A Kegel trainer includes a frame, two tensioning plates provided at an end of the frame, and a rubber cover sleeved outside the frame and the two tensioning plates. The tensioning plates are provided with arc-shaped warped portions. The two tensioning plates are provided therebetween with a separating chamber. The separating chamber is provided therein with a slidable adjusting mechanism. The adjusting mechanism includes a retaining plate assembly. The retaining plate assembly is provided with a fixed hollow tube assembly. The fixed hollow tube assembly is provided with a slide hole. The slide hole is provided therein with a movable ejector pin. The ejector pin is provided with a compressed spring. The frame is provided with a rack, a battery, a vibration machine, and a circuit board. The circuit board is provided with a switch, a charging port, and an indicator light.

An intra vaginal device (10) including an elongated hollow body (11) with side wall portions (15, 16 and 24). Secured to each wall portion (15 and 24) is a sensor (19), while secured to the wall portion (16) is a sensor (20). The sensors (19) simply measure forces directly applied by the bi-lateral contraction of the pubococcygeus, while the sensor (20) provides an indication of the puborectalis contraction forces.

An intra vaginal device (10) including an elongated hollow body (11) with side wall portions (15, 16 and 24). Secured to each wall portion (15 and 24) is a sensor (19), while secured to the wall portion (16) is a sensor (20). The sensors (19) simply measure forces directly applied by the bi-lateral contraction of the pubococcygeus, while the sensor (20) provides an indication of the puborectalis contraction forces.

Devices such as medical devices, including those for use in conducting pelvic muscle exercise, are generally provided. Embodiments herein relate generally to the medical device and consumer medical product fields, and in some embodiments, to a device for sensing, guiding, and/or tracking pelvic muscle exercise in men and women for the purpose of treating urinary incontinence, sexual dysfunction, and other pelvic conditions.

Devices such as medical devices, including those for use in conducting pelvic muscle exercise, are generally provided. Embodiments herein relate generally to the medical device and consumer medical product fields, and in some embodiments, to a device for sensing, guiding, and/or tracking pelvic muscle exercise in men and women for the purpose of treating urinary incontinence, sexual dysfunction, and other pelvic conditions.

A muscle training apparatus with muscle strength detecting function includes a first supporting shell, a plurality of membrane pressure-sensing units, an arithmetic processing unit and an elastic covering unit. The first support shell is spherical and has a first outer surface and a first containing space. The membrane pressure-sensing unit is disposed on the first outer surface of the first support shell. The arithmetic processing unit is disposed in the first containing space and electrically connected to the membrane pressure-sensing unit. The elastic covering unit covers the first support shell.

A muscle training apparatus with muscle strength detecting function includes a first supporting shell, a plurality of membrane pressure-sensing units, an arithmetic processing unit and an elastic covering unit. The first support shell is spherical and has a first outer surface and a first containing space. The membrane pressure-sensing unit is disposed on the first outer surface of the first support shell. The arithmetic processing unit is disposed in the first containing space and electrically connected to the membrane pressure-sensing unit. The elastic covering unit covers the first support shell.

A muscle training apparatus capable of generating a force is disclosed. The muscle training apparatus includes a second support shell, a force-generating unit and an elastic covering unit. The second support shell is spherical and has a second containing space. The force-generating unit is disposed and fixed in the second containing space of the second supporting shell for generating a force. The elastic covering unit covers the second support shell to have a soft surface. The muscle training device can generate a force in a specific direction and intensity by the force-generating unit.

A muscle training apparatus capable of generating a force is disclosed. The muscle training apparatus includes a second support shell, a force-generating unit and an elastic covering unit. The second support shell is spherical and has a second containing space. The force-generating unit is disposed and fixed in the second containing space of the second supporting shell for generating a force. The elastic covering unit covers the second support shell to have a soft surface. The muscle training device can generate a force in a specific direction and intensity by the force-generating unit.

A perineometer and method for use of the same are disclosed. In one embodiment of the perineometer, an elongated shaft having an external surface portion is receivable within a pelvic cavity. A sleeve is positioned lengthwise and circumferentially proximate the external surface portion. A haptic actuator having processing that separates amplitude from frequency, in response to receiving a haptic signal from a processor, generates vibrations via actuatable elements integrated into the sleeve. A sensor sensing external pressure forces at the sleeve drives a feedback signal based on the sensed external pressure forces. The haptic signal may be based on a manual signal from a manual actuator and the feedback signal.