CN212593511U - Portable neuromuscular rehabilitation treatment device and system comprising same - Google Patents

Abstract

The utility model relates to a neuromuscular rehabilitation treatment technical field discloses a portable neuromuscular rehabilitation treatment equipment and contains its system. The utility model discloses in, this portable neuromuscular rehabilitation treatment device includes: a control unit, a treatment unit and a communication unit; the treatment unit and the communication unit are both electrically connected with the control unit; the communication unit is used for communicating with a terminal, receiving configuration data sent by the terminal and sending the configuration data to the control unit; the control unit is used for configuring the treatment unit according to the configuration data and controlling the treatment unit to perform treatment according to the configuration data; the treatment unit is also used for sending treatment data of a patient to the control unit, and the control unit sends the treatment data to the terminal through the communication unit. The embodiment of the application can reduce the treatment burden of a patient and improve the treatment effect.

Description

Portable neuromuscular rehabilitation treatment device and system comprising same

Technical Field

The utility model relates to a neuromuscular rehabilitation treatment technical field, in particular to portable neuromuscular rehabilitation treatment equipment and contain its system.

Background

Clinically, some diseases and operations can result in damage to the human neuromuscular and deficient muscle function. Such as stroke, causes impaired muscle function, resulting in limb movement disorders. In addition, the puerpera can cause pelvic floor muscle strain, which can lead to pelvic floor muscle weakness in different degrees, urinary incontinence, pelvic organ prolapse, etc. Therefore, the myoelectricity biofeedback instrument is clinically used for rehabilitation treatment of injured muscles.

The electromyographic biofeedback instrument is also called neuromuscular rehabilitation treatment equipment, and is used for evaluating the damage degree of muscles by collecting electromyographic signals or pressure signals, and then carrying out stimulation rehabilitation treatment on damaged muscles by using different electric stimulation schemes so as to reduce muscle damage or completely recover the functions of the damaged muscles.

At present, in the treatment process of a patient at home by using a portable myoelectric biofeedback instrument, the patient needs to go to a hospital for rehabilitation effect evaluation at an indefinite time, and a doctor cannot know the rehabilitation effect of the patient in real time and update a treatment scheme in time.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a portable neuromuscular rehabilitation treatment device and contain its system for can real-time communication between portable neuromuscular rehabilitation treatment device and doctor's the terminal, thereby be convenient for the long-range treatment scheme who in time updates the patient of doctor, alleviate patient's treatment burden, improve treatment.

In order to solve the above technical problem, an embodiment of the present invention provides a portable neuromuscular rehabilitation device, including: a control unit, a treatment unit and a communication unit;

the treatment unit and the communication unit are both electrically connected with the control unit;

the communication unit is used for communicating with a terminal, receiving configuration data sent by the terminal and sending the configuration data to the control unit;

the control unit is used for configuring the treatment unit according to the configuration data and controlling the treatment unit to perform treatment according to the configuration data;

the treatment unit is also used for sending treatment data of a patient to the control unit, and the control unit sends the treatment data to the terminal through the communication unit.

The utility model discloses an embodiment still provides a neuromuscular rehabilitation system, include: a first terminal, a second terminal and the portable neuromuscular rehabilitation therapy device as described above; the first terminal and the second terminal are in communication connection;

the first terminal is in communication connection with the portable neuromuscular rehabilitation treatment device.

The utility model discloses portable neuromuscular rehabilitation treatment equipment and contain its system, neuromuscular rehabilitation treatment equipment passes through the configuration data that communication unit receiving terminal sent, and simultaneously, neuromuscular rehabilitation treatment equipment can also send patient's treatment data to the terminal through communication unit, thereby make the doctor can long-rangely in time update patient's treatment scheme according to patient's treatment data, and neuromuscular rehabilitation treatment equipment can treat through the treatment scheme of update, thereby can alleviate patient's treatment burden, improve treatment.

As an embodiment, the communication unit comprises one or any combination of the following: a wireless fidelity communication unit, a Bluetooth low-power consumption communication unit and an ultra-wideband communication unit.

As an embodiment, the system further comprises an identity recognition module connected with the control unit;

the identity identification module is used for sending a configuration instruction to the control unit when a patient is verified to be a legal user, and the control unit is used for configuring the treatment unit according to the treatment data when receiving the configuration instruction.

As one embodiment, the configuration data includes: collecting parameters of electromyographic signals and/or pulse stimulation parameters.

As an embodiment, the configuration data further comprises: a treatment data feedback mode; wherein the treatment data feedback mode comprises: a real-time treatment data feedback mode and a non-real-time treatment data feedback mode;

the control unit is used for controlling the communication unit to send the treatment data to the terminal in the real-time treatment data feedback mode or the non-real-time treatment data feedback mode according to the treatment data feedback mode.

As an embodiment, the treatment unit comprises: the myoelectric stimulation device comprises an electromyographic signal acquisition and processing circuit, a stimulation pulse generating circuit, an acquisition/stimulation switching circuit and a surface myoelectric electrode;

the electromyographic signal acquisition processing circuit, the stimulation pulse generating circuit and the acquisition/stimulation switching circuit are electrically connected with the control unit; the myoelectric signal acquisition processing circuit and the stimulation pulse generating circuit are connected with the surface myoelectric electrode through the acquisition/stimulation switching circuit;

the electromyographic signal acquisition processing circuit is used for amplifying and filtering the electromyographic signals acquired by the surface electromyographic electrode;

the stimulation pulse generating circuit is used for outputting stimulation pulses;

the acquisition/stimulation switching circuit is used for determining that the surface electromyographic electrode is used for electromyographic signal acquisition or stimulation pulse output.

As an embodiment, the second terminal transmits the configuration data to the portable neuromuscular rehabilitation therapy device through the first terminal;

the portable neuromuscular rehabilitation device sends the treatment data to the second terminal through the first terminal.

Drawings

FIG. 1 is a schematic structural diagram of a portable neuromuscular rehabilitation device provided by an embodiment;

fig. 2 is a schematic structural diagram of a neuromuscular rehabilitation therapy system according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the following will explain in detail each embodiment of the present invention with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that in various embodiments of the invention, numerous technical details are set forth in order to provide a better understanding of the present application. However, the technical solutions claimed in the claims of the present application can be implemented without these technical details and with various changes and modifications based on the following embodiments.

An embodiment of the present application provides a portable neuromuscular rehabilitation therapy device, as shown in fig. 1, the device includes: a control unit, a treatment unit and a communication unit; the treatment unit and the communication unit are electrically connected with the control unit; the communication unit is used for communicating with the terminal, receiving the configuration data sent by the terminal and sending the configuration data to the control unit; the control unit is used for configuring the treatment unit according to the configuration data and controlling the treatment unit to perform treatment according to the configuration data; the treatment unit is also used for sending the treatment data of the patient to the control unit, and the control unit sends the treatment data to the terminal through the communication unit.

In this embodiment, the configuration data may include: collecting parameters of electromyographic signals and/or pulse stimulation parameters. Optionally, the electromyographic signal acquisition parameters may include an acquisition channel and a filtering parameter. The pulsed stimulation parameters may include: pulse width, frequency, intensity, rest time, treatment time, etc. The present embodiment is not limited to the type of configuration data and the specific value.

In this embodiment, the communication unit may include one or any combination of the following: a wireless fidelity communication unit, a Bluetooth low-power consumption communication unit and an ultra-wideband communication unit. For example, the communication unit is a wireless fidelity communication unit, but is not limited thereto, and in some applications, the communication unit may also include a plurality of wireless communication modules at the same time, as long as the wireless communication modules can realize the short-range wireless communication function. By way of example and not limitation, the control unit may be an ARM processor.

In this embodiment, the terminal may include a first terminal and a second terminal. By way of example and not limitation, the first terminal and the second terminal may be both smartphones, but not limited thereto, and any device capable of implementing the functions of the first terminal and the second terminal may be the first terminal and the second terminal in this embodiment. The first terminal, the second terminal and the portable neuromuscular rehabilitation treatment device can be provided with application software, and real-time information transmission between the portable neuromuscular rehabilitation treatment device and the first terminal or the second terminal is realized through the application software. In particular, the first terminal may be a patient's terminal and the second terminal may be a doctor's terminal. Portable neuromuscular rehabilitation treatment equipment can send treatment data to first terminal, and first terminal sends treatment data to doctor's terminal again to make the doctor obtain patient's treatment data through first terminal, and then know patient's treatment according to patient's treatment data, and for patient's renewal configuration data when needing, configuration data send portable neuromuscular rehabilitation treatment equipment from the second terminal through first terminal. It should be noted that, the first terminal and the second terminal may implement transmission of configuration data and treatment data by using a data transmission method commonly used in the prior art, and the first terminal and the portable neuromuscular rehabilitation therapy device may also implement transmission of configuration data and treatment data by using the prior art.

The portable neuromuscular rehabilitation device of this embodiment, through the configuration data that communication unit receiving terminal sent, simultaneously, neuromuscular rehabilitation device can also send patient's treatment data to the terminal through communication unit to make the doctor can long-rangely in time update patient's treatment scheme according to patient's treatment data, and neuromuscular rehabilitation device can treat through the treatment scheme of update, thereby can alleviate patient's treatment burden, improve treatment.

On the basis of the above embodiment, optionally, the treatment unit includes: the myoelectric stimulation device comprises an electromyographic signal acquisition and processing circuit, a stimulation pulse generating circuit, an acquisition/stimulation switching circuit and a surface myoelectric electrode; the electromyographic signal acquisition processing circuit, the stimulation pulse generating circuit and the acquisition/stimulation switching circuit are electrically connected with the control unit; the myoelectric signal acquisition processing circuit and the stimulation pulse generating circuit are connected with the surface myoelectric electrode through the acquisition/stimulation switching circuit; the electromyographic signal acquisition processing circuit is used for amplifying and filtering the electromyographic signals acquired by the surface electromyographic electrode; the stimulation pulse generating circuit is used for outputting stimulation pulses; the acquisition/stimulation switching circuit is used for determining that the surface electromyographic electrode is used for electromyographic signal acquisition or stimulation pulse output.

Optionally, the portable neuromuscular rehabilitation therapy device may further comprise: a touch display unit, a power on/off button, a stimulation indicator light, a power indicator light and an identity recognition module (not shown) which are respectively electrically connected with the control unit. The portable neuromuscular rehabilitation therapy device can also comprise a power management module and a lithium battery. The power management module is used for charging the lithium battery and providing required voltage for each functional module of the portable neuromuscular rehabilitation treatment device. The touch display unit is used for inputting configuration data, displaying myoelectric signal waveforms and the like.

Optionally, the configuration data further includes: a treatment data feedback mode; wherein the treatment data feedback mode comprises: a real-time treatment data feedback mode and a non-real-time treatment data feedback mode; the control unit is used for controlling the communication unit to send the treatment data to the terminal in the real-time treatment data feedback mode or the non-real-time treatment data feedback mode according to the treatment data feedback mode.

The identity recognition module is used for sending a configuration instruction to the control unit when a patient is verified to be a legal user, and the control unit is used for configuring the treatment unit according to the treatment data when receiving the configuration instruction. Specifically, when the portable neuromuscular rehabilitation device receives new configuration data, the portable neuromuscular rehabilitation device can remind a user to perform identity verification, and when the identity verification passes, data configuration is performed, and a legal user can refer to a person with certain nursing experience, so that the safe use of the device can be ensured. The identity recognition module may be a fingerprint recognition module, which is not specifically limited in this embodiment.

The portable neuromuscular rehabilitation device has the following specific working process: after a power-on and power-off key is pressed down, the equipment completes power-on self-check, then a user opens application software, the equipment working parameter configuration is carried out, and then corresponding operation is executed. For example, after the electromyographic data is acquired, a user configures an acquisition channel, a filtering parameter and the like on application software, clicks a 'start acquisition' button on a touch display screen to acquire the electromyographic data, and transmits the acquired treatment data to a first terminal, and then the first terminal transmits the treatment data to a second terminal. After determining new configuration data according to the treatment data, a doctor sends the new configuration data to the hi portable neuromuscular rehabilitation treatment device through the first terminal, a user configures stimulation parameters (pulse width, frequency, intensity, rest time, treatment time and the like) on application software of the rehabilitation device according to the received stimulation scheme data (namely the configuration data), and after the configuration is finished, stimulation treatment is started.

An embodiment of the present application further provides a neuromuscular rehabilitation therapy system, as shown in fig. 2, the system including: a first terminal, a second terminal and the portable neuromuscular rehabilitation therapy device as described above; the first terminal and the second terminal are in communication connection; the first terminal is in communication connection with the portable neuromuscular rehabilitation treatment device. The second terminal sends the configuration data to the portable neuromuscular rehabilitation therapy device through the first terminal; the portable neuromuscular rehabilitation device sends the treatment data to the second terminal through the first terminal.

The neuromuscular rehabilitation therapy system of the present embodiment is used as follows:

after a user arrives at a hospital to evaluate muscle injury, a doctor simultaneously sends a treatment scheme to a first terminal (user mobile terminal) and portable neuromuscular rehabilitation treatment equipment through a second terminal (doctor mobile terminal) according to an evaluation result, then the user configures the treatment scheme sent by the doctor by using application software loaded on the portable neuromuscular rehabilitation treatment equipment, and configuration data (treatment scheme parameters) can be returned to the second terminal after being checked by the user and then can be treated. In addition, when the patient uses the device to carry out rehabilitation therapy, two modes, namely a real-time therapy data feedback mode and a non-real-time therapy data feedback mode, can be adopted. And in the real-time treatment data feedback mode, namely, when the patient is treated at home, signals, configuration parameters (namely treatment data) and the like acquired by the rehabilitation treatment equipment are sent to the second terminal in real time. And in the non-real-time treatment data feedback mode, the treatment data does not need to be sent to the second terminal in real time, and the treatment data and the like are sent to the second terminal only after the periodic treatment is finished, so that the doctor can evaluate the rehabilitation treatment effect.

The neuromuscular rehabilitation therapy system of the embodiment utilizes the remote transmission technology to realize the real-time transmission of information among the mobile terminal of the doctor, the mobile terminal of the user and the portable neuromuscular rehabilitation therapy equipment, so that the doctor can know the progress of the rehabilitation therapy of the user in time and update the rehabilitation therapy scheme in time under the condition that the patient is not out of home, and can carry out the rehabilitation trend analysis according to the rehabilitation data of each stage of the user, thereby being beneficial to improving the treatment effect.

It will be understood by those skilled in the art that the foregoing embodiments are specific examples of the invention, and that various changes in form and details may be made therein without departing from the spirit and scope of the invention in its practical application.

Claims (9)

1. A portable neuromuscular rehabilitation therapy device, comprising: a control unit, a treatment unit and a communication unit;

the treatment unit and the communication unit are both electrically connected with the control unit;

the communication unit is used for communicating with a terminal, receiving configuration data sent by the terminal and sending the configuration data to the control unit;

the control unit is used for configuring the treatment unit according to the configuration data and controlling the treatment unit to perform treatment according to the configuration data;

the treatment unit is also used for sending treatment data of a patient to the control unit, and the control unit sends the treatment data to the terminal through the communication unit.

2. The portable neuromuscular rehabilitation therapy device according to claim 1, characterized in that said communication unit comprises one or any combination of: a wireless fidelity communication unit, a Bluetooth low-power consumption communication unit and an ultra-wideband communication unit.

3. The portable neuromuscular rehabilitation therapy device according to claim 2, further comprising an identification module connected to the control unit;

the identity identification module is used for sending a configuration instruction to the control unit when a patient is verified to be a legal user, and the control unit is used for configuring the treatment unit according to the treatment data when receiving the configuration instruction.

4. The portable neuromuscular rehabilitation therapy device according to claim 1, wherein the configuration data comprises: collecting parameters of electromyographic signals and/or pulse stimulation parameters.

5. The portable neuromuscular rehabilitation therapy device according to claim 4, wherein the configuration data further comprises: a treatment data feedback mode; wherein the treatment data feedback mode comprises: a real-time treatment data feedback mode and a non-real-time treatment data feedback mode;

the control unit is used for controlling the communication unit to send the treatment data to the terminal in the real-time treatment data feedback mode or the non-real-time treatment data feedback mode according to the treatment data feedback mode.

6. The portable neuromuscular rehabilitation therapy device according to claim 1, characterized in that said therapy unit comprises: the myoelectric stimulation device comprises an electromyographic signal acquisition and processing circuit, a stimulation pulse generating circuit, an acquisition/stimulation switching circuit and a surface myoelectric electrode;

the electromyographic signal acquisition processing circuit, the stimulation pulse generating circuit and the acquisition/stimulation switching circuit are electrically connected with the control unit; the myoelectric signal acquisition processing circuit and the stimulation pulse generating circuit are connected with the surface myoelectric electrode through the acquisition/stimulation switching circuit;

the electromyographic signal acquisition processing circuit is used for amplifying and filtering the electromyographic signals acquired by the surface electromyographic electrode;

the stimulation pulse generating circuit is used for outputting stimulation pulses;

the acquisition/stimulation switching circuit is used for determining that the surface electromyographic electrode is used for electromyographic signal acquisition or stimulation pulse output.

7. The portable neuromuscular rehabilitation therapy device according to claim 1, further comprising: and the touch display unit is electrically connected with the control unit.

8. A neuromuscular rehabilitation therapy system, comprising: a first terminal, a second terminal and a portable neuromuscular rehabilitation therapy device according to any one of claims 1 to 7;

the first terminal and the second terminal are in communication connection;

the first terminal is in communication connection with the portable neuromuscular rehabilitation treatment device.

9. The neuromuscular rehabilitation therapy system according to claim 8, wherein the second terminal transmits the configuration data to the portable neuromuscular rehabilitation therapy device through the first terminal;

the portable neuromuscular rehabilitation device sends the treatment data to the second terminal through the first terminal.

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