CN219270948U - Surface myoelectricity evaluation diagnosis and biofeedback electric stimulation treatment system - Google Patents

Abstract

The utility model discloses a surface myoelectricity evaluation diagnosis and biofeedback electric stimulation treatment system, which comprises a surface myoelectricity acquisition module, an electric stimulation output module, an MCU module, an electrode switching module and a power supply module, which are all packaged in the same shell; the power module supplies power to other modules in the system; the system also comprises an upper computer, wherein the upper computer comprises at least one of an internal upper computer and an external upper computer; the MCU module is selectively connected with the built-in upper computer or the external upper computer in a communication way; the electrode switching module is controlled by the MCU module to be selectively connected with the surface myoelectricity acquisition module or the electric stimulation output module; the electrode switching module is connected with the external electrode. The utility model can be flexibly combined with different upper computers to form a trolley workstation type or portable product.

Description

Surface myoelectricity evaluation diagnosis and biofeedback electric stimulation treatment system

Technical Field

The utility model relates to the technical field of biomedicine, in particular to a surface myoelectricity evaluation diagnosis and biofeedback electric stimulation treatment system.

Background

The surface myoelectricity evaluation and diagnosis technology performs evaluation and diagnosis on neuromuscular functions by noninvasively detecting myoelectricity signals on a body surface and according to the detected myoelectricity signals; the biofeedback electrical stimulation treatment technology combines a surface myoelectricity biofeedback technology with an electrical stimulation method, judges the detected surface myoelectricity signals, and electrically stimulates muscles according to a preset algorithm so as to realize feedback and promote the recovery of nerve muscle functions. The surface myoelectricity evaluation and diagnosis technology has important practical value in the fields of clinical medicine, human-machine efficacy, rehabilitation medicine, sports science and the like; the biological feedback stimulation treatment technology is widely applied to rehabilitation treatment of the neuromuscular system. Surface myoelectric evaluation diagnosis and biofeedback electric stimulation treatment systems generally comprise an upper computer. In actual market popularization, some users (such as a large hospital) prefer to use a large-screen high-performance trolley workstation computer as an upper computer, and some users (such as a clinic) prefer to use a tablet computer as an upper computer, so that the whole system is portable and has relatively low price. It is therefore desirable to be able to provide both trolley work stations and portable products for the user's choice, but it is desirable for the manufacturer to simplify the construction and control costs.

Accordingly, those skilled in the art have focused on developing a surface myoelectric evaluation diagnosis and biofeedback electrical stimulation therapy system that can be flexibly combined with different superordinate computers to form a trolley workstation type or portable product.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the present utility model is to provide a surface myoelectricity evaluation diagnosis and biofeedback electrical stimulation treatment system, which can be flexibly combined with different upper computers to form a trolley workstation type or portable product.

In order to achieve the above purpose, the utility model provides a surface myoelectricity evaluation diagnosis and biofeedback electric stimulation treatment system, which comprises a surface myoelectricity acquisition module, an electric stimulation output module, an MCU module, an electrode switching module and a power supply module, which are all packaged in the same shell; the power module supplies power to other modules in the system; the system also comprises an upper computer, wherein the upper computer comprises at least one of an internal upper computer and an external upper computer; the MCU module is selectively connected with the built-in upper computer or the external upper computer in a communication way; the electrode switching module is controlled by the MCU module to be selectively connected with the surface myoelectricity acquisition module or the electric stimulation output module; the electrode switching module is connected with the external electrode.

Further, a rechargeable battery is included, which provides power to the power module.

Further, the upper computer is a built-in upper computer, the built-in upper computer is a tablet personal computer, and is directly combined with the shell into a whole, and the built-in upper computer and the external electrode form a complete portable surface myoelectricity evaluation diagnosis and biofeedback electric stimulation treatment system.

Further, the upper computer is an external upper computer, the external upper computer is a trolley workstation computer, and the external upper computer and the external electrode form a complete trolley type surface myoelectricity evaluation diagnosis and biofeedback electric stimulation treatment system.

Further, the system also comprises an electric isolation communication interface module and a communication change-over switch module, wherein the communication change-over switch module is selectively connected with the built-in upper computer or the external upper computer, and the MCU module is in wired communication connection with the upper computer through the electric isolation communication interface module and the communication change-over switch module.

Further, the wireless communication system also comprises a wireless communication module, wherein the MCU module is in wireless communication connection with the built-in upper computer or the external upper computer selectively through the wireless communication module.

Further, the surface myoelectricity evaluation diagnosis and biofeedback electric stimulation treatment system is arranged in a trolley workstation to form an integrated trolley type surface myoelectricity evaluation diagnosis and biofeedback electric stimulation treatment system.

Further, the battery power indication module is used for indicating the power of the rechargeable battery.

Further, the battery charger also comprises an external AC-DC adapter, wherein the external AC-DC adapter charges the rechargeable battery and the tablet personal computer simultaneously.

Further, the portable electronic device further comprises an external AC-DC adapter, and the external AC-DC adapter is used for charging the rechargeable battery or the tablet personal computer through switch selection.

The utility model has the beneficial effects that: can be flexibly combined with different upper computers to form a trolley workstation type or portable product.

The conception, specific structure, and technical effects of the present utility model will be further described with reference to the accompanying drawings to fully understand the objects, features, and effects of the present utility model.

Drawings

FIG. 1 is a schematic diagram of a preferred embodiment of the present utility model;

FIG. 2 is a schematic view of another preferred embodiment of the present utility model;

FIG. 3 is a schematic view of a further preferred embodiment of the present utility model;

fig. 4 is a schematic structural view of still another preferred embodiment of the present utility model.

The device comprises a 1-surface myoelectricity acquisition module, a 2-electric stimulation output module, a 3-MCU module, a 4-electric isolation communication interface module, a 5-communication change-over switch module, a 6-electrode switching module, a 7-power module, an 8-built-in upper computer, a 9-rechargeable battery, a 10-external electrode, an 11-external AC-DC adapter, a 12-external upper computer and a 13-wireless communication module.

Detailed Description

The following description of the preferred embodiments of the present utility model refers to the accompanying drawings, which make the technical contents thereof more clear and easy to understand. The present utility model may be embodied in many different forms of embodiments and the scope of the present utility model is not limited to only the embodiments described herein.

In the drawings, like structural elements are referred to by like reference numerals and components having similar structure or function are referred to by like reference numerals. The dimensions and thickness of each component shown in the drawings are arbitrarily shown, and the present utility model is not limited to the dimensions and thickness of each component. The thickness of the components is exaggerated in some places in the drawings for clarity of illustration.

Example 1

As shown in fig. 1, the embodiment provides a portable surface myoelectricity evaluation diagnosis and biofeedback electric stimulation treatment system, which comprises a surface myoelectricity acquisition module 1, an electric stimulation output module 2, a microcontroller (Microcontroller Unit, MCU) module 3, an electric isolation communication interface module 4, a communication change-over switch module 5, an electrode switching module 6, a power supply module 7, a built-in upper computer 8 and a rechargeable battery 9, which are all packaged in the same shell; the built-in upper computer 8 is a tablet personal computer and is directly combined with the shell into a whole; the rechargeable battery 9 supplies power to the power module 7; the power module 7 supplies power to other modules in the system; the MCU module 3 is connected with the built-in upper computer 8 through the electric isolation communication interface module 4 and the communication change-over switch module 5; the electrode switching module 6 is controlled by the MCU module 3 to be selectively connected with the surface myoelectricity acquisition module 1 or the electric stimulation output module 2; the electrode switching module 6 is connected with an external electrode 10.

The system further comprises an external AC-DC (Alternating Current- ‎ Direct Current) adapter 11, wherein the external AC-DC adapter 11 can charge the rechargeable battery 9 and the tablet computer simultaneously, and can charge the rechargeable battery 9 or the tablet computer through a switch.

In some embodiments, the system may further comprise a battery level indication module for indicating the level of the rechargeable battery 9.

Example 2

As shown in fig. 2, the present embodiment provides a cart-type surface myoelectricity evaluation diagnosis and biofeedback electrical stimulation treatment system, which comprises a surface myoelectricity acquisition module 1, an electrical stimulation output module 2, a Microcontroller (MCU) module 3, an electrical isolation communication interface module 4, a communication transfer switch module 5, an electrode switching module 6, a power supply module 7 and a rechargeable battery 9, all of which are packaged in the same housing; the rechargeable battery 9 supplies power to the power module 7; the power module 7 supplies power to other modules in the system; the MCU module 3 is in wired communication connection with the external upper computer 12 through the electric isolation communication interface module 4 and the communication change-over switch module 5; the electrode switching module 6 is controlled by the MCU module 3 to be selectively connected with the surface myoelectricity acquisition module 1 or the electric stimulation output module 2; the external upper computer 12 is a trolley workstation computer; the electrode switching module 6 is connected with an external electrode 10.

The system further comprises an external alternating current-direct current (AC-DC) adapter 11, the external AC-DC adapter 11 being able to charge the rechargeable battery 9.

In some embodiments, the system may further comprise a battery level indication module for indicating the level of the rechargeable battery 9.

Preferably, the cart-type surface myoelectric evaluation diagnosis and biofeedback electric stimulation treatment system can be built in a cart workstation to form an integrated cart-type surface myoelectric evaluation diagnosis and biofeedback electric stimulation treatment system.

Example 3

As shown in fig. 3, the embodiment provides a surface myoelectricity evaluation diagnosis and biofeedback electrical stimulation treatment system, which comprises a surface myoelectricity acquisition module 1, an electrical stimulation output module 2, a Microcontroller (MCU) module 3, an electrical isolation communication interface module 4, a communication change-over switch module 5, an electrode switching module 6, a power supply module 7, a built-in upper computer 8 and a rechargeable battery 9, which are all packaged in the same shell; the built-in upper computer 8 is a tablet personal computer and is directly combined with the shell into a whole; the rechargeable battery 9 supplies power to the power module 7; the power module 7 supplies power to other modules in the system; the MCU module 3 is connected with an upper computer through the electric isolation communication interface module 4 and the communication change-over switch module 5; the electrode switching module 6 is controlled by the MCU module 3 to be selectively connected with the surface myoelectricity acquisition module 1 or the electric stimulation output module 2; the external upper computer 12 is a trolley workstation computer; the communication change-over switch module 5 is selectively connected with the internal upper computer 8 or the external upper computer 12, and a user selects whether to use the internal upper computer 8 or the external upper computer 12; the electrode switching module 6 is connected with an external electrode 10.

The system further comprises an external alternating current-direct current (AC-DC) adapter 11, wherein the external AC-DC adapter 11 can charge the rechargeable battery 9 and the tablet personal computer simultaneously, and can charge the rechargeable battery 9 or the tablet personal computer through a switch.

In some embodiments, the system may further comprise a battery level indication module for indicating the level of the rechargeable battery 9.

Example 4

As shown in fig. 4, the embodiment provides a surface myoelectricity evaluation diagnosis and biofeedback electrical stimulation treatment system, which comprises a surface myoelectricity acquisition module 1, an electrical stimulation output module 2, a Microcontroller (MCU) module 3, a wireless communication module 13, an electrode switching module 6, a power supply module 7, a built-in upper computer 8 and a rechargeable battery 9, which are all packaged in the same shell; the built-in upper computer 8 is a tablet personal computer and is directly combined with the shell into a whole; the rechargeable battery 9 supplies power to the power module 7; the power module 7 supplies power to other modules in the system; the MCU module 3 is in wireless communication connection with the upper computer through the wireless communication module 13; the electrode switching module 6 is controlled by the MCU module 3 to be selectively connected with the surface myoelectricity acquisition module 1 or the electric stimulation output module 2; the external upper computer 12 is a trolley workstation computer; the electrode switching module 6 is connected with an external electrode 10.

The wireless communication module 13 can reduce cable connection, and can select whether to be connected with the external upper computer 12 or the internal upper computer 8 through wireless pairing connection, and realize electric isolation, thereby realizing the functions of the electric isolation communication interface module 4 and the communication change-over switch module 5, and also can reduce the influence of upper computer noise on electromyographic signals.

The system further comprises an external alternating current-direct current (AC-DC) adapter 11, wherein the external AC-DC adapter 11 can charge the rechargeable battery 9 and the tablet personal computer simultaneously, and can charge the rechargeable battery 9 or the tablet personal computer through a switch.

In some embodiments, the system may further comprise a battery level indication module for indicating the level of the rechargeable battery 9.

The foregoing describes in detail preferred embodiments of the present utility model. It should be understood that numerous modifications and variations can be made in accordance with the concepts of the utility model without requiring creative effort by one of ordinary skill in the art. Therefore, all technical solutions which can be obtained by logic analysis, reasoning or limited experiments based on the prior art by the person skilled in the art according to the inventive concept shall be within the scope of protection defined by the claims.

Claims (10)

1. The surface myoelectricity evaluation diagnosis and biofeedback electric stimulation treatment system is characterized by comprising a surface myoelectricity acquisition module, an electric stimulation output module, an MCU module, an electrode switching module and a power supply module which are all packaged in the same shell; the power module supplies power to other modules in the system; the system also comprises an upper computer, wherein the upper computer comprises at least one of an internal upper computer and an external upper computer; the MCU module is selectively connected with the built-in upper computer or the external upper computer in a communication way; the electrode switching module is controlled by the MCU module to be selectively connected with the surface myoelectricity acquisition module or the electric stimulation output module; the electrode switching module is connected with the external electrode.

2. The surface electromyographic evaluation diagnostic and biofeedback electrical stimulation therapy system according to claim 1, further comprising a rechargeable battery, wherein the rechargeable battery provides power to the power module.

3. The surface electromyographic evaluation diagnosis and biofeedback electrical stimulation treatment system according to claim 2, wherein the upper computer is a built-in upper computer, the built-in upper computer is a tablet personal computer, and the built-in upper computer is directly combined with the shell into a whole, and forms a complete portable surface electromyographic evaluation diagnosis and biofeedback electrical stimulation treatment system together with the external electrode.

4. The surface electromyographic evaluation diagnosis and biofeedback electrical stimulation treatment system according to claim 1, wherein the upper computer is an external upper computer, the external upper computer is a trolley workstation computer, and the external upper computer and the external electrode form a complete cart type surface electromyographic evaluation diagnosis and biofeedback electrical stimulation treatment system.

5. The surface electromyographic evaluation diagnosis and biofeedback electrical stimulation treatment system according to claim 1, further comprising an electrical isolation communication interface module and a communication change-over switch module, wherein the communication change-over switch module is selectively connected with the internal upper computer or the external upper computer, and the MCU module is in wired communication connection with the upper computer through the electrical isolation communication interface module and the communication change-over switch module.

6. The surface electromyographic evaluation diagnosis and biofeedback electrical stimulation therapy system according to claim 1, further comprising a wireless communication module, wherein the MCU module is selectively connected with the internal or external host computer in a wireless communication manner through the wireless communication module.

7. The surface electromyographic evaluation diagnosis and biofeedback electrical stimulation treatment system according to claim 4, wherein the surface electromyographic evaluation diagnosis and biofeedback electrical stimulation treatment system is built in a trolley workstation to form an integrated trolley type surface electromyographic evaluation diagnosis and biofeedback electrical stimulation treatment system.

8. The surface electromyographic evaluation diagnostic and biofeedback electrical stimulation therapy system according to claim 2, further comprising a battery charge indication module for indicating the charge of the rechargeable battery.

9. The surface electromyographic evaluation diagnostic and biofeedback electrical stimulation therapy system of claim 3, further comprising an external AC-DC adapter, said external AC-DC adapter charging said rechargeable battery and said tablet computer simultaneously.

10. The surface electromyographic evaluation diagnostic and biofeedback electrical stimulation therapy system of claim 3, further comprising an external AC-DC adapter, wherein the external AC-DC adapter selectively charges the rechargeable battery or the tablet computer via a switch.

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