface board 141 connected with the man-machine interaction assembly 130, one side of the man-machine interaction assembly 130 is connected with a conversion board 104, and the conversion board 104 is provided with a power switch 111 and an interface assembly 140.

Wherein, the rear seat 106 is further provided with a three-pin socket 105 respectively connected with the main control circuit assembly 120 and an external power line, and the bottom of the rear seat 106 is provided with a foot pad 107.

As shown in fig. 5, a temperature control assembly 230, a heating wire 220 and an electromagnetic conductor 210 are disposed in the therapeutic apparatus 200, and when the therapeutic apparatus 200 is electrically connected to the main body 100, the heating wire 220 generates heat to generate heat radiation energy, and the heat radiation energy is transmitted to the human body through the silica gel outer assembly 200 of the therapeutic apparatus 200.

Preferably, there are 8 electromagnetic conductors 210 in the treatment apparatus 200.

The temperature control assembly 230 comprises two temperature control switches 232 and two NTC temperature sensors 231, wherein the temperature control switches 232 are connected in series with the heating wire 220 for controlling the temperature of the heating wire 220; the NTC temperature sensor 231 is electrically connected to the internal circuit of the treatment instrument 200 for monitoring the temperature of the treatment instrument 200 in real time.

As shown in fig. 6, the electromagnetic conductor 210 includes an electromagnetic winding 211, a magnetic pole 212, a magnetic sheet 214, and a permanent magnet ring 213. The electromagnetic winding 211 is sleeved on the magnetic conductive column 212, the electromagnetic winding 211 and the permanent magnet ring 213 are designed in an annular shape, and the permanent magnet ring 213 surrounds the electromagnetic winding 211. The magnetism increasing sheet 214 is a circular sheet structure, wherein the magnetic conducting column 212 is attracted to the magnetism increasing sheet 214, and the permanent magnet ring 213 is attracted to the magnetism increasing sheet 214. The electromagnetic winding 211 and the permanent magnet ring 213 are fixedly connected through the sealing glue, so that vibration or movement of each component in the working process is prevented, and collision and damage of each component of the electromagnetic conductor 210 in the transportation process of the therapeutic apparatus 200 can also be prevented.

The permanent magnet ring 213 generates a static magnetic field after being magnetized, the electromagnetic winding 211 generates a dynamic magnetic field after being electrified, the energy of the dynamic magnetic field is transmitted to the human body through the magnetic conduction column 212, and the magnetic field intensity of the dynamic magnetic field changes along with the change of the current. Wherein, the current also generates pulse current to the human body through the electromagnetic conductor 210, thus improving the treatment effect.

Specifically, under the stimulation effect of the thermal energy, the magnetic energy and the pulse current, the effects of relieving joint pain of a user, promoting metabolism of a human body and the like can be achieved, and the effects of relaxing tendons, activating collaterals, dredging blood vessels, diminishing inflammation, removing swelling and the like are achieved.

Preferably, the magnetic field strength of the static magnetic field is 80-200 mT, the magnetic field strength of the dynamic magnetic field is 2-30mT, and the magnetic field strength of the surface of the therapeutic device 200 is 2-90 mT.

The heat generating line 220 generates heat radiation energy having a wavelength of invisible light. Preferably, the wavelength of the thermal radiation energy is between 2 and 25 μm. The light wave in the wavelength interval is far infrared wavelength. The heating wire 220 generates heat to generate far infrared invisible light, and the far infrared light has good physical therapy effect on human body and can effectively improve the treatment function of the therapeutic apparatus.

Specifically, the temperature control assembly 230 can detect the temperature condition of the therapeutic device, and ensure that the therapeutic device is in a proper temperature range during operation.

Preferably, the two temperature-controlled switches 232 are connected in series with the heating wire 220 at a protection operation temperature of 70 to 80 ℃, and have an operating voltage of AC 220V.

The two NTC temperature sensors 231 are connected with a micro-control processor on the therapeutic apparatus, the working temperature range is-40-150 ℃, and the temperature sensors are used for monitoring the temperature of the therapeutic apparatus 200 in real time. Wherein, the protection temperature of the therapeutic device 200 is set to 55-60 ℃ to realize the heating and constant temperature operation of the therapeutic device 200.

Example 2

The present embodiment is different from embodiment 1 in that two treatment devices 200 are included, and the two treatment devices 200 are connected in series and then connected in series to the main unit 100. Two curers 200 connected in series can be used by two users at the same time, thus realizing one machine with multiple functions.

It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the technical solutions of the present invention, and are not intended to limit the specific embodiments of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention claims should be included in the protection scope of the present invention claims.

Claims (10)

1. A magnetoelectric pulse therapeutic apparatus is characterized by comprising a host and a therapeutic apparatus, wherein the host and the therapeutic apparatus are detachably connected; the main machine comprises a power supply assembly, a main control circuit assembly, a man-machine interaction assembly and an interface assembly, and the therapeutic apparatus comprises an external assembly, a temperature control assembly, a heating wire and an electromagnetic conductor, wherein the temperature control assembly, the heating wire and the electromagnetic conductor are arranged in the external assembly; the power supply assembly controls the on-off of a host power supply, and the human-computer interaction assembly is in signal connection with the main control circuit assembly to realize human-computer interaction; when the power supply assembly is connected with a power supply, the therapeutic device is connected with the main control circuit assembly through the interface assembly, the heating wire is heated, and the electromagnetic conductor generates a magnetic field and pulse current.

2. The magnetoelectric pulse therapeutic apparatus according to claim 1, further comprising an electrical stimulation therapy patch and an electrotherapy wire, wherein the electrical stimulation therapy patch is connected with an interface component on the host machine through the electrotherapy wire.

3. A magnetoelectric pulse therapeutic apparatus according to claim 1 or 2, characterized in that a multicore wire is provided between the main unit and the therapeutic apparatus and detachably connected by the multicore wire; the interface assembly comprises a multi-core wire interface, an electrotherapy wire interface and an audio wire interface, and the audio wire interface is connected with external audio playing equipment.

4. The magnetoelectric pulse therapeutic apparatus according to claim 1, wherein the human-computer interaction assembly is provided with a function debugging module, a temperature debugging module, a time setting module, a voice prompt module and an audio playing module which are in signal connection with the main control circuit assembly.

5. A magnetoelectric pulse therapeutic apparatus according to claim 1, wherein said electromagnetic conductor comprises an electromagnetic winding, a magnetic conductive column, a magnetic increasing sheet and a permanent magnet ring for generating a static magnetic field, said electromagnetic winding generates a dynamic magnetic field after being energized, the energy of the dynamic magnetic field is transmitted to the human body through the magnetic conductive column, and the magnetic field strength of the dynamic magnetic field changes with the change of the current.

6. The magnetoelectric pulse therapeutic instrument according to claim 1, wherein the heating wire generates heat to generate heat radiation energy, and the wavelength of the heat radiation energy is between 2 and 25 μm.

7. The magnetoelectric pulse therapeutic instrument according to claim 1, wherein the temperature control assembly comprises a micro-control processor, two temperature control switches and two NTC temperature sensors, the temperature control switches are connected in series with the heating wire for controlling the temperature of the heating wire; the NTC temperature sensor is electrically connected with the micro-control processor and used for monitoring the temperature of the therapeutic apparatus in real time.

8. The magnetoelectric pulse therapeutic apparatus according to claim 1, wherein the power supply assembly comprises a power switch and a power transformer.

9. The magnetoelectric pulse therapeutic apparatus according to claim 1, wherein the external component of said therapeutic apparatus comprises a shell, said shell is made of silica gel.

10. The magnetoelectric pulse therapeutic apparatus according to claim 1, comprising two or more therapeutic devices, which are connected in parallel with the main machine through a multi-core wire in turn; or the therapeutic devices are connected in series in sequence and then connected in series with the host machine through the multi-core lead.

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