KR100581785B1 - Sealing apparatus of pipe - Google Patents

Abstract

The present invention relates to an airtight structure of the pipe connection part O-ring to be maintained in the air in the process of connecting the water pipe to the housing, such as a water pump, the air tightness,

In the O-ring mounted on the outer peripheral surface of the connecting portion of the pipe for maintaining the airtightness of the pipe connecting portion connected to the nipple formed on one side of the housing such as a water pump,

On the outer circumferential surface of the connecting portion of the pipe, a through hole is formed in the middle of the ring groove formed for mounting the O-ring and the inside of the pipe is formed in the middle of the ring groove of the pipe.

An annular annular tunnel is formed at the center of the circular ring that crosses the middle of the O-ring, and an insertion tube communicating with the annular tunnel is formed so that the inside of the pipe and the annular tunnel communicate with each other. Is formed to extend into the through hole,

The fluid passing through the pipe is input to the annular tunnel, characterized in that configured to expand the volume of the O-ring.

O-rings, pipes, annular tunnels

Description

Sealing apparatus of pipe connection O-ring

1 is a block diagram of an O-ring formed by the present invention.

Figure 2 is a diagram of a double formed embodiment of an O-ring in accordance with the present invention.

Figure 3 is a state diagram attached to the O-ring according to the present invention.

4 is a diagram for explaining a conventional technology.

※ Explanation of code for main part of drawing

20 pipe 21 connection

22: ring groove 24: through hole

26: Nipple 30: O-ring

32: annular tunnel 33: expansion groove

34: insertion tube 36: connection tunnel

The present invention relates to an airtight structure of the pipe connection O-ring, and more particularly, to improve the airtightness of the pipe connection O-ring to maintain the airtight in the process of connecting the pipe to the housing, such as a water pump. It's about structure.

Water pumps and water pipes are installed in many places of industrial and household facilities, including water pumps that make up the cooling system for cooling engines of automobiles.

A general water pump is configured such that an impeller rotating at high speed by a driving force is accommodated in the housing, and water is pumped by a vacuum pressure generated by the rotation of the impeller. Therefore, since the pressure of the water pumped from the water pump becomes a high pressure state, a sealing for airtightness is required at the connection portion of the pipe and the hose connected to the housing of the water pump.

In order to maintain the airtightness of the pipe connection part, an O-ring 18 made of rubber material is interposed between the inner circumferential surface of the naple portion 12 of the water pump housing 10 and the outer circumferential surface of the pipe 14. . On the other hand, a ring groove 16 for inserting the O-ring 18 is formed in the middle of the outer circumferential surface of the pipe 14 for the interposition of the O-ring 18. Therefore, in the process of flowing water between the water pump housing 10 and the pipe 14 is maintained by the above-mentioned O-ring 16 to prevent the leakage of fluid.

By the way, in the case of the O-ring of the general rubber material formed as described above, a part of the rubber material is cured after use, resulting in poor assembly and leaking fluid, and in the case of an O-ring applied to a water pump of a vehicle engine, There was a problem such that wear occurs by the heating and cooling of the cooling water to leak the fluid.

Therefore, the present invention has been made in order to solve the above problems, in the process of connecting the water pipe to the housing of the water pump, such as the airtight structure of the pipe connection part O-ring for maintaining the confidentiality interposed in the connection portion The purpose is to provide.

The present invention as a means for achieving the above object,

In the sealing structure in which the O-ring is mounted on the outer peripheral surface of the connecting portion of the pipe for maintaining the airtightness of the pipe connecting portion connected to the nipple formed on one side of the housing such as a water pump

On the outer circumferential surface of the connecting portion of the pipe, a through hole is formed in the middle of the ring groove formed for mounting the O-ring and the inside of the pipe is formed in the middle of the ring groove of the pipe.

An annular annular tunnel is formed at the center of the circular ring that crosses the middle of the O-ring, and an insertion tube communicating with the annular tunnel is formed so that the inside of the pipe and the annular tunnel communicate with each other. Is formed to extend into the through hole,

The fluid passing through the pipe is input to the annular tunnel, characterized in that configured to expand the volume of the O-ring.

Hereinafter, a preferred embodiment according to the mounting structure and operation of the O-ring formed by the present invention will be described in detail with the accompanying drawings.

1 is a configuration diagram of an O-ring formed by the present invention, Figure 2 is a diagram of an embodiment of a double formed of the O-ring according to the present invention, Figure 3 is a state diagram equipped with the O-ring according to the present invention. .

Reference numeral 30 indicated in the drawing indicates an O-ring formed by the present invention, and reference numeral 20 designates a pipe to which the O-ring formed by the present invention is applied.

In the middle of the outer peripheral surface of the connecting portion of the pipe 20, the ring groove 22 for mounting the O-ring 30 is formed in accordance with the number of O-rings to be mounted. In particular, a through hole 24 is formed in the middle of the ring groove 22 to communicate with the inside of the pipe 20. The through hole 24 may be formed in a plurality at predetermined angular intervals according to the specification of the O-ring (30).

On the other hand, the O-ring 30 is formed in an annular ring shape that is mounted on the outer circumference of the ring groove 22, and the annular annular tunnel 32 is formed in the center of the circular cross section over the entire circumference. . An insertion tube 34 extending into the inner circumferential surface of the O-ring 30 is inserted into the through hole 24 of the pipe 20 to allow the inside of the pipe 20 to communicate with the annular tunnel 32. Is formed. Inside the insertion tube 34, a hole is formed in communication with the annular tunnel to allow the fluid passing through the inside of the pipe 20 to enter the annular tunnel 32.

In particular, the cross-sectional shape of the annular tunnel 32 is formed in the shape of a flower formed with expansion grooves () formed at predetermined angular intervals on the outer circumference of the circle so that the volume expansion force of the O-ring 30 can be improved. desirable.

The insertion tube 34 is configured to allow the pressure applied to the body of the O-ring 30 to be applied to the annular tunnel 32 with sufficient fluid flowing in the front circumference according to the diameter of the pipe 20. The inner circumferential surface of the O-ring 30 may be formed in a plurality at predetermined angular intervals. In particular, the insertion tube 34 is preferably formed at intervals of 90 degrees as shown in the drawings for explaining an embodiment of the present invention.

On the other hand, the O-ring 30 may be formed in a double at a predetermined interval to improve the airtightness. In the case of forming a double in this way, the annular tunnel 32 provided in each of the O-rings 30 communicates with each other through the connecting tube 34 in the middle between the O-rings 30 positioned on both sides. In this case, the insertion tube 34 may be formed in each of the O-rings 30, and the fluid introduced into the annular tunnel 32 of one side may be formed only in one O-ring 30. It may be configured to be introduced into the annular tunnel 32 of the other side through 36.

The mounting and operating state of the O-ring formed as above will be described based on the O-ring formed in duplicate.

The O-ring 30 is mounted on the outer circumferential surface of the connecting portion 21 of the pipe 20 connected to the nipple 26 of the housing in order to guide the fluid passing through the water pump housing of the engine to the other body. The O-ring 30 is mounted on the ring groove 22 of the pipe 20 by winding its entire circumference. In this process, the insertion tube 34 protruding to the inner circumferential surface thereof is formed so that the through-hole 24 of the pipe 20 is described above. ) Into the

That is, a part of the fluid passing through the inside of the pipe 20 at high pressure is introduced into the annular tunnel 32 through the insertion tube 34, and in the case of the O-ring 30 formed of a double ring, An even hydraulic pressure is applied to both sides of the annular tunnel 32 through the connection tunnel 36. As described above, the annular tube 32 is expanded by the pressure of the fluid input into the annular tunnel 32, and as a result, the outer volume of the O-ring 30 is expanded.

Therefore, the airtightness between the connecting portion 21 of the pipe 20 and the inner peripheral surface of the nipple 26 of the housing is improved by the volume expansion of the O-ring 30.

According to the present invention configured as described above, the annular tunnel provided inside the O-ring for sealing the connection of the pipe for guiding the flow of fluid such as cooling water or oil to be transmitted to the pressure of the fluid passing through the pipe. Since it is configured to allow high pressure fluid to pass through the pipe, the volume of the O-ring is expanded so that the outer circumferential surface of the pipe is improved in the airtightness between the inner circumferential surface of the nipple of the housing.

Claims (4)

In the sealing structure in which the O-ring is mounted on the outer peripheral surface of the connecting portion of the pipe for maintaining the airtightness of the pipe connecting portion connected to the nipple formed on one side of the housing such as a water pump, the outer peripheral surface of the connecting portion 21 of the pipe 20 is O A through-hole 24 is formed in the middle of the ring groove 22 of the pipe 20 to allow the inside of the pipe 20 to penetrate the inside of the ring groove 22 formed for mounting the ring 30, An annular annular tunnel 32 is formed at the center of the circular ring that crosses the middle of the O-ring 30, and the annular tunnel 32 communicates with the annular tunnel 32. Since the insertion tube 34 communicating with the tunnel 32 extends to the inner circumferential surface of the O-ring 30 to be inserted into the through hole 24, the fluid passing through the pipe 20 passes through the annular tunnel ( 32) pipe connection O-rings configured to expand the volume of the O-rings 30 In the wheat enhancement structure, The O-ring 30 is formed in a double interval with a predetermined interval, the connection tunnel 36 is formed in the middle between the O-rings 30 on both sides is configured so that the annular tunnel 32 on both sides communicate with each other. Pipe connection O-ring airtight structure, characterized in that. The method of claim 1, In order to improve the expansion force of the O-ring 30, the cross-sectional shape of the annular tunnel 32 is characterized in that the expansion groove 33 toward the outside at a predetermined angle interval is formed on the outer periphery of the circular cross section Improved airtightness of O-rings. delete The method of claim 1, An airtight structure of the pipe connection part O-ring, characterized in that a plurality of insertion tubes 34 and through holes 24 connecting the inside of the pipe 20 and the annular tunnel 32 are formed at predetermined angular intervals.

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