KR100627322B1 - Coupling structure of synthetic resin pipe - Google Patents

Abstract

The present invention relates to a connection structure of a synthetic resin pipe, the object of which is relatively movable in the longitudinal direction while maintaining the airtightness of the first and second coupling sphere to accommodate the expansion and contraction in the longitudinal direction of the synthetic resin tube due to temperature changes To make it possible.

According to the present invention, first and second coupling holes 12 and 22 having flanges 13 and 23 are formed at ends of pipe bodies 10 which are adjacently connected to each other to be coupled to each other and to flanges of the pipe bodies 10. In the connection structure of the synthetic resin pipe (13, 23) is fastened to the bolt 31 and the nut 32, the engaging portion of the first, second coupling holes (12, 22) is the longitudinal direction of the tube (10) At least one ring-shaped groove 26 is formed on the outer surface of the insertion protrusion 25 so that the airtightness is maintained even though it flows by a predetermined length, thereby installing the O-ring 30 and penetrating the flanges 13 and 23. Compression spring 33 is elastically installed at the end of the fastened bolt 31, the inner diameter of the second coupling port 22 is characterized in that the same diameter as the inner diameter of the tubular body 10.

Synthetic resin pipes, joints, mutual movement

Description

Coupling structure of synthetic resin pipe

1 is an exploded perspective view showing an extract of the connecting portion of the synthetic resin tube according to the present invention,

2 is a cross-sectional view showing a state in which the synthetic resin pipe of FIG. 1 is coupled.

<Explanation of symbols for the main parts of the drawings>

10: tube 10a: square pipe

12: first coupler 13,23: flange

14, 24: fastening hole 15: insertion hole

22: second coupler 25: insertion protrusion

26: ring groove 30: O-ring

31: Bolt 32: Nut

33: compression spring

The present invention relates to a connection structure of a synthetic resin pipe, and more particularly, the first coupling unit and the second coupling unit when the first coupling unit and the second coupling unit can be mutually flow by a predetermined width along the longitudinal direction of the tube And it is related to the connection structure of the synthetic resin pipe which does not prevent the fluid flow inside the pipe because there is almost no change in the inner diameter of the pipe.

In general, synthetic resin pipes among various kinds of pipes are mainly used for transport of non-pressure fluids such as water and sewage. These synthetic resin pipes can be jointed with neighboring pipes in various ways, but only a few of them will be described.

In the structure of the synthetic resin tube having a joint structure of the Republic of Korea Patent Publication No. 10-0246032, the insertion protrusion and the insertion recess having a flange respectively formed on both ends of the synthetic resin tube, the length of the insertion protrusion is more than the depth of the insertion recess The long outer peripheral surface was tapered, and the inner diameter of the insertion recess was tapered at the same slope as the insertion protrusion.

The synthetic resin tube configured as described above was intended to maintain airtightness by being closely adhered to the tapered surfaces of the insertion protrusion and the insertion recess as the plurality of bolts passed through the flange while the insertion protrusion was inserted into the insertion recess.

However, in the synthetic resin pipe as described above, if the bolts fastened through the two flanges are loosened and the connection (joint) portion of the synthetic resin pipe is loosened or tilted even a little due to ground subsidence, it is difficult to maintain airtightness, and eventually leaks. There was a problem that occurs.

'Pipe connector' of Republic of Korea Utility Model Registration No. 20-0184491 is provided with fixing grooves on the outer circumferential surface of the neighboring both ends of the pipe, respectively, and the C type ring-shaped stopper is coupled to the inside of the fixing groove of the pipe. It is fixed to the outside of the stopper is coupled to the flange to form a plurality of fastening holes radially coupled to fasten both flanges as a bolt and nut, between the two pipes is formed between the both ends of the periphery of the packing formed with annular projections in the center of the pipe It was to seal the connection.

However, in the pipe connector configured as described above, if the bolts and nuts fastening the two flanges are loosened even a little, airtightness between the ends of the both pipes and the packings located therebetween is not maintained, and the pipes are easily leaked. Due to the temperature difference in the summer, there was no end to the expansion, which could damage the flange or the fixing groove of both pipes.

An object of the present invention is to solve the above-mentioned problems, while maintaining the airtightness of the first coupler and the second coupler relatively movable in the longitudinal direction to accommodate the expansion and contraction in the longitudinal direction of the synthetic resin tube due to temperature changes It is to provide a connection structure of a synthetic resin pipe.

Another object of the present invention is to provide a connection structure of a synthetic resin tube so that the inner diameter is not reduced when the first and second coupling spheres are connected, so as not to adversely affect the fluid flow inside the synthetic resin tube.

In order to achieve the above object, the present invention, each of the first and second coupling spheres having a flange is formed at each end of the pipe connected adjacent to each other, the second coupling sphere is formed with an insertion protrusion, the first coupling Spheres are formed in the insertion recess is inserted into the insertion protrusion is coupled to each other, the connecting structure of the synthetic resin pipe is connected by fastening the flange of the pipe with a bolt and nut, the coupling portion of the first and second coupling sphere is At least one ring-shaped groove is formed on the outer surface of the insertion protrusion to be in close contact with the inner surface of the insertion recess so that the airtightness is maintained even if it flows by a predetermined length along the longitudinal direction of the tubular body. A compression spring is elastically installed at the end of the bolt fastened through the flange; The inner diameter of the second coupler is characterized in that the same diameter as the inner diameter of the tube.

Hereinafter, the connection structure of the synthetic resin tube according to the present invention will be described in detail based on the accompanying drawings.

1 is a perspective view showing the separation of the connecting portion of the synthetic resin tube to which the connection structure of the present invention is applied, Figure 2 is a cross-sectional view showing a state in which the synthetic resin tube of Figure 1 is coupled.

As shown in the drawing, the tubular body 10 is formed by solidifying a small square pipe 10a by spirally filling the molten resin of the same material as that of the square pipe between the square pipe 10a and the adjacent square pipe 10a. The obtained double tube type is a synthetic resin tube. One end of the tubular body 10 is formed with a first coupling port 12 that can be fastened while receiving an end portion of the neighboring tubular body 10, and is adjacent to the other end of the tubular body 10. A second coupler 22 is formed to be fastened while being inserted into the first coupler 12 of the tubular body 10, and the first and second couplers 12 and 22 are tubular bodies 10. After inserting the end of the mold into the injection mold is molded by the injection method is injected while pressing the molten resin at a constant pressure.

The first coupling hole 12 is formed with a flange 13 having at least three fastening holes 14 and in the longitudinal direction of the tube body 10 at the center of the flange 13 than the inner diameter of the tube body 10. The insertion recess 15 extended to a large diameter is extended.

The second coupler 22 is formed with a flange 23 having a fastening hole 24 corresponding to the flange 13 of the first coupler 12, and the tubular body 10 at the center of the flange 23. Insertion protrusions 25 extend in the longitudinal direction of the inner surface is the same as the inner diameter of the tube 10 and the outer surface is formed with a diameter that is inserted into the insertion recess (15).

In addition, a plurality of ring-shaped grooves 26 are formed on the outer circumferential surface of the second coupler 22 at predetermined intervals along the length direction thereof, and the ring-shaped grooves 26 are coupled to the first coupler 12 at the time of engagement. An o-ring 30 made of an elastic material is installed to be in close contact with the inner surface of the insertion recess 15.

In addition, the first and second coupling parts 12 and 22 at both ends of the tubular body 10 are fastened by the bolt 31 and the nut 32, but are elastically coupled by the compression spring 33. In other words, the insertion protrusion 25 is inserted into the insertion recess 15 forming the first and second coupling holes 12 and 22 so that the flanges 13 and 23 of the first and second coupling holes 12 and 22 are inserted. The coupling holes (14, 24) formed in the) to match each other and then penetrates the bolt (31), the compression spring 33 is inserted into the bolt 31, and then tightened with a nut (32) compression spring (33) It can be moved in the longitudinal direction of the tube body 10 within the allowable range of the elastically installed bolt (31).

The connection structure of the synthetic resin tube according to the present invention configured as described above, first, the O-rings 30 are respectively installed in the ring-shaped grooves 26 of the insertion protrusions 25 of the second coupling port 22, and then the The insertion protrusion 25 of the second coupler 22 is inserted into the insertion recess 15 of the first coupler 12. At this time, the O-ring 30 provided in the ring-shaped groove 26 of the insertion protrusion 25 is in close contact with the inner surface of the insertion recess 15 to maintain airtightness.

As such, the fastening holes 14 and 24 formed in the flanges 13 and 23 of the first and second coupling holes 12 and 22 coincide with each other so that the bolt 31 passes through the compression spring to the bolt 31. After fitting (33), construct with the nut 32 pre-tightened. At this time, due to the elastic force of the compression spring 33, the tip of the insertion recess 15 of the first coupling sphere 12 and the insertion protrusion 25 of the second coupling sphere 22 is inserted to the maximum, and the compression spring ( 33) is a state that can be moved in the longitudinal direction of the tubular body 10 within the allowable range of the elastically installed bolt (31).

If the construction as described above, in the case of the summer, the tube 10 is in the state of maximum elongation, so the insertion protrusion 25 of the second coupler 22 to the insertion recess 15 of the first coupler 12 When the installation is completely inserted, and in the case of winter, the tube 10 is reduced to the maximum, so the insertion protrusion 25 of the second coupling hole 22 is inserted from the insertion recess 15 of the first coupling hole 12. It is preferable to install so that the state which has been removed a little. The reason for this is to allow the expansion and contraction of the tubular body 10 according to heat (temperature change) after construction in consideration of the stretching of the tubular body 10.

After the construction as described above, the bolts 31 and nuts 32 are fastened and fastened to the fastening holes 14 and 24 formed in the flanges 13 and 23 of the first and second coupling holes 12 and 22. Landfill completes construction. Thus, since the bolt 31 and the nut 32 and the compression spring 33 is embedded, it is preferable to provide a material that is not rusted well, stainless steel, or the like.

When the construction is completed in the assembled state as described above, even if the insertion protrusion 25 of the tubular body 10 is moved in the insertion recess 15, the O-ring 30 is inserted into the ring-shaped groove 26 of the insertion protrusion 25 ) Is always kept confidential so there is no fear of leakage.

As described above, the connection structure of the synthetic resin tube according to the present invention is relatively movable in the longitudinal direction while maintaining the airtightness of the first and second coupling spheres stretch in the longitudinal direction of the synthetic resin tube due to temperature changes It is a useful invention that can accommodate.

In addition, the present invention does not reduce the inner diameter when the first and second coupling spheres are connected, it is useful that does not adversely affect the fluid flow inside the synthetic resin tube.

Claims (1)

First and second coupling holes 12 and 22 having flanges 13 and 23 are formed at ends of the tubular body 10 connected to each other adjacent to each other, and the insertion protrusion 25 is formed in the second coupling hole 22. ) Is formed, and the first coupling hole 12 is formed with an insertion recess 15 into which the insertion protrusion 25 is inserted to be coupled to each other, and the flanges 13 and 23 of the tubular body 10 are bolted ( 31) in the connection structure of the synthetic resin pipe is fastened with a nut (32), The insertion recess 15 is formed on the outer surface of the insertion protrusion 25 so that airtightness is maintained even when the coupling portion of the first and second coupling holes 12 and 22 flows along the length direction of the tubular body 10 by a predetermined length. At least one ring-shaped groove 26 is formed in close contact with the inner surface of the crankshaft, and the O-ring 30 is installed in the ring-shaped groove 26, and the bolt 31 is fastened through the flanges 13 and 23. Compression spring 33 is elastically installed at the end of the; Connection structure of the synthetic resin pipe, characterized in that the inner diameter of the second coupler 22 is formed to the same diameter as the inner diameter of the tube (10).

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