KR101857360B1 - Earthquake rubber ring assembly for Pipe coupling - Google Patents

Abstract

The present invention relates to an earthquake-resistant rubber ring assembly for piping that is constructed so that various piping installed inside and outside of a building structure can be connected to each other through a relay pipe in accordance with predetermined design specifications and at the same time to have sufficient vibration resistance.
The present invention relates to an apparatus for measuring a flow rate of a fluid, comprising: a straight pipe for guiding a fluid flow; a relay pipe provided with an enlarged flange portion so that the straight pipe can be inserted and assembled therein and a stepped portion formed on an inner surface of the enlarged flange portion; A rubber ring and a finishing plate for closely fixing the rubber ring to the relay pipe side, wherein the rubber ring includes a first elastic body having an inclined surface around the outer periphery and a second elastic body in the form of a ring, And an inner diameter of the through hole formed in the finish plate is formed to be larger than the outer diameter of the straight pipe to have fluidity.
Accordingly, it is possible to fundamentally shut off the leakage phenomenon between the straight pipe and the rubber ring by using the finishing plate mounted on the flange portion on the relay pipe, and to improve the structure of the rubber ring mounted to prevent leakage between the straight pipe and the relay pipe It is possible to sufficiently absorb the adverse effects such as vibration caused by earthquake as well as warping phenomena acting in the vertical and horizontal directions due to the depression of the ground or thermal expansion, thereby preventing the damage and breakage of the pipe in advance.

Description

{Earthquake rubber ring assembly for Pipe coupling}

The present invention relates to a piping seismic resistant structure which can be connected to each other through a relay pipe in accordance with predetermined design specifications and to have sufficient seismic resistance, To a rubber ring assembly.

Building structures such as general industrial plants, buildings, and apartments are equipped with various types of piping designed to carry fluids such as cold, hot water, and gas needed for real life, or municipal sewage to the destination.

Such various piping can be deformed or deformed due to temperature changes such as thermal expansion or the external shock such as an earthquake or the like due to the expansion and contraction phenomenon caused by the ambient temperature change, Work frequently occurs.

Accordingly, a slip joint that is normally stretchable in the axial direction of the pipe is vulnerable to vibration or impact, and a ball joint capable of rotating in any direction is required. Is often used for piping connection, but the buffering force can not be exerted properly in the horizontal direction vibration and vibration.

On the other hand, in the case of apartments such as apartment buildings, in order to compensate for the expansion and contraction of the piping, a roof pipe requiring a somewhat larger space is installed in the case of the basement, or a guide is provided on both sides of the expansion joint It is common to have an anchor at both ends.

Since a conventional synthetic resin straight pipe is manufactured by pulling out by a pulling operation using a die having various diameters, it is cut out to a length required in the field, or a relay pipe is interposed between the pipes However, it is necessary to perform maintenance or replacement work due to various factors as described above.

With respect to such an assembly for pipe coupling, a 'pipe joint' is disclosed in Japanese Patent No. 0753653, in which an end portion of a pipe is fixed to an end portion of the pipe by removing the enlarged piece inserted into the clamp ring in the outer diameter direction have.

That is, as shown in Fig. 1, there are provided a joint main body 2 having an insertion tube portion 3 and a clamp ring (not shown) having a slit for tightening the end portion of the pipe fitted outside of the insertion tube portion 3 with a self- And an expanding piece (6) fitted in the slit so as to be detachable and releasable in an outer diameter direction so as to enlarge the diameter against the elastic force of the clamp ring (5) And a regulating sleeve 10b fitted outside of the clamp ring 5 for regulating the operation.

Therefore, when the pipe is connected to the joint body 2 while the insertion tube 3 is inserted into one end of the pipe, the end of the pipe pushes the regulating sleeve 10b backward, So that the clamp ring 5 is contracted by the resilient restoring force and the end of the pipe is tightly fixed to the insertion tube portion 3 while being constrained by the resilient restoring force .

However, in the conventional pipe joint method having the above-described structure, there is a problem in that a reliable pipe joint can not be secured when the expanded piece is not completely removed or when the expanded piece that is thrown is caught between the cover and the regulating sleeve.

In addition, when the enlarged piece inserted into the slit of the clamp ring falls off and the clamp ring contracts due to the elastic restoring force to fix the outer circumferential surface of the pipe, the outer circumferential surface of the pipe can not be completely pressed at the portion where the enlarged piece of the clamp ring is inserted There is a risk of fluid leakage when the internal pressure of the pipe is high.

Furthermore, when the cover is used to prevent the expanding pieces separated from the clamp ring from jumping out, the expansion joint is held in the space between the regulating sleeve and the outer periphery of the pipe and the cover, Interference will occur, resulting in a considerable inconvenience to the connection operation.

In the case of the improved patent No. 0819372 which has been taken into consideration in this respect, it is not necessary to provide an expanding piece projecting outwardly from the clamp ring in the outer diameter direction, and the airtightness can be improved, This structure can be applied, for example, to a water supply nozzle having a very small diameter installed in a water purifier, but is not applicable to construction piping at all.

In addition, in many publications including Patent No. 0941883 and No. 0976588, it is possible to prevent the connector from being twisted when the piping is connected, to fasten the connector with the same depth by using a plurality of bolts, However, since all of these structures require a screwing force, the workability is very poor, and since a large number of components are combined, the cost is considerably reduced It will be expensive.

Further, when the surrounding of the building structure is depressed due to soft ground or other vibrations are applied to the influence of the earthquake or the like, an external force acts on the hypothetical pipe to cause a leakage phenomenon due to deformation or breakage of the connection portion. And it requires a lot of manpower and time for maintenance work or replacement.

Korean Registered Patent No. 0753653 (Registered on Mar. 23, 2007) Title of invention: Korean Registered Patent No. 0819372 (Registered on August 23, 2008) Title of invention: Korean Registered Patent No. 0941883 (Registered Feb. 4, 2010) Title of the invention: Piping connector Korean Registered Patent No. 0976588 (Registered on August 11, 2010) Title of the invention: Piping connector Korean Registered Patent No. 1020744 (Registered Mar. 2, 2011) Title of the invention: Piping connector Korean Registered Patent No. 1029111 (Registered Apr. 6, 2010) Title of the invention: Piping connector

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems of the prior art, and it is an object of the present invention to provide a rubber ring structure capable of more reliably preventing leakage occurring at a connection portion of a pipe, It is designed to absorb the adverse effects such as vibration and bending phenomena that occur in piping. And an earthquake-resistant rubber ring assembly for piping.

According to an aspect of the present invention, there is provided an earthquake-resistant rubber ring assembly for piping for interconnecting pipes installed inside and outside of a building structure, the pipe having an introductory pipe for guiding fluid flow, A relay ring provided with an extension flange portion to be assembled and having a stepped portion on the inner surface of the extension flange portion, a rubber ring fitted and held in the stepped portion of the relay pipe, and a finishing plate for closely fixing the rubber ring to the relay pipe Wherein the rubber ring is made of a first elastic body having an inclined surface around the outer circumference and a ring-shaped second elastic body, and the first and second elastic bodies are integrally formed with a space therebetween The inner diameter of the through hole formed in the finishing plate is formed larger than the outer diameter of the straight pipe, Wherein a through hole is formed in the flange portion of the relay tube and the flange portion of the finishing plate so that the fastening member is mounted and the pressing piece protruding from one side of the finishing plate pushes the rubber ring, The wings are respectively formed on the inner surface of the first elastic body constituting the rubber ring and closely attached to the outer peripheral surface of the straight pipe.

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The present invention as described above can fundamentally cut off the leakage phenomenon between the straight pipe and the rubber ring by using the finishing plate mounted on the flange portion on the relay pipe.

Further, as the structure of the rubber ring mounted to prevent leakage between the straight pipe and the relay pipe is improved, it is possible to prevent the vertical and horizontal bending phenomena due to the depression of the ground or thermal expansion, It is possible to sufficiently absorb and damage the piping and prevent damage.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view showing an example of a general pipe joint structure,
Fig. 2 is a cross-sectional view of Fig. 1,
3 is an assembled cross-sectional view showing a pipe coupling structure according to the present invention,
Fig. 4 is a cross-sectional view showing a part of Fig. 3,
Fig. 5 is a plan view showing the tip portion of the relay tube,
6 is a perspective view showing a whole of a rubber ring used for pipe bonding,
7A and 7B are a plan view and a bottom view of the rubber ring,
8 is a cross-sectional view taken along line AA of the rubber ring,
FIG. 9 is a schematic view showing a state in which an introductory tube flows in a relay tube. FIG.

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

Prior to the description of the present invention, the following specific structural or functional description is merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms .

3 to 9 are views for explaining an anti-seizure rubber ring assembly for piping according to the present invention. As shown in these drawings,

The present invention is characterized in that it includes a relay tube 120 including an introductory tube 110 and adapted to be assembled and bound at both sides of the introductory tube 110 and a relay tube 120 for preventing leakage between the introductory tube 110 and the relay tube 120 A rubber ring 130 and a finishing plate 140 for closely fixing the rubber ring 130 to the relay pipe 120 side.

The straight pipe 110 is for guiding a fluid flow and can be manufactured in various diameters by a normal drawing and forming method. In the case of the relay pipe 120, a predetermined length Are used to bond the ends of the straight pipe 110 that have been cut into a straight line.

3 to 5, an extension flange 121 is formed at both ends of the relay tube 120 so that the straight tube 110 can be assembled from both sides. The extension flange 121, A through hole 122 is provided so as to face each other.

In addition, the inner diameter of the relay pipe 120 is formed with a step 123a so as to receive the straight pipe 110, and at the same time, 124 are formed.

The rubber ring 130 is configured to be able to pressurize the outer circumferential surface of the straight pipe 110 to maintain airtightness while being held in a stepped portion 123a formed in the extension flange portion 121 of the relay pipe 120, And the vertical and horizontal bending phenomenon caused by thermal expansion and the like are absorbed to prevent the damage and damage of the pipe itself.

6 to 8, the rubber ring 130 is divided into a first elastic body 132A having an inclined surface 131 and a second elastic body 132B having a ring shape around the outer periphery thereof , And a connecting bar 133 is interposed therebetween at a predetermined interval, so that the first and second elastic members 132A and 132B can be held integrally with each other.

A blade piece 134a is formed on the inner surface of the first elastic body 132A so that the first elastic body 132A can be closely attached to the outer circumferential surface of the straight tube 110 when the straight tube 110 is assembled.

The finishing plate 140 has a flange portion 142 having a through hole 142 corresponding to the flange portion 121 of the relay tube 120 to fix the rubber ring 130 to the relay tube 120 side, 141, and a compression piece 143 is protruded in one direction of the body.

9, the inner diameter of the through hole 144 formed in the finishing plate 140 is formed to be larger than the outer diameter of the straight pipe 110, so that it is possible to have fluidity due to external force.

With this structure, a normal fastening member 150 made of bolts and nuts is inserted through the through holes 122 and 142 formed in the flange portion 121 of the relay tube 120 and the flange portion 141 of the finish plate 140 It is possible to reliably prevent the leakage occurring at the connection portion between the straight pipe 110 and the relay pipe 120. [

In addition, even when an external pressure is applied due to an earthquake or the like, the straight pipe 110 flows in a state supported by the rubber ring 130, thereby preventing leakage or breakage between the straight pipe 110 and the relay pipe 120 .

The through hole 122 formed in the flange portion 121 of the relay pipe 120 and the through hole 122 formed in the flange portion 121 of the relay pipe 120 are connected to each other in the state where the rubber ring 130 is inserted into the stepped portion 123a of the relay pipe 120. [ The fastening member 150 can be mounted through the through hole 142 formed in the flange portion 141 of the finishing plate 140 to maintain the assembled state.

Since the rubber ring 130 includes three connection bars 133 including the first and second elastic members 132A and 132B, the connection bars 133 are connected to the connection pipe 133 of the relay pipe 120, And can be held on the step portion 123a while being assembled along three fitting grooves 124 formed on the inner surface of the supporting portion 121. [

In this way, the rubber ring 130 including the relay pipe 120 and the finishing plate 140 can be transported to a work site in a assembled state, and can be disposed at the connection portion of the straight pipe 110.

When the straight pipe 110 is fitted to the finishing plate 140, the first and second elastic members of the rubber ring 130 mounted in the stepped portion 123a of the relay pipe 120 are slightly pushed out The blade piece 134a formed on the inner surface of the first elastic body is pressed against the outer peripheral surface of the straight tube 110 while being pushed inward.

Next, the worker strongly binds the fastening member 150 assembled to the finishing plate 140 by using a conventional rotating tool, so that the pressing piece 143 of the finishing plate 140 The end of the rubber ring 130 is pushed and pressed.

Therefore, the straight pipe 110 is closely attached to the inner surface of the connecting bar 133 including the first and second elastic members 132A and 132B constituting the rubber ring 130, and the straight pipe 110 and the relay pipe 120, It is possible to reliably maintain the airtightness between them.

9, even if a bending phenomenon occurs due to an external force such as an earthquake, the straight pipe 110 is bent around the first elastic body 132A of the rubber ring 130 mounted in the relay pipe 120, So that damage to the straight pipe 110 and the relay pipe 120 can be prevented.

In the figure, three connecting bars 133 formed on the first and second elastic members 132A and 132B of the rubber ring 130 are shown as three, but two, four, or six connecting bars 133 may be provided. They can be configured to be symmetrical for balance.

As described above, according to the seismic resistant rubber ring assembly for piping according to the present invention, it is possible to fundamentally cut off the leakage phenomenon between the straight pipe and the rubber ring by using the finishing plate mounted on the flange portion on the relay pipe.

Further, as the structure of the rubber ring mounted to prevent leakage between the straight pipe and the relay pipe is improved, it is possible to prevent the vertical and horizontal bending phenomena due to the depression of the ground or thermal expansion, It is possible to sufficiently absorb and damage the piping and prevent damage.

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.

110: Intuition 120: Relay tube
121: flange portion 122: through hole
123a: stepped portion 123b:
124: fitting groove 130: rubber ring
131: sloped surface 132A: first elastic member
132B: second elastic body 133: connection bar
134a: Day reorganization 140: Finish plate
141: flange portion 142: through hole
143: Crimp piece 144: Through hole
150: fastening member

Claims (3)

An earthquake-resistant rubber ring assembly for piping for interconnecting piping installed inside or outside a building structure,
An enlarged flange portion 121 is provided so that the straight tube 110 can be inserted and assembled and a step portion 123a is formed on the inner surface of the enlarged flange portion 121 A relay ring 120 and a rubber ring 130 held in a stepped portion 123a of the relay pipe 121 and a finishing plate for closely fixing the rubber ring 130 to the relay pipe 120 140,
The rubber ring 130 is formed in a shape different from that of the first elastic member 132A having the inclined surface 131 and the ring-shaped second elastic member 132B around the outer circumference, A connecting bar 133 for holding the second elastic members 132A and 132B integrally with each other is formed,
The inner diameter of the through hole 144 formed in the finishing plate 140 is formed to be larger than the outer diameter of the straight pipe 110,
Through holes 122 and 142 are formed in the flange portion 121 of the relay pipe 120 and the flange portion 141 of the finishing plate 140 so that the fastening member 150 is mounted, A pressing piece 143 protruding from the side surface is configured to push and push the rubber ring 130,
Wherein an edge piece (134a) is formed on the inner surface of the first elastic body (132A) constituting the rubber ring (130) so as to be closely attached to the outer peripheral surface side of the straight pipe (110). delete delete

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