KR102027318B1 - A Extracorporeal Radial Shock Wave Medical Device - Google Patents

Abstract

The present invention is to obtain a functional pneumatic extracorporeal shock wave treating device using a titanium shock unit, which is to effectively treat a chronic pain syndrome of a musculoskeletal system by applying shock wave stimulation to a body part by having high repulsive force when using shock waves generated in an air gun head coated with titanium to alleviate pain generated in joint parts. The functional pneumatic extracorporeal shock wave treating device of the present invention comprises: a titanium front shock unit (100) having a mushroom type front plate (10) coated with titanium and having a round shape of a front surface, a seating fixing groove (20) formed with an elastic pad unit (200) formed to have elastic force and buffering force, and to prevent separation, a separation preventing protrusion (30) formed to prevent the elastic pad unit from being separated, and a ring mounting hole (50) having a contact ring (40) mounted thereon when being mounted on an impactor body; an elastic pad unit (200); a contact coupling plate (300) formed to fix the elastic pad unit (200); a front fastening fixing unit (400); and a rear fastening body unit (500) coupled to a front surface of the impactor body, formed with a front fastener (410) in a front surface thereof to fix a titanium front impact unit (100) having the elastic pad unit (200) mounted thereon and the contact coupling plate (300), having a mounting port (480) at a rear side thereof, and having a rear fastening port (420) formed in an inner surface thereof.

Description

Functional pneumatic extracorporeal shock wave therapy device using titanium shock unit {A Extracorporeal Radial Shock Wave Medical Device}

The present invention is to use a shock wave generated from the air gun head coated with titanium to have a high repulsive force by applying a shock wave stimulation to the body parts to alleviate the pain occurring in the joint area to effectively treat chronic pain syndrome of the musculoskeletal system The present invention relates to a functional pneumatic extracorporeal shock wave therapy device using a titanium shock unit.

In general, extracorporeal shock wave therapy is a temporary treatment at the lesion site by repeatedly transmitting the shock wave to 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 discharged briefly, 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 apparatus using the compressed air is heavy and bulky, the noise of the compressor operated to generate the compressed air is high, and a large number of air pressure regulators and switches are required to control the strength of the impact energy. Is increased. In contrast, a shock wave generator capable of uniformly distributing impact energy over a wide range of working regions in a simple and economical manner is disclosed in Korean Patent Publication No. 2010-0005766. The preceding document has the advantage of being able to treat the biological hard tissue (hard tissue) or soft tissue (soft tissue) by a simple method when the impact portion is a linear flow and the impact wave is transmitted to the pain area in the skin through the shock wave discharge surface However, energy loss due to friction occurs when the impact portion flows into the cylinder, thereby reducing the impact energy of the shock wave, and generating a stable shock wave because there is no auxiliary means for adjusting the pressure when the impact portion flows straight through the cylinder. It is difficult to make.

In order to solve this problem, in the present invention to minimize the energy loss of the reciprocating movement of the cylinder while maintaining a constant pressure, to provide a ballistic type extracorporeal shock wave therapy device that can generate a stable shock wave in FIG. The prior art shown is a cylinder with a solenoid valve for controlling the discharge of stored compressed air, an actuator having an air nozzle in communication with the solenoid valve for discharging the compressed air, and a compressed air discharged from the solenoid valve. The movement is accommodated in a linear flow inside, a silencer that is provided on the outer peripheral surface of the cylinder and provided with a plurality of air tanks to increase the operational continuity and reduce the noise, and the direct impact force generated by the linear flow of the movement With shock transmitter to transmit shock wave, A ball is provided at the rear end of the cylinder and the magnet body for allowing the compressed air to pass through the hole in the center, and a ball comprising a holding member for holding the exerciser when the movement is returned by the reaction after the shock wave generated by the impact It was formed to provide a ballistic extracorporeal shockwave therapy device. As described above, when the driver moves the air pressure in the ballistic manner and operates the driving means in the state where the impact transmitter 60 is positioned at the corresponding portion, the compressed air is discharged through the solenoid valve 10 to discharge the cylinder ( Within 30), the exerciser 40 moves forward, and the mover 40 moves forward and collides with the back of the shock transmitter 60, so that the shock wave is transmitted inside the biological tissue of the skin. Now, the impact of the impact area is increased due to the excessive impact of the shock transmitter and the continuity and repeated shock transmitter had a problem that the shock absorbing effect of the shock is reduced as the guide portion to be fixed is damaged. In addition, the impact transmitter has a small protective effect, in particular, there is a drawback that corrosion corrosion occurs in the environment with chlorine ions.

1. Registered Patent No. 10-1583630 of Korea Patent Office (2016.01.04) 2. Registered Patent No. 10-1610774 of the Korea Intellectual Property Office (2016.04.04)

The problem to be solved of the present invention is

The present invention provides a functional pneumatic extracorporeal shock wave therapy device using a titanium percussion part that forms a shock transmitter for transmitting shock waves of the extracorporeal shock wave therapy device using compressed air pressure to prevent separation and excessive shock.

Means for Solving the Problems of the Invention

The compressed air formed in the air supply device supplies compressed air to the shock main body, and the compressed air supplied to the impact main body strongly advances the steel formed in the impact main body and blows forward with the steel to deliver the impact energy. In the functional pneumatic extracorporeal shock wave therapy device to form and relieve the pain by shocking the painful part of the body,

The shock wave transmission unit is coated with titanium and has a loudspeaker-shaped front plate and a seating recess formed in the elastic pad unit formed to prevent elasticity and cushioning force, and preventing the detachment of the elastic pad unit. Titanium front impact portion formed with a ring mounting for mounting the projection and the contact ring when the impact base is mounted; An elastic pad part mounted on the seating fixing groove surface and having a first ring mounting hole for mounting a first ring and a second ring mounting hole for mounting a second ring; A close coupling plate configured to fix the elastic pad part but having a mounting groove formed at a rear side thereof; A front fastening part formed between an anti-slip protrusion on the outer surface and a screw on the rear side such that the elastic pad part and the close coupling plate are coupled; Titanium impact portion, characterized in that consisting of: a screw thread is formed to be coupled to the front surface of the impact mounting body portion, and the titanium front shock portion with the elastic pad portion attached to the front is coupled to the rear fastening body portion formed with a screw thread to be engaged with the front fastening portion. It was achieved by providing a functional pneumatic extracorporeal shock wave therapy device.

The present invention has the effect that the force is transmitted to the central portion in a wide range while accurately transmitting the impact force while minimizing the impact between the metal of the titanium front impact portion. In addition, the present invention is a very useful invention to increase the elastic force, but the effect of reducing the width of the change as much as possible depending on the number of uses and significantly reduce the noise.

1 is a state of use of a functional pneumatic shock wave therapy apparatus using a titanium impact unit of a preferred embodiment of the present invention.
Figure 2 is an exploded perspective view of the impact body of the functional pneumatic extracorporeal shock wave therapy device using the titanium impact unit of the present invention.
3 is a perspective view of a functional pneumatic external shock wave therapy device using a titanium impact unit titanium front impact unit and the elastic pad unit.
Figure 4 is an exploded perspective view of the shock wave front end of the present invention.
5 is a cross-sectional view of the shock wave transmission unit of the functional pneumatic extracorporeal shock wave therapy device using the titanium impact unit of the present invention.
Figure 6 and Figure 7 is an exploded perspective view of the shock wave transmission unit of a functional pneumatic extracorporeal shock wave therapy device using a titanium shock unit of another embodiment of the present invention.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the drawings, similar reference numerals are used for similar elements. Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component. The term and / or includes a combination of a plurality of related items or any item of a plurality of related items. When a component is referred to as being "connected" or "connected" to another component, it may be directly connected to or connected to that other component, but it may be understood that other components may be present in between. Should be. On the other hand, when a component is said to be "directly connected" or "directly connected" to another component, it should be understood that no other component is present in the middle. As used in the description of the embodiments, it is not intended to limit the invention, the singular forms "a", "an" and "the" include plural expressions unless the context clearly dictates otherwise. The term is intended to indicate that there is a feature, number, step, movement, component, part or combination thereof described on the specification, and that one or more other features or numbers, steps, movements, components, parts or It should be understood that it does not preclude the presence or possibility of additions in combination.

1 to 7 of a preferred embodiment of the present invention;

The compressed air formed in the air supply device supplies compressed air to the shock main body, and the compressed air supplied to the impact main body strongly advances the steel formed in the impact main body and blows forward with the steel to deliver the impact energy. A shock absorber for forming a functional pneumatic extracorporeal shock wave to relieve pain by shocking a painful portion of the body, wherein the shock wave transmitting portion is formed;

The seating fixing groove 20 and the elastic pad portion formed so that the titanium is coated and the front surface has a round-shaped mushroom-shaped front plate 10 and an elastic pad portion 200 formed so as to prevent detachment from the front surface. Titanium front impact portion (100) formed with a fall prevention protrusion (30) formed to prevent falling out and the ring mounting opening 50 is mounted to the contact ring 40 when mounted on the impact body; An elastic pad including a first ring mounting hole 120 mounted on the seating fixing groove 20 and a second ring mounting hole 140 on which the first ring 110 is mounted and the second ring 130 mounted. Part 200; A close coupling plate 300 formed on an upper surface to fix the elastic pad part 200; An anti-slip protrusion 340 and an inner surface of the coupling groove 350 and a screw thread 360 formed on the rear surface of the front fastening unit 400 are coupled to the elastic pad unit 200 and the close coupling plate 300. ); It is coupled to the front surface of the impact body, the front fastening hole 410 is formed on the front surface is formed so as to fix the titanium front impact unit 100 and the close coupling plate is mounted on the elastic pad portion 200, the rear There is formed a mounting hole 480 and the inner surface has a rear fastening body portion 490 formed with a rear fastener 490; has a feature consisting of.

The titanium front impact portion 100 is coated with titanium, the characteristics of the titanium is melting point 1675 ℃ and boiling point 3260 ℃, light weight and hard. Pure titanium is also commonly used in alloys, except where low physical properties require strong corrosion resistance. Titanium's most important property is its excellent corrosion resistance and low specific gravity, resulting in only 60% weight of steel.

In particular, it is light due to its small specific gravity, and can give a strength similar to that of iron with only about half the weight of iron, and has excellent corrosion resistance. In water or air near room temperature, a passivation film is formed and has excellent corrosion resistance next to gold or platinum.

Since there is a feature as described above, there is a feature of forming a titanium coating to reduce the weight due to the load during long-term use.

The front structure of the titanium front impact portion 100 has a feature that has a wide mushroom-shaped front plate 10 is formed in a protruding structure to form a wide contact on the surface of the use portion, but in close contact with the use range.

In addition, the repetitive impact is applied to the impact preventing body 30 and the fall prevention protrusion 30 formed to prevent the elastic pad portion from falling out and the fixing fixing groove 20 to which the elastic pad can be mounted so as to reduce noise. Ring mounting opening 50 and the contact ring 40 is formed on the rear surface to be in close contact with each other at the time of mounting.

The elastic pad part 200 has a first ring mounting hole 120 and a second ring mounting device on which the first ring 110 is mounted so that the first ring 110 is mounted on the seat fixing groove 20. 140 is formed to have an elastic force, but is characterized in that it is formed to be fixed to the first ring and the second ring in a double so as not to fall easily.

The close coupling plate 300 is formed to prevent the elastic pad portion 200 from falling to the front surface.

The front fastening fixing part 400 is a non-slip protrusion 340 and the coupling groove 350 and the screw thread on the rear surface to the outer surface so that the elastic pad 200 and the close coupling plate 300 is coupled This formed.

The rear fastening main body 500 is coupled to the front surface of the impact body 600, the front fastening hole 410 is formed on the front surface of the titanium front impact unit 100, the elastic pad unit 200 is mounted, It is formed to be fixed to include the close coupling plate 300, the rear is formed with a mounting hole 480, the inner surface is formed with a rear fastening body portion 500 is formed with a rear fastener 490.

Formed as above, it is used to mount on the front of the impact body. A blow protrusion is formed at the front of the main body of the impact machine so that the blow protrusion of the titanium front impact portion 100; It was formed to hit the rear side and the impact energy was instantaneously hitting the treatment part of the patient was formed to supply the impact energy to the pain part.

Another embodiment of the invention

After hitting the titanium front impact part 100 primarily from the impact body 600, the hitting energy hits the long rod 590, so that the hitting energy is transmitted. At this time, the auxiliary steel moves forward to hit the long rod of the front face. It was formed to make a secondary strike.

The impact body of the present invention is inserted into the rod mounting portion 502 and the rod mounting portion 502 having a thread formed on the inner surface so that the auxiliary steel 501 in the long rod 590 hits the double as shown. A long rod 590 having a thread 504 formed on an outer surface thereof, and an auxiliary steel 501 and a stopper 505 formed therein; The rear of the long rod 590 is characterized in that the insertion groove 506 formed to fix the auxiliary steel and the auxiliary steel fixing ring 507 is fitted to be fitted to the insertion groove 506.

As described above, the present invention is formed in the air supply device to supply the compressed air to the impact body air pressure, and the compressed air hits the front of the impact body to the front of the titanium impact impact unit 100 by hitting the steel forward of the impact body It was formed to deliver the impact energy.

10: mushroom front plate 20: seating fixing groove
30: fall prevention protrusion 40: contact ring
50: ring fitting 100: titanium front impact portion
110: first ring 120: first mounting ring
130: second ring 140: second mounting ring
200: elastic pad portion 300: adhesion bonding plate
400: forward fastener 410: forward fastener
420: rear fastener 480: mounting hole
500: rear fastening main body

Claims (5)

The compressed air formed in the air supply device supplies the compressed air to the impact main body, and the compressed air supplied to the impact main body strongly advances the steel formed in the impact main body to hit forward with the steel to deliver the impact energy. In the functional pneumatic extracorporeal shock wave therapy device to form a delivery unit and the shock wave transmission unit to shock the painful part of the body to alleviate the pain,
The shock wave transmission unit
Mounted to the front of the impact body portion, the titanium is coated and the front has a round-shaped mushroom-shaped front plate 10 and elastic force and cushioning force, but is formed so that the elastic pad portion 200 formed to prevent separation Fixing groove 20, the anti-logging protrusion 30 formed to prevent the elastic pad portion from falling out, and the ring mounting opening 50 is mounted to the contact ring 40 when the impact body is mounted on the The rod mounting portion 502 has a thread 503 formed on the inner surface to strike the double, and the thread 504 is formed on the outer surface so as to be inserted into the rod mounting portion, and the auxiliary steel 501 and the stopper therein. 505 is formed with a long rod 590, the rear of the long rod is formed of an insertion groove 506 formed to fix the auxiliary steel 501, and the auxiliary steel fixing ring 507 is inserted into the insertion groove coupled to the titanium front Impact unit 100;
An elastic pad unit which is mounted on the seating fixing groove 20 and has a first ring mounting hole 120 on which the first ring 110 is mounted and a second ring mounting hole 140 on which the second ring 130 is mounted. 200;
A close coupling plate 300 formed to fix the elastic pad part 200;
An anti-slip protrusion 340 and an inner surface of the coupling groove 350 and a screw thread 360 formed on the rear surface of the front fastening unit 400 are coupled to the elastic pad unit 200 and the close coupling plate 300. );
It is coupled to the front surface of the impact body, and the front fastening hole 410 is formed on the front surface is formed to include the titanium front impact unit 100 and the close coupling plate 300, the elastic pad unit 200 is mounted. And a rear fastening body portion 500 having a rear fastener 420 formed on the rear surface thereof and having a mounting hole 480 formed therein; a functional pneumatic extracorporeal shock wave therapy device using a titanium impact part.
delete delete The method of claim 1, wherein the titanium front impact portion 100
Functional pneumatic extracorporeal shock wave therapy device using a titanium impact portion, characterized in that a plurality of projections are further formed on the mushroom front plate.
The method of claim 1, wherein the long rod
Functional pneumatic extracorporeal shock wave therapy device using a titanium impact portion, characterized in that the front surface is coated with titanium.

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