KR100833816B1 - Pipe connector - Google Patents

Abstract

A pipe connecting device is provided to prevent damage of the pipe connecting device and to keep water tightness by forming a side of a packing with double ends to contact closely to an outer surface of an inserted pipe. A pipe connecting device comprises the followings: a cap(10) formed with a thread unit and a dent groove at an inner surface; a connecting pipe(20) formed with a thread unit corresponding to the thread unit of the cap at an outer surface, an engaging stop at a inner side, and a pipe protector connecting groove; a stopper(30) formed with an engaging protrusion and a groove at a side, a part of which is projected from an inner diameter of the cap, and a fastening protrusion at the opposite side of the engaging protrusion, to fasten an inserted pipe; a packing(40) contacted with the stopper, and formed with double ends contacted with the engaging stop formed at the inner side of the connecting pipe, to keep water tightness by contacting closely to an outer surface of the inserted pipe; a pressing ring(50) inserted and fastened to the groove of the stopper, to press the stopper; a pipe protector(60) fastening the connecting pipe and the cap double, after inserting the stopper and the packing and coupling the cap to the connecting pipe.

Description

PIPE CONNECTOR}

The present invention is characterized in that the high pressure when the pipe is connected to prevent the pipe connector from being broken, prevent the pipe from being inserted from being separated from the pipe connector, and maintains watertightness by forming one side of the packing as a double end. It relates to a pipe connection to be.

The pipe connector used for the connection of the pipe is typically composed of a threaded portion is easy to rotate the cap and the cylindrical connector corresponding to the cap, to bind the watertight packing and the interpolated pipe inside the connector. Insert the stopper for interlocking and fastening through screwing to bind. However, when connecting through the screw connection in the fastening as described above, a lot of force was required because the stopper to be inserted in the interior has to be crimped, it was difficult to crimp the stopper through screwing. In addition, when high pressure is required, the connector may be broken. In addition, the packing in which the watertight is interpolated in the stomach is hard to maintain the watertight because it is simply bound to the outer diameter of the pipe, and when inserting one side of the pipe, the packing is pushed into the connection sphere.

The pipe connector of the present invention prevents the pipe connector from being damaged due to the operation of high pressure during pipe connection, prevents the inserted pipe from being separated from the pipe connector, and maintains watertightness by forming one side of the packing as a double end. It is intended to prevent pushing into the inside of the connecting pipe when the pipe is inserted.

In order to solve the above problems, the pipe connector of the present invention is composed of a cap 10, the connection pipe 20, the stopper 30, the packing 40, the pressing ring 50 and the pipe protector 60 After inserting the stopper 30 and the packing 40 into the cap 10 and the connecting pipe 20, a portion of the outer surface of the screw 110 and the connecting pipe 20 formed on the inner surface of the cap 10 is inserted. After screwing corresponding to the screw 210 formed in the corresponding to the fastening ring 50 to one side of the stopper 30 protruding into the inner diameter of the cap 10, the cap 10 and the connection pipe fastened as described above Wrap 20 and wrap it with a pipe protector 60 to complete.

By providing the pipe connector of the present invention, high pressure pressure is applied at the time of pipe connection to prevent the pipe connector from being broken, to prevent the inserted pipe from being separated from the pipe connector, and to form one side of the packing as a double end Maintaining watertightness, there is an effect to prevent being pushed into the inside of the connection pipe when the pipe is inserted.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention.

1 is a perspective view of a pipe connector of the present invention, Figure 2 is an exploded perspective view of a pipe connector of the present invention. 1 and 2, the pipe connector of the present invention is a cap 10, the connector 20, the stopper 30, the packing 40, the pressing ring 50 and the pipe protective device 60 Consists of the stopper (30) in order to bind the packing (40) for watertightness and the interpolated pipe to the inside of the connecting pipe 20 in order to combine the cap 10, the compression ring (50) Bind and complete the pipe protection 60 is fastened.

The cap 10 is coupled to the threaded portion 210 formed on one side of the connection pipe 20 because the threaded portion 110 is formed on the inner side.

The connecting pipe 20 is formed in a cylindrical shape, the threaded portion 210 corresponding to the threaded portion 110 of the cap 10 is formed on the outer side, a portion of the inner side is formed with an inclined surface. The inclined surface is in contact with the inclined outer peripheral surface of the stopper 30 and the packing 40 to be interpolated.

In addition, a plurality of pipe protector coupling grooves 230 are formed at the center of the outer circumferential surface of the connector to couple the pipe protector 60 to prevent the connector from being damaged from the high pressure. The pipe protector coupling groove 230 is formed on the side portion of the connection pipe 20, so as to prevent damage to the connection pipe as well as binding of the pipe and the connection pipe after the pipe binding.

The stopper 30 is formed in a ring shape with one side open, and a locking protrusion 310, a fastening protrusion 320, and a groove 330 are formed.

The packing 40 is formed in a ring shape, and the outer circumferential surface is formed to be inclined so as to be in contact with the inner inclined surface of the connecting pipe 20 after being inserted into the connecting pipe 20. In addition, one end of the packing 40 has a double end 410 for watertight. This is to prevent the packing 40 from being pushed into the connection pipe 20 by the pipe which is inserted at the same time to increase the watertight force.

The pressing ring 50 is coupled by screwing, after coupling the cap 10 and the connecting pipe 20, the tightening projection 310 and the groove 330 of the stopper 30 to the inner peripheral surface of the cap 10 Is protruded and is fastened to the protruding groove 310. The fastening ring 50 is fastened and tightened to tighten the tightening protrusion 310 of the stopper 30 to bind the pipe to be inserted.

The pipe protection device 60 inserts the pipe to be connected and inserts the stopper 30 and the packing 40 into the inside of the connection pipe 20, and then combines the cap 10, and then the connection pipe 20 and the cap ( 10) Wrap around and bind. This is to prevent the connecting tube 20 and the cap 10 from being damaged by high pressure, and to prevent the cap 10 that is bound to the connecting tube 20 from being separated by screwing.

3 is a perspective view of the cap 10 of the piping connector of the present invention, Figure 4 is a perspective view of a connector pipe 20 of the piping connector of the present invention. 3 and 4, the inner side portion of the cap 10 is formed with a screw portion 110, and a hole is formed so that a portion of the stopper 30 may protrude. In addition, the one side of the cap 10 is formed with a groove 120 in contact with the concave-convex 340 formed on one side of the tightening protrusion 320 of the stopper 30, the concave-convex 340 and the groove 120 is Is formed in a ring shape on the same circumference, when the cap 10 is rotated to engage with the connecting pipe 20, it is possible to apply a constant pressure to the stopper 30. This prevents the stopper 30 from being separated from the cap 10 because the groove 120 rotates along the unevenness 340.

The cap as described above is coupled to the screw connection with the cylindrical connecting pipe 20 is formed with a threaded portion 210 on one side. The connecting pipe 20 has a threaded portion 210 is coupled to the threaded portion 110 of the cap 10 on one side of the outer surface, a plurality of pipe protector coupling for coupling the pipe protection 60 on the central side. The groove 230 is formed. In addition, the inner side of the connecting pipe 20 is formed with a locking jaw 220 is in contact with the end portion of the packing 40 to be interpolated, so that the inclined outer surface of the stopper 30 and the packing 40 to be in contact with the inside Part of the side is formed to be inclined.

As described above, a portion of the inner side surface of the connection pipe 20 is inclined so that the inclined outer surface of the stopper 30 and the packing 40 to be inserted moves along the inclined inner surface of the connection pipe 20. This makes the diameter small, thereby binding the pipe to be interpolated.

5 is a cutaway perspective view of the stopper 30 and packing 40 of the present invention. Referring to Figure 5 in detail, the stopper 30 for the binding of the pipe and the packing 40 for maintaining the water tightness when connecting the pipe is formed in a ring shape, a portion of the pipe is inserted into the inner diameter of each inner surface It comes into contact with the outer circumferential surface of the pipe.

The stopper 30 is for binding the pipe and is formed in a ring shape with one side open, and one side of the outer circumferential surface is formed to be inclined, so that the stopper 30 is inserted into the inside of the connection pipe 20 to form an inner slope of the connection pipe 20. By moving along, the diameter becomes smaller and binds to the outer peripheral surface of the pipe. On one side of the stopper 30, the locking protrusion 310, the tightening protrusion 320, the groove 330 and the unevenness 340 is formed. The locking protrusion 310 is projected to the inner diameter of the cap 10 when the cap 10 is coupled to the connector 20, and when the pressing ring 50 is bound to the groove 330, it is separated To prevent. In addition, the outer surface is inclined on the opposite side of the engaging projection 310 in contact with the groove 330, the fastening protrusion 320 is formed to be inserted into the connection and the inner side in contact with the inner inclined surface (320). The outer inclined surface of the tightening protrusion 320 is in contact with the inner inclined surface of the connecting pipe 20, the cap 10 is bound to the connecting pipe 20 and pressurized toward the connecting pipe 20, the connection of the pipe 20 It moves on the inner inclined surface and becomes smaller in diameter, thereby binding and injecting the pipe to be interpolated. In addition, the fastening protrusion 320 is in contact with the inner circumferential surface of the cap 10 is caught and the cap 10 is moved toward the connecting pipe 20 by the cap 10 when the cap 10 is in close contact with the connecting pipe 20 by screwing. Done. At this time, the inner surface of the cap 10 is formed with a groove 120 corresponding to the concave-convex 340 formed on one side of the tightening projection 320, when the cap 10 rotates, the stopper is interpolated (30) to be crimped in a fixed position. This is because the unevenness 340 formed on one side of the stopper 30 is inserted into the recess 120 formed in the inner portion of the cap 10. When the concave-convex 340 is inserted into the concave groove 120 and compressed at a predetermined position, when the pipe is inserted into the inner diameter of the stopper 30 and combined, the concave-convex 340 may be compressed at an even pressure.

The packing 40 is formed in a ring shape with an outer circumferential surface inclined, and one end thereof has a double end portion 410 formed in a double shape. The double end portion 410 formed at one side is inserted into the connecting pipe 20, and when the pressure is pushed toward the connecting pipe 20 by the stopper 30, a locking step formed on the inner side of the connecting pipe 20 ( 220). The double end 410 as described above is prevented from being pushed into the inside of the connecting pipe 20, one side end of the double end 410 is to be in close contact with the outer peripheral surface of the pipe interpolated by the inclined surface of the locking jaw 220. . This is to maintain the watertightness of the pipe to be interpolated.

6 is a perspective view of a pipe protector 60 of the present invention. Referring to FIG. 6 in detail, the pipe protection device 60 is to prevent the high pressure from being applied to the cap 10 and the connection pipe 20 and breaks the stopper 30 in the connection pipe 20. ) And the packing 40 is interposed, and after the cap 10 is fastened, the outer surface of the connecting pipe 20 and the cap 10 is wrapped and then bound. In addition, the pipe protector 60 prevents the cap 10, which is bound by screwing, from being separated from the connecting pipe 20, in addition to preventing damage to the cap 10 and the connecting pipe 20. It also plays a role. After the cap 10 is fastened by binding with a pipe protector 60, the cap 10 is bound so as not to be released from the connecting pipe 20, so that the double binding.

7 is a cross-sectional view of the pipe connector of the present invention, Figure 8 is an exemplary view showing the utilization of the pipe connector of the present invention.

Referring to Figures 7 and 8 in detail, one side of the outer peripheral surface of the connecting pipe 20 is formed with a threaded portion 210 is coupled to the threaded portion of the cap 10, one side of the inner peripheral surface is formed to be inclined stopper 30 And the outer circumferential surface of the packing 40. The inner circumferential surface of the connecting pipe 20 as described above becomes smaller in diameter as it proceeds from the inlet side to the inner side thereof, so that the diameter of the stopper 30 and the packing 40 moves along the inclined surface. As such, the diameter of the stopper 30 and the packing 40 decreases, thereby binding the tube inserted into the inner diameter. In addition, the inner side of the connecting pipe 20 is formed with a locking step 220 in contact with the double end 410 formed on one side of the packing 40. The hooking jaw 220 is formed on the same circumference of the inner circumferential surface of the connecting pipe 20, when the packing 40 is pressed by the cap 10, the double end 410 is in contact with the connection pipe 20 It is prevented from being pushed into the inside, and one side end of the double end 410 is in close contact with the outer peripheral surface of the pipe along the inclined surface of the locking jaw 220 to increase the water tightness.

In addition, when the cap 10 is coupled to the connecting pipe 20, one side portion of the stopper 30 to be inserted protrudes into the inner diameter of the cap 10. At this time, a part of the locking protrusion 310 and the groove 330 of the stopper 30 is protruded, and the pressing ring 50 is coupled to the protruding portion as described above. By binding the crimping ring 50 as described above, the stopper 30 is crimped to reduce the diameter.

When connecting the pipe using the pipe connector as described above, one side end of the pipe is inserted into the inner diameter of the pipe connector of the present invention to connect. At this time, the outer diameter of the pipe is inserted into the inner diameter of the cap 10, the stopper 30, the packing 40 in sequence, and the packing 40 and the stopper 30 in which the pipe 70 is inserted as described above are connected to the connection pipe. It is interpolated in (20), the cap 10 and the connection pipe 20 is screwed by using the threaded portion 110 formed on the outer side of the connection pipe 20 and the threaded portion 110 formed on the inner side of the cap (10). To bind. When the packing 10 and the connection pipe 20 are fastened, the stopper 30 is pressed by the cap 10, and the locking protrusion 310 and the groove 330 formed on one side of the pressurized stopper 30. A portion of protrudes into the inner diameter of the cap 10. As described above, the pressing ring 50 is fastened to the protruding groove 330 to press the locking protrusion 310 side of the stopper 30 so that the diameter becomes smaller, thereby binding the inserted pipe. In addition, the fastening protrusion 320 located on the opposite side of the locking protrusion 310 is interpolated inside the connecting pipe 20, and the inner inclined surface of the connecting pipe 20 and the outer inclined surface of the fastening protrusion 320 are in contact with the cap. When it is in close contact with (10) for the connection of the connecting pipe 20, the diameter of the tightening protrusion 320 is reduced to double bind the interpolated pipe.

In addition, the stopper 30 is pressed by the cap 10 to bind the pipe, and the stopper 30 is pressed to press the packing 40 while moving along the inclined inner circumferential surface of the connecting pipe 20. The watertight is maintained by being in close contact with the outer diameter of the interpolated pipe 70.

By connecting a plurality of pipes through the above method it is possible to connect the pipe.

1 is a perspective view of a pipe connector of the present invention.

2 is an exploded perspective view of a pipe connector of the present invention.

3 is a perspective view of the cap 10 of the pipe connector of the present invention.

4 is a perspective view of a pipe connector 20 of the present invention.

5 is a cutaway perspective view of the stopper 30 and packing 40 of the present invention.

6 is a perspective view of a pipe protection ring 60 of the present invention.

7 is a cross-sectional view of the pipe connector of the present invention.

Figure 8 is an illustration showing the utilization of the pipe connector of the present invention.

<Detailed Description of Main Parts of Drawing>

10 cap 20 connector

30: stopper 40: packing

50: binding ring 60: piping protection

110: screw portion 120: groove

210: screw portion 220: locking jaw

230: piping protection coupling groove 310: locking projection

320: tightening protrusion 330: groove

340: uneven 410: double end

Claims (5)

In the pipe connector for inserting and fastening a portion of the pipe to connect the pipe, the screw portion 110 is formed on the inner side, the groove 10 is formed cap 10; The threaded portion of the cap 10 and the corresponding threaded portion 210 is formed on the outer surface, the locking jaw 220 is formed on one side of the inner side, the pipe protective groove coupling groove 230 is formed ( 20), A part of the locking protrusion 310 and the groove 330 formed on one side by the inner diameter of the cap 10 protrudes, and a fastening protrusion 320 is formed on the opposite side of the locking protrusion 310 to bind the pipe inserted. A stopper 30 for; The packing 40 is in contact with the stopper 30, forms a double end portion 410 in contact with the engaging jaw 220 formed in the connection pipe 20, and is in close contact with the outer circumferential surface of the pipe to be inserted. ); A pressing ring 50 inserted into the groove 330 of the stopper 30 protruding to the inner diameter of the cap 10 to press the stopper 30; And After inserting the stopper 30 and the packing 40 to the connector 20 and the cap 10 is coupled to the connector 20 and the pipe protection device 60 for binding the cap 10 is characterized in that it consists of a double Piping connector. The pipe connector according to claim 1, wherein an inner portion of the connector (20) is inclined to contact the inclined outer circumferential surface of the stopper (30) and the packing (40). According to claim 1, One side of the stopper 30 is in contact with the groove 120 formed on one side of the cap 10, when the cap 10 is rotated to engage the connector 20, the stopper 30 Pipe connector characterized in that the concave-convex (340) is formed to prevent the departure from the cap (10). The pipe connector according to any one of claims 1 to 3, wherein the groove (120) rotates along the unevenness (340) when the cap (10) is rotated to engage the connector (20). According to any one of claims 1 to 3, The stopper 30 is formed in a ring shape with one side portion is open, one side of the outer circumferential surface is formed to be inclined and interpolated in the interior of the connector 20, the inner inclined surface of the connector 20 Piping connector characterized in that the diameter is reduced by moving along the engagement with the outer peripheral surface of the pipe.

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