KR200421044Y1 - a pipe joint structure - Google Patents

Abstract

The present invention relates to a connection pipe connection structure of the fluid transport pipe to easily connect the connection pipe to the fluid transport pipe, such as sewage pipe,

The connection structure of the connection pipe of the conventional fluid transfer pipe is not only complicated in structure but also requires a lot of required parts, making manufacturing difficult and expensive, and having poor assembly and airtightness.

A contact ring 40 is installed on the connection end of the connecting pipe 20, and the fluid transfer pipe 10 is connected to the connecting pipe 20 through the tightening cap 30 in a state in which the tightening cap 30 is screwed to the connecting pipe 20. When the tightening cap 30 is tightened after being inserted into the 20, the present invention allows the fluid transfer pipe 10 to be assembled with the connection pipe 20. The fluid transfer pipe 10 is firmly and easily formed with a small number of parts. Since the connector 20 can be connected, it is possible to greatly reduce the component cost and assembly cost, and to maintain the airtightness more stably so that the effect of the connector can be greatly improved. do.

Fluid transfer pipe, connecting pipe, sealing ring, cap

Description

{A pipe joint structure}

1 is an exploded perspective view of an embodiment of the present invention

Figure 2a is a cross-sectional view of the coupling before tightening the tightening cap of the embodiment

Figure 2b is a cross-sectional view after joining the tightening cap of the embodiment

<Description of the code | symbol about the principal part of drawing>

10: fluid transfer pipe 20: connector

21: engaging step 22: expansion slope

23: male thread portion 24: contact member fitting groove

30: capping cap 31: support pipe

31a: pressing ring 32: female thread

40: close contact ring 41: close contact portion

41a: Pressurized protrusion part 42: Connector fitting protrusion

The present invention relates to a connection pipe connecting structure of a fluid transfer pipe that can be easily coupled to the fluid transfer pipe, such as sewage pipe, more specifically, even after tightening the tightening cap after inserting the fluid transfer pipe into the interior of the connection pipe The present invention relates to a solid connection between a fluid transfer pipe and a connection pipe.

Generally, when connecting other linear fluid transfer pipes or changing fluid transfer angles, or diverging fluids, straight connector pipes and elbows (L). After connecting one end of the connection tube, such as the tee (T), the oil (U), the wire (Y), the other linear fluid transfer pipe is connected to the other end of the connection tube.

By the way, in the related art, the connection pipe connection structure of the fluid transfer pipe is not only complicated in structure but also requires many parts, making manufacturing difficult and expensive, and having poor assembly and airtightness.

The present invention has been devised in view of the conventional situation as described above, and the purpose thereof is to connect the fluid transfer pipe to the fluid transfer pipe and the connection pipe with a smaller number of parts, as well as to provide more excellent airtightness. It is to provide a pipe connection structure.

In order to achieve the above object, the present invention provides an expansion inclination portion at a connection side front end of a connection pipe into which a fluid transfer pipe is inserted, installs an adhesion ring having an inclination inclination at the end of the connection pipe, and is screwed to the connection pipe. It is characterized in that the fluid inlet pipe can be fixed by pressing the tight inclined portion of the contact ring with a fastening cap, which will be described in more detail based on the accompanying drawings.

That is, Figure 1 is an exploded perspective view of one embodiment of the present invention, Figure 2a is shown a coupling cross-sectional view before tightening the tightening cap of the embodiment, Figure 2b is a coupling cross-sectional view after tightening the tightening cap of the embodiment As shown, the connector connection structure of the fluid transfer pipe of the present invention

A fluid transfer pipe 10;

A locking step 21 for stopping the entry of the fluid transfer pipe 10 is provided inside the connection side, and an extension inclined portion 22 is provided at the inner side of the connection side. 23 is provided, the connecting pipe 20 and the annular contact ring fitting groove 24 is formed on the front end surface of the connection;

At the top, a support pipe part 31 for guiding the insertion of the fluid transfer pipe 10 is formed to protrude and at the same time, a contact ring pressing part 31a is provided at the lower end of the support pipe part 31, and the connection pipe male thread part ( A tightening cap 30 having a female thread portion 32 corresponding to the upper portion 23;

A close inclined portion 41 corresponding to the connection tube expansion inclined portion 22 is formed at the bottom center, and at the top of the close inclined portion 41, the pressing ring portion 31a of the tightening cap 30 goes to the top. It is to be provided with a pressing ring (41a) is formed to protrude, the contact ring 40 is provided with an annular connecting tube fitting protrusion 42 inserted into the contact ring fitting groove 24 at the bottom.

In the present invention configured as described above, the adhesion ring 40 is installed on the connection end of the connection pipe 20, and the fluid transfer pipe 10 is tightened in a state in which the tightening cap 30 is screwed to the connection pipe 20. After inserting the connection pipe 20 through the cap 30 and tightening the cap 30, the fluid transfer pipe 10 can be easily and firmly assembled to the connection pipe 20.

That is, before tightening the cap 30 as shown in Figure 2a there is a certain amount of play between the inner circumferential surface of the close contact inclined portion 41 of the contact ring 40 and the outer circumferential surface of the fluid transfer pipe 10 is the fluid transfer pipe 10 The connection tube 20 can be inserted smoothly into the connection side.

However, when the fluid transfer pipe 10 is inserted into the connection side of the connection pipe 20 and the tightening cap 30 is tightened, as shown in FIG. 2B, the contact ring pressing portion provided at the lower end of the support pipe part 31 of the tightening cap 30 is shown. 31a presses the pressure protrusion 41a of the contact ring 40, and accordingly, the close contact inclination part 41 is inserted into the connection pipe 20 and is deformed to expand the inclined portion of the connection pipe 20 ( 42) is tightly sandwiched between the outer circumferential surface of the fluid transfer pipe 10 so that the flow of the fluid transfer pipe 10 can be prevented as well as maintain stable airtightness.

Furthermore, in the present invention, it is possible to more stably support the fluid transfer pipe 10 through the support pipe part 31 provided in the tightening cap 30.

On the other hand in the present invention, when the captive cap 30 is loosened, the adhesion state of the contact ring 40 becomes loose again, so that the fluid transfer pipe 10 can be separated from the connection pipe 20, of course.

As described above, the present invention installs the contact ring 40 at the connection end of the connection pipe 20, and tightens the fluid transfer pipe 10 in a state in which the tightening cap 30 is screwed to the connection pipe 20. Insertion into the connecting pipe 20 through the cap 30 and then tightening the cap 30 to be able to assemble the connection pipe 20 to the fluid transfer pipe 10, according to the present invention with a small number of parts Since the fluid transfer pipe 10 and the connection pipe 20 can be connected firmly and simply, the cost of components and assembly can be greatly reduced, and the airtightness of the connector can be greatly improved by maintaining the airtightness more stably. It will be possible to achieve such effects.

Claims (1)

A fluid transfer pipe 10; A locking step 21 for stopping the entry of the fluid transfer pipe 10 is provided inside the connection side, and an extension inclined portion 22 is provided at the inner side of the connection side. 23 is provided, the connecting pipe 20 and the annular contact ring fitting groove 24 is formed on the front end surface of the connection; At the top, a support pipe part 31 for guiding the insertion of the fluid transfer pipe 10 is formed to protrude and at the same time, a contact ring pressing part 31a is provided at the lower end of the support pipe part 31, and the connection pipe male thread part ( A tightening cap 30 having a female thread portion 32 corresponding to the upper portion 23; A close inclination portion 41 corresponding to the connection tube expansion inclination portion 22 protrudes from the bottom center, and is pressed against the upper end of the inclination cap portion 41 by the contact ring pressing portion 31a of the cap 30. The pressure protrusion (41a) is formed to protrude, the contact ring 40 is provided with an annular connecting tube fitting protrusion 42 is inserted into the contact ring fitting groove 24 at the bottom; fluid characterized in that the Connector connection structure of pipeline.

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