CN211798260U - Pelvic floor muscle treatment equipment - Google Patents

Abstract

The embodiment of the utility model discloses pelvic floor muscle treatment equipment, which comprises a probe, a pressure sensor, a myoelectric sensor, a stimulating electrode, a vibration component and a processor, wherein the pressure sensor, the myoelectric sensor and the stimulating electrode are arranged outside the probe; the pressure sensor is used for collecting the grip strength value of the pelvic floor muscle and transmitting the grip strength value to the processor; and the myoelectric sensor is used for collecting the bioelectricity signal on the surface of the pelvic floor muscle and transmitting the bioelectricity signal to the processor. Simultaneously, the grip strength value and the bioelectric signal of the pelvic floor muscle are collected, so that the health state of the pelvic floor muscle can be more comprehensively known, and the working states of the vibration component and the stimulation electrode can be adjusted conveniently by the processor according to the received grip strength value and the received bioelectric signal. The vibration component and the stimulation electrode have two different treatment modes, are suitable for patients with damaged muscular nervous systems and patients with pelvic floor dysfunction caused by damaged muscle elasticity and tension or aged tissues and the like, and can achieve better pelvic floor muscle treatment effect.

Description

Pelvic floor muscle treatment equipment

Technical Field

The utility model relates to the technical field of medical equipment, especially relate to a pelvic floor muscle treatment facility.

Background

Pelvic floor supporting tissues are mainly composed of pelvic floor muscles, and female pelvic floor dysfunction is easily induced once the pelvic floor muscles are under-tensioned or damaged.

At present, the conventional vaginal probe mainly carries out rehabilitation therapy through low-frequency pulse electrical stimulation therapy. The diagnosis and treatment mode is relatively single, the treatment is mainly aimed at the patient with the damaged muscular nervous system, and the treatment has no obvious effect on the patient with pelvic floor dysfunction caused by the damaged muscle elasticity and tension or the aged tissues.

Therefore, how to improve the therapeutic effect of pelvic floor muscles is an urgent problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a pelvic floor muscle treatment facility can promote pelvic floor muscle treatment.

In order to solve the technical problem, an embodiment of the present invention provides pelvic floor muscle treatment equipment, which includes a probe, a pressure sensor, a myoelectric sensor, a stimulation electrode, a vibration component and a processor, wherein the pressure sensor, the myoelectric sensor and the stimulation electrode are arranged outside the probe; the processor is respectively connected with the pressure sensor, the electromyographic sensor, the stimulation electrode and the vibration component;

the pressure sensor is used for collecting the grip strength value of pelvic floor muscles and transmitting the grip strength value to the processor;

the myoelectric sensor is used for collecting a bioelectricity signal on the surface of the pelvic floor muscle and transmitting the bioelectricity signal to the processor;

the processor is used for adjusting the working states of the vibration component and the stimulation electrode according to the received holding force value and the received bioelectrical signal.

Optionally, the probe is a cylindrical probe.

Optionally, the pressure sensor, the myoelectric sensor and the stimulating electrode are fixed on the outer side wall of the probe through screws and attached to the outer side wall of the probe.

Optionally, the curvature of the stimulation electrode is matched with the curvature of the cylinder of the probe, so that the stimulation electrode is tightly attached to the outer side wall of the probe.

Optionally, the number of the pressure sensors and the number of the myoelectric sensors are at least two respectively.

Optionally, the vibration component and the processor are both fixed in the probe cavity through screws.

Optionally, the mobile terminal further comprises a bluetooth module connected with the processor;

the processor is further used for transmitting the holding force value, the bioelectricity signal and a corresponding analysis result to the user terminal through the Bluetooth module.

Optionally, the system further comprises a prompt module connected with the processor;

the processor is further used for triggering the prompt module to give an alarm prompt when the holding force value is not matched with a preset threshold range or the bioelectricity signal does not meet a preset requirement.

Optionally, the prompt module is an LED indicator, an audible and visual alarm or a display screen.

Optionally, the processor is connected to the pressure sensor, the electromyographic sensor, the stimulation electrode, and the vibration unit through cables.

According to the technical scheme, the pelvic floor muscle treatment equipment comprises a probe, a pressure sensor, a myoelectricity sensor and a stimulation electrode, wherein the pressure sensor, the myoelectricity sensor and the stimulation electrode are arranged on the outer side of the probe; the processor is respectively connected with the pressure sensor, the myoelectricity sensor, the stimulating electrode and the vibration component. The pressure sensor is used for collecting the grip strength value of the pelvic floor muscle and transmitting the grip strength value to the processor; and the myoelectric sensor is used for collecting the bioelectricity signal on the surface of the pelvic floor muscle and transmitting the bioelectricity signal to the processor. Through the holding power value and the bioelectricity signal of gathering pelvic floor muscle simultaneously, can be more comprehensive understanding pelvic floor muscle's health status to in adopting more reasonable treatment. In a specific implementation, the processor may adjust the working states of the vibration component and the stimulation electrode according to the received grip strength value and the bioelectrical signal. Compare in the single treatment mode of prior art, the pelvic floor muscle treatment facility that this scheme provided is applicable to the impaired patient of musculus nervous system including two kinds of different treatment modes of vibrations part and stimulating electrode to and the pelvic floor dysfunction patient that causes because of reasons such as muscle elasticity and tension are impaired or tissue are ageing, can reach better pelvic floor muscle treatment.

Drawings

In order to illustrate the embodiments of the present invention more clearly, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious to those skilled in the art that other drawings can be obtained based on these drawings without inventive work.

Fig. 1 is a schematic structural diagram of a pelvic floor muscle treatment device according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, the ordinary skilled in the art can obtain all other embodiments without creative work, which all belong to the protection scope of the present invention.

In order to make the technical field better understand the solution of the present invention, the following detailed description of the present invention is provided with reference to the accompanying drawings and the detailed description.

Next, a pelvic floor muscle treatment apparatus provided in an embodiment of the present invention will be described in detail. Fig. 1 is a schematic structural diagram of pelvic floor muscle treatment equipment provided by an embodiment of the present invention, which includes a probe 1, a pressure sensor 2, a myoelectric sensor 3, a stimulation electrode 4, a vibration component 5 and a processor 6, wherein the pressure sensor, the myoelectric sensor 3, the stimulation electrode 4, the vibration component and the processor are arranged outside the probe; the processor 6 is respectively connected with the pressure sensor 2, the myoelectric sensor 3, the stimulating electrode 4 and the vibration component 5.

In a specific implementation, the processor 6 may be connected to the pressure sensor 2, the myoelectric sensor 3, the stimulation electrode 4, and the vibration component 5 by cables.

And the pressure sensor 2 is used for collecting the grip strength value of the pelvic floor muscle and transmitting the grip strength value to the processor 6. And the electromyographic sensor 3 is used for acquiring a bioelectricity signal of the surface of the pelvic floor muscle and transmitting the bioelectricity signal to the processor 6.

And the processor 6 is used for adjusting the working states of the vibration part 5 and the stimulation electrode 4 according to the received grip strength value and the bioelectrical signal.

The pelvic floor muscles are in a healthy state and have a corresponding normal threshold range. When the collected grip strength value is not in the normal threshold range, the health problem of the pelvic floor muscles is indicated.

The bioelectric signals are also data signals reflecting the health condition of the pelvic floor muscles, and the pelvic floor muscles have corresponding normal bioelectric signals in a healthy state. When the collected bioelectric signals are not matched with the corresponding normal bioelectric signals, the health problem of the pelvic floor muscles is indicated.

When the pelvic floor muscles have health problems, the processor 6 can control the vibration part 5 and the stimulation electrode 4 to work.

The processor 6 can adjust the working strength of the vibration part 5 and the stimulation electrode 4 according to the deviation condition of the holding force value from the normal threshold value range and the deviation condition of the bioelectric signal from the normal bioelectric signal. The principle of the method is similar to the conventional control mode in the prior art, and the description is omitted here.

In the concrete implementation, vibrations part 5 and stimulation electrode 4 can work simultaneously, also can alternate work the utility model discloses in the implementation, do not limit to its concrete working method, can be according to actual demand preset in treater 6.

In the embodiment of the present invention, the vibration part 5 may adopt a vibration motor.

The vibration part 5 can perform auxiliary vibration stimulation on the pelvic floor muscles. The stimulation electrodes 4 may perform low frequency pulsed electrical stimulation of the pelvic floor muscles. Better therapeutic effect can be achieved by arranging the vibration part 5 and the stimulating electrode 4 at the same time.

Combine the practical application condition, in the embodiment of the utility model provides an in, the probe can set up to the cylinder probe. Of course, the probe can be arranged in a drop shape according to specific requirements. For convenience of introduction, in the embodiments of the present invention, a cylindrical probe is taken as an example for explanation.

In order to ensure that the pressure sensor 2, the myoelectric sensor 3 and the stimulating electrode 4 are tightly attached to the outer side wall of the probe, the pressure sensor 2, the myoelectric sensor 3 and the stimulating electrode 4 can be fixed on the outer side wall of the probe through screws. The vibration part 5 and the processor 6 are fixed in the cavity of the probe through screws.

Stimulating electrode 4 belongs to the metal material, can buckle, consequently, the embodiment of the utility model provides an in, can match stimulating electrode 4's crooked radian and the cylinder radian of probe to stimulating electrode 4 closely laminates in the lateral wall of probe.

In order to guarantee the accuracy of the data of gathering, in the embodiment of the utility model provides an, pressure sensor 2 and myoelectric sensor 3's number is two at least separately.

In a specific implementation, the pressure sensor 2 and the myoelectric sensor 3 may be sequentially arranged on the outer side wall of the probe in an annular arrangement manner.

According to the technical scheme, the pelvic floor muscle treatment equipment comprises a probe, a pressure sensor, a myoelectric sensor, a stimulation electrode, a vibration component and a processor, wherein the pressure sensor, the myoelectric sensor and the stimulation electrode are arranged on the outer side of the probe; the processor is respectively connected with the pressure sensor, the myoelectricity sensor, the stimulating electrode and the vibration component. The pressure sensor is used for collecting the grip strength value of the pelvic floor muscle and transmitting the grip strength value to the processor; and the myoelectric sensor is used for collecting the bioelectricity signal on the surface of the pelvic floor muscle and transmitting the bioelectricity signal to the processor. Through the holding power value and the bioelectricity signal of gathering pelvic floor muscle simultaneously, can be more comprehensive understanding pelvic floor muscle's health status to in adopting more reasonable treatment. In a specific implementation, the processor may adjust the working states of the vibration component and the stimulation electrode according to the received grip strength value and the bioelectrical signal. Compare in the single treatment mode of prior art, the pelvic floor muscle treatment facility that this scheme provided is applicable to the impaired patient of musculus nervous system including two kinds of different treatment modes of vibrations part and stimulating electrode to and the pelvic floor dysfunction patient that causes because of reasons such as muscle elasticity and tension are impaired or tissue are ageing, can reach better pelvic floor muscle treatment.

In order to facilitate the user to know the detection condition of the pelvic floor muscle more intuitively, a Bluetooth module can be arranged in the pelvic floor muscle treatment device and is connected with the processor 6.

The processor 6 may transmit the grip value, the bio-electric signal, and the corresponding analysis result to the user terminal through the bluetooth module.

Wherein the analysis result can be obtained by the processor 6 according to whether the grip strength value is within the normal threshold range and whether the bioelectric signal is matched with the normal bioelectric signal, so as to obtain the result whether the pelvic floor muscle is healthy. For example, when the grip strength value is not within the normal threshold value range or the bioelectric signal does not match the normal bioelectric signal, an analysis result that the pelvic floor muscle has a health problem may be obtained.

It should be noted that the analysis process is similar to the conventional data analysis method in the prior art, and is not the technical point of the present solution. The utility model discloses technical essential lies in through setting up bluetooth module, has realized pelvic floor muscle treatment facility and user terminal's interaction to in time know the pelvic floor muscle data of self through user terminal, promoted user experience for the user.

The embodiment of the utility model provides an in, when there is comparatively serious health problem in user's pelvic floor muscle, for the convenience of the user in time knows the pelvic floor muscle health state of self, can set up the suggestion module on pelvic floor muscle treatment facility, and this suggestion module is connected with treater 6.

The processor 6 is used for triggering the prompt module to give an alarm prompt when the grip strength value is not matched with the preset threshold range or the bioelectricity signal does not meet the preset requirement.

The prompting module can be of various types, such as an LED indicating lamp, an audible and visual alarm or a display screen.

As can be seen from the above description, when the grip strength value deviates from the normal threshold range, it indicates that the pelvic floor muscles of the user have a health problem. The deviation of grip value and normal threshold value scope is big more, explains that user's pelvic floor muscle problem is more serious, consequently in the embodiment of the utility model, can be with predetermineeing that threshold value scope sets up than normal threshold value scope a little more, when the grip value is not in this predetermined threshold value within range, then explains that user's pelvic floor muscle has comparatively serious health problem, can arouse user's attention through the suggestion of reporting to the police to in time the discovery problem of user and positive treatment.

Similarly, for bioelectric signals, the pelvic floor muscles have corresponding normal bioelectric signals in a healthy state.

The preset requirement may include whether the similarity of the bioelectric signal to the normal bioelectric signal is less than a preset value. When the similarity of the bioelectric signal and the normal bioelectric signal is smaller, the problem of the pelvic floor muscle of the user is more serious, so that when the similarity of the bioelectric signal and the normal bioelectric signal is smaller than a preset value, the bioelectric signal does not meet the preset requirement, and the attention of the user can be attracted through the alarm prompt, so that the user can find the problem in time and actively treat the problem.

The pelvic floor muscle treatment device provided by the utility model is described in detail above. The embodiments are described in a progressive manner in the specification, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (10)

1. The pelvic floor muscle treatment equipment comprises a probe, and is characterized by further comprising a pressure sensor, a myoelectric sensor and a stimulation electrode which are arranged on the outer side of the probe, and a vibration component and a processor which are arranged in a cavity of the probe; the processor is respectively connected with the pressure sensor, the electromyographic sensor, the stimulation electrode and the vibration component;

the pressure sensor is used for collecting the grip strength value of pelvic floor muscles and transmitting the grip strength value to the processor;

the myoelectric sensor is used for collecting a bioelectricity signal on the surface of the pelvic floor muscle and transmitting the bioelectricity signal to the processor;

the processor is used for adjusting the working states of the vibration component and the stimulation electrode according to the received holding force value and the received bioelectrical signal.

2. The pelvic floor muscle treatment apparatus of claim 1, wherein the probe is a cylindrical probe.

3. The pelvic floor muscle treatment device of claim 2, wherein the pressure sensor, the myoelectric sensor and the stimulation electrode are fixed to the outer side wall of the probe through screws and attached to the outer side wall of the probe.

4. The pelvic floor treatment apparatus of claim 2, wherein the curvature of the stimulation electrode matches the curvature of the cylinder of the probe to facilitate the stimulation electrode to conform closely to the outer sidewall of the probe.

5. The pelvic floor muscle treatment apparatus according to claim 1, wherein the number of the pressure sensors and the myoelectric sensors is at least two each.

6. The pelvic floor treatment apparatus of claim 1, wherein the vibration member and processor are each secured within the probe cavity by screws.

7. The pelvic floor muscle treatment apparatus of claim 1, further comprising a bluetooth module connected to the processor;

the processor is further used for transmitting the holding force value, the bioelectricity signal and a corresponding analysis result to the user terminal through the Bluetooth module.

8. The pelvic floor muscle treatment apparatus of claim 1, further comprising a prompt module connected to the processor;

the processor is further used for triggering the prompt module to give an alarm prompt when the holding force value is not matched with a preset threshold range or the bioelectricity signal does not meet a preset requirement.

9. The pelvic floor muscle treatment apparatus of claim 8, wherein the prompting module is an LED indicator light, audible and visual alarm, or a display screen.

10. The pelvic floor muscle treatment apparatus of claim 1, wherein the processor is connected to the pressure sensor, the electromyographic sensor, the stimulation electrode, and the vibration member via cables, respectively.

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