CN215691051U - Pelvic floor muscle treatment probe - Google Patents

Abstract

The utility model discloses a pelvic floor muscle treatment probe, which comprises a probe main body, a circuit board, a battery and a metal electrode, wherein the circuit board is arranged on the probe main body; the circuit board and the battery are arranged in the probe main body, and the battery is electrically connected with the circuit board; the metal electrode is arranged on the outer surface of the probe main body and is contacted with pelvic floor muscles of a patient; the circuit board is provided with a receiver, a control module and an electrode connecting sheet; the metal electrode is electrically connected with the control module through the electrode connecting sheet; the control module is in communication connection with external equipment through a receiver and is used for generating an electrical stimulation pulse signal and transmitting the electrical stimulation pulse signal to pelvic floor muscles of a patient through the electrode connecting sheet and the metal electrode. According to the utility model, the receiver, the control module and the electrode connecting sheet are integrated into the probe main body, so that the problem of inconvenient operation caused by mutual winding of the wires when the host and the probe are connected by arranging the wires in the prior art is solved.

Description

Pelvic floor muscle treatment probe

Technical Field

The utility model relates to rehabilitation physiotherapy equipment, in particular to a pelvic floor muscle treatment probe.

Background

At present, in the field of medical rehabilitation, the pelvic floor muscle treatment probe is used, and low-frequency pulse current is utilized to stimulate nerves or muscles of a human body, so that the muscle function is improved, and the purpose of treating pelvic cavity diseases is achieved. The pelvic floor muscle treatment probe is a pelvic floor muscle electrical stimulation probe with light, but the probe is only used as an auxiliary accessory for neuromuscular electrical stimulation treatment and is mainly used for conducting pulse signals. Due to the existence of the wires, in the operation process, the connection operation is more, even the problem of mutual winding of the wires can occur, and inconvenience is brought to medical staff.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a pelvic floor muscle treatment probe, which can solve the problems that in the prior art, a main machine of the treatment probe is connected with a light emitting part through a wire, more wires are easy to wind, the operation is inconvenient and the like.

The purpose of the utility model is realized by adopting the following technical scheme:

a pelvic floor muscle treatment probe comprises a probe body, a circuit board, a battery and a metal electrode; the circuit board and the battery are arranged in the probe main body, and the battery is electrically connected with the circuit board; the metal electrode is arranged on the outer surface of the probe main body and is contacted with the skin of the pelvic floor muscle of the patient; the circuit board is provided with a receiver, a control module and an electrode connecting sheet; the metal electrode is electrically connected with the control module through the electrode connecting sheet; the control module is in communication connection with external equipment through a receiver and is used for generating an electrical stimulation pulse signal and transmitting the electrical stimulation pulse signal to pelvic floor muscles of a patient through an electrode connecting sheet and a metal electrode.

Further, the metal electrodes include a first metal electrode and a second metal electrode; the electrode connecting pieces comprise first electrode connecting pieces and second electrode connecting pieces; the first electrode connecting sheet is electrically connected with the first metal electrode, and the second electrode connecting sheet is electrically connected with the second metal electrode; the first metal electrode and the second metal electrode are arranged on the outer surface of the probe body and are arranged at intervals.

Furthermore, the circuit board is provided with a light source driving module and a light source, and the control module is electrically connected with the light source through the light source driving module and used for generating a light source driving signal and sending the light source driving signal to the light source driving module so as to drive the light source to work.

Further, the light source is a light source generator.

Furthermore, a light-emitting part is arranged on the probe body; the light emitted from the light source is displayed through the light-emitting portion.

Furthermore, the light-emitting part is arranged at the top of the probe body, and the light source is arranged at the top of the circuit board and corresponds to the light-emitting part.

Furthermore, the light-emitting part is arranged at the middle part of the probe body; the light source is arranged in the middle of the circuit board and corresponds to the light-emitting part.

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

according to the utility model, the host of the electrical stimulation therapeutic apparatus in the prior art is integrated into the probe to form the circuit board, then signal transmission with the control module on the circuit board is realized through the receiver on the circuit board by the external remote controller, so that the control module generates an electrical stimulation pulse signal, and the electrical stimulation pulse signal is conducted to the skin of a patient through the metal electrode on the probe, so that the electrical stimulation to the skin of the pelvic floor muscle of the patient is realized, the electrical stimulation therapy is realized, the probe can realize the electrical stimulation therapy without an external lead, and the problems of inconvenience in operation and the like caused by the mutual winding of a plurality of leads when the host and the probe are connected through the lead in the prior art are solved.

Drawings

FIG. 1 is a general schematic view of a pelvic floor muscle treatment probe according to the present invention;

FIG. 2 is a view showing the internal structure of the light emitting part of FIG. 1 at the tip of the probe body;

FIG. 3 is an enlarged view of A in FIG. 2;

FIG. 4 is a view showing the internal structure of the light emitting part of FIG. 1 in the middle of the probe;

fig. 5 is an enlarged view of B in fig. 4.

In the figure: 1. a probe body; 11. a circuit board; 12. a control module; 13. a receiver; 14. a battery; 15. a first electrode connecting sheet; 16. a second electrode connecting sheet; 17. a light source driving module; 18. a light source; 2. a first metal electrode; 3. a second metal electrode; 4. a light-emitting portion.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

Based on the problems that the control host of the electrical stimulation treatment in the prior art is inconvenient to operate and the like caused by the fact that a plurality of wires are mutually wound when the control host is connected with the probe, the utility model provides a pelvic floor muscle treatment device which comprises a remote controller and the probe. The probe is internally integrated with the control host and the receiver, the control host generates an electrical stimulation pulse signal by receiving a signal instruction of an external remote controller, and then the electrical stimulation pulse signal is conducted to pelvic floor muscles of a patient through the metal electrodes on the probe, so that electrical stimulation treatment on the pelvic floor muscles of the patient is realized.

Preferably, the remote controller is wirelessly connected with the probe. Because the probe and the remote controller are not connected by the wire, the problems of inconvenient operation and the like caused by the mutual winding of the wires in the prior art are solved.

Preferably, as shown in fig. 1 to 5, the present invention also provides a preferred embodiment, a pelvic floor muscle treatment probe, which comprises a probe body 1, a circuit board 11 disposed inside the probe body 1, and a metal electrode disposed on the outer surface of the probe body 1. The probe herein refers to the pelvic floor muscle treatment probe provided in this embodiment.

The probe body 1 is a main framework of the probe, plays a role in supporting other components, and meanwhile, the circuit board 11 is arranged inside the probe body 1, so that the circuit board 11 is protected.

The metal electrode is provided on the outer surface of the probe body 1. The metal electrode is contacted with the skin of the pelvic floor muscle of the patient and is used for conducting an electric signal to the pelvic floor muscle of the patient, and therefore the electric stimulation treatment of the pelvic floor muscle of the patient is achieved.

The circuit board 11 is preferably a core control component of the whole probe, and is used for data interaction with a remote controller, generation of control signals and other functions.

Further, the circuit board 11 is provided with a receiver 13, a control module 12 and electrode connection pads. The receiver 13 and the electrode connecting sheet are electrically connected to the control module 12, respectively.

More specifically, the control module 12 is in communication connection with the remote controller through the receiver 13, and receives a signal instruction sent by the remote controller through the receiver 13.

Furthermore, the electrode connecting sheet is electrically connected with the metal electrode. The control module 12 transmits the generated electrical stimulation pulse signal to the metal electrode through the electrode connecting sheet, and further transmits the electrical stimulation pulse signal to pelvic floor muscles of the patient. Preferably, the metal electrodes include a first metal electrode 2 and a second metal electrode 3. The electrode connection pads include a first electrode connection pad 15 and a second electrode connection pad 16. The first electrode connecting piece 15 is electrically connected to the first metal electrode 2, and the second electrode connecting piece 16 is electrically connected to the second metal electrode 3.

More specifically, the first metal electrode 2 and the second metal electrode 3 are both disposed on the outer surface of the probe body 1 and are spaced apart from each other. According to the utility model, the first metal electrode 2 and the second metal electrode 3 are directly contacted with the pelvic floor muscle of a patient, and a conduction loop is formed by the first electrode connecting sheet 15, the second electrode connecting sheet 16, the first metal electrode 2, the second metal electrode 3 and the body of the patient, so that the control module 12 conducts the generated electric stimulation pulse signal to the pelvic floor muscle of the patient through the electrode connecting sheets and the metal electrodes, and the electric stimulation to the pelvic floor muscle of the patient can be realized through the conduction loop to execute electric stimulation treatment.

Preferably, a battery 14 is further disposed on the circuit board 11, and power is supplied to each component on the circuit board 11 through the battery 14.

More specifically, the circuit board 11 is further provided with a light source driving module 17 and a light source 18. The control module 12 is electrically connected to the light source 18 through the light source driving module 17. The control module 12 is further configured to generate a light driving signal, and send the light driving signal to the light source driving module 17, so as to drive the light source 18 to work, and emit corresponding light, thereby implementing light treatment on pelvic floor muscles of a patient. The utility model can realize electrical stimulation treatment and light treatment, and better pelvic floor muscle treatment is achieved by combining the electrical stimulation treatment and the light treatment.

Preferably, the light source 18 is a light source generator. The probe body 1 is provided with a light-emitting portion 4. The light generated by the light source 18 is displayed through the light-emitting portion 4 of the probe body 1. The light emitting portion 4 is a transparent case.

Preferably, the light emitting site 4 is located at the top of the probe body 1, as shown in fig. 2-3. The light source 18 is mounted on top of the circuit board 11. The top of the probe body 1 is a transparent shell. When the light source 18 is operated, the emitted light can be displayed through the top of the probe body 1.

Preferably, as shown in fig. 4 to 5, the light emitting portion 4 is provided at a middle portion of the probe body 1. The light source 18 is provided in the middle of the circuit board 11. The middle part of the probe body 1 is a transparent shell. When the light source 18 is operated, the emitted light can be displayed through the middle part of the probe body 1.

In the actual working process, the metal electrode on the probe is contacted with pelvic muscles of a patient, and then a signal instruction is sent to the control module 12 in the probe through the remote controller, so that the control module 12 generates an electrical stimulation pulse signal and/or a light driving signal after receiving the signal instruction through the receiver 13, and electrical stimulation treatment and/or light treatment are realized.

Preferably, the operation modes of the probe of the present embodiment include an automatic acquisition mode and a setting mode.

The automatic acquisition mode is to generate corresponding electrical stimulation pulse signals and/or light driving signals according to actual parameters of pelvic muscles of the patient to realize electrical stimulation treatment and/or light treatment. Namely: the control signal is sent to the control module 12 through the remote controller, so that the control module 12 collects myoelectric signals of the pelvic floor muscle surface of the patient in real time through the metal electrode and the electrode connecting sheet, further electrical stimulation parameters and/or optical parameters are obtained by matching according to preset standards in the system, and then corresponding electrical stimulation pulse signals and/or optical signals are generated to achieve electrical stimulation treatment and/or optical treatment.

Specifically, when the system is in the automatic acquisition mode, the user is prompted by an operator or the system to make corresponding physiological responses, that is, corresponding actions, such as muscle contraction, relaxation and the like, at this time, in the action process of the user, the control module 12 acquires myoelectric signals on the surface of pelvic floor muscles of the patient, that is, muscle strength, in real time through the metal electrodes and the electrode connecting sheets, and thus, the electrical stimulation parameters and the optical parameters of the treatment of the patient are obtained by matching in combination with the preset standards in the system, so that the electrical stimulation pulse signals and the optical signals are generated to realize the corresponding treatment. The preset standard is the corresponding relation between the pelvic floor muscle surface muscle strength of the patient and the electrical stimulation parameters and optical parameters of treatment. Normally, the magnitude of the muscle force of the pelvic floor muscles varies among patients, and the magnitude of the electrical stimulation pulse signal varies during treatment. Therefore, the corresponding electrical stimulation parameters can be matched in real time by acquiring the muscle force of the pelvic floor muscle surface of the patient in real time, so that the electrical stimulation treatment is realized.

The setting mode refers to that a user can set electrical stimulation parameters and/or optical parameters in a self-defined mode through a remote controller, and the control module 12 generates electrical stimulation pulse signals and/or optical parameters to generate optical driving signals according to the electrical stimulation parameters sent by the remote controller.

Preferably, the remote control is provided with an operation interface. And an operation key is arranged on the operation interface, so that the user can select the mode. The operation keys comprise an automatic acquisition mode key and a setting mode key.

When the automatic acquisition mode key is operated, the working mode of the probe is represented as an automatic acquisition mode.

When the setting mode key is operated, the working mode of the probe is indicated as the setting mode.

More specifically, when the working mode is the automatic acquisition mode, the control module 12 is sent a control signal through the remote controller, so that the control module 12 acquires an electrical signal of pelvic floor muscles of the patient according to the control signal and generates an electrical stimulation pulse signal and/or a light driving signal to realize electrical stimulation treatment and/or light treatment.

When the working mode is the setting mode, a parameter configuration page is provided for a user through an operation interface of the remote controller, and parameters input by the user are received and then sent to the control module 12, so that the control module 12 generates an electrical stimulation pulse signal and/or an optical driving signal according to the parameters input by the user.

According to the utility model, by means of combining the setting of the automatic acquisition mode and the setting of the mode, active treatment or passive treatment can be selected according to the conditions of different patients, so that the system is better suitable for different patients, and the applicability of the equipment is improved.

The utility model adopts a remote control mode, and directly integrates partial functions of the original host machine into the treatment probe to realize, thereby avoiding the existence of wires, solving the problems of inconvenient operation and the like caused by mutual winding due to more wires in the prior art, and greatly improving the practicability.

Based on the pelvic floor muscle treatment probe provided by the utility model, the utility model further provides another embodiment, and the electronic device comprises a memory, a processor and a computer program which is stored in the memory and can run on the processor, and the processor executes the program to realize the following steps:

an automatic mode step: when the working mode is the automatic acquisition mode, acquiring myoelectric signals of the surface of pelvic muscles of a patient in real time according to control signals sent by a remote controller, generating electric stimulation pulse signals and/or optical driving signals according to preset standards in a matching mode, and then executing an electric treatment step and/or an optical treatment step;

setting a mode: when the working mode is a set mode, generating an electrical stimulation pulse signal and/or an optical driving signal according to a data signal sent by a remote controller, and then executing an electrical treatment step and/or an optical treatment step;

electric treatment steps: conducting the electrical stimulation pulse signal to pelvic floor muscles of the patient through a metal electrode on the probe; the metal electrode is arranged on the surface of the probe main body of the probe and is contacted with pelvic floor muscles of a patient;

and (3) a light treatment step: sending the optical driving signal to a light source driving module of the probe so as to drive the light source to work; the light source driving module and the light source are arranged on the circuit board of the probe. .

Preferably, the present invention further provides an embodiment, a computer readable storage medium, on which a computer program is stored, the computer program, when executed by a processor, implementing the steps of:

an automatic mode step: when the working mode is the automatic acquisition mode, acquiring myoelectric signals of the surface of pelvic muscles of a patient in real time according to control signals sent by a remote controller, generating electric stimulation pulse signals and/or optical driving signals according to preset standards in a matching mode, and then executing an electric treatment step and/or an optical treatment step;

setting a mode: when the working mode is a set mode, generating an electrical stimulation pulse signal and/or an optical driving signal according to a data signal sent by a remote controller, and then executing an electrical treatment step and/or an optical treatment step;

electric treatment steps: conducting the electrical stimulation pulse signal to pelvic floor muscles of the patient through a metal electrode on the probe; the metal electrode is arranged on the surface of the probe main body of the probe and is contacted with pelvic floor muscles of a patient;

and (3) a light treatment step: sending the optical driving signal to a light source driving module of the probe so as to drive the light source to work; the light source driving module and the light source are arranged on the circuit board of the probe.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (7)

1. A pelvic floor muscle treatment probe is characterized by comprising a probe body, a circuit board, a battery and a metal electrode; the circuit board and the battery are arranged in the probe main body, and the battery is electrically connected with the circuit board; the metal electrode is arranged on the outer surface of the probe main body and is contacted with the skin of the pelvic floor muscle of the patient; the circuit board is provided with a receiver, a control module and an electrode connecting sheet; the metal electrode is electrically connected with the control module through the electrode connecting sheet; the control module is in communication connection with external equipment through a receiver and is used for generating an electrical stimulation pulse signal and transmitting the electrical stimulation pulse signal to pelvic floor muscles of a patient through an electrode connecting sheet and a metal electrode.

2. The pelvic floor muscle treatment probe of claim 1, wherein the metal electrodes comprise a first metal electrode and a second metal electrode; the electrode connecting pieces comprise first electrode connecting pieces and second electrode connecting pieces; the first electrode connecting sheet is electrically connected with the first metal electrode, and the second electrode connecting sheet is electrically connected with the second metal electrode; the first metal electrode and the second metal electrode are arranged on the outer surface of the probe body and are arranged at intervals.

3. The pelvic floor muscle treatment probe according to claim 1, wherein the circuit board is provided with a light source driving module and a light source, and the control module is electrically connected with the light source through the light source driving module and is used for generating a light source driving signal and sending the light source driving signal to the light source driving module so as to drive the light source to work.

4. The pelvic floor treatment probe of claim 3, wherein the light source is a light source generator.

5. The pelvic floor muscle treatment probe according to claim 3, wherein the probe body is provided with a light-emitting part; the light emitted from the light source is displayed through the light-emitting portion.

6. The pelvic floor muscle treatment probe according to claim 5, wherein the light emitting portion is arranged at the top of the probe body, and the light source is arranged at the top of the circuit board and corresponds to the light emitting portion.

7. The pelvic floor muscle treatment probe according to claim 5, wherein the light emitting portion is provided at a middle portion of the probe body; the light source is arranged in the middle of the circuit board and corresponds to the light-emitting part.

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