KR930002507Y1 - Pipe coupling - Google Patents

Abstract

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Description

Pipe Couplings for Corrugated Pipe Connection

1 is a partial longitudinal side view showing a state in which a corrugated pipe is inserted.

2 is a partial vertical side view showing a state in which the inserted corrugated pipe is tightened and connected.

3 is an enlarged explanatory diagram showing a state in which the rigid ring is moved in the centrifugal direction by the passage of a ridged portion of the corrugated pipe;

4 is an exploded view of a coupling main cylinder portion showing the shape of a lock groove;

* Explanation of symbols for main parts of the drawings

1: outer cylindrical body 2: through hole of small diameter

3: cylindrical part 4: through-hole of large diameter

5: Coupling main cylindrical part 6: Stepped cylindrical groove

7: corrugated pipe 8: seal surface

9: stopper 10: sealing

11: inner cylindrical portion 12: through hole

13: spiral groove 13 ′: straight groove

14: lock groove 15: pin

16: Rigid ring 17: Wonju groove

18: thin pressing surface

The present invention relates to a coupling used for connecting corrugated pipes. In recent years, since many piping materials, including indoor gas piping materials such as general houses, have been changed from straight pipes to corrugated pipes, which are easy to construct, couplings for connecting corrugated pipes and pipes have been required.

Needless to say, since the external shape of the corrugated pipe is of the shape of a snake, it is difficult to connect due to a problem in sealing compared to a straight pipe, and therefore, the internal structure of the corrugated pipe is complicated in coupling of a conventional corrugated pipe. In addition, in the sealing of corrugated pipes performed to prevent gas leakage, most of them have a structure that is sealed by rubber packing. Therefore, if the rubber packing is damaged by heat or of poor quality, it is unavoidable to cause gas leakage.

According to the conventional coupling, since the internal structure is complicated, handling is cumbersome and the workability is poor. In addition, since the seal is made by rubber packing, if the rubber packing is subjected to heat damage due to the occurrence of a fire, it is inevitable to cause gas leakage, and it is easy to cause a disaster.

The present invention aims to solve the above-mentioned drawbacks. In order to solve the above problems, the present invention has a cylindrical main part having a small diameter through hole and a coupling main cylindrical part having a large diameter through hole, and has a small diameter through hole and a large diameter through hole. Stepped circumferential grooves in successive stepped sections, an inclined seal surface that is gradually smaller toward the through hole of a smaller diameter adjacent to the stepped circumferential groove, and fitted to the tip of the corrugated pipe adjacent to the inclined seal surface. A stopper is provided for preventing the separation in the rental axial direction, and the sealing body sealing the outer circumferential surface of the corrugated pipe is fitted into the stepped circumferential groove to form a coupling body, and the large diameter through-hole has an outer diameter of the corrugated pipe. Is provided in the axial direction with a through hole coinciding with the axial direction, and the inner cylindrical portion having a circumferential groove on the inner circumferential surface of the through hole is moved in the axial direction. The circumferential groove of the inner cylindrical portion is fitted with a rigid ring that expands and contracts in the circumferential direction that can be fitted to the outer circumferential surface of the corrugated pipe, and reduces the radius by pressing force in the centripetal direction. Press the rigid ring fitted in the same groove in the oblique centripetal direction, and by using this rigid ring to form an inclined pressing surface crushing the wrinkles of the outer peripheral surface of the corrugated pipe inserted into the inner cylindrical portion in the axial direction. It is to achieve the desired purpose by employing one configuration.

In connecting the corrugated pipe, first, the inner cylindrical portion fitted into the large diameter through hole is rotated to move away from the small diameter through hole in the coupling main cylindrical portion. In this state, when the corrugated pipe is inserted into the inner cylindrical portion until its tip abuts on the stopper, the rigid ring fitted into the circumferential groove provided on the inner circumferential surface of the inner cylindrical portion is inserted into the ridge portion of the corrugated pipe. It is pushed in the centrifugal direction and widened or entered into the valley, but the wrinkles on the outer circumferential surface of the corrugated pipe are reduced in the axial direction while being in the valley. Next, by moving the inner cylinder portion to the through hole of a small diameter while rotating the inner cylinder portion, by this movement of the inner cylinder portion, the rigid ring is pressed against the inclined pressing surface adjacent to the circumferential groove and Move in the orthogonal direction to fit into the corrugated pipe goal.

On the other hand, when the inner cylindrical portion is moved, the rigid ring, which is engaged with the valley of the corrugated pipe, moves in the direction of the coupling main cylindrical portion under the pressing force of the inclined pressure surface, so that the end of the corrugated pipe whose end is hung on the stopper is moved. When the corrugation of the outer circumferential surface is pushed in the axial direction to secure the stop to the stopper and the rotation of the inner cylindrical part becomes impossible, the catch of the rigid ring against the valley of the corrugated pipe is also strengthened. Complete the connection by preventing the cylinder from escaping. Therefore, at this time, the outer peripheral surface of the corrugated pipe is sealed by the sealing ring, and the end side thereof is pressed by the metal ring, and the seal is pressed against the inclined seal surface provided at the stepped portion where the large diameter through hole and the small diameter through hole are successively pressed. do.

In the connected state of the corrugated pipe, when the inner cylindrical portion is reversed by moving the inner cylindrical portion in a direction away from the through hole of the small diameter, the pressing force of the inclined pressing surface against the rigid ring is released to release the ring. It can be pulled out easily. Next, the present invention will be described in detail based on the embodiment shown in the drawings, but the present invention is not limited to the embodiment.

In the drawing, reference numeral 1 denotes a coupling main body, which has a cylindrical portion 3 having a small diameter through hole 2 therein and a large diameter through hole 4 therein. It consists of the coupling main cylinder part 5 provided with the cylindrical part 3, and the coupling main cylinder part 5 are connected and connected so that each hole 2 and 4 may communicate. The cylindrical portion 3 and the coupling main cylindrical portion 5 are separately formed in the embodiment, but may be formed integrally.

A stepped circumferential groove 6 and a stepped circumferential groove 6 are formed in a stepped portion provided in series with the small diameter through hole 2 and the large diameter through hole 4. An inclined seal surface 8 that seals the end face side of the pipe 7 and a stopper 9 that abuts against the tip of the corrugated pipe 7 adjacent to the inclined seal surface 8 and prevents deviation in the axial direction. Is provided, and a sealing ring 10 for sealing the outer circumferential surface of the corrugated pipe 7 is fitted in the circumferential groove 6 of the layer.

The inner circumferential surface of the large-sized through hole 4 is formed as a smooth surface. In the large-sized through hole 4, the inner cylindrical portion 11 is free to slide in the axial direction, and the rotation in the circumferential direction is possible. It fits freely. The outer circumferential surface of the inner cylindrical portion 11 is formed as a smooth surface, and has a through hole 12 corresponding to the outer diameter of the corrugated pipe 7 therein. The outer circumferential surface of the open end side of the inner cylindrical portion 11 is formed in a hexagonal hexagonal shape or two chamfers in order to easily rotate the inner cylindrical portion 11.

The coupling main cylinder portion 5 having the large diameter through hole 4 has a lock groove composed of a straight groove 13 'formed in the circumferential direction as an extension groove of a groove such as a spiral groove 13 inclined with respect to the shaft center. (14) are formed at equal intervals of two stems. In addition, a pin 15 fixed to the inclined groove 13 is fixedly installed on the inner circumferential surface of the inner cylindrical portion 11, and when the inner cylindrical portion 11 is rotated, the pin 15 guides to the spiral groove 13. Thus, it slides in the axial direction while accompanying rotation. In addition, the straight groove 13 'is for maintaining the final tightening state of the rigid ring to be described later.

The inner circumferential surface of the inner cylindrical portion 11 is a circumferential groove for fitting a metallic spiral spring ring (hereinafter referred to as a stiffness ring) 16, which is stretched in a circumferential direction that can be fitted to the corrugated bone of the outer circumferential surface of the corrugated pipe 7. (17) is formed, so that a part of the circumferential groove (17) presses the rigid ring (16) fitted in the circumferential groove (17) in the oblique centripetal direction, thereby causing the stiffness ring (16) inside. An inclined pressing surface 18 is formed in which the corrugations of the outer circumferential surface of the corrugated pipe 7 inserted into the cylindrical portion 11 are crushed in the axial direction. In addition, the rigid ring 16 can be expanded and contracted in the circumferential direction. However, when the rigid ring 16 is pressed in the circumferential direction, the rigid ring 16 is reduced so that the coil state of the wire rod constituting the rigid ring 16 is not deformed.

Next, the operation of the above-described embodiment will be described. When the inner cylindrical part 10 fitted in the large diameter through-hole 4 of the coupling main cylindrical part 5 is rotated, the pin 15 in which the inner cylindrical part 11 is fixedly installed is the coupling main cylinder. Guided by the spiral groove 13 formed in the section 5, it moves forward or backward in the axial direction.

In connecting the corrugated pipe 7, first of all, the above-described inner cylindrical portion 11 is rotated to move away from the small diameter through-hole 2 (left direction in FIG. 1). When the corrugated pipe 7 is inserted into the inner cylindrical portion 11 in this state, the rigid ring 16 fitted into the circumferential groove 17 formed on the inner circumferential surface of the inner cylindrical portion 11 is formed of the corrugated pipe 7. The ridge is pushed out in the centrifugal direction to allow the corrugated pipe 7 to be inserted (see Fig. 3).

The corrugated pipe 7 is inserted into contact with the stopper 9 provided at the tip thereof near the stepped circumferential groove 5 of the through hole 2 having the predetermined diameter and the through hole 4 having the large diameter. Until it continues. When the tip of the corrugated pipe 7 abuts on the stopper 9, a suitable tool such as a spanner is engaged on the outer circumferential surface of the open end of the inner cylindrical portion 11 to rotate the inner cylindrical portion 11. The inner cylindrical portion 11 is moved to the through hole 2 side of the small diameter by rotation, and the rigid ring 16 fitted into the circumferential groove 17 by this movement is pressed by the inclined pressing surface 18. Thus, it is engaged with the corrugated bone of the corrugated pipe 7.

When the inner cylindrical portion 11 is rotated again and the cylindrical portion is moved in the axial direction again, the rigid ring 16 fitted to the corrugated bone of the corrugated pipe 7 is obliquely centered by the inclined pressure surface 18. While moving in the axial direction of the corrugated pipe 7 while being pressed by the rigid ring 16, the rigid ring 16 presses the corrugated bone of the corrugated pipe 7, between which the corrugated pipe 7 hangs against the stopper 9. Is pressed against the moving rigid ring 16 so that its outer circumferential surface creases are gradually distorted in the axial direction, and in the other direction, the rigid ring 16 is sandwiched between this valley and the inclined pressing surface 18, so that the inner cylindrical portion The pin 15 on the (11) side is braked by the lock groove 14 so that the corrugated pipe 7 is completely connected without the inner cylindrical portion 11 rotating further, and exits from the inner cylindrical portion 11. Work disappears. In this way, when the pleats of the outer circumferential surface of the corrugated pipe 7 are pressed and crushed into a fully connected state, the outer circumferential surface of the tip end of the corrugated pipe 7 is brought into a crimped state to the inclined seal surface 8 of the stepped portions that are subsequently connected. The metal seal is performed by this. This metal seal is very hard, and it becomes stronger when thermal expansion arises by temperature rise. In addition, the outer circumferential surface of the connected corrugated pipe 7 is also separately sealed by a sealing ring 10 fitted to a step portion provided in series.

When the connection state of the corrugated pipe 7 is released, the inner cylindrical portion 11 is rotated in reverse to move away from the small-diameter hole 2. By this operation, when the pressing force of the inclined pressing surface 18 against the rigid ring 16 is released to release the rigid ring 16, the corrugated pipe 7 is released from the inner cylindrical portion 11 when it is brought into a completely released state. It can be pulled out easily.

According to the present invention as described above, when connecting the corrugated pipe inserted into the inner cylindrical portion, the corrugation of the corrugated pipe is pressed and crushed in the direction of the axial center line, and the latching state is kept invariably by the rigid ring, and the corrugated pipe is connected. You can make sure. Thus, the connection state of the corrugated pipe can be assured. Therefore, the connection work of the corrugated pipe is easy and the workability can be improved. Furthermore, the connected corrugated pipe is metal-sealed by the inclined seal surface provided in the stepped portion where the small diameter through hole of the outer circumferential coupling body and the large diameter through hole are successively connected, so that fluid leakage is more reliably prevented even at temperature changes. In particular, in the event of a fire, thermal expansion helps to make the metal seal by the inclined seal surface more durable, and prevents gas leakage from the connection portion of the corrugated pipe. Thus, according to the present invention, secondary disasters caused by gas leakage can be completely prevented.

Claims (1)

A small diameter through hole (2) provided at one end, a stopper (9) provided at an inner circumferential surface of the small diameter through hole (2) to hook a cross section of the corrugated pipe (7), and the corrugated pipe (7) An outer cylindrical body (1) having a seal ring (10) for sealing the outer circumferential surface of the shell), and an inner cylindrical portion having a diameter substantially the same as the outer diameter of the corrugated pipe (7) and having a pin (15) protruding from the outer circumferential surface. And an inclined groove 13 for guiding the pin in order to rotate the inner cylindrical portion 11 in the circumferential direction and to slide the axial direction in the outer cylindrical body 1, In the pipe coupling for connection of a corrugated pipe in which the straight groove 13 'extending in the circumferential direction of the cylindrical body is successively arranged in the inclined groove, the inner circumferential surface of the inner cylindrical portion 11 has a rigid ring whose radius can be reduced. Circumferential groove 17 for fitting 16 and the steel The inclined pressing surface 18 is formed to press the ring in the centripetal direction, and the outer cylindrical body 1 and the inner cylindrical part 11 are coupled to each other so that the rigid ring and the stopper of the outer cylindrical body 9 installed on the inner cylindrical part side. By reducing the axial distance of the stiffness, the rigid ring 16 whose diameter is reduced on the inclined pressing surface 18 is engaged with the valley portion of the corrugated pipe 7 from the outward side so that the pin 15 of the inner cylinder is inclined. Pressing the corrugated pipe 7 in the axial direction with the rigid ring until the straight groove 13 'of the largest portion of the groove 13 reaches the final engagement state of the rigid ring 16, and at the same time, the corrugated pipe ( A pipe coupling for connecting a corrugated pipe, characterized in that the end portion and the outer circumferential surface of 7) are pressed against the stopper 9 and the seal surface 8.