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Fascia gun capable of sensing excitation intensity

A technology of fascia gun and excitation, which is applied in vibration massage, massage auxiliary products, elastic deformation gauge fluid pressure measurement, etc. It can solve the problems of unidentified muscles, uncontrollable strength, and risk of injury, so as to improve flexibility. Resilience, easy storage, and effect-enhancing effects

Pending Publication Date: 2022-01-04
HEFEI UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] According to different usage requirements, it is generally necessary to adjust the vibration amplitude of the fascia gun. The fascia gun in the prior art lacks some interaction of use information, and the user can only adjust the vibration intensity of the fascia gun based on his own feeling. , because the user cannot obtain real-time information when the fascia gun is in use, which is not conducive to the user's effective control of the excitation intensity of the fascia gun, and there is a potential risk of injury during its work, especially in the existing technology, The fascia gun cannot recognize the impact force on the massaged part during the work process, there is a potential risk of injury during the work, the force is uncontrollable, and the appropriate time for the fascia gun to work cannot be determined, and it is impossible to determine whether the muscles are fatigued
When relying on other people's assisted exercise rehabilitation, the person holding the fascia gun cannot quantitatively obtain the impact force of the massaged person, and cannot effectively achieve the exercise effect

Method used

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  • Fascia gun capable of sensing excitation intensity
  • Fascia gun capable of sensing excitation intensity
  • Fascia gun capable of sensing excitation intensity

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0051] see Figure 1 to Figure 3As shown, a fascia gun capable of sensing the intensity of excitation includes a body 10 , an excitation head 20 , a driving unit, a floating unit 31 , an elastic unit, a detection unit, a data processing unit and a display module 40 .

[0052] The excitation head 20 is mounted on one end of the body 10, and is movably connected with the body 10 along a predetermined direction; the driving unit is installed in the body 10, and connected to the vibration head 20, the The driving unit is used to drive the vibration head 20 to reciprocate and vibrate along the preset direction; the floating unit 31 is movably connected to the body 10 along the preset direction; the elastic unit is connected to the floating unit 31 and the body Between 10, the elastic unit is assembled so that the elastic force acting on the floating unit 31 can drive the floating unit 31 away from the body 10 along the preset direction; the detection unit is installed on the body 1...

Embodiment 2

[0080] see Figure 4 , 5 As shown, this embodiment has the same body 10, vibration head 20, drive unit, floating unit 31, detection unit, data processing unit and display module as in Embodiment 1. The difference between this embodiment and Embodiment 1 is only in the flexibility The units are arranged differently, as follows:

[0081] The floating unit 31 is annular, and the airbag includes at least three bellows 33 arranged at intervals along the circumference of the floating unit 31 , one end of the bellows 33 is in sealing connection with the floating unit 31 , and the other end is connected with the body 10 . The provided flange 13 seals the connection. As a better option, four bellows 33 can be evenly spaced along the circumference of the floating unit 31 to ensure uniform force and good stability during pressing.

[0082] In this embodiment, four independent bellows 33 arranged in the circumferential direction are used to form four independent cylindrical airbags. Th...

Embodiment 3

[0086] Such as Figure 9 As shown, this embodiment adds a force sensor on the basis of embodiment 1 or embodiment 2. In a specific example of the present invention, the force sensor includes a deformation unit 51 connected to the excitation head 20, and Attached to the strain gauge 52 on the deformation unit 51, the strain gauge 52 is a resistance strain gauge, and the other end of the deformation unit 51 is connected to the power output part of the drive unit. Specifically, the deformation unit 51 is provided with a Connect the connecting seat 53 of the drive unit, when the excitation head 20 presses the limb tissue, the deformation unit 51 can be deformed, and the strain gauge 52 is stretched, so that the resistance changes, so as to detect the pressure of the excitation head 20 Variety.

[0087] The present invention obtains the impact force in the high-speed vibration of the fascia gun by installing a detection unit between the vibrating head 20 and the driving unit, and ...

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Abstract

The invention relates to the technical field of fitness rehabilitation auxiliary instruments, in particular to a fascia gun capable of sensing an excitation intensity. The fascia gun comprises a machine body, an excitation head, a driving unit, a floating unit and an elastic unit; the excitation head is arranged at one end of the machine body and movably connected with the machine body along a preset direction; the driving unit is arranged in the machine body, connected to the excitation head and used for driving the excitation head to vibrate in a reciprocating mode along a preset direction; the floating unit is movably connected with the machine body along a preset direction; and the elastic unit is connected between the floating unit and the machine body, and assembled in a mode that an elastic force, acting on the floating unit, of the elastic unit can drive the floating unit to be away from the machine body along a preset direction. A pressing depth of the fascia gun is quantified through displacement of the floating unit, such that a user can conveniently control an amplitude and a force of the fascia gun.

Description

technical field [0001] The invention relates to the technical field of fitness and rehabilitation auxiliary equipment, in particular to a fascia gun capable of sensing the intensity of excitation. Background technique [0002] The fascia gun is a kind of sports massage equipment for external use. It uses high-frequency vibration perpendicular to the force of the muscles to relieve the tense muscle fascia, thereby reducing local tissue tension, relieving pain, and promoting blood circulation. . The fascia gun can help improve the pain symptoms of patients with fasciitis, and the vibration frequency is stable, which can promote the recovery of muscles and soft tissues. [0003] According to different usage requirements, it is generally necessary to adjust the vibration amplitude of the fascia gun. The fascia gun in the prior art lacks some interaction of use information, and the user can only adjust the vibration intensity of the fascia gun based on his own feeling. , becaus...

Claims

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Application Information

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IPC IPC(8): A61H23/02G01H17/00G01L1/04G01L7/06
CPCA61H23/02G01H17/00G01L1/04G01L7/06
Inventor 王勇杨宇晨穆景颂陈恩伟刘正士
Owner HEFEI UNIV OF TECH
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