KR20190030313A - Coupling Assembly Used for Fixing Pipe - Google Patents

Abstract

The present invention relates to a pipe coupling coupling assembly configured to be improved in a fastening structure mounted on a connecting portion of a pipe so as to efficiently perform pipe fitting.
The present invention relates to a coupling assembly for mutually coupling pipes installed to induce fluid flow, comprising: a coupling mounted on a connecting portion of both pipes; a rubber sleeve interposed inside the coupling; And a coupling unit which is disposed on both ends of the casing and which is mounted on an outer circumferential surface of the pipe. The coupling includes a casing protruding outward from the body and a pressing bolt Wherein the first and second fastening rings are fastened to each other by fastening a bolt and a nut along the longitudinal direction of both pipes, It is made.
Accordingly, the pipe to be connected to each other can be fixed by the coupling with the rubber sleeve inserted therein and the press-fitting projection formed on the coupling, and the pipe can be secondarily fixed using the coupling unit provided at both ends of the coupling It is possible to reliably prevent the leakage or the deviation that may occur in the connection portion of the pipe due to the increase in the pressure of the fluid flowing along the pipe.

Description

[0001] The present invention relates to a coupling assembly for a pipe coupling,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a structure for mutually coupling pipes used for fluid conveyance, and more particularly to a structure for improving the fastening structure mounted on a connecting portion of a pipe, Lt; / RTI >

Generally, a building such as an industrial plant, a building, or an apartment requires a pipe manufactured in various forms in order to transport living sewage as well as a fluid such as water or gas necessary for real life. The piping work for binding the ends of the pipes to each other is performed.

When the pipes are connected, there is a method of connecting the ends of both pipes by welding in the state of being back to each other, a method of inserting rubber packing between the flanges formed at the ends of the pipes and tightening them with bolts and nuts in close contact with each other , And a method of connecting ends of pipes by attaching connection means or coupling for piping to the outer diameter of the pipe.

However, the expansion and contraction phenomenon occurs due to a change in the ambient temperature or a pressure of the fluid itself, and the pipe is sometimes deformed and separated by the temperature difference such as thermal expansion as well as external impact.

For example, when a slip joint having elasticity in the axial direction of the pipe is provided to mitigate the deformation of the pipe to a minimum, there is a problem in vibration and impact, and ball joints free to rotate in arbitrary directions are subject to vibration And the buffer force can not be exerted at the same time.

In connection with such a pipe joint, in the " coupling for piping connection " disclosed in the Korean Patent Registration No. 0291654, several projections are hooked on the joint portion of the coupling passage formed in the cylindrical socket to maintain the connected state, There is a problem that it can not be fixed in a straight line state.

In addition, in many publications including Patent No. 0941883 and No. 0976588, a structure is prevented from being twisted when a pipe is connected, and a pipe end is formed by forming one end of the packing as a double end to maintain airtightness .

However, since all of these structures require a large fastening force of screws, the workability is very low and the cost is very high because it is composed of a combination of a large number of parts.

On the other hand, air is left inside the pipe when the pump is pressurized in the water purification plant or the water reservoir and the water is discharged. In order to discharge such air, several valves are installed, but air is not 100% discharged, So that the pipe is damaged or detached, causing many problems.

Also, there is a method of using a butt or socket welding or welding a flange to a pipe at the time of fastening the pipe and pipe, a method of assembling the end of the pipe by making a socket or assembling the end of the pipe at 90 ° in the field, So that there is a problem in that not only the separate equipment but also the working environment in the field is not very good.

Patent Publication No. 2000-0013904 (published on Mar. 23, 2000) - Coupling for piping joint. Registered Patent No. 0291654 (registered on Mar. 14, 2001) - Coupling for piping joint. Registration No. 0941883 (Registered on February 4, 2010) - Piping connector. Registration No. 0976588 (Registered on August 11, 2010) - Piping connector. Registered Patent No. 1580154 (Registered on Dec. 18, 2015) - Pipe repair couplings with elastic couplings.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a pipe coupling apparatus, And to withstand the high pressure generated in the pipe.

That is, according to the present invention, a pipe and a pipe are fastened by a coupling having a first press-fitting projection, and then two or more securing rings for preventing secondary detachment are installed and bound to prevent the pipe from being detached when water shock or momentary pressure is received And to provide a coupling assembly for pipe coupling.

In order to achieve the above object, the present invention provides a coupling assembly for mutually coupling pipes installed to induce a fluid flow, comprising: a coupling mounted on a connecting portion of both pipes; a rubber The coupling includes a casing protruding outwardly from the body, and a plurality of fastening bolts mounted on the casing, wherein the fastening unit includes: a sleeve; and a binding unit disposed at both end portions of the coupling and mounted on an outer circumferential surface of the pipe, Wherein a bending surface is formed in the inner diameter portion of the rubber sleeve so as to be in close contact with the outer circumferential surface of the both pipes, and the binding unit is a member in which bolts and nuts are inserted and fastened along the longitudinal direction of both pipes 1 and a second stationary ring.

In addition, the press-in projections are formed at both ends of the coupling so as to closely contact the outer peripheral surface of the pipe, and a cut-out groove is formed in the bent surface of the rubber sleeve. At both ends, .

The stainless steel bolt and the nut are made of austenitic stainless steels STS304, STS316, and STS316L by employing a solid solution heat treatment. The martensitic stainless steels STS410J1, 420J1, and 420J2 are heat treated to different hardness.

According to the present invention, pipes to be connected to each other are first fixed by a coupling having a rubber sleeve inserted therein and a press-fitting projection formed on the coupling, and then the coupling The present invention has an effect that it is possible to reliably prevent leakage or departure that may occur in the connecting portion of the pipe due to an increase in the pressure of the fluid flowing along the pipe.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing an example of a coupling coupling structure of a general pipe,
FIG. 2 is an external view of a coupling assembly for pipe coupling according to the present invention,
Fig. 3 is a side view of Fig. 2,
4 is a cross-sectional view of the entire assembled state.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the specific structures and functions of the present invention are not limited to the embodiments described in the present specification.

First, an example of a typical structure used to connect pipes to each other will be described, and the structure and operation effects of the present invention will be described after deriving the problems therefrom.

1, a rubber band 3 is inserted into a connecting portion of both pipes 1 and 2, and the periphery of the rubber band 3 is connected to a coupling 4 made of a normal stainless steel material, And then the bolts 5 mounted on the coupling 4 are tightened so that the rubber band 3 is brought into close contact with both the pipes 1 and 2 so that the binding can be performed.

However, in the hose band structure using the rubber band 3 and the coupling 4, since the rubber band 3 is forcibly fitted in the pipes 1 and 2, When the other pipe 2 is assembled toward the band 3, the rubber band 3 must be manually opened to connect the pipe 2, so that the assembly work is inconvenient and time-consuming, resulting in poor workability.

Further, when the bolts 5 are tightened and the coupling 4 is pressed, a phenomenon occurs in which the pressure is biased due to machining errors of the pipes 1 and 2 themselves, The fluid is leaked or an accident due to the release occurs frequently.

FIGS. 2 to 4 are views for explaining a pipe coupling coupling assembly according to the present invention. As shown in these figures, the present invention is characterized in that the coupling 20 is fitted and attached to the connecting portion of both pipes 10A and 10B, the rubber sleeve 30 disposed on the inner diameter portion of the coupling 20, And a binding unit (40) mounted on both side ends of the ring (20).

The coupling 20 protrudes outward from the body made of stainless steel so that the casings 21a and 21b face each other. A fastening bolt 22 is mounted on these casings 21a and 21b, .

A plurality of press-fit projections 23, which come into close contact with the outer circumferential surfaces of the pipes 10A and 10B, are bent at both side ends of the body constituting the coupling 20 so as to be inclined toward the inner diameter side when the tightening bolts 22 are tightened. .

The rubber sleeve 30 may be made of a material having excellent elasticity and may be disposed on the inner diameter side of the coupling 20. A plurality of curved surfaces 31 and cutting grooves 34 are formed in the inner diameter portion of the rubber sleeve 30 to contact the outer circumferential surface of the pipes 10A and 10B. Is formed so as to be inclined inward.

A double sealing effect can be expected when the rubber sleeve 30 is pressurized by the cutting grooves 34 formed in the curved surface 31 of the rubber sleeve 30. [

The binding unit 40 is composed of first and second fastening rings 41A and 41B and is welded to the outer peripheral surface of the pipes 10A and 10B so as to be positioned at both ends with the coupling 20 interposed therebetween And through holes 42 are formed in the respective fixing rings 41A and 41B so that the bolts 43a and the nuts 43b are inserted and fastened along the longitudinal direction of the pipes 10A and 10B Consists of.

In the case of the bolts 43a and the nuts 43b, it is possible to prevent potential corrosion due to different kinds of materials by applying similar materials to the pipes 10A and 10B, and the bolts 41a and the nuts 41b ) Is made of austenitic stainless steel material, it must be cut when it is fixed and fixed.

As a result, the austenitic stainless steels STS304, STS316 and STS316L are subjected to a heat treatment for solubilization and heat treatment of the martensitic stainless steels 410J1, 420J1 and 420J2 having excellent carbon components and mechanical properties to prevent hardening See the ingredient comparison table).

 Types and symbols  Chemical composition (C) Strength (N ㎟) or more Tensile strength (N ㎟) or more Hardness (Hs) Remarks  STS304  0.08 or less 205 520 187 or less  STS316  0.08 or less 205 520 187 or less  STS316L  0.030 or less 175 480 187 or less  STS410J1  0.08-0.18 490 690 192 or more  STS420J1  0.16-0.25 440 640 192 or more  STS420J2  0.26-0.40 540 740 217 or more

The pipe 10A and 10B are fitted to both sides of the coupling 20 in which the rubber sleeve 30 is preassembled and the pipe 10A and 10B are fitted to the central portion of the rubber sleeve 30 The connecting portion of both pipes 10A and 10B is positioned at the center of the coupling 20 by pushing.

Subsequently, the coupling 20 presses the connecting portions of the pipes 10A and 10B as the fastening bolts 22 mounted on the casings 21a and 21b of the coupling 20 are fastened, At the same time, the press-fitting protrusions 23 formed on both sides of the body constituting the coupling 20 can be firmly fixed to the outer circumferential surfaces of the pipes 10A and 10B to be fixed primarily.

Next, the first and second fixing rings 41A and 41B assembled to the pipes 10A and 10B are integrally welded on both sides of the coupling 20, and then the fixing rings 41A and 41B The bolts 43a are fastened to the nuts 43b by the through holes 42 of the pipes 10A and 10B so that they can be fixed secondarily along the length of the pipes 10A and 10B.

Accordingly, since the primary fixing by the coupling 20 and the secondary fixing by the binding unit 40 can be reliably performed, the pressure of the fluid flowing along the pipes 10A and 10B increases, 10A, and 10B can be prevented.

As described above, according to the coupling assembly for pipe binding according to the present invention, pipes to be connected to each other can be fixed by a coupling having a rubber sleeve inserted therein and a press-fitting projection formed on the coupling, The present invention is not limited to the above-described embodiments, and it is an object of the present invention to provide a pipe connection structure for a pipe, Effect.

Although the present invention has been fully described in connection with the preferred embodiments thereof with reference to the accompanying drawings, it is to be understood that the present invention is not limited thereto. It is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

10A, 10B: pipe 20: coupling
21a, 21b: casing 22: fastening bolt
23: press-in projection 30: rubber sleeve
31: curved surface 32: split groove
33: Day Reorganization 34: Incision Home
40: binding unit 41A: first fixing ring
41B: second fixing ring 42: through hole
43a: bolt 43b: nut

Claims (4)

A coupling assembly for mutually coupling pipes installed to induce fluid flow,
A coupling 20 mounted on a connecting portion of both pipes 10A and 10B, a rubber sleeve 30 interposed inside the coupling, And a binding unit (40) mounted on the frame
The coupling 20 is configured such that a pressing force is exerted by rotation of the casing 21a, 21b projecting outward from the body and the fastening screw 22 mounted on the casing,
The inner circumference of the rubber sleeve 30 is formed with a curved surface 31 which is in close contact with the outer circumferential surface of both pipes 10A and 10B,
The binding unit 40 is composed of first and second fixing rings 41A and 41B which are fastened with bolts 43a and nuts 43b along the longitudinal direction of both pipes 10A and 10B The coupling assembly comprising: The coupling assembly for a pipe coupling according to claim 1, wherein press-fitting projections (23) tightly fitted to outer peripheral surfaces of the pipes (10A, 10B) are formed at both side ends of the coupling (20). 2. The tire according to claim 1, wherein an incision groove (34) is formed in the curved surface (31) of the rubber sleeve (30) and a blade piece (33) Wherein the coupling assembly comprises: The method of claim 1, wherein the material of the stainless bolt (43a) and the nut (43b) is austenitic STS304, STS316, and STS316L are subjected to a heat treatment by a solid solution heat treatment and martensitic STS410J1, 420J1, Wherein the coupling assembly is configured to permit the coupling of the pipe.

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