KR100944713B1 - Extracorporeal shockwave therapy device - Google Patents

Abstract

PURPOSE: An extracorporeal shockwave therapy device is provided to reduce manufacturing costs and volume by generating a shockwave through collision between a mover and a shockwave generator. CONSTITUTION: A mover(23) moves with a solenoid(21). A shockwave generator(41) generates a shockwave by the mover. A housing(20) is received inside an external case and receives the solenoid, the mover, and an elastic unit(25). The mover directly collides with the shockwave generator to generate the shockwave. The elastic unit is arranged between the mover and the shockwave generator to return to an initial position. A buffer unit buffers the noise and impact by the contact between the mover and the elastic unit.

Description

Extracorporeal shockwave therapy device

The present invention relates to an extracorporeal shock wave therapy device, and more particularly, to an extracorporeal shock wave therapy device capable of generating a shock wave using a solenoid.

In general, extracorporeal shock wave therapy is a temporary treatment of the lesion site by repeatedly transmitting the shock wave into the body by contacting the shock wave treatment device with a painful treatment site such as a degenerative lesion of the musculoskeletal system, a rupture of the ligament, or lime formation around the joint. It is a therapy that promotes the healing of lesion tissue by causing microdamage, inducing the production of new blood vessels and increasing blood flow.

The extracorporeal shock wave therapy device used in the shock wave therapy includes a method using a shock wave generated when a high voltage is briefly discharged, and a collision energy using compressed air.

However, a device using a high voltage has a disadvantage in that the manufacturing cost is high because the components used to construct the circuit are about 25000V, and the imported components are expensive imported parts.

In addition, the equipment using the compressed air is heavy and bulky, the noise of the compressor operating for the production of compressed air is high, and a large number of pneumatic regulators and switches are required to control the intensity of impact energy. Is increased.

Therefore, the present invention is to solve the above object, an object of the present invention is to provide an extracorporeal shock wave therapy device that can reduce the manufacturing cost and volume.

The extracorporeal shock wave treatment device according to the present invention is characterized by including a solenoid, an exerciser moving by the solenoid, and a shock wave generating unit generating a shock wave by the movement of the exerciser.

The exerciser is characterized in that the impact is generated by directly impacting the shock wave generating portion by the solenoid.

An elastic member for returning the exerciser to the initial position is disposed between the exerciser and the shock wave generator.

The exerciser is characterized in that the cushioning member for noise prevention and shock relaxation when the exerciser and the elastic member contact.

The buffer member is installed on the outer surface of the exerciser is characterized in that the O-ring member in contact with the elastic member.

The shock absorbing member is characterized in that the silicon pad is fitted to the exerciser disposed behind the solenoid.

At the rear of the exerciser is provided with another cushioning member for shock relaxation when the athlete's retreat,

The other cushioning member is characterized in that the elastic member or rubber cushion.

The extracorporeal shock wave treatment device further includes an outer case forming an external appearance,

Inside the outer case is characterized in that the housing is provided with the solenoid, the exerciser and the elastic member.

The housing is coupled to the cap housing the shock wave generation unit,

The cap is characterized in that it protrudes to the outside of the outer case.

The side or rear of the housing is characterized in that the heat radiation fan is installed.

The extracorporeal shock wave treatment device according to the present invention includes a solenoid, an exerciser reciprocated by the solenoid, and a piston disposed in front of the solenoid and the exerciser and moved to generate compressed air by the movement of the exerciser. It characterized in that it comprises a compression chamber, a moving body connected to the compression chamber and moved by the compressed air generated by the piston, and a shock wave generating unit that collides with the moving body to generate shock waves.

The extracorporeal shock wave treatment device according to the present invention described above has a solenoid and an exerciser reciprocated by the solenoid, so that the shock wave is generated by directly or indirectly colliding the exerciser with the shock wave generating unit, and thus it can be manufactured at low cost. There is an effect to reduce.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

One embodiment of the extracorporeal shock wave treatment device according to the present invention has an outer case 10 formed in the shape of a gun (Gun) as shown in FIG. The outer case 10 is provided with a switch member for the user to operate the extracorporeal shock wave therapy device.

In addition, as shown in FIGS. 2 and 3, the outer case 10 accommodates the housing 20 and the cap 40 coupled to the housing 20 to protrude outward from the outer case 10. . The housing 20 houses a solenoid 21 and a mover 23 reciprocated by the solenoid 21. The cap 40 is accommodated with a shock wave generator 41 that collides with the operator 23 to generate a shock wave.

The solenoid 21 is formed in a cylindrical shape having a hollow, and has a structure in which a plurality of coils are wound. The mover 23 is inserted into the hollow of the solenoid 21 to be reciprocated in the interior of the solenoid 21 when power is applied to the solenoid 21.

Specifically, between the exerciser 23 and the shock wave generator 41, in front of the exerciser 23 in the solenoid 21, an elastic member 25 for returning the exerciser 23, which is reciprocated, to an initial position is provided. Is placed. One side of the elastic member 25 is provided with a stopper 33 to prevent the flow of the elastic member 25 when the supporter 23 elastically supports.

The exerciser 23 is provided with shock absorbing members 27 and 28 for noise prevention and shock mitigation when the exerciser 23 and the elastic member 25 contact. The buffer member 28 may be an O-ring member installed on the outer surface of the exerciser 23 as shown in FIG. 4 to directly contact the elastic member 25. In addition, since the shock absorbing member 27 may be worn when the elastic member 25 directly contacts as described above, the shock absorbing member 27 is fitted to the outer surface of the exerciser 23 as shown in FIG. 3, but is disposed behind the solenoid 21. The silicon pad may be disposed.

At the rear end of the mover 23 in the housing 20, noise generated between the mover 23 reciprocated by the solenoid 21 and the rear surface of the housing 20, as shown in FIGS. A separate shock absorbing member 29 for reducing is installed. This separate buffer member 29 may be a rubber cushion or elastic member.

In addition, heat dissipation fans 31 and 32 are installed on the side or rear of the housing 20 to dissipate heat generated when power is applied to the solenoid 21.

Meanwhile, as shown in FIGS. 5 and 6, this embodiment of the extracorporeal shock wave treatment device is disposed in front of the solenoid 21 and the exerciser 23 and moves to generate compressed air by the movement of the exerciser 23. Compression chamber 130 is accommodated by the piston 131 and the elastic member 133 to elastically support the piston 131, the compression chamber 130 is connected by the connecting tube 141 by the piston 131 The moving body 140 may be further moved by the generated compressed air.

At this time, the back of the piston 131 is provided with a silicon pad to prevent the noise generated between the piston 131 and the solenoid 21 during the reciprocating movement of the piston 131, the front of the moving body 141 The return member 143 is provided so that 141 may return to the original position when the shock wave generator 41 shocks. Here, reference numeral 145 denotes a magnet for preventing the moving object from falling by gravity when the extracorporeal shock wave therapy device is disposed downward. In addition, the same code | symbol is attached | subjected about the part same as an Example.

That is, in this embodiment of the extracorporeal shock wave treatment device, the exerciser 23 reciprocates by the solenoid 21, and the movement of the exerciser 23 is transmitted to the piston 131 to transmit the piston 131. Compression is repeated in the compression chamber 130. In addition, the compressed air generated by the piston 131 reciprocates the moving body 141 to the shock wave generator 41 to generate shock waves.

Accordingly, in the present invention, the solenoid 21 reciprocates the mover 23, and the reciprocating movement of the mover 23 directly impacts the shock wave generator 41 or moves the mover 141 to move the mover ( 141 to impact the shock wave generator 41.

Accordingly, in the present invention, unlike the prior art using compressed air or a high voltage method, by moving the exerciser 23 using the solenoid 21, the manufacturing cost can be reduced and the volume of the device can be reduced.

1 is a perspective view showing an extracorporeal shock wave therapy device according to the present invention.

FIG. 2 is an exploded perspective view showing the extracorporeal shock wave therapy device shown in FIG. 1.

3 and 4 are cross-sectional views showing an embodiment of the extracorporeal shock wave therapy device shown in FIG.

5 and 6 are cross-sectional views showing this embodiment of the extracorporeal shock wave treatment device shown in FIG.

<Description of Signs of Major Parts of Drawings>

10: outer case 20: housing

21: solenoid 23: exerciser

25: elastic member 27, 28: buffer member

29: other buffer member 31, 32: heat dissipation fan

40: cap 41: shock wave generating unit

130: compression chamber 131: piston

133: elastic member 141: moving body

Claims (11)

A housing provided to accommodate the solenoid, the exerciser and the elastic member inside the outer case, a solenoid, an exerciser moved by the solenoid, a shock wave generating unit generating a shock wave by the movement of the exerciser, an outer case forming an exterior, and an inside of the outer case; Including, The exerciser is provided to generate a shock wave by directly colliding with the shock wave generator when power is applied to the solenoid, an elastic member for returning the exerciser to the initial position is disposed between the exerciser and the shock wave generator, The exerciser is provided with a cushioning member for mitigating the noise and impact caused by the contact of the exerciser and the elastic member or the noise and impact caused by the contact of the exerciser and the housing, The shock absorbing member is provided on the outer surface of the exerciser to be in contact with the elastic member, the O-ring member is fitted to the exerciser disposed on the rear of the solenoid, and other provided separately from the elastic member in the rear of the exerciser At least one of an elastic member and a rubber cushion disposed in the rear of the exerciser, Extracorporeal shock wave therapy device, characterized in that the heat radiation fan is installed on the side or rear of the housing. delete delete delete delete delete delete delete delete delete delete

Images