KR20110009234U - Extracorporeal Radial Shockwave Medical Device of Stored Pressure - Google Patents

Abstract

The present invention relates to an extracorporeal shock wave treatment device, and more particularly, to a therapeutic apparatus for effectively treating biological tissues of a specific human body by generating mechanical shock waves from the outside of the human body.
In general, the extracorporeal shock wave therapy device is used to increase the therapeutic effect not only in the case of fracture, nerve compression symptoms, tendon-related diseases, but also in the case of dental support organ disease using pressure waves or shock waves.
The present invention relates to an extracorporeal shock wave therapy device that effectively delivers shock wave energy to an affected area. More specifically, compressed air contained in a predetermined accommodating space is instantaneously ejected into a discharge part by valve control, and a projectile is operated by using the same. The present invention relates to an extracorporeal shock wave therapy device capable of generating shock wave energy by colliding with a carrier at a predetermined number of times, and controlling the magnitude of the shock wave energy by controlling the received air pressure and the number of times in the receptor.
To this end, the present invention provides a housing in which a predetermined accommodation space is formed, a projectile housed in the housing so as to be fired forward according to the discharge pressure of the compressed air, a discharge unit coupled to the rear of the housing to discharge the compressed air to the projectile; It is fixed to the front of the housing and comprises a transmission for transmitting the shock wave generated by the collision with the projectile to the outside
The air in the accommodation space is compressed and stored using an air compressor, and the pressure of the stored compressed air is controlled by a regulator to control the shock wave energy and to adjust the number of times of use of the electromagnetic valve.

Description

Extracorporeal Radial Shockwave Medical Device of Stored Pressure

The present invention relates to an extracorporeal shock wave therapy device that effectively delivers shock wave energy to an affected area. More specifically, compressed air contained in a predetermined accommodation space is ejected to the discharge part instantaneously by a valve control, and the projectile operates by using the same. The present invention relates to an in vitro shock wave treatment device that can generate shock wave energy by colliding with a carrier at a predetermined number of times, and controlling the magnitude of the shock wave energy by controlling the received air pressure and the number of times in the receptor.

The present invention relates to an extracorporeal shock wave treatment device, and more particularly, to a therapeutic apparatus for effectively treating biological tissues of a specific human body by generating mechanical shock waves from the outside of the human body.

In general, the extracorporeal shock wave therapy device is used to increase the therapeutic effect not only in the case of fracture, nerve compression symptoms, tendon-related diseases, but also in the case of dental support organ disease using pressure waves or shock waves.

The present invention relates to an extracorporeal shock wave therapy device that effectively delivers shock wave energy to an affected area. More specifically, compressed air contained in a predetermined accommodating space is instantaneously ejected into a discharge part by valve control, and a projectile is operated by using the same. The present invention relates to an extracorporeal shock wave therapy device capable of generating shock wave energy by colliding with a carrier at a predetermined number of times, and controlling the magnitude of the shock wave energy by controlling the received air pressure and the number of times in the receptor.

To this end, the present invention provides a housing in which a predetermined accommodation space is formed, a projectile housed in the housing to be fired forward according to the discharge pressure of the compressed air, a discharge unit coupled to the rear of the housing to discharge the compressed air to the projectile, It is fixed to the front of the housing and comprises a transmission for transmitting the shock wave generated by the collision with the projectile to the outside

The air in the accommodation space is compressed and stored using an air compressor, and the pressure of the stored compressed air is controlled by a regulator to control the shock wave energy and to adjust the number of times of use of the electromagnetic valve.

An object of the present invention is to generate shock wave energy by projecting the impact medium at a predetermined number of times by the discharge air pressure applied from the discharge portion as described above, and the projecting body and the inner pipe tube of the body and It is an object of the present invention to provide an extracorporeal shock wave therapy device that generates stable shock wave energy as a form in which a discharged air is naturally discharged to the exhaust groove by installing a little space.

By storing compressed air in the receiving space and controlling this air through the electronic valve, it is possible to maintain the existing unstable pressure.

As described above, the present invention can generate constant shock wave energy by delivering compressed air accumulated in the receiving space to the projectile instantaneously by control.

1 is a perspective view showing an extracorporeal shock wave treatment device according to an embodiment of the present invention.
Figure 2 is a view connected to the housing and the solenoid valve
3 is a cross-sectional view of the present invention Figure 1
4. 5 is a plan view of a projectile according to the present invention;
6 is a perspective view of the carrier.

The present invention has the following features to achieve the above object.

The extracorporeal shock wave treatment device according to an embodiment of the present invention includes a housing having a predetermined accommodation space and a cap configured to discharge the received air, and a projectile and the projectile received in the housing so as to be fired forward according to the discharge pressure of the compressed air. And a discharge medium coupled to the rear of the housing to discharge compressed air and an impact medium coupled to the front of the housing to transmit shock waves generated by collision with the projectile to the outside.

In addition, the extracorporeal shock wave therapy device according to another embodiment of the present invention is formed with a predetermined receiving space and the housing is composed of a cap for discharging the received air and the impact medium embedded in the cap of the housing and discharge the compressed air into the housing body It is inserted into the discharge part coupled to the rear of the housing and the body of the housing to communicate with the discharge portion on one side and to the other side in front of the hollow inner pipe pipe and the compressed air pressure discharged in close contact with the impact medium It comprises a projectile is accommodated in the inner pipe tube as possible.

The projectile can be stably restored by installing a little space between the projectile and the body of the housing or the inner pipe tube so that the discharged air is naturally discharged into the exhaust groove.

In addition, the discharge unit is an air compressor for compressing and storing the air, an air regulator for supplying compressed air by adjusting to the desired discharge pressure, and to control the discharge and discharge time of the compressed air to discharge the discharged air at the desired time It is configured to include an electronic solenoid valve, the exhaust port is formed in the interior of the housing or the inner pipe pipe so that the smooth discharge of the compressed air introduced to move the projectile forward.

In addition, a plurality of rubber rings are installed in the housing in close contact with the outer edge of a certain point, the silicon ring to move smoothly inside the housing as much as the gap caused by fine compression and relaxation during the collision between the projectile and the carrier. Is installed more.

Hereinafter will be described in detail with the accompanying drawings for the extracorporeal shock wave therapy device according to the present invention.

(Example 1)

1 is a perspective view showing an extracorporeal shock wave treatment device according to an embodiment of the present invention, Figure 2 is a view connecting the housing and the solenoid valve, Figure 3 is a cross-sectional view of Figure 1, Figures 4 and 5 are plan views of the projectile according to the present invention 6 is a perspective view of the carrier.

Referring to the drawings, the extracorporeal shock wave therapy device according to an embodiment of the present invention is largely formed in the housing so that the predetermined receiving space (3) is formed and is fired forward in accordance with the housing consisting of the body (1) and the discharge pressure of the compressed air The projectile 13, the discharge tube 7 for discharging the compressed air to the projectile 13, and the transmission body coupled to the front of the housing for transmitting the shock wave generated by the collision with the projectile 13 to the outside ( 12).

Here, the housing is composed of a receiving space (3) and the body, which may be integrally configured, but can be easily separated for ease of replacement or repair by damage to the external carrier (12) or projectile (13). It is preferred to be configured to.

In addition, a predetermined accommodation space is formed to accommodate the projectile 13 inside the body, and the accommodation space also includes a moving space through which the projectile 13 can move to the transfer body 12.

In addition, the housing 12 is interpolated in the housing, the delivery body 12 is to transmit the shock wave energy generated by the collision with the projectile 13 to the affected part of the patient with a lesion.

It is delivered by direct contact of the projecting part of the carrier 12 to the affected area, and a gel-shaped cream is applied to the affected area to prevent the loss of shock wave energy that comes in contact with the outside of the thin garment, directly into the bare skin, or is transmitted. After the shockwave

It can also be added.

On the other hand, the transfer member 12 is installed on the outer periphery of a certain point by the silicone ring 15 serves to transmit and restore the impact of the transfer body 12.

The rubber ring 16 reduces the noise generated when colliding with the projectile 13 and prevents vibration from being transferred into the housing 1.

On the other hand, the projectile 13 is provided to receive the discharge pressure of the compressed air instantaneously is launched into the carrier 12 to generate shock wave energy, in order to increase the impact force by the instantaneous acceleration, a metal-based material having a relatively high specific gravity per unit volume Is preferably.

In addition, the discharge pipe (7) for discharging the compressed air to the projectile 13 is coupled to the center of the housing, the discharge pipe (7) is configured as a conduit to guide the discharge of the stored air to the desired place.

In the case of the electronic solenoid valve, the number of times per second and the duration of the discharge pressure applied to the projectile 13 can be adjusted.

Accordingly, the projectile 13 is fired into the carrier 12 due to the discharge of the compressed air, collides with it, moves back to the rear by the repulsive force, and the compressed air is discharged again to operate in a manner of colliding with the carrier 12 again. Will continue to repeat.

Accordingly, a constant shock wave is generated in the delivery body 12 to be transmitted to the affected part.

Meanwhile, a plurality of exhaust ports 20 are formed at a certain point of the housing to minimize the resistance of air when the projectile 13 moves forward or backward, as well as compressed air used for movement to the front part of the projectile. It is preferable to configure to discharge smoothly.

(Example 2)

4 and 5 are plan views of the projectile according to the invention.

A predetermined accommodation space (3) is formed and the housing consisting of the body (1), the projectile 13 accommodated in the housing to be fired forward according to the discharge pressure of the compressed air, and to discharge the compressed air to the projectile (13) It is composed of a discharge tube (7) and a transfer body (12) coupled to the front of the housing and for transmitting shock waves generated by collision with the projectile (13) to the outside.

In the case of FIG. 4, the packing 4 is moved to the packing space 5 by the operation of the solenoid valve, and the compressed air stored in the receiving space 3 is compressed. It is transmitted to the projectile 13 via the exhaust pipe 7. At this time, the impact energy of the projectile 13 is transmitted to the carrier 12 and the silicon ring 15 installed in the carrier 12 serves to restore the carrier 12.

In the case of FIG. 5, the projectile 13 and the carrier 12 are restored.

1 housing 2 air passage
3: accommodating space 4: packing
5: packing space 6: skirt
7: discharge pipe 8: disc
9: recessed groove l0: annular stone jaw
11: cylinder chamber 12: carrier
13: projectile 14: spring
15: silicon ring 16: rubber ring
17 discharge part 18 rubber ring
19: shock plate 20: exhaust port

Claims (1)

   It is formed to accommodate the compressed air in a predetermined receiving space and the projectile is received in the housing so as to be fired forward according to the discharge pressure of the housing and the compressed air and the discharge portion coupled to the rear of the housing to discharge the compressed air to the projectile and the front of the housing An extracorporeal shock wave therapy device, characterized in that it comprises a transfer body for transmitting the shock wave generated by the collision with the projectile to the outside.

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