KR101358043B1 - Quick connection device for pvc pipe - Google Patents

Abstract

The present invention relates to a device for connecting two pipes (10), which comprises: a body (20) which has auxiliary bodies (30) at both ends for storing a pipe (10) and forms an operating space along with the auxiliary bodies (30); turning bodies (40) which are spirally combined with end of the auxiliary bodies (30) and have multiple through-holes (46) on the outer circumference thereof; pressurizing blocks (50) which are accommodated into the through-hole (46) of the turning bodies (40) in order to adhere to the pipe (10) in the operating space of the body (20) and the auxiliary bodies (30), and have an inclined surface (53) on the external surface and an concavo-convex surface (55) on the internal surface; packings (60) which are installed inside the pressurizing blocks (50) in the operating space of the body (20) and the auxiliary bodies (30); and adhering rings (70) which are installed between the pressurizing block (50) and the packing (60) and transmit the pressurizing force of turning body (40) to the packing (60). Therefore, the device by the present invention can improve workability by facilitating assembly and disassembly and can significantly improve watertightness by increasing sealing power when connecting pipes with various sizes such as a resin pipe.

Description

Quick connection device for PVC pipe

The present invention relates to a quick connection mechanism of a resin pipe, and more specifically, to connect pipes of various sizes, including resin pipes, to be easily joined and dismantled to improve workability and to improve watertightness with high sealing force. It relates to a quick connection mechanism of the resin pipe.

Expansion and replacement of pipes occur periodically in various sewage equipments that are exposed to the outside as well as in water and sewage facilities that are buried underground. However, resin pipes, such as PVC pipes, have a lot of difficulties in connection work due to severe variation (deformation) at the ends compared to steel pipes, stainless pipes, copper pipes, and aluminum pipes. As related patents, Korean Laid-Open Patent Publication No. 2012-0006296, Korean Laid-Open Patent Publication No. 2012-0021893 and the like are known as related patents.

The former patent has a pipe-type socket tube for tightly inserting the synthetic resin tube end into both sides; It has a tube shape that is inserted into one side of the socket tube, to form a fitting packing in which watertight protrusions protruding the inner circumferential surface at regular intervals; Synthetic resin tube ends are tightly inserted and inserted into one side of the socket tube to weld the surfaces in contact with each other to be integrally connected, and the other side of the socket tube is fitted with a fitting packing and a synthetic resin tube. Accordingly, it is expected that the effect can be easily connected to the general synthetic resin tube without the production of a separate synthetic resin tube.

The latter prior patent forms a male thread by processing an outer diameter at one end of the upper and lower sewer pipes, and forms a female thread by processing an inner diameter at the opposite end of the male screw part of the upper and lower sewer pipes, and an inner diameter of the upper and lower sewer pipes having the female thread formed thereon. Inserted in and fixed in the fixed finish and inserting the water and sewage pipe formed with the male thread portion to the inner diameter of the rubber packing to screw the female screw portion and the male screw portion. Accordingly, it is expected to prevent the phenomenon of pressure separation even after being buried in the ground and to prevent the phenomenon of water leakage by the rubber ring.

However, according to the former patent, a process of welding a socket and a pipe is required, and according to the latter prior patent, a male and a female thread must be processed. And the workmanship is also increased.

Korean Laid-Open Patent Publication No. 2012-0006296 "Connecting structure of a socket-integrated synthetic resin tube" (published date: January 18, 2012) Korean Laid-Open Patent Publication No. 2012-0021893 "Tube and connection method using a single-sided socket that is combined to prevent separation and leakage in the connector" (published: March 9, 2012)

An object of the present invention for improving the conventional problems as described above, the connection and disassembly of pipes of various sizes, including resin pipes can be easily coupled and dismantled to improve workability and high sealing force can greatly improve watertightness. It is to provide a quick connection mechanism of the resin pipe.

In order to achieve the above object, the present invention provides a mechanism for connecting two pipes comprising: a body having an auxiliary body at both ends of which the pipe is accommodated and forming an operating space together with the auxiliary body; A spiral body coupled to an end of the auxiliary body and having a plurality of through holes on an outer circumferential surface thereof; A pressure block accommodated in the through hole of the turning body to closely contact the pipe on the working space of the body and the auxiliary body, the pressure block having an inclined surface on the outer surface and an uneven surface on the inner surface; A packing installed inwardly of the pressure block on the working space of the body and the auxiliary body; And an adhesion ring installed between the pressure block and the packing and closely supporting one surface of the packing.

In addition, according to the present invention, the body is characterized in that it has an inner step to limit the progress of the pipe, an intermediate step to limit the progress of the packing, the outer step to limit the progress of the contact ring.

In addition, according to the present invention is characterized in that the auxiliary body of the body accommodates the contact ring on the inner plane, the receiving block on the outer plane and the inclined surface.

In addition, according to the present invention, the turning body is characterized in that it comprises a flange of the form that is easy to rotate using a tool on the outer end.

In addition, according to the present invention, the packing is provided with an outer wing and an inner blade that is bisected by the V-shaped groove, characterized in that the outer ring is integrally provided with an O-ring.

It should be understood, however, that the terminology or words of the present specification and claims should not be construed in an ordinary sense or in a dictionary, and that the inventors shall not be limited to the concept of a term It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be properly defined. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

As described above, according to the present invention, when connecting pipes of various sizes, including resin pipes, the coupling and disassembly are easy to improve workability and high sealing force, thereby improving watertightness.

1 is a block diagram showing a main portion of the connecting mechanism according to the present invention in cross section
Fig. 2 is a perspective view showing the appearance of the appearance in the state of Fig. 1
Figure 3 is a block diagram showing a separate body of the connection mechanism according to the invention
Figure 4 is a block diagram showing the separation of the main part in the connection mechanism according to the invention
Figure 5 is a block diagram showing a rotating body and the pressure block in the connection mechanism according to the present invention
Figure 6 is a block diagram showing a state after the operation of the connection mechanism according to the invention
7 is a perspective view showing a state in which a pipe is connected in the state of FIG.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a mechanism for connecting two pipes (10) used for conveying a fluid. The pipe 10 is intended for medium and large resin pipes, but is not necessarily limited thereto, and may be applied to various metal and non-metallic pipes or small sized pipes.

Body 20 according to the present invention is provided with an auxiliary body 30 at both ends of the pipe 10 is accommodated, and forms a structure to form a working space with the auxiliary body (30). The body 20 is based on a simple cylindrical shape, but may be formed in the middle in consideration of material saving and transport convenience. The spiral 24 is formed on the inner surface of the body 20 and the spiral 34 is formed on the outer surface of the auxiliary body 30 to be coupled. When both ends of the body 20 are coupled to the auxiliary body 30 helix, each operating space is formed. Choosing the dividing structure of the body 20 and the auxiliary body 30 is an assemblage for putting the actuators such as the pressure block 50, the packing 60, the contact ring 70 and the like on the working space To consider. The present invention is supplied in an assembled state in the form of FIG. 2, but the connection relationship therein is as shown in FIG. 1.

At this time, referring to Figure 3, the body 20 of the inner step 21 to limit the progress of the pipe 10, the middle step 22 to limit the progress of the packing 60, the adhesion ring 70 It is provided with an outer step 23 to limit the progress. The inner step 21 is formed at an intermediate position of the body 20 and restrains progress while contacting the pipe 10 entering from both sides. The middle step 22 and the outer step 23 are symmetrically positioned at both sides with respect to the inner side step 21 of the center. The intermediate step 22 is formed with a larger diameter on the outside of the inner step 21 and constrains the packing 60 to be described later to proceed to a set position. The outer step 23 is formed with a larger diameter on the outside of the intermediate step 22 and restrains the contact ring 70 to be described later to the set position. On the outer step 23, a groove 26 having a semi-circular cross section for supporting the O-ring 66 of the packing 60 is formed.

On the other hand, the auxiliary body 30 of the body 20 accommodates the contact ring 70 on the inner plane 31, and receives the pressure block 50 on the outer plane 32 and the inclined surface (33). . The auxiliary body 30 is coupled to the body 20 using the spiral 34 on the outer surface, and is coupled to the turning body 40 to be described later using the spiral 35 on the inner surface. The inner plane 31, the outer plane 32, and the inclined plane 33 extend in the form of cross-sectional reduction in order from the inner end to the outer end of the auxiliary body 30. The inner plane 31 accommodates the contact ring 70 together with the outer step 23 of the body 20. The pressure block 50 is positioned on the outer plane 32 while interlocking with the turning body 40 to be in non-contact with the pipe 10 or in inclined surface 33 to be in pressure contact with the pipe 10.

In addition, according to the present invention is a structure in which the turning body 40 having a plurality of through holes 46 on the outer circumferential surface is spirally coupled to the end of the auxiliary body 30. The turning body 40 includes a spiral 45 coupled to the spiral 35 of the auxiliary body 30 on an outer circumferential surface thereof. The through hole 46 formed in the turning body 40 has a structure allowing radial movement while receiving the pressure block 50. Normally, the pressure block 50 uses two to six according to the size of the pipe 10, and the through holes 46 of the turning body 40 are also formed in the same number. The connection and dismantling of the pipe 10 is made quickly in the body 20 according to the direction in which the rotating body 40 rotates.

At this time, the turning body 40 is provided with a flange 41 of the form that is easy to rotate using a tool on the outer end. Although not shown in the drawing, if a flat portion or a small cylindrical groove is formed on the outer circumferential surface of the flange 41, it is easy to rotate using a general tool or a dedicated tool. According to this method, the connection and dismantling of the pipe 10 can be conveniently performed using only one tool.

In addition, according to the present invention is a structure in which the pressure block 50 is accommodated in the through-hole 46 of the turning body 40 in close contact with the pipe 10 in the working space of the body 20 and the auxiliary body 30. . As shown in the figure, the through hole 46 is formed in a square shape, and the pressure block 50 may be formed in a rectangular cross-sectional structure. The pressure block 50 is slidable in the through hole 46, so as not to protrude more than a predetermined length in the radial direction. That is, when the pressure block 50 is moved in the radial direction to pressurize the pipe 10 to generate a bearing force, but the pipe 10 in the normal state without the pipe 10 so as not to be separated through the through hole 46.

At this time, the pressure block 50 is provided with an inclined surface 53 on the outer surface and the uneven surface 55 on the inner surface. As soon as the inclined surface 53 of the pressure block 50 is in contact with the inclined surface 33 of the auxiliary body 30 described above, the pressure block 50 is moved in a radial direction to be in close contact with the pipe 10. When the pressure block 50 forms the uneven surface 55 on the inner surface in close contact with the pipe 10, the supporting force of the pipe 10 with respect to the body 20 is improved. If the pipe 10 is a metal tube, the uneven surface 55 may be hard. However, if the pipe 10 is a resin tube, the uneven surface 55 may be relatively soft.

In addition, according to the present invention is a structure in which the packing 60 is installed to the inside of the pressure block 50 in the working space of the body 20 and the auxiliary body 30. The packing 60 uses a soft resin material or a synthetic rubber material in consideration of watertightness, but at the same time, it is preferable to have high elasticity, wear resistance, cold resistance, and heat resistance. The packing 60 maintains a watertight state by applying a high sealing force between the body 20 and the pipe 10.

At this time, the packing 60 has an outer wing 61 and an inner wing 62 bisected by the V-shaped groove 63, and is provided with an O-ring 66 integrally to the outside of the outer wing 61. When the packing 60 is divided into the outer blade 61 and the inner blade 62, it is advantageous in elastic behavior to improve workability when the pipe 10 is connected and dismantled. The O-ring 66 formed on the outermost side of the packing 60 maintains a watertight state stably regardless of fluctuations in the pressing force by the turning body 40 or deterioration of the contact ring 70.

In addition, according to the present invention is a structure in which a close contact ring 70 is installed between the pressing block 50 and the packing 60 to closely support one surface of the packing 60. The close contact ring 70 is accommodated in the inner plane 31 of the auxiliary body 30 and tightly pressurizes the packing 60 together with the O-ring 66 from one surface thereof. The contact ring 70 has a recess 76 of semi-circular cross section so as to support the O-ring 66 on the surface in contact with the packing 60.

In the assembly, in Fig. 1, the pipe 10 of the upper part is in a state after entering and the pipe 10 of the lower part is in the middle of entering. 40 is combined, the pressure block 50 is installed on the through hole 46 of the turning body 40 to complete the temporary assembly, and the packing 60 and the contact ring 70 are placed on the body 20. , The auxiliary body 30 of the temporary assembly is coupled to the body 20. Accordingly, as shown in Figure 2, the assembly is completed, storage, transfer, field injection is made, but as shown in the upper portion of Figure 1, the pressing block 50, the contact ring 70, the packing 60 is not separated. .

In use, as shown in the lower part of FIG. 1, when the flange 41 is closest to the end of the body 20, the turning body 40 has advanced to the innermost side and interlocks with the turning body 40. The pressure block 50 is released from the inclined surface 33 to reach the outer plane 32 to release the pressing force, while the end of the turning body 40 reaches the packing 60 to press the inner blade 62. . When the pipe 10 is pushed in such a state, since it does not receive resistance by the pressure block 50 or the packing 60, the inner step 21 is easily reached. Then, when the release body 40 is released to the upper state of FIG. 1, the pressure block 50 is separated from the outer plane 32 to reach the inclined surface 33 to press the pipe 10, and at the same time the rotation body 40 The inner blade 62 of the packing 60 is opened while the end of the c) is retracted to be in close contact with the pipe 10.

As described above, the present invention pushes the pipe 10 into the body 20 in the advanced state of the turning body 40 without requiring any preliminary work on the pipe 10 and reverses the turning body 40 to pressurize the block 50. ) And the packing 60 exert a bearing force and a sealing force. When the rotating body 40 is rotated in reverse when the pipe 10 is disassembled, the pressure block 50 is retracted and the packing 60 is compressed by the reverse order, so that the pipe 10 can be easily separated.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

10: pipe 20: body
21, 22, 23: step 26: groove
30: auxiliary body 31, 32: plane
33: slope 40: bolmer
41: flange 46: through hole
50: pressure block 53: inclined surface
55: uneven surface 60: packing
61, 62: wing 63: V-groove
66: O-ring 70: contact ring
76: groove

Claims (5)

In the mechanism for connecting two pipes 10:
A body 20 having an auxiliary body 30 at both ends of which the pipe 10 is accommodated, and forming an operating space together with the auxiliary body 30;
A spinneret (40) coupled to the end of the auxiliary body (30) with a spiral and having a plurality of through holes (46) on an outer circumferential surface;
It is accommodated in the through hole 46 of the turning body 40 to closely contact the pipe 10 in the working space of the body 20 and the auxiliary body 30, the inclined surface 53 on the outer surface and the uneven surface 55 on the inner surface Pressure block 50 having a);
A packing 60 installed inwardly of the pressing block 50 in the working space of the body 20 and the auxiliary body 30; And
Quick connection mechanism of the resin pipe, characterized in that it comprises a; is installed between the pressure block (50) and the packing (60), the contact ring (70) to closely support one surface of the packing (60). The method of claim 1,
The body 20 has an inner step 21 for restricting the progress of the pipe 10, an intermediate step 22 for limiting the progress of the packing 60, and an outer step 23 for restricting the progress of the contact ring 70. Quick connection mechanism of the resin pipe, characterized in that it comprises a). The method of claim 1,
The auxiliary body 30 of the body 20 accommodates the contact ring 70 on the inner plane 31, and receives the pressure block 50 on the outer plane 32 and the inclined surface 33. Quick connection mechanism of resin pipe. The method of claim 1,
The rotating body 40 is a quick connection mechanism of the resin pipe, characterized in that the outer end is provided with a flange 41 of the form that is easy to rotate using a tool. The method of claim 1,
The packing 60 has an outer wing 61 and an inner wing 62 which are bisected by the V-shaped groove 63, and has an O-ring 66 integrally with the outer wing 61. Quick connection mechanism of resin pipe.

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