CN220141664U - Pelvic floor muscle group positioning force measurer - Google Patents

Abstract

The utility model relates to a pelvic floor muscle group positioning force measuring device, which comprises a vagina insertion body, a cloud server and an intelligent terminal; the vaginal insert body is internally provided with a baroreceptor unit, a counting unit, a central data processor unit and a wireless communication module; the baroreceptor unit is used for collecting the strength of pelvic floor muscle groups in a tightening state and a loosening state; the counting unit is used for recording the stressed area of the pelvic floor muscle group, which is contacted with the surface of the vaginal insert body in the tightened and loosened state. The advantages are as follows: can train each layer pelvic floor muscle, the patient can accurately acquire each layer pelvic floor muscle training state to and can quantify the training result of each layer pelvic floor muscle, realize that the mode of fortune dynamics is adjusted the organism. According to the core requirements of different life cycles of females, corresponding matched types are set, so that the pelvic floor muscles are prevented and treated, and the female life cycle-oriented massage device is suitable for being used in the full life cycle of females.

Description

Pelvic floor muscle group positioning force measurer

Technical Field

The utility model relates to the technical field of medical appliances, in particular to a pelvic floor muscle group positioning force measuring device.

Background

Pelvic floor muscles are important core muscle groups for closing the bottom end of pelvis, and like hammocks, are connected to pubis at the front and tail bones at the back, extend to two sides and are connected to ischial tuberosities, and are of crisscross structure and support viscera of the whole pelvis, and play an important role in urination, defecation and sexual function.

The training of pelvic floor muscle groups in the prior art has the following drawbacks and deficiencies:

firstly, in the current training machines for pelvic floor muscle groups on the market, local training of the pelvic floor muscle groups is mostly performed, the anterior, middle and posterior pelvic floor muscles of the pelvic floor muscles cannot be systematically and pertinently trained, and the traditional pelvic floor muscle training machines cannot provide accurate and quantized visual feedback for training results of the pelvic floor muscle groups of all parts, so that patients cannot feel how much the training results are after using, whether the training mode is correct, and the patients are difficult to adhere to the training machines.

Second, in the conventional pelvic floor muscle trainer, training of the full life cycle of the patient cannot be achieved, for example: the heart needs for preventing diseases for young patients are to prevent stress urinary incontinence, overactive bladder syndrome, pelvic floor organ prolapse, chronic pelvic pain syndrome and the like; the basin bottom trainer function mainly used in advance needs to be selected; for postpartum patients and elderly patients, vaginal relaxation occurs, pelvic floor dysfunction and sexual function requirements exist, and a therapy-based pelvic floor trainer needs to be selected. Regarding patients with pelvic floor dyskinesia who have been treated by surgery, only surgical functional reconstruction is achieved by surgery, pelvic floor muscle training is also required to achieve functional reconstruction of pelvic floor muscle groups, and recurrence is otherwise generated, which also requires treatment-based pelvic floor trainers.

In addition, in the traditional pelvic floor muscle trainer, the training mode does not have the idea of combining movement with training, the body can not be adjusted in a mode of realizing movement, a patient is difficult to persist in use and use for a long time, and the body pleasure of deep and shallow muscle contraction of a female can not be changed.

In view of the foregoing, there is a need for a pelvic floor muscle group positioning force measuring device that can train each layer of the pelvic floor muscle group, provide training feedback results to patients in a comprehensive, accurate and quantitative manner, and has preventive and therapeutic functions, and is suitable for the full life cycle of females. However, no report exists at present on the pelvic floor muscle group positioning force measuring device.

Disclosure of Invention

The utility model aims to provide the pelvic floor muscle group positioning force measuring device which can train each layer of the pelvic floor muscle group, can comprehensively, accurately and quantitatively provide training feedback results for patients, has the functions of prevention and treatment, and is suitable for women in the whole life cycle.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the pelvic floor muscle group positioning force measuring device comprises a vagina insertion body, a cloud server and an intelligent terminal; the vaginal insert body is internally provided with a baroreceptor unit, a counting unit, a central data processor unit and a wireless communication module; the baroreceptor unit is used for collecting the strength of pelvic floor muscle groups in a tightening state and a loosening state; the counting unit is used for recording the stressed area of the pelvic floor muscle group, which is contacted with the surface of the vaginal insert body in a tightened state and a relaxed state; the central data processing is used for acquiring and processing data signals of the baroreceptor unit and the counting unit; the central data processor unit processes the data and transmits the data to the intelligent terminal through the wireless communication module; after the intelligent terminal acquires the monitoring data of the central processing unit; the intelligent terminal displays the training position of the pelvic floor muscle group after analyzing the monitoring data; meanwhile, the intelligent terminal displays specific force after analyzing the monitoring data of the baroreceptor unit and displays specific stressed area after analyzing the monitoring data of the baroreceptor unit; the intelligent terminal is matched with a cloud server; a personal program module is arranged in the intelligent terminal and is used for transmitting the data of the user to the cloud server; the cloud server is used for medical staff to analyze and form a detection report.

As a preferable technical scheme, a strength threshold module and a reminding module are arranged in the intelligent terminal, and when each data monitored by the pressure sensing unit is smaller than the numerical value of the threshold module, the reminding module is displayed in red and is unqualified; when the data monitored by the pressure sensing unit are larger than the numerical value of the threshold module, the reminding module is green and qualified;

as a preferred technical scheme, the baroreceptor unit comprises an outer layer pelvic floor muscle baroreceptor component, a middle layer pelvic floor muscle baroreceptor component and an inner layer pelvic floor muscle baroreceptor component, which are sequentially distributed from the proximal end to the distal end of the vaginal insert body;

the external pelvic floor muscle baroreceptor component comprises a globus cavernosus baroreceptor, a ischial cavernosus baroreceptor, a perineal superficial transverse muscle baroreceptor and an external anal sphincter baroreceptor;

the middle layer pelvic floor muscle baroreceptor component comprises a perineum diaphragm muscle baroreceptor and a perineum deep transverse muscle baroreceptor;

the inner pelvic floor muscle baroreceptor component specifically comprises a puborectal muscle baroreceptor, a puborectal muscle baroreceptor and a coccyx muscle baroreceptor and an iliorectal muscle baroreceptor.

As a preferable technical scheme, the vaginal insert body is designed by referring to the whole section of the vagina of a human body.

As a preferable technical scheme, the pelvic floor muscle group positioning force measuring device is also provided with a pelvic floor muscle electric stimulation device; the pelvic floor myoelectric stimulation device comprises a myoelectric stimulation piece, a myoelectric signal transmission line and a myoelectric control device; the myoelectric stimulation pieces are distributed on the surface of the vaginal insert body; one end of the myoelectric signal transmission line is connected with the myoelectric stimulation piece, and the other end of the myoelectric signal transmission line is connected with the myoelectric control device;

the myoelectricity control device comprises an electric parameter control unit and a control module; the myoelectric stimulation piece is respectively connected with the control module and the electric parameter control unit; the control module is used for controlling whether the discharge unit discharges or not; the electric parameter control unit is used for controlling the electric parameters discharged by the discharge unit; and the myoelectric stimulation piece is used for discharging the patient.

As a preferable technical scheme, the intelligent terminal is also provided with a pelvic floor muscle group sound control training unit; the pelvic floor muscle sound control training unit comprises a pelvic floor muscle clamping training module, a pelvic floor muscle relaxing module, a pelvic floor muscle lifting module and a pelvic floor muscle squeezing module. The pelvic floor muscle clamping training module.

As an optimized technical scheme, the basin bottom positioning force measuring device is also provided with a radio frequency module with a uterus warming function.

As a preferable technical scheme, the pelvic floor muscle group force measuring device is also provided with a pulse discharging device; the pulse discharging device comprises a pulse electronic component, a pulse signal transmission line and a biofeedback device; the pulse electronic component is arranged on the vagina insertion body; one end of the pulse signal transmission line is connected with the pulse electronic component, and the other end of the pulse signal transmission line is connected with the biofeedback device. When the biofeedback device is started, pulse signals are generated to transmit pulse electronic components through a pulse transmission line; and the pulse electronic component generates mechanical vibration to stimulate pelvic floor muscle groups after receiving the pulse signals.

As a preferable technical scheme, the biofeedback device is provided with an indicator light and a circuit feedback unit; the pulse electronic component receives the mechanical physical signals of the pelvic floor muscle group and then transmits the signals to the circuit feedback unit; the circuit feedback unit is provided with a threshold switch; when the mechanical physical signal meets the setting condition of the threshold switch, the circuit feedback unit is turned on and the indicator light is turned on.

The utility model has the advantages that:

1. according to the pelvic floor muscle group positioning force measurer, the pelvic floor muscles of each layer can be trained, a patient can accurately acquire the training state of the pelvic floor muscles of each layer, the training result of the pelvic floor muscles of each layer can be quantized, the patient is promoted to stay training for a long time, meanwhile, the movement force mode is combined with training, and the body is regulated in a movement force mode. According to the core requirements of different life cycles of women, corresponding matched types are arranged, so that the pelvic floor muscle is provided with prevention and treatment functions, the novel medical instrument is suitable for the use of the full life cycle of women, and the novel medical instrument has wide application prospect in clinical popularization and use.

2. Through the baroreceptor unit for collect the power size data of pelvic floor muscle crowd under tightening up and relaxing state, the power size under tightening up and relaxing state of each muscle piece of pelvic floor muscle crowd that can be comprehensive accurate, and among the traditional pelvic floor muscle training scheme, not be directed against specific pelvic floor muscle piece, and then lack the pelvic floor muscle training of pertinence.

3. Through setting up the counting unit for the recording pelvic floor muscle crowd with the area of being in contact with the vaginal insert body surface under tightening up and relaxing the state, can carry out the visual quantification to the training of each pelvic floor muscle piece. The patient can judge whether the pelvic floor muscles are trained through each stressed area, and if the pelvic floor muscles without stressed areas are found, the patient can reach the standard by improving corresponding training actions.

4. Through the intelligent terminal, firstly, the force and the stress area of each pelvic floor muscle in the tightening and loosening states can be accurately and quantitatively estimated; the patient can obtain an intuitive training result, and the patient is promoted to adhere to the training; secondly, the intelligent terminal is further provided with a threshold module, and whether training is qualified or not is judged through color change, so that a patient knows where to do nothing, and the patient can conveniently and continuously train for a long time.

5. The vaginal insert is designed by referring to the whole section of the human vagina, so that the vaginal insert can be fully contacted with the external pelvic floor muscle, the middle pelvic floor muscle and the internal pelvic floor muscle. However, the vaginal insert for pelvic floor muscle training according to the conventional scheme is not designed according to the whole vaginal segment, and cannot meet the requirements of full contact between the front wall and the rear wall and between the left wall and the right wall, and cannot achieve full contact between the pelvic floor muscles.

6. The voice control training unit for pelvic floor muscle groups is used for reminding a patient to operate by combining breathing and passwords, and the voice control training unit for pelvic floor muscle groups can be used for comprehensively guiding training by combining time, breathing and training actions of each pelvic floor muscle group under a using state.

7. Be provided with pelvic floor flesh electric stimulation device and carry out the passive training to pelvic floor muscle crowd, press initiative training like this and passive training carries out simultaneously, for example when the patient tightens up, carries out initiative training to the pelvic floor muscle crowd, and pelvic floor flesh electric stimulation device carries out electric stimulation simultaneously, carries out passive training to the pelvic floor muscle crowd, and like this, the pelvic floor muscle crowd has obtained initiative training and passive training, and the training effect is more showing.

8. A biofeedback device is arranged, on the one hand, a pulse signal is generated to enable the vaginal insert body to massage the pelvic floor muscle group in a mode of generating mechanical vibration, and meanwhile, a physical vibration signal generated by the pelvic floor muscle group is received to evaluate, and targeted training is set according to an evaluation result, so that a patient learns the contraction and relaxation modes of the pelvic floor muscle according to the electromyographic signal as a feedback basis. Specifically, after receiving the physical signal, the circuit feedback unit in the biofeedback device controls the brightness state of the indicator lamp, so as to judge whether the rehabilitation exercise performed by the patient is correct or not, and feed back the structure to the patient, so that the efficiency of the pelvic floor rehabilitation training is improved.

Drawings

FIG. 1 is a schematic diagram of a pelvic floor positioning muscle group force measuring device according to the present utility model.

FIG. 2 is an internal logic block diagram of a pelvic floor positioning muscle group force-measuring device of the present utility model.

Fig. 3 is an internal logical block diagram of the baroreceptor unit of the present utility model.

Fig. 4 is a schematic structural diagram of a pelvic floor muscle group positioning force measuring device in a second embodiment of the utility model.

Fig. 5 is a schematic structural view of a pelvic floor muscle group positioning force measuring device in the third embodiment.

Detailed Description

The utility model is further described below with reference to examples and with reference to the accompanying drawings.

Reference numerals and components referred to in the drawings are as follows:

1. vaginal insert body 2 and cloud server

3. Intelligent terminal 4, baroreceptor unit

41. External pelvic floor muscle baroreceptor assembly 42, and intermediate pelvic floor muscle baroreceptor assembly

43. Inner pelvic floor muscle baroreceptor component 5 and counting unit

6. Myoelectric stimulation piece 7. Myoelectric signal transmission line

8. Myoelectric control device 9 and pulse electronic component

10. Pulse signal transmission line 11 and biofeedback device

12. Central data processor unit 13. Wireless communication Module

14. Reminding module 15, strength threshold module

16. Personal program module

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

For the purpose of facilitating an understanding of the embodiments of the present utility model, reference will now be made to the following description of specific embodiments, taken in conjunction with the accompanying drawings, which are not intended to limit the embodiments of the utility model.

In the description of the embodiments of the present utility model, it should be noted that, directions or positional relationships indicated by terms such as "left and right", "up and down", "one end", "the other end", "front", "rear", "middle portion", "inside", etc., are based on directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element to be referred to must have a specific direction, be configured and operated in a specific direction, and thus should not be construed as limiting the present utility model; the terms "first gear," "second gear," and "third gear" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Example 1

Referring to fig. 1, fig. 1 is a schematic structural diagram of a pelvic floor positioning muscle group force measuring device according to the present utility model. FIG. 2 is an internal logic block diagram of a pelvic floor positioning muscle group force-measuring device of the present utility model. The pelvic floor muscle group positioning force measuring device comprises a vagina insertion body 1, a cloud server and an intelligent terminal 3; the vagina insertion body 1 is internally provided with a baroreceptor unit 4, a counting unit 5, a central data processor unit 12 and a wireless communication module 13; the baroreceptor unit 4 is used for collecting the strength of the pelvic floor muscle group in a tightening and loosening state; the counting unit 5 is used for recording the stressed area of the pelvic floor muscle group contacted with the surface of the vaginal insert body 1 in a tightening state and a loosening state; the central data processing is used for acquiring and processing data signals of the baroreceptor unit 4 and the counting unit 5; the central data processor unit 12 transmits data to the intelligent terminal 3 through the wireless communication module 13 by data processing; after the intelligent terminal 3 acquires the monitoring data of the central processing unit; the intelligent terminal 3 displays the training position of the pelvic floor muscle group after analyzing the monitoring data; meanwhile, the intelligent terminal 3 displays specific force after analyzing the monitoring data of the baroreceptor unit 4 and displays specific stressed area after analyzing the monitoring data of the baroreceptor unit; the intelligent terminal 3 is internally provided with a strength threshold module 15 and a reminding module 14, and when the data monitored by the pressure sensing unit are smaller than the numerical value of the threshold module, the reminding module 14 is displayed in red and is unqualified; when the data monitored by the pressure sensing unit is greater than the value of the threshold module, the reminding module 14 is displayed green and qualified; the intelligent terminal 3 is matched with a cloud server 2; the intelligent terminal 3 is internally provided with a personal program module 16 for transmitting the data of the user to the cloud server 2; the cloud server 2 is used for medical staff to analyze and form a detection report.

Referring to fig. 3, fig. 3 is an internal logical block diagram of the baroreceptor unit 4 of the present utility model. The baroreceptor unit 4 includes an outer pelvic floor muscle baroreceptor assembly 41, a middle pelvic floor muscle baroreceptor assembly 42, and an inner pelvic floor muscle baroreceptor assembly 43, and is sequentially distributed from the proximal end to the distal end of the vaginal insert 1.

The external pelvic floor muscle baroreceptor component 41 includes the globus cavernosus baroreceptor, ischial cavernosus baroreceptor, superficial perineal lateral muscle baroreceptor, and external anal sphincter baroreceptor.

The medial pelvic floor muscle baroreceptor assembly 42 includes perineal diaphragmatic muscle baroreceptors and perineal deep transverse muscle baroreceptors.

The inner pelvic floor muscle baroreceptor component specifically comprises a puborectal muscle baroreceptor, a puborectal muscle baroreceptor and a coccyx muscle baroreceptor and an iliorectal muscle baroreceptor.

This example illustrates:

through baroreceptor unit 4 for collect the power size data of pelvic floor muscle crowd under tightening up and relaxing state, the power size under tightening up and relaxing state of each muscle piece of pelvic floor muscle crowd that can be comprehensive accurate, and in traditional pelvic floor muscle training scheme, not specific pelvic floor muscle piece, and then lack the pelvic floor muscle training of pertinence.

By arranging the counting unit 5 for recording the stress area of the pelvic floor muscle groups in contact with the surface of the vaginal insert body 1 in the tightened and loosened state, the training of each pelvic floor muscle block can be intuitively quantified. The patient can judge whether the pelvic floor muscles are trained through each stressed area, and if the pelvic floor muscles without stressed areas are found, the patient can reach the standard by improving corresponding training actions.

Through setting up the intelligent terminal 3, at first, can accurate and quantitative aassessment each pelvic floor muscle's strength size and area of stress under the tightening and relaxing state; the patient can obtain an intuitive training result, and the patient is promoted to adhere to the training; secondly, the intelligent terminal 3 is further provided with a threshold module, and whether training is qualified or not is judged through color change, so that a patient knows where to do nothing, and the patient can conveniently and continuously train for a long time.

Through setting up high in the clouds server 2, medical staff transfers the training result of each patient through high in the clouds server 2, is convenient for give corresponding detection analysis report feedback to the patient for the patient, promotes the patient to notice the main points of pelvic floor muscle training, has the instruction effect.

The vagina insertion body 1 is designed by referring to the whole section of the vagina of a human body, so that the vagina insertion body 1 can be fully contacted with the external pelvic floor muscle, the middle pelvic floor muscle and the internal pelvic floor muscle. However, the vaginal insert body 1 for pelvic floor muscle training according to the conventional scheme is not designed according to the whole vaginal segment, and cannot meet the requirements of full contact between the front wall and the rear wall and full contact between the left wall and the right wall, and cannot achieve full contact between the pelvic floor muscles.

The vaginal insert body 1 has various weight specifications, can meet the use requirements of different patients, and has wide application range.

The pelvic floor muscle group positioning force measuring device in the embodiment mainly has preventive effects, such as: preventing stress urinary incontinence, overactive bladder syndrome, pelvic floor organ prolapse, chronic pelvic pain syndrome, including well-developed and maintained sexual function, including maintaining the health and balance of female genitourinary system, preventing reproductive aging (training for sexual life of female).

Example two

In example 1, the patient is required to actively exercise the tightening and loosening of the pelvic floor muscle group to complete the acquisition of the corresponding data, i.e., actively exercise the pelvic floor muscle group. However, for some diseases related to pelvic floor muscle groups, the light is active training, and the treatment of the related diseases still cannot be achieved, and passive training is also required, so the positioning force measuring device of the pelvic floor muscle group of the embodiment has the function of setting the passive training of the pelvic floor muscle, and the specific scheme is as follows:

the pelvic floor muscle group positioning force measuring device is also provided with a pelvic floor muscle electric stimulation device; the pelvic floor myoelectric stimulation device comprises a myoelectric stimulation piece 6, a myoelectric signal transmission line 7 and a myoelectric control device 8; the myoelectric stimulation pieces 6 are distributed on the surface of the vaginal insert body 1; one end of the myoelectric signal transmission line 7 is connected with the myoelectric stimulation piece 6, and the other end is connected with the myoelectric control device 8;

the myoelectricity control device 8 comprises an electric parameter control unit and a control module; the myoelectric stimulation piece 6 is respectively connected with the control module and the electric parameter control unit; the control module is used for controlling whether the discharge unit discharges or not; the electric parameter control unit is used for controlling the electric parameters discharged by the discharge unit; a myoelectric stimulation member 6 for discharging the patient;

the intelligent terminal 3 is also provided with a pelvic floor muscle group sound control training unit; the pelvic floor muscle sound control training unit comprises a pelvic floor muscle clamping training module, a pelvic floor muscle relaxing module, a pelvic floor muscle lifting module and a pelvic floor muscle squeezing module. The pelvic floor muscle clamping training module.

The basin bottom positioning force measuring device is also provided with a radio frequency module; the radio frequency module has a heating effect and a uterine warming effect.

This example illustrates:

the voice control training unit for pelvic floor muscle groups is arranged in the embodiment and is used for reminding a patient to operate by combining breathing and passwords, and the voice control training unit for pelvic floor muscle groups can be used for comprehensively guiding and training by combining time, breathing and training actions of each pelvic floor muscle group in a using state; for example: the pelvic floor muscle group sound control training unit can heel the patient: clamping, expiration, clamping for three seconds 1-2-3, and inspiration for three seconds 1-2-3.

The active training and the passive training are performed simultaneously, for example, when a patient tightens up, the basin muscle group is actively trained, meanwhile, the pelvic floor muscle electric stimulation device is electrically stimulated, and the pelvic floor muscle group is passively trained, so that the pelvic floor muscle group is actively trained and passively trained, and the training effect is more remarkable. This applies in particular to patients with pelvic floor dysfunction, also to patients with stress urinary incontinence, overactive bladder, pelvic floor organ prolapse, urinary tract prolapse, bladder prolapse, uterine prolapse, rectal prolapse, vaginal relaxation, chronic pelvic pain syndrome, and also to patients with completed surgery, pelvic floor organ prolapse and post-vaginal surgery, in order to maintain the operative efficacy after return home, thus achieving functional reconstruction, preventing recurrence (since surgery is only an anatomic reposition reconstruction and cannot achieve functional reconstruction)

Example 3

Referring to fig. 4, fig. 4 is a schematic structural diagram of a pelvic floor muscle group positioning force measuring device according to a second embodiment of the utility model. The utility model relates to a pelvic floor muscle group positioning force measurer; the pelvic floor muscle group force measuring device is also provided with a pulse discharging device; the pulse discharging device comprises a pulse electronic component 9, a pulse signal transmission line 10 and a biofeedback device 11; the pulse electronic component 9 is arranged on the vagina insertion body 1; one end of the pulse signal transmission line 10 is connected with the pulse electronic component 9, and the other end is connected with the biofeedback device 11. When the biological feedback device 11 is started, pulse signals are generated to transmit the pulse electronic component 9 through the pulse transmission line; the pulse electronic component 9 generates mechanical vibration to stimulate pelvic floor muscle groups after receiving the pulse signals.

The biological feedback device 11 is provided with an indicator lamp and a circuit feedback unit; the pulse electronic component 9 receives the mechanical and physical signals of the pelvic floor muscle group and transmits the signals to the circuit feedback unit; the circuit feedback unit is provided with a threshold switch; when the mechanical physical signal meets the setting condition of the threshold switch, the circuit feedback unit is turned on and the indicator light is turned on.

This example illustrates:

referring to fig. 5, fig. 5 is a schematic structural diagram of a pelvic floor muscle group positioning force measuring device in the third embodiment. The pulse discharging device is used for generating a pulse signal to drive the pulse electronic component 9 to generate mechanical vibration, so that the vaginal insert body 1 generates mechanical vibration and is used for sending gentle pulses to pelvic floor muscles. The pulse feel like slight vibration and no pain. This physical vibratory massage therapy produces a cellular response in the pelvic muscles, stopping or reducing bladder leakage by strengthening the pelvic floor muscles. Realizing the healing of natural process and mechanical therapy for restoring the pelvic floor.

The biofeedback device 11, on the one hand, generates a pulse signal to prompt the vaginal insert body 1 to generate mechanical vibration to massage the pelvic floor muscle group, and receives a physical vibration signal generated by the pelvic floor muscle group to evaluate, and sets targeted training according to the evaluation result, so that the patient learns the contraction and relaxation modes of the pelvic floor muscle according to the myoelectric signal as a feedback basis. Specifically, after receiving the physical signal, the circuit feedback unit in the biofeedback device 11 controls the brightness state of the indicator light, so as to determine whether the rehabilitation exercise performed by the patient is correct, and feedback the structure to the patient, so as to improve the efficiency of the pelvic floor rehabilitation training.

In the positioning force measuring device of the pelvic floor muscle group, cells of the pelvic floor muscle group react in a physical vibration mode, so that the healing and recovery of the natural process of the pelvic floor muscle group are realized, and the positioning force measuring device is particularly suitable for patients with urination function and sexual function reconstruction.

According to the pelvic floor muscle group positioning force measurer, the pelvic floor muscles of each layer can be trained, a patient can accurately acquire the training state of the pelvic floor muscles of each layer, the training result of the pelvic floor muscles of each layer can be quantized, the patient is promoted to stay training for a long time, meanwhile, the movement force mode is combined with training, and the body is regulated in a movement force mode. According to the core requirements of different life cycles of women, corresponding matched types are arranged, so that the pelvic floor muscle is provided with prevention and treatment functions, the novel medical instrument is suitable for the use of the full life cycle of women, and the novel medical instrument has wide application prospect in clinical popularization and use.

The foregoing is merely a preferred embodiment of the present utility model and it should be noted that modifications and additions to the present utility model may be made by those skilled in the art without departing from the principles of the present utility model and such modifications and additions are to be considered as well as within the scope of the present utility model.

Claims (8)

1. The pelvic floor muscle group positioning force measuring device is characterized by comprising a vagina insertion body, a cloud server and an intelligent terminal; the vaginal insert body is internally provided with a baroreceptor unit, a counting unit, a central data processor unit and a wireless communication module; the baroreceptor unit is used for collecting the strength of pelvic floor muscle groups in a tightening state and a loosening state; the counting unit is used for recording the stressed area of the pelvic floor muscle group, which is contacted with the surface of the vaginal insert body in a tightened state and a relaxed state; the central data processing is used for acquiring and processing data signals of the baroreceptor unit and the counting unit; the central data processor unit processes the data and transmits the data to the intelligent terminal through the wireless communication module; after the intelligent terminal acquires the monitoring data of the central processing unit; the intelligent terminal displays the training position of the pelvic floor muscle group after analyzing the monitoring data; meanwhile, the intelligent terminal displays specific force after analyzing the monitoring data of the baroreceptor unit and displays specific stressed area after analyzing the monitoring data of the baroreceptor unit; the intelligent terminal is matched with a cloud server; a personal program module is arranged in the intelligent terminal and is used for transmitting the data of the user to the cloud server; the cloud server is used for medical staff to analyze and form a detection report; the intelligent terminal is internally provided with a strength threshold module and a reminding module, and when each data monitored by the pressure sensing unit is smaller than the numerical value of the threshold module, the reminding module is displayed in red and unqualified; when the data monitored by the pressure sensing unit are larger than the numerical value of the threshold module, the reminding module is displayed green and qualified.

2. The pelvic floor muscle group positioning force-measuring device according to claim 1, wherein the baroreceptor unit comprises an outer pelvic floor muscle baroreceptor component, a middle pelvic floor muscle baroreceptor component, and an inner pelvic floor muscle baroreceptor component, and are sequentially distributed from the proximal end to the distal end of the vaginal insert body;

the external pelvic floor muscle baroreceptor component comprises a globus cavernosus baroreceptor, a ischial cavernosus baroreceptor, a perineal superficial transverse muscle baroreceptor and an external anal sphincter baroreceptor;

the middle layer pelvic floor muscle baroreceptor component comprises a perineum diaphragm muscle baroreceptor and a perineum deep transverse muscle baroreceptor;

the inner pelvic floor muscle baroreceptor component specifically comprises a puborectal muscle baroreceptor, a puborectal muscle baroreceptor and a coccyx muscle baroreceptor and an iliorectal muscle baroreceptor.

3. The pelvic floor muscle group positioning force-measuring device according to claim 1, wherein the vaginal insert is designed with reference to the entire vaginal segment of the human body.

4. A pelvic floor muscle group positioning force-measuring device according to any one of claims 1-3, wherein the pelvic floor muscle group positioning force-measuring device is further provided with a pelvic floor muscle electrical stimulation device; the pelvic floor myoelectric stimulation device comprises a myoelectric stimulation piece, a myoelectric signal transmission line and a myoelectric control device; the myoelectric stimulation pieces are distributed on the surface of the vaginal insert body; one end of the myoelectric signal transmission line is connected with the myoelectric stimulation piece, and the other end of the myoelectric signal transmission line is connected with the myoelectric control device;

the myoelectricity control device comprises an electric parameter control unit and a control module; the myoelectric stimulation piece is respectively connected with the control module and the electric parameter control unit; the control module is used for controlling whether the discharge unit discharges or not; the electric parameter control unit is used for controlling the electric parameters discharged by the discharge unit; and the myoelectric stimulation piece is used for discharging the patient.

5. The pelvic floor muscle group positioning force measurer according to claim 4, wherein the intelligent terminal is further provided with a pelvic floor muscle group sound control training unit; the pelvic floor muscle sound control training unit comprises a pelvic floor muscle clamping training module, a pelvic floor muscle relaxing module, a pelvic floor muscle lifting module and a pelvic floor muscle squeezing module; the pelvic floor muscle clamping training module.

6. The pelvic floor muscle group positioning force measurer according to claim 1 or 4, wherein the pelvic floor positioning force measurer is further provided with a radio frequency module for warming uterus.

7. The pelvic floor muscle group positioning force measurer according to claim 1, wherein a pulse discharging device is further arranged on the pelvic floor muscle group force measurer; the pulse discharging device comprises a pulse electronic component, a pulse signal transmission line and a biofeedback device; the pulse electronic component is arranged on the vagina insertion body; one end of the pulse signal transmission line is connected with the pulse electronic component, and the other end of the pulse signal transmission line is connected with the biofeedback device; when the biofeedback device is started, pulse signals are generated to transmit pulse electronic components through a pulse transmission line; and the pulse electronic component generates mechanical vibration to stimulate pelvic floor muscle groups after receiving the pulse signals.

8. The pelvic floor muscle group positioning force-measuring device according to claim 7, wherein the biofeedback device is provided with an indicator light and a circuit feedback unit; the pulse electronic component receives the mechanical physical signals of the pelvic floor muscle group and then transmits the signals to the circuit feedback unit; the circuit feedback unit is provided with a threshold switch; when the mechanical physical signal meets the setting condition of the threshold switch, the circuit feedback unit is turned on and the indicator light is turned on.