CN110538431B - Portable pelvic floor muscle training device, and pressure detection method and system of pelvic floor muscle training device - Google Patents

Abstract

The invention relates to a portable pelvic floor muscle training device, a pressure detection method and a pressure detection system of the pelvic floor muscle training device. The accurate pelvic floor muscle grade is obtained by detecting the difference value between the second pressure and the first pressure, so that the accurate training method is matched, a user can accurately obtain the current pelvic floor muscle health state in a single pelvic floor muscle health grade detection or the whole pelvic floor muscle rehabilitation treatment course, the accurate training method is further matched, the pelvic floor muscle training efficiency is improved, and the pelvic floor muscle training recovery time is shortened.

Description

Portable pelvic floor muscle training device, and pressure detection method and system of pelvic floor muscle training device

[ technical field ] A method for producing a semiconductor device

The invention relates to the field of pelvic floor muscle medical equipment, in particular to a portable pelvic floor muscle training device, and a pressure detection method and system of the pelvic floor muscle training device.

[ background of the invention ]

The pelvic floor muscle is a muscle group closing the pelvic floor, which is like a 'net', and organs such as urethra, bladder, vagina, uterus, rectum and the like are tightly hung by the 'net', so that the normal position is maintained for the functions of the muscle. And the female has pelvic floor muscle disorder problems such as vaginal relaxation, stress urinary incontinence and the like caused by problems of pregnancy, fertility and age, and needs to exercise pelvic floor muscle, prevent pelvic floor muscle diseases and solve pelvic floor muscle dysfunction.

The existing method for evaluating the health state of the pelvic floor muscles is generally to detect the muscle activity of the pelvic floor muscles by detecting the contraction pressure of the inner walls of the vagina, but the existing method for detecting the muscle pressure of the pelvic floor muscles is generally to directly detect the pressure of the pelvic floor muscles in the contraction state so as to judge the contraction pressure of the pelvic floor muscles, so that the accuracy is insufficient, and the training efficiency of the pelvic floor muscles is low.

[ summary of the invention ]

In order to overcome the problem of insufficient pressure detection accuracy in the pressure detection method of the conventional pelvic floor muscle training device, the invention provides a portable pelvic floor muscle training device, and a pressure detection method and system of the pelvic floor muscle training device.

In order to solve the technical problems, the invention provides a technical scheme as follows: a pressure detection method of a pelvic floor muscle training device is used for detecting the contraction pressure of pelvic floor muscles based on a portable pelvic floor muscle training device and comprises the following steps: step S1: acquiring first pressure of pelvic floor muscles in a relaxed state; step S2: acquiring second pressure of the pelvic floor muscle in a contraction state; and step S3: and calculating the difference value of the second pressure and the first pressure, and matching the difference value with a preset threshold value to judge different grades of the pelvic floor muscles.

Preferably, a positioning part is provided on the portable pelvic floor muscle training device, and the first pressure and the second pressure of the pelvic floor muscles at the same position are detected through the positioning part in the use process of the portable pelvic floor muscle training device.

Preferably, the preset threshold in step S3 includes: greater than or equal to 70g/cm²The grade is excellent; greater than or equal to 50g/cm²And less than 70g/cm²The grade is good; greater than or equal to 40g/cm²And less than 50g/cm²In the grade; greater than or equal to 30g/cm²And less than 40g/cm²Poor grade; greater than or equal to 10g/cm²And less than 30g/cm²The difference in level; less than 10g/cm²The grade was very poor.

Preferably, step S3 is followed by: step S4: and matching corresponding training methods based on different grades of pelvic floor muscles.

The invention also provides a pelvic floor muscle pressure detection system, comprising: the portable pelvic floor muscle training device comprises a first pressure acquisition unit, a second pressure acquisition unit and a control unit, wherein the first pressure acquisition unit is used for acquiring first pressure of pelvic floor muscles in a relaxing state based on the portable pelvic floor muscle training device; the second pressure acquisition unit is used for acquiring second pressure of the pelvic floor muscles in a contraction state based on the portable pelvic floor muscle training device; the difference value calculating unit is used for calculating the difference value between the second pressure and the first pressure and judging different grades of the pelvic floor muscles based on the matching of the difference value and a preset threshold value; and the training matching unit is used for matching the corresponding training method based on different grades of the pelvic floor muscles.

Preferably, the first pressure obtaining unit and the second pressure obtaining unit are based on a portable pelvic floor muscle training device to detect the pressure of the pelvic floor muscles at the same position.

The invention also provides a portable pelvic floor muscle training device which is used for being placed in a female vagina to detect the contraction pressure of pelvic floor muscle.

Preferably, the pressure measuring part comprises a first ejector rod, a second ejector rod and a pressure sensing module; the first ejector rod and the second ejector rod are arranged oppositely, the first ejector rod and the second ejector rod are of hemispherical structures, an accommodating space is formed between the second ejector rod and the first ejector rod, the pressure sensing module is located in the accommodating space, and one end of the first ejector rod is in contact with the pressure sensing module; the first ejector rod can be close to or far away from the second ejector rod, the first ejector rod is close to the second ejector rod after being pressed so as to extrude the pressure sensing module, and the pressure sensing module senses the pressure of the first ejector rod.

Preferably, the pressure sensing module comprises a pressure sensor and a main control unit, and the pressure sensor is electrically connected with the main control unit; the pressure sensor contacts with first ejector pin one end to the pressure that first ejector pin received of response, pressure sensor sends the numerical value of response each time to the main control unit, the main control unit will numerical value converts pressure into, and calculates the difference of adjacent twice pressure, and will the difference is transmitted to external equipment.

Preferably, the portable pelvic floor muscle training device further comprises a connecting column and a positioning piece, the positioning piece is a baffle, one end of the connecting column is connected with or integrally formed with the second ejector rod, and the opposite end of the connecting column is connected with or integrally formed with the baffle; the two opposite ends of the baffle extend out of a preset length relative to the connecting column, and the two ends of the baffle are inclined towards the direction of the connecting column by a preset angle.

Preferably, the pressure detection method of the pelvic floor muscle training device further includes a soft protective sleeve, and the soft protective sleeve covers the outer peripheral sides of the first ejector rod and the second ejector rod.

Compared with the prior art, the portable pelvic floor muscle training device, the pressure detection method and the pressure detection system of the pelvic floor muscle training device have the following advantages:

1. through acquireing the pelvic floor muscle and being in the first pressure under the state of releiving to acquire the pelvic floor muscle and be in the second pressure under the contraction state, calculate the difference of second pressure and first pressure, and based on the difference matches with the predetermined threshold value, with the different grades of judgement pelvic floor muscle, through detecting the pelvic floor muscle adjacent twice and be in the difference of the first pressure under state of releiving and the second pressure under the contraction state respectively, reduced the pelvic floor muscle and be in the error of pressure under the state of releiving to the contraction pressure calculation, improved pressure detection's the degree of accuracy.

2. The accurate pelvic floor muscle health level is obtained by detecting the difference value between the second pressure and the first pressure, so that the accurate training method is matched, a user can accurately obtain the current pelvic floor muscle health state in a single pelvic floor muscle health level detection or the whole pelvic floor muscle rehabilitation treatment course, the accurate training method is matched, the pelvic floor muscle training efficiency is improved, and the pelvic floor muscle training recovery time is shortened.

3. Based on the setting element to detect pelvic floor muscle in the same position first pressure with the second pressure, with the error that the position difference that reduces twice detection brought, improve pressure detection's the degree of accuracy.

4. The pelvic floor muscle training recommendation method has the advantages that the pelvic floor muscle training recommendation method is matched through the preset threshold value to grade the contraction pressure of the pelvic floor muscles, so that a user can check the muscle force evaluation more visually, meanwhile, the training recommendation of the pelvic floor muscles is also facilitated for external equipment to the grades of different contraction pressures, and the use experience of the user is improved.

5. By arranging the first ejector rod, the second ejector rod and the pressure sensing module, the first ejector rod is close to the second ejector rod after being pressed so as to extrude the pressure sensing module, the pressure sensing module senses the pressure of the first ejector rod, so that the first ejector rod can detect the muscle contraction pressure in any direction, and meanwhile, the pressure sensing module is extruded by the rotation of the first ejector rod, so that the portable pelvic floor muscle training device provided by the invention can detect the muscle contraction pressure in any direction in the pelvic floor muscle only by arranging the pressure sensing module to be matched with the first ejector rod, the production cost is reduced, and the device structure is simpler.

6. The pressure sensing module comprises a pressure sensor and a main control unit, and the pressure sensor is electrically connected with the main control unit; pressure sensor with first ejector pin one end contact to respond to the pressure that first ejector pin received, pressure sensor with the numerical value of response send to the main control unit, the main control unit will numerical value converts pressure into, and calculates the difference of adjacent twice pressure, and will the difference transmits to external equipment, makes the signal change that pressure sensor pressurized deformation detected converts the pressure value into through the main control unit, and transmits to external equipment through the main control unit for specific pressure value is received to portable pelvic floor muscle trainer accessible external equipment, and it is more convenient to use.

7. Through setting up the baffle makes portable pelvic floor muscle trainer when putting into the vagina, convenience of customers snatchs in order to control portable pelvic floor muscle trainer promotes, prevents when portable pelvic floor muscle trainer lacks the baffle unexpected entering the problem of inconvenient taking out in the vagina. Furthermore, the pressure measuring part is stopped after the baffle is contacted with the external skin, so that the position of the pressure measuring part which is put into the vagina every time is the same, the pressure measuring part is ensured to carry out pressure detection on the same position when the pelvic floor muscle is trained every time, and the accuracy of the pressure detection is improved. Furthermore, the user can place the pressure measuring part in the depth of the vagina without measuring the accurate size, so that the measuring process of the user is reduced, and the use of the user is facilitated.

8. Through the relative both ends of baffle for the spliced pole extends preset length, convenience of customers snatchs fixedly, simultaneously, the baffle both ends to the spliced pole direction slope predetermines the angle, makes the baffle can realize that the single-point touching can accomplish the location that gets into the vagina position to the splenium of surveying based on the structure of slope and outside skin, improves the degree of accuracy of location, makes survey splenium can carry out pressure detection to same position, further improves pressure detection's the degree of accuracy.

[ description of the drawings ]

Fig. 1 is a schematic overall structure diagram of a portable pelvic floor muscle training device provided by a first embodiment of the invention.

Fig. 2 is a schematic view illustrating the rotation of the first push rod in the portable pelvic floor muscle training device according to the first embodiment of the invention.

Fig. 3 is a schematic sectional structure view of the portable pelvic floor muscle training device provided by the first embodiment of the invention.

Fig. 4 is a schematic structural view of a soft protective cover in the portable pelvic floor muscle training device according to the first embodiment of the invention.

Fig. 5 is a schematic structural diagram of a baffle plate in the portable pelvic floor muscle training device provided by the first embodiment of the invention.

FIG. 6 is a schematic view of the portable pelvic floor muscle training device provided by the first embodiment of the invention in use.

Fig. 7 is a schematic view of the portable pelvic floor muscle training device provided by the first embodiment of the invention, wherein the baffle is in contact with the skin.

Fig. 8 is a flowchart of a pressure detection method of the pelvic floor muscle training apparatus according to a second embodiment of the present invention.

Fig. 9 is a block diagram of a pelvic muscle pressure detection system according to a third embodiment of the present invention.

Description of reference numerals:

1. a portable pelvic floor muscle training device;

11. a hand-held portion; 111. connecting columns; 112. a baffle plate; 1121. a contact portion; 113. a rotating shaft;

12. a pressure measuring part; 121. a first ejector rod; 1211. a rotating part; 1212. a jacking portion; 122. a second ejector rod; 1221. a groove; 123. a pressure sensing module; 1231. a pressure sensor; 1232. a main control unit; 1233. a cushion pad;

13. a soft protective sleeve; 131. a protrusion;

100. a first pressure unit; 200. a second pressure unit; 300. a difference value calculation unit; 400. and training the matching unit.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, a first embodiment of the present invention provides a portable pelvic floor muscle training apparatus 1 for placement in a woman's vagina to detect the systolic pressure of the pelvic floor muscles. Portable pelvic floor muscle trainer 1 includes handheld portion 11 and pressure measurement portion 12, handheld portion 11 with pressure measurement portion 12 connects, pressure measurement portion 12 is spherical structure or quasi-spherical structure, pressure measurement portion 12 is used for detecting the pressure of pelvic floor muscle on same position.

It can be understood that the portable pelvic floor muscle training device 1 is particularly suitable for home users, can enable the users to use and train the pelvic floor muscles independently, is convenient for the users to use and carry, and improves the convenience of products.

Specifically, the pressure measuring and measuring part 12 includes a first push rod 121, a second push rod 122 and a pressure sensing module 123, one end of the first push rod 121 is rotatably connected to the handheld part 11 (for example, the direction a in fig. 2 is to open the opposite direction of the first push rod 121 or a to close the first push rod 121), the opposite end of the first push rod 121 is connected to the pressure sensing module 123, one end of the first push rod 121 rotates (i.e., the opposite direction of the direction a) relative to the handheld part 122 after being pressed to press the pressure sensing module 123, and the pressure sensing module 123 deforms after being pressed to sense the pressure of the first push rod 121.

The second top bar 122 is opposite to the first top bar 121, an accommodating space is formed between the second top bar 122 and the first top bar 121, and the pressure sensing module 123 is located in the accommodating space. One end of the second top bar 122 is connected to or integrally formed with the hand-held portion 11, and the first top bar 121 can rotate by a preset angle relative to the second top bar 122.

It can be understood that the second top bar 122 and the first top bar 121 are of a hemispherical structure, and the second top bar 122 is disposed opposite to the first top bar 121 to form the above-mentioned accommodating space to accommodate the pressure sensing module 123.

It can be understood that the second push rod 122 is disposed opposite to the first push rod 121, when the second push rod 122 is pressed by the contraction of the pelvic floor muscle, the second push rod 122 can also approach the first push rod 121, i.e. the first push rod 121 is rotated relative to the second push rod 122, so that the portable pelvic floor muscle training device 1 can detect the pressure of the pelvic floor muscle in any direction through the structure in which the second push rod 122 is disposed opposite to the first push rod 121.

It can be understood that, after the portable pelvic floor muscle training device 1 is placed in a female vagina, based on the spherical structure or the sphere-like structure of the pressure measurement part 12, the vaginal wall surface is in contact with the peripheral side of the pressure measurement part 12, so that the pressure measurement part 12 can sense the pressure of the pelvic floor muscle in any direction. That is, after the pelvic floor muscles contract, the vaginal wall surface is urged to compress the first push rod 121, the first push rod 121 rotates, so that one end of the first push rod 121 approaches the second push rod 122 to press the pressure sensing module 123, and the contraction pressure of the pelvic floor muscles at this time can be detected based on the pressure sensing module 123.

Referring to fig. 2 and fig. 3, the first push rod 121 includes a rotation portion 1211 and a pressing portion 1212, the rotation portion 1211 is rotatably connected to the handle portion 11, the pressing portion 1212 is in contact with the pressure sensing module 123, and the pressing portion 1212 is a protrusion structure of the first push rod 121 inward toward the second push rod 122. The handheld portion 11 is provided with a rotating shaft 113, and the rotating portion 1211 is sleeved on an outer peripheral side of the rotating shaft 113, so that the rotating portion 1211 can rotate around the rotating shaft 113.

Referring to fig. 3, the pressure sensing module 123 includes a pressure sensor 1231 and a main control unit 1232, the pressure sensor 1231 is electrically connected to the main control unit 1232, the pressure sensor 1231 contacts with the top pressing portion 1212 of the first top bar 121 to sense the pressure applied to the first top bar 121, the pressure sensor 1231 sends a sensed value to the main control unit 1232, and the main control unit 1232 converts the value into a pressure, calculates a difference between two adjacent pressures, and transmits the difference to an external device.

It is understood that the pressure sensor 1231 may be a semiconductor piezoelectric resistance sensor, and the main control unit 1232 converts the impedance change of the pressure sensor into a corresponding pressure value and transmits the pressure value to an external device. When the pressure sensor 1231 is pressed by the first push rod 121, it deforms, and thus generates a piezoelectric impedance effect, so that the change of impedance is converted into an electrical signal to be transmitted to the main control unit 1232.

Optionally, referring to fig. 3, the pressure sensing module 123 further includes at least one cushion 1233, the pressure sensor 1231 is attached to the at least one cushion 1233, the first push rod 121 contacts the cushion 1233 to protect the pressure sensor 1231, for example, in the embodiment, the number of the cushion 1233 is two, the pressure sensor 1231 is located between the at least two cushion 1233, and the pressing portion 1212 contacts the cushion 1233. The cushion 1233 is additionally arranged to protect the pressure sensor 1231, so that the pressure sensor 1231 is prevented from being damaged due to the fact that the first ejector rod 121 directly extrudes the pressure sensor 1231 for multiple times, and the service life of the product is prolonged.

Optionally, referring to fig. 4, the portable pelvic floor muscle training device 1 further includes a soft protective cover 13, and the soft protective cover 13 covers the outer peripheries of the first push rod 121 and the second push rod 122. Add soft protective sheath 13, with the cladding first ejector pin 121 reaches second ejector pin 122, the protection is located first ejector pin 121 and forced induction module 123 in the second ejector pin 122 prevents portable pelvic floor muscle trainer 1 gets into inside failure even the damage that causes forced induction module 123 in the use outside liquid, improves product life, simultaneously, through soft protective sheath 13 and pelvic floor muscle contact, improves user's use through soft material and experiences, reduces the injury that the product caused pelvic floor muscle, improves the security that the product used.

Specifically, referring to fig. 4, a protrusion 131 is disposed on one side of the soft protective sheath 13 close to the second push rod 123, a groove 1221 matched with the protrusion 131 is disposed on the second push rod 122, and the protrusion 131 can be disposed in the groove 1221 to fix the soft protective sheath 13 on the pressure measuring portion 12. Of course, the protrusion 131 may also be disposed on the second top bar 122, and the groove 1221 is disposed on the soft protection cover 13, as long as the protrusion 131 is disposed in the groove 1221 to fix the soft protection cover 13 on the second top bar 122, which is not described herein again.

Referring to fig. 5, the handheld portion 11 includes a connecting column 111 and a positioning member, the positioning member is a baffle 112, one end of the connecting column 111 is connected to or integrally formed with the pressure measuring portion 12, and an opposite end of the connecting column 111 is connected to or integrally formed with the baffle 112.

Specifically, opposite ends of the baffle 112 extend out of the connecting column 111 by a preset length d (as shown in fig. 5), and opposite ends of the baffle 112 are inclined toward the connecting column 111 by a preset angle r (as shown in fig. 5).

Specifically, the opposite ends of the baffle 112 are contact portions 1121, the preset length d of the contact portions 1121 may be 30mm to 90mm, and the contact portions 1121 are inclined toward each other by a preset angle, that is, the preset angle r at which the opposite ends of the baffle 112 are inclined toward the connecting column 111 may be 10 ° to 30 °. Through setting up baffle 112, the relative both ends of baffle 112 extend for spliced pole 111 and preset length, convenience of customers's snatching fixedly. Of course, the preset length d and the preset angle r may be other values as long as the contact portion 1121 extends relative to the connection post 111, and two ends of the contact portion 1121 are inclined toward each other, which is not limited herein.

Further, referring to fig. 6 and 7, when the user grasps the hand-held portion 11 to place the pressure measuring portion 12 into the vagina p, when the contact parts 1121 are inclined toward each other by a predetermined angle, so as to grasp the hand-held part 11 and continuously push the pressure measuring part 12 into the vagina p (as shown in the direction b in fig. 7), until the contact portion 1121 is contacted with the external skin (as shown in fig. 7), the pushing is stopped, so that the pressure measuring portion 12 is placed at a predetermined position in the vagina, so that the pressing part 12 is stopped after the contact part 1121 of the baffle 112 is brought into contact with the external skin every time the pressing part 12 is pushed into the vagina p, so that the position of the pressure measuring part 12 in the vagina p is the same every time, the pressure measuring part 12 can perform pressure detection on the same position when the pelvic floor muscle is trained every time, and the accuracy of the pressure detection is improved. Furthermore, the user can place the pressure measuring part 12 in the vagina p with the same depth every time without detecting the accurate size, so that the detection process of the user is reduced, and the use of the user is facilitated.

It can be understood that, in the portable pelvic floor muscle training device 1, the user can customize the lengths of the connecting columns 111 according to the needs, and since the positions of the pelvic floor muscles vary from person to person, the user can customize the connecting columns 111 with different lengths according to the needs to meet the needs of different users.

Referring to fig. 8, a pressure detecting method of a pelvic floor muscle training device for providing a portable pelvic floor muscle training device to detect the contraction pressure of pelvic floor muscles according to a second embodiment of the present invention includes the following steps:

step S1: acquiring first pressure of pelvic floor muscles in a relaxed state based on a portable pelvic floor muscle training device;

step S2: acquiring a second pressure of the pelvic floor muscle in a contraction state based on the portable pelvic floor muscle training device;

step S3: calculating a difference value between the second pressure and the first pressure, and matching the difference value with a preset threshold value to judge different grades of pelvic floor muscles; and

step S4: and matching corresponding training methods based on different grades of pelvic floor muscles.

It can be understood that the relaxation state in step S1 is a state in which the user is relaxed when detecting the pressure of the pelvic floor muscles, that is, the user does not actively contract the pelvic floor muscles, so that the pelvic floor muscles are in a natural relaxation state.

It can be understood that, in steps S1 and S2, a positioning element is provided on the portable pelvic floor muscle training device, and during the use of the portable pelvic floor muscle training device, the positioning element is used to detect the first pressure and the second pressure of the pelvic floor muscle at the same position, so as to reduce the error caused by the difference of the positions of the two detections, and improve the accuracy of the pressure detection.

Further, in steps S1 and S2, the first pressure and the second pressure are detected when the user is in the same posture, that is, the relaxed state and the contracted state are detected based on the user being in the same posture, for example, the corresponding first pressure and second pressure in the relaxed state and the contracted state can be detected at the same time when the user is sitting (or lying on the back). The error caused by different pressures due to different contraction states of pelvic floor muscles under different postures is avoided.

It can be understood that, in step S3, by calculating the difference between the second pressure and the first pressure to obtain the systolic pressure of the pelvic floor muscle, the error of the calculation of the systolic pressure by the pressure of the pelvic floor muscle in the relaxed state is reduced, and the accuracy of the pressure detection is improved.

It is to be understood that, in step S3, the preset threshold includes: greater than or equal to 70g/cm²The grade is excellent; greater than or equal to 50g/cm²And less than 70g/cm²The grade is good; greater than or equal to 40g/cm²And less than 50g/cm²In the grade; greater than or equal to 30g/cm²And less than 40g/cm²Poor grade; greater than or equal to 10g/cm²And less than 30g/cm²The difference in level; less than 10g/cm²The grade was very poor. Through the difference of second pressure and first pressure matches with above-mentioned preset threshold value in order to grade the systolic pressure of pelvic floor muscle for the user can look over and have more audio-visual muscle strength evaluation, also is convenient for external equipment to carry out pelvic floor muscle training recommendation to the grade of different systolic pressures simultaneously. Of course, the preset threshold value can be set to other values as wellThis will not be described in detail.

It can be understood that, in step S4, after the difference between the second pressure and the first pressure is obtained through detection in step S3 to obtain the grade of the pelvic floor muscle, the corresponding training method can be matched based on the grade, and the pelvic floor muscle can be trained specifically through the matched training method, so that the training efficiency of the pelvic floor muscle is improved, and the rehabilitation speed of the pelvic floor muscle is accelerated. For example, in the present embodiment, the training method may be to detect a single pelvic floor muscle full-force contraction training to train the contraction strength of the pelvic floor muscle. For example, another training method can be to measure the pressure and contraction duration of each full force contraction training to train the endurance of the pelvic floor muscles under different contraction forces. Of course, the training method may also be set as other training methods based on the detected pressure, and the user may gradually train the pelvic floor muscles to improve the training efficiency through a plurality of different training methods, for example, training methods with different levels of difficulty.

It can be understood that, in step S4, when the pelvic floor muscle pressure is detected in step S3 each time, the difference between the second pressure and the first pressure is obtained through detection to obtain an accurate pelvic floor muscle health level, so as to match an accurate training method, so that the user can accurately obtain the current pelvic floor muscle health state in a single detection of the pelvic floor muscle health level or in the whole pelvic floor muscle rehabilitation course, and further match the accurate training method, thereby improving the efficiency of the training of the pelvic floor muscles and shortening the rehabilitation time of the training of the pelvic floor muscles.

It can be understood that the method for detecting pressure of pelvic floor muscle training device according to the second embodiment of the present invention is particularly suitable for detecting systolic pressure of pelvic floor muscle in female vagina, and the method reduces error of calculating systolic pressure from pressure of pelvic floor muscle in a relaxed state by detecting a difference between the first pressure and the second pressure of the pelvic floor muscle in a relaxed state and in a systolic state, respectively, and improves accuracy of pressure detection.

Referring to fig. 9, a pelvic floor muscle pressure detecting system for implementing the pressure detecting method of the pelvic floor muscle training apparatus according to a third embodiment of the present invention may include:

a first pressure obtaining unit 100 for obtaining a first pressure of the pelvic floor muscle in a relaxed state based on the portable pelvic floor muscle training apparatus;

a second pressure obtaining unit 200 for obtaining a second pressure of the pelvic floor muscle in a contracted state based on the portable pelvic floor muscle training device;

a difference calculation unit 300 for calculating a difference between the second pressure and the first pressure, and determining different grades of pelvic floor muscles based on matching the difference with a preset threshold; and

and the training matching unit 400 is used for matching the corresponding training method based on different grades of the pelvic floor muscles.

It can be understood that the first pressure obtaining unit 100 and the second pressure obtaining unit 200 detect the pressure of the pelvic floor muscle at the same position, so as to reduce the error caused by the position difference between the two detections, and improve the accuracy of the pressure detection.

Specifically, the pelvic floor muscle pressure detection system provided by the third embodiment of the invention is particularly suitable for a systolic pressure detection system of pelvic floor muscles in female vaginas, and the system reduces errors of pressure-to-systolic pressure calculation of the pelvic floor muscles in a relaxed state and improves accuracy of pressure detection by detecting differences of first pressure and second pressure of the pelvic floor muscles in a relaxed state and a systolic state respectively.

Compared with the prior art, the portable pelvic floor muscle training device, the pressure detection method and the pressure detection system of the pelvic floor muscle training device have the following advantages:

1. through acquireing the pelvic floor muscle and being in the first pressure under the state of releiving to acquire the pelvic floor muscle and be in the second pressure under the contraction state, calculate the difference of second pressure and first pressure, and based on the difference matches with the predetermined threshold value, with the different grades of judgement pelvic floor muscle, through detecting the pelvic floor muscle adjacent twice and be in the difference of the first pressure under state of releiving and the second pressure under the contraction state respectively, reduced the pelvic floor muscle and be in the error of pressure under the state of releiving to the contraction pressure calculation, improved pressure detection's the degree of accuracy.

2. The accurate pelvic floor muscle health level is obtained by detecting the difference value between the second pressure and the first pressure, so that the accurate training method is matched, a user can accurately obtain the current pelvic floor muscle health state in a single pelvic floor muscle health level detection or the whole pelvic floor muscle rehabilitation treatment course, the accurate training method is matched, the pelvic floor muscle training efficiency is improved, and the pelvic floor muscle training recovery time is shortened.

3. Based on the setting element to detect pelvic floor muscle in the same position first pressure with the second pressure, with the error that the position difference that reduces twice detection brought, improve pressure detection's the degree of accuracy.

4. The pelvic floor muscle training recommendation method has the advantages that the pelvic floor muscle training recommendation method is matched through the preset threshold value to grade the contraction pressure of the pelvic floor muscles, so that a user can check the muscle force evaluation more visually, meanwhile, the training recommendation of the pelvic floor muscles is also facilitated for external equipment to the grades of different contraction pressures, and the use experience of the user is improved.

5. By arranging the first ejector rod, the second ejector rod and the pressure sensing module, the first ejector rod is close to the second ejector rod after being pressed so as to extrude the pressure sensing module, the pressure sensing module senses the pressure of the first ejector rod, so that the first ejector rod can detect the muscle contraction pressure in any direction, and meanwhile, the pressure sensing module is extruded by the rotation of the first ejector rod, so that the portable pelvic floor muscle training device provided by the invention can detect the muscle contraction pressure in any direction in the pelvic floor muscle only by arranging the pressure sensing module to be matched with the first ejector rod, the production cost is reduced, and the device structure is simpler.

6. The pressure sensing module comprises a pressure sensor and a main control unit, and the pressure sensor is electrically connected with the main control unit; pressure sensor with first ejector pin one end contact to respond to the pressure that first ejector pin received, pressure sensor with the numerical value of response send to the main control unit, the main control unit will numerical value converts pressure into, and calculates the difference of adjacent twice pressure, and will the difference transmits to external equipment, makes the signal change that pressure sensor pressurized deformation detected converts the pressure value into through the main control unit, and transmits to external equipment through the main control unit for specific pressure value is received to portable pelvic floor muscle trainer accessible external equipment, and it is more convenient to use.

7. Through setting up the baffle makes portable pelvic floor muscle trainer when putting into the vagina, convenience of customers snatchs in order to control portable pelvic floor muscle trainer promotes, prevents when portable pelvic floor muscle trainer lacks the baffle unexpected entering the problem of inconvenient taking out in the vagina. Furthermore, the pressure measuring part is stopped after the baffle is contacted with the external skin, so that the position of the pressure measuring part which is put into the vagina every time is the same, the pressure measuring part is ensured to carry out pressure detection on the same position when the pelvic floor muscle is trained every time, and the accuracy of the pressure detection is improved. Furthermore, the user can place the pressure measuring part in the depth of the vagina without measuring the accurate size, so that the measuring process of the user is reduced, and the use of the user is facilitated.

8. Through the relative both ends of baffle for the spliced pole extends preset length, convenience of customers snatchs fixedly, simultaneously, the baffle both ends to the spliced pole direction slope predetermines the angle, makes the baffle can realize that the single-point touching can accomplish the location that gets into the vagina position to the splenium of surveying based on the structure of slope and outside skin, improves the degree of accuracy of location, makes survey splenium can carry out pressure detection to same position, further improves pressure detection's the degree of accuracy.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent alterations and improvements made within the spirit of the present invention should be included in the scope of the present invention.

Claims (8)

1. A pressure detection method of a pelvic floor muscle training device is used for detecting the contraction pressure of pelvic floor muscles based on a portable pelvic floor muscle training device and is characterized in that: the portable pelvic floor muscle training device comprises a positioning plate, and the pressure detection method of the pelvic floor muscle training device comprises the following steps: step S1: acquiring first pressure of pelvic floor muscles in a relaxed state based on a portable pelvic floor muscle training device; step S2: acquiring a second pressure of the pelvic floor muscle in a contraction state based on the portable pelvic floor muscle training device; and step S3: calculating the difference between the second pressure and the first pressure, and based on the difference is matched with a preset threshold value to judge different grades of the pelvic floor muscles, in the use process of the portable pelvic floor muscle training device, through the arrangement of the positioning plate, the first pressure and the second pressure of the pelvic floor muscles at the same position can be detected.

2. The pressure detection method of the pelvic floor muscle training apparatus as set forth in claim 1, wherein: the preset threshold in step S3 includes: greater than or equal to 70g/cm²The grade is excellent; greater than or equal to 50g/cm²And less than 70g/cm²The grade is good; greater than or equal to 40g/cm2 and less than 50g/cm²In the grade; greater than or equal to 30g/cm²And less than 40g/cm²Poor grade; greater than or equal to 10g/cm²And less than 30g/cm²The difference in level; less than 10g/cm²The grade was very poor.

3. The pressure detection method of the pelvic floor muscle training apparatus as set forth in claim 1, wherein: step S3 is followed by: step S4: and matching corresponding training methods based on different grades of pelvic floor muscles.

4. A pelvic floor muscle pressure detection system which characterized in that: the method comprises the following steps: the portable pelvic floor muscle training device comprises a first pressure acquisition unit, a second pressure acquisition unit and a control unit, wherein the first pressure acquisition unit is used for acquiring first pressure of pelvic floor muscles in a relaxing state based on the portable pelvic floor muscle training device; the second pressure acquisition unit is used for acquiring second pressure of the pelvic floor muscles in a contraction state based on the portable pelvic floor muscle training device; the difference value calculating unit is used for calculating the difference value between the second pressure and the first pressure and judging different grades of the pelvic floor muscles based on the matching of the difference value and a preset threshold value; the training matching unit is used for matching the corresponding training method based on different grades of pelvic floor muscles; the first pressure acquisition unit and the second pressure acquisition unit detect the pressure of the pelvic floor muscles at the same position based on the portable pelvic floor muscle training device.

5. A portable pelvic floor muscle training device for placement in a woman's vagina to detect the systolic pressure of pelvic floor muscles, characterized in that: including survey splenium and handheld portion, handheld portion includes the locating plate, survey the splenium and be spherical structure or quasi-spherical structure, survey the splenium and be used for detecting pelvic floor muscle different pressure under different states, in portable pelvic floor muscle trainer use, through the setting of locating plate can detect pelvic floor muscle first pressure and second pressure on same position, calculates the difference of second pressure and first pressure, and based on the difference matches with the predetermined threshold value to judge the different grades of pelvic floor muscle.

6. The portable pelvic floor muscle training device of claim 5, wherein: the pressure measuring part comprises a first ejector rod, a second ejector rod and a pressure sensing module; the first ejector rod and the second ejector rod are arranged oppositely, the first ejector rod and the second ejector rod are of hemispherical structures, an accommodating space is formed between the second ejector rod and the first ejector rod, the pressure sensing module is located in the accommodating space, and one end of the first ejector rod is in contact with the pressure sensing module; the first ejector rod can be close to or far away from the second ejector rod, the first ejector rod is close to the second ejector rod after being pressed so as to extrude the pressure sensing module, and the pressure sensing module senses the pressure of the first ejector rod.

7. The portable pelvic floor muscle training device of claim 6, wherein: the pressure sensing module comprises a pressure sensor and a main control unit, and the pressure sensor is electrically connected with the main control unit; the pressure sensor contacts with first ejector pin one end to the pressure that first ejector pin received of response, pressure sensor sends the numerical value of response each time to the main control unit, the main control unit will numerical value converts pressure into, and calculates the difference of adjacent twice pressure, and will the difference is transmitted to external equipment.

8. The portable pelvic floor muscle training device of claim 6, wherein: the portable pelvic floor muscle training device further comprises a connecting column and a positioning piece, the positioning piece is a baffle, one end of the connecting column is connected with or integrally formed with the second ejector rod, and the opposite end of the connecting column is connected with or integrally formed with the baffle; the two opposite ends of the baffle extend out of a preset length relative to the connecting column, and the two ends of the baffle are inclined towards the direction of the connecting column by a preset angle.

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