KR200197367Y1 - Coupling structure of water service pipe - Google Patents

Abstract

The present invention relates to a joint structure of a water pipe, and has an object to effectively prevent the separation and leakage of the water pipe due to water pressure by increasing the coupling force and air tightness to the pipe joint.

The present invention is a rubber packing 56 is interposed between the connection portion of the first pipe 100 and the second pipe 200, and the pressure ring 50 configured in the connection portion is rubber-packed by the fastening of the tension bolt 60 ( 56, the compression ring 10 is inserted between the two pipes 200 and the inner end 52 of the compression ring 50, and the compression ring (top) of the tension bolt (60). The unit compaction plate 12 is coupled to the upper surface of the unit 10 by the fastening of the tension bolt 60 to the unit compaction plate 12 to the compression ring (10). Therefore, the present invention improves the airtight effect by effectively compressing and expanding the rubber packing 56 by interposing the compression ring 10 between the two ends of the pipe and the inner end of the pressure ring, and of course, the first pipe and the second pipe. To increase the cohesion of.

Description

Coupling Structure of Water Service Pipe

The present invention relates to a joint structure of a water pipe, and has an object to effectively prevent the separation and leakage of the water pipe due to water pressure by increasing the coupling force and air tightness at the pipe joint.

In general, a water pipe made of a metal material is manufactured to have a certain length so as to simplify construction, and a control end defining an insertion length on an inner surface thereof is formed along with an extended end having a large diameter at one end so that it can be used continuously. In the conventional water pipe joint structure, as shown in FIG. 5, a rubber packing 56 is interposed between the connection part of the first pipe 100 and the second pipe 200, and the pressure ring 50 configured at the connection part is tensioned. The rubber packing 56 is compressed and expanded by fastening the bolt 60. However, in the conventional joint structure of the water pipe, the water pipe is shaken due to the water pressure. At this time, if the 2 pipe 200 inserted into the 1 pipe 100 gradually flows and is left for a long time, the water pipe may be separated from the connection part. The rubber packing 56, which has been compressed and expanded in the gap as the pressure ring is loosened at the connection part due to the flow of the water pipe, is also loosened, causing a leak in the gap.

The present invention has been devised in view of the above problems, and the rubber packing interposed between the connection part of the first and second pipes is made to expand as much as possible in the gap to increase the airtight effect, as well as the coupling force of the first and second pipes. It is intended to provide a structure that can maintain the bonding force even by shaking of water pipes due to water pressure. The present invention improves the airtight effect by interposing a compression ring between the two ends of the pipe and the inner end of the pressure ring by pressure, thereby improving the airtightness effect, as well as increasing the coupling force between the first pipe and the second pipe. To achieve the purpose.

1 is an exploded perspective view showing the configuration of the subject innovation

Figure 2 is a perspective view showing the assembled state of the present invention

Figure 3 is a front sectional view in the assembled state of the present invention

Figure 4 is an exploded perspective view showing another embodiment of the present invention

Figure 5 is a front sectional view showing a configuration according to the prior art

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

10: pressing ring 10a: incision

10b: cutout part 11: thread tap

12: unit pressing plate 12 ': pressing plate

The present invention is a rubber packing 56 is interposed between the connection portion of the first pipe 100 and the second pipe 200, and the pressure ring 50 configured in the connection portion is rubber-packed by the fastening of the tension bolt 60 ( 56, the compression ring 10 is inserted between the two pipes 200 and the inner end 52 of the compression ring 50, and the compression ring (top) of the tension bolt (60). The unit compaction plate 12 is coupled to the upper surface of the unit 10 by the fastening of the tension bolt 60 to the unit compaction plate 12 to the compression ring (10).

At this time, the thread tab 11 was formed on the inner circumference of the pressing ring 10 and one end was cut to form a cutout portion 10a, while a cutout portion 10b was formed at the upper and lower ends. And since the thread tab 11 is inclined in the direction in which the two pipes are inserted, the two pipes 200 are separated from the one pipe 100 even when the water pipe is shaken due to the hydraulic pressure due to the increased frictional force with the two pipes 200. It can be prevented. In addition, the cut-out portion 10a has a certain amount of elasticity when the compression ring 10 is interposed between the two pipes 200 and the inner end 52 of the pressing ring 50 by a certain pressure and has a free space when tightened. The cutout portion 10b is to be tightened more elastically to the outer peripheral surface of the two pipe (200) as the unit pressing plate 12 is pressed in accordance with the tightening of the tension bolt (60) pressing the pressing ring (10). To do that.

And Figure 4 shows another embodiment of the present invention, the unit compaction plate may be formed of an integral compaction plate 12 'of the disk structure. Therefore, assembling construction can be simplified, and as the adhesion force with the pressure ring 50 supporting the one pipe by the tension bolt 60 is increased, consequently, the coupling force between the first pipe 100 and the second pipe 200 is increased. You can increase it.

Hereinafter, the assembly operation and effects according to the present invention will be described with reference to FIGS. 1 to 4.

First, the rubber packing 56, the pressing ring 50, and the pressing ring 10 are inserted into the two pipes 200 before assembly, and then the two pipes 200 are inserted into the one pipe 100 to form a channel. Then, the rubber packing 56 is inserted between the joints of the first pipe and the second pipe so as to seal the gap, and then the end of the inner end 52 of the pressure ring 50 from the side of the second pipe 200 is the rubber packing 56. Make sure you are in close contact with After that, the pressing ring 10 is fixed between the two pipes 200 and the inner end 52 of the pressing ring 50 by being clamped. At this time, between the outer circumferential surface of the two pipes 200 and the inner end 52 of the pressing ring 50 to have a predetermined value that can be fitted by the pressing force so that the pressing ring 10 enters a gap and the rubber packing 56 Make sure that the ends are in close contact with each other. At this time, the inner circumferential surface of the pressing ring 10 is formed with a screw tab 11 inclined in one direction, so that it is not easily separated from the two pipes 200, and the pressing ring 50 is due to the volume occupied by the pressing ring 10. As it is tightened, the adhesion between the two pipes 200 is greatly increased, and as a result, the coupling force between the one pipe 100 and the two pipes 200 increases. On the other hand, by inserting the pressing ring 10, the assembly is completed by fastening the unit assembly pressing plate 12 located on three sides on the upper surface of the pressing ring 50 by the tension bolt 60, respectively. At this time, the pressing plate 12 of the unit structure may be formed as an integral pressing plate 12 'having a disk structure, and the pressing ring 50 may be tightened together with the pressing ring 50 with a uniform force to maximize the adhesion. Easy to assemble

Then, as the nut is tightened, the tension bolt 60 pulls the first pipe 100 to the second pipe 200 side and at the same time, the unit pressing plate 12 presses the pressing ring 10 in three directions. The rubber packing 56 is further inflated. That is, as the pulling force of the first pipe 100 and the second pipe 200 to each other by the fastening of the tension bolt 60, the coupling force is maximized and the airtight effect is improved.

As described above, the present invention improves the airtightness by increasing the coupling force between the first pipe and the second pipe to maintain the expansion state at all times without the rubber packing intervening in the gap even after shaking due to water pressure, the first pipe As the coupling force between the second and second pipes is increased, departure of the water pipe due to water pressure is prevented.

Claims (3)

The rubber packing 56 is interposed between the connection part of the first pipe 100 and the second pipe 200, and the pressure ring 50 formed at the connection part is connected to the rubber packing 56 by the fastening of the tension bolt 60. In the conventional compression or expansion, the compression ring 10 is inserted between the two pipes 200 and the inner end 52 of the compression ring 50, and the compression ring 10 is inserted into the upper end of the tension bolt 60. The joint structure of the water pipe, characterized in that the unit pressing plate (12) by pressing the tension bolt (60) in contact with the upper surface of the unit assembly pressing plate (12) by pressing the pressing ring (10). The method according to claim 1, wherein the thread tab 11 is formed on the inner circumference of the pressing ring 10 and one end is cut to form the cutout portion 10a, while the cutout portion 10b is formed at the upper and lower ends. Joint structure of the water pipe, characterized in that. The joint structure of a water pipe according to claim 1, wherein the unitary compaction plate is formed of an integral compaction plate (12 ') having a disk structure.