RU2018267C1 - Pneumatic extractor - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: pneumatic extractor has bar with hole. Canals are made in piston, two grooves are on its inside cylindrical surface. Air-distribution system raises the frequency of impact momentums and diminishes surgical traumatism. EFFECT: lower rate of surgical traumatism by raising impact momentum frequency. 1 dwg

Description

 The invention relates to medical equipment and is intended for the extraction of pins from bone tissue in traumatology and orthopedics.

 Known pneumatic extractors containing a housing with a working chamber associated with an air supply line installed in the housing with the possibility of axial movement of the rod, made with a capture device at the end (ed. St. USSR N 219090, class A 61 B 17/58, 1965) .

 Their disadvantages are low force and the energy of the shock pulse transmitted to the extracted rod.

 Of the known pneumatic extractors, the closest in technical essence to the invention is a pneumatic extractor (German patent N 847642, class 30 a 9/03, publ. 1949).

 The known device comprises a housing with a working chamber associated with the air supply line, and a rod mounted in the housing with axial movement, made with a gripping device at one end, a cylindrical head at the opposite end, abutting against the housing from the side of the working chamber, and a piston covering the rod dividing the camera into the front and rear cameras.

 However, the known device has a low frequency of shock pulses, which increases the time of the extracted removed rod from the bone marrow canal and increases the invasiveness of the operation, especially when removing jammed pins. In addition, the known device has a low magnitude of the force and the energy of the shock pulse transmitted to the extracted rod, because when the piston moves (moves upward), part of its kinetic energy is unproductive for compressing the return spring.

 The aim of the invention is to reduce the morbidity of the operation by increasing the frequency of shock pulses.

 This goal is achieved by the fact that in the pneumatic extractor in the rod from the head side there is an axial blind hole, channels are made in the piston, and two grooves are made on its inner cylindrical surface, one of which is connected through the channels to the front chamber, and the other to the rear, moreover, the extractor is equipped with an air supply pipe installed in the axial blind hole and connected with the air supply line, and air distribution holes are made on the surface of the rod connecting the blind hole with grooves, and in the front and rear chambers made exhaust holes.

 The absence of these features from a known technical solution allows us to conclude that the claimed technical solution meets the criterion of "novelty."

 Known technical solutions having features similar to those distinguishing the claimed solution from the prototype were not found, which allows us to conclude that the claimed technical solution meets the criterion of "significant differences".

 The inventive device is illustrated by way of example with reference to the drawing.

 The extractor comprises a housing 1 with a working chamber 2, connected to the air supply line 3, and a rod 4 mounted in the housing 1 with the possibility of axial movement, made with a gripper 5 at one end, a cylindrical head 6 at the opposite end, abutting 7, abutting against the housing 1 with sides of the working chamber 2, and a piston 8 enclosing the rod 4, dividing the chamber 2 into the front and rear chambers 9 and 10. In the rod 4, an axial blind hole 11 is made on the side of the head 6, and channels 12 and 13 are made in the piston 8, and on it inner cylindrical the surface is two grooves 14 and 15, one of which 14 is connected via channels 12 to the front chamber 9, and the other 15 is connected via channels 13 to the rear 10. The extractor is equipped with an air supply pipe 16 installed in an axial blind hole 11 and connected to the air supply pipe 3 The air distribution holes 17 and 18 are made on the surface of the rod 4, connecting the blind hole 11 with the grooves 14 and 15, and the exhaust holes 19 and 20 are made in the front and rear chambers 9 and 10.

 The extractor can also be equipped with a starting device 21 in the form of a spool spring-loaded by means of a spring 22, as well as a casing 23 covering the housing 1 and the rod 4 and forming the chamber 24. An exhaust window 25 may be formed in the casing 23, connected to the exhaust pipe 26. On the housing 1, a spring stopper 27 with a washer 28 can be installed on the side of the gripper 5 to limit the axial movement of the rod 4, and a protrusion 29 is made on the rod 4. A handle 30 can be fixed to the housing 1.

 The device operates as follows.

 Through the capture 5, the rod 4 is fixed on the intraosseous rod to be removed from the medullary canal. The operator applies the necessary force to the handle 30 in the direction from the rod to be removed. When this rod 4 using the stop 7 abuts against the housing 1.

 After starting the starter 21, compressed air from the air supply line 3 through the tube 16 enters the axial blind hole 11. Then, through the hole 17, the groove 14 and the channels 12, air enters the front chamber 9. At the same time, the rear chamber 10 through the exhaust holes 20, chamber 24 with a window 25 and an exhaust pipe 26 is connected to the atmosphere. The holes 18 and 19 are overlapped by the surfaces of the piston 8. Under the action of a differential pressure on the piston 8, the latter moves upward, making a blow to the head 6 at the end of the stroke.

 After combining the groove 15 with the hole 18, the inner surface of the piston 8 overlaps the hole 17. At the same time, the outlet openings 20 are closed and the holes 19 open. The process of filling the rear chamber 10 with air through the holes 18, the groove 15 and the channels 13 begins. At the same time, the front cameras 9.

 Under the action of the differential pressure on the piston 8, the latter moves down towards the gripper 5, until the holes 17 are aligned with the groove 14. Next, the process of filling the front chamber 9 and emptying the chamber 10 is repeated. The piston 8, thus, performs periodic reciprocating movements inside the housing 1, making blows to the head 6 at the end of the stroke. Impact pulses from the rod 4 through the capture device 5 are transmitted to the extracted intraosseous shaft.

 The air distribution system of the pneumatic extractor, formed by a piston 8 with channels 17, 18 and grooves 14, 15, as well as a housing with holes 19 and 20, a rod with holes 11, 17, 18 and tube 16, allows to increase the frequency of shock pulses.

 When air is discharged from chambers 9 and 10 to chamber 24, the latter reduces the noise level.

 When the operator applies to the handle 30 forces less than the forces ensuring the operation of the extractor in the optimal mode, the protrusion 29 abuts against the washer 28, compressing the spring limiter 27, which limits the amount of axial upward movement of the rod 4.

 The implementation of a pneumatic extractor with an axial blind hole in the rod from the head side, in the piston - channels, and on its inner cylindrical surface - two grooves, one of which is connected through the channels to the front chamber and the other to the back, and the extractor is equipped with an air supply tube, installed in the axial blind hole and connected with the air supply line, and air distribution holes are made on the surface of the rod, connecting the blind hole with grooves, and in the front and rear to Measures are made exhaust ports distinguishes the claimed apparatus from said prototype and allows to increase the frequency of shock pulses. In this case, the invasiveness of the operation is reduced, cases of fracture of bone tissues are eliminated when removing jammed pins, and the time for direct removal of the pins is also reduced.

 Compared with the prototype of the claimed device allows to increase the frequency of shock pulses by 1.5-2 times, reducing the process of direct extraction to a few seconds.

Claims (1)

 PNEUMATIC EXTRACTOR, comprising a housing with a working chamber connected to the air supply line and installed in the housing with axial movement of the rod, made with a grab at one end, a cylindrical head at the opposite end, abutting against the housing from the side of the working chamber, and a piston covering the rod dividing the working chamber into the front and rear chambers, characterized in that, in order to reduce the morbidity of the operation by increasing the frequency of shock pulses, in the rod from the side of the head in an axial blind hole is filled, channels are made in the piston, and two grooves are made on its inner cylindrical surface, one of which is connected through the channels to the front chamber and the other to the rear, and an air supply tube connected to the air supply line is installed in the axial blind hole, and air distribution holes are made on the surface of the rod, connecting the blind hole with the grooves, and outlet holes are made in the front and rear chambers.

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