KR102483901B1 - Joint of Water Pipe for Earthquake-Proof - Google Patents

Abstract

The present invention relates to an earthquake-resistant water supply pipe joint that is formed at a position where a plurality of pipes are in contact, and can prevent separation of the pipes by securing fluidity by vibration and shock. Specifically, the water supply pipe joint connecting a plurality of pipes and absorbing vibration and shock comprises: a fastening part fastened to cover a plurality of pipes facing each other, respectively; an airtight part formed inside a plurality of fastening parts and in close contact with a plurality of pipes; and a moving part connecting the plurality of fastening parts and securing fluidity in the pipe by elasticity.

Description

Joint of Water Pipe for Earthquake-Proof}

The present invention relates to an earthquake-resistant water supply pipe joint that is formed at a position where a plurality of pipes are in contact and can prevent separation of pipes by securing fluidity by vibration and shock.

In Patent Invention 001, a rubber ring and a metal ring are sequentially inserted into the inner diameter of each of the expanded tube ends at one or both ends, and then the ends of the expanded tubes on both sides are closed toward the center to prevent the metal ring from escaping. In a stainless steel pipe joint configured to restrain a metal ring by bending it as much as possible, a technique in which a plurality of circular pitch corrugations extending and protruding annularly toward the outer circumference is continuously formed between both ends of the steel pipe joint is proposed.

Patent Invention 002 is a tube with a constant diameter, formed by extending a straight tube with a valve flange at one end and a convex pot shape from the other end of the straight tube to accommodate the end of the pipe. A joint pipe body composed of a jar portion, a bottle neck portion formed at an end of the jar portion, and a pipe expansion portion extending outward in a longitudinal direction from the bottle neck portion; Packing disposed on the inner circumferential surface of the expansion pipe to seal the outer circumferential surface of the pipe; A ring-shaped locking body having an inner diameter larger than the outer diameter of the pipe, a packing pressurizing portion protruding to press the packing from the inside of the locking body in the longitudinal direction, and along the longitudinal direction of the pipe from the outside of the locking body in the longitudinal direction. A joint pipe fastening member composed of a plurality of extension arms protruding outward and a ring-shaped clamp separation prevention jaw integrally formed to connect ends of the extension arms, and pressurized and fastened to the end portion of the joint pipe body; And a ring shape having a width smaller than the gap between the fastening body and the clamp separation prevention jaw, at least one incision is formed in a part in the circumferential direction, and is fixed to the outer circumferential surface of the pipe by tightening to narrow the gap of the incision, the fastening A clamp whose longitudinal movement is limited between the body portion and the clamp release prevention jaw; has been proposed a technique including.

Patent Invention 003 includes a main body into which the end of the pipe is fitted so as to be connected to the pipe; a fastening member coupling the main body and the pipe; An intervening member having a tapered surface in which an outer diameter of at least a part of an outer circumferential surface thereof decreases while moving from the pipe toward the main body, wherein the ends of the pipe are inserted to be interposed between the main body, the fastening member, and the pipe to prevent contact with each other. technology is presented.

Patent Invention 004 can withstand stress due to vibration, seismic force, and ground subsidence, and has a part that can be easily bent at one end to enable piping up to a certain angle without using fittings, and can be easily bent with one touch during piping. It can be inserted and combined, is made of stainless steel, can withstand stress caused by vibration, seismic force and ground subsidence, and has a steel pipe with corrugated parts at one end to enable easy piping without using fittings up to a certain angle. ; It is formed at the end of the corrugated part of the steel pipe part and proposes a technique including a joint part that enables connection by inserting one end of the pipe during piping.

KR 10-2011-0072466 A (June 29, 2011) KR 10-1828071 B1 (February 05, 2018) KR 10-2010-0034683 A (April 01, 2010) KR 10-2017-0134061 A (December 06, 2017)

The present invention relates to an earthquake-resistant water supply pipe joint that is formed at a position where a plurality of pipes are in contact and can prevent separation of pipes by securing fluidity by vibration and shock.

In order to solve the problems of the prior invention, the present invention relates to a water supply pipe joint for earthquake resistance and connects a plurality of pipes (10) and absorbs vibration and shock in the water pipe joint, a plurality of the pipes facing each other. Fastening parts 100 fastened so as to surround each of the (10); An airtight part 200 formed inside the plurality of fastening parts 100 and in close contact with the plurality of pipes 10; A plurality of fastening parts 100 are connected to each other, and a flow part 300 that secures fluidity in the pipe 10 by elasticity;

The present invention relates to an earthquake-resistant water supply pipe joint and the invention, the fastening portion 100 presented above; confidential part 200; A flange 11 formed at the end of the pipe 10 and protruding outward is added to the invention consisting of a moving part 300.

The present invention relates to an earthquake-resistant water supply pipe joint and the invention, the fastening portion 100 presented above; confidential part 200; A first fastening part 110 formed on the fastening part 100 in the invention consisting of a moving part 300 and formed to surround the pipe 10; A second fastening part 120 formed to face the first fastening part 110 and wrapped around the other pipe 10; is added.

The present invention relates to an earthquake-resistant water supply pipe joint and the invention, the fastening portion 100 presented above; confidential part 200; A first fastening plate 111 formed on the first fastening part 110 and surrounding the flange 11; An accommodation hole 113 formed by being depressed inside the first fastening plate 111 and accommodating the second fastening part 120 is added.

The present invention relates to an earthquake-resistant water supply pipe joint and the invention, the fastening portion 100 presented above; confidential part 200; A second fastening plate 121 formed on the second fastening part 120 and formed to face the first fastening plate 111; An insertion protrusion 123 protrudes from the front of the second fastening plate 121 and is inserted into the receiving hole 113; is added.

The present invention relates to an earthquake-resistant water supply pipe joint and the invention, the fastening portion 100 presented above; confidential part 200; The moving part 300; Formed in the airtight part 200 in the invention consisting of, the close contact portion 210 into which the flange 11 is inserted; An elastic airtight portion 220 formed between the plurality of close contact portions 210 and formed by being bent in a zigzag pattern; is added.

The present invention relates to an earthquake-resistant water supply pipe joint and the invention, the fastening portion 100 presented above; confidential part 200; The moving part 300; formed on the outside of the first fastening part 110 in the invention consisting of, the fixed body 116 to which the moving part 300 is fixed; A fixing plate 126 formed on a straight line with the fixing body 116 and protruding outward from the second fastening part 120 through which the moving part 300 penetrates; is added.

The present invention relates to an earthquake-resistant water supply pipe joint and the invention, the fastening portion 100 presented above; confidential part 200; An elastic shaft 310 formed in the moving part 300 and connecting the fixed body 116 and the fixed plate 126 to the invention consisting of a moving part 300; An elastic body 320 formed to surround the elastic shaft 310 and absorbing shock by an elastic force is added.

The present invention is to fix a plurality of pipes as formed to surround the flanges of the pipes facing each other.

The present invention is to form an elastic body on the outside of the pipe to ensure fluidity by vibration and impact.

In the present invention, an elastic body of a spring is formed at both ends of an elastic shaft to relieve shock.

According to the present invention, the fluidity of the pipe can be secured by vibration as the fastening part is formed separately.

The present invention is to secure fluidity between a plurality of pipes as the corrugated pipe is formed in the airtight part.

1 is a perspective view showing an earthquake-resistant water supply pipe joint of the present invention.
Figure 2 is an exploded perspective view of the earthquake-resistant water supply pipe joint shown in Figure 1;
3 to 4 are cross-sectional views of the earthquake-resistant water supply pipe joint of the present invention.

Hereinafter, the most preferred embodiment of the present invention will be described in detail in order to explain the present invention in detail to the extent that those skilled in the art can easily practice the present invention.

Numbers cited in the examples below are not limited to the referenced subject and can be applied to all examples. An object that exhibits the same purpose and effect as the configuration presented in the embodiment corresponds to an equivalent replacement object. The high-level concept presented in the examples includes sub-concept objects that are not described.

(Embodiment 1-1) In the present invention, in a water supply pipe joint for earthquake resistance, in a water supply pipe joint connecting a plurality of pipes 10 and absorbing vibration and shock, a plurality of the pipes 10 facing each other Fastening parts 100 fastened so as to surround each; An airtight part 200 formed inside the plurality of fastening parts 100 and in close contact with the plurality of pipes 10; A moving part 300 connecting the plurality of fastening parts 100 and securing fluidity in the pipe 10 by elasticity; includes.

(Example 1-2) In Example 1-1, the earthquake-resistant water supply pipe joint of the present invention includes a flange 11 formed at an end of the pipe 10 and protruding outward.

(Example 1-3) In the earthquake-resistant water supply pipe joint of the present invention, in Example 1-1, the plurality of fastening parts 100 are coupled to each other and surround the flange 11; includes.

(Example 1-4) In the earthquake-resistant water supply pipe joint of the present invention, in Example 1-1, the airtight part 200 is formed of a rubber material; includes.

The present invention relates to an earthquake-resistant water supply pipe joint. Specifically, the earthquake-resistant water supply pipe joint connects a plurality of water supply pipes to each other, and prevents the plurality of water supply pipes from being separated or separated from each other due to vibration. This earthquake-resistant water supply pipe joint absorbs vibrations caused by earthquakes, surrounding construction, and external shocks to prevent a plurality of water supply pipes from being separated from each other, and surrounds the flange 11 protruding outward from the end of the pipe 10. The fastening part 100 to be formed is formed. At this time, referring to FIG. 1 , the fastening part 100 is formed in plurality, but is integrally assembled and surrounds the flange 11 . In addition, the inner side of the fastening part 100 is formed of a rubber material such as a sealing material or packing, and is adhered to the pipe 10 by the pressure of the fastening part 100 to prevent leakage between the plurality of pipes 10. In addition, the moving part 300 is formed on the outside of the fastening part 100, and the moving part 300 allows the pipe 10 to move fluidly by vibration, thereby preventing the pipes 10 from being separated from each other. can At this time, the moving part 300 moves the pipe 10 by elasticity, and leakage of the pipe 10 can be prevented by contraction and expansion of the pipe 10 due to temperature and pressure differences in addition to vibration.

Therefore, the earthquake-resistant water supply pipe joint of the present invention has a feature of absorbing vibration and shock by connecting a plurality of pipes 10 and securing fluidity.

(Example 2-1) The present invention relates to an earthquake-resistant water supply pipe joint, and in Example 1-1 or Example 1-2, it is formed on the fastening part 100 and surrounds the pipe 10 a first fastening portion 110 formed to; A second fastening part 120 formed to face the first fastening part 110 and wrapped around the other pipe 10;

(Example 2-2) In Example 2-1, the earthquake-resistant water supply pipe joint of the present invention is formed on the fastening part 100, and the first fastening part 110 and the second fastening part 120 ) Bonding device 130 for bonding;

(Example 2-3) In the earthquake-resistant water supply pipe joint of the present invention, in Example 2-2, the bonding device 130 is the outer side of the first fastening part 110 and the second fastening part 120 Bonding plate 131 formed by protruding, respectively; and a bonding member 132 formed by penetrating the plurality of bonding plates 131 in contact with each other.

(Example 2-4) In Example 2-1, the earthquake-resistant water supply pipe joint of the present invention is formed on the outside of the first fastening part 110, and the fixed body to which the moving part 300 is fixed ( 116);

(Example 2-5) In Example 2-1, the earthquake-resistant water supply pipe joint of the present invention is formed on the outside of the second fastening part 120 and is formed on a straight line with the fixture 116 It includes; a fixed plate 126 through which the moving part 300 passes.

The present invention relates to the fastening part 100, and specifically, the fastening part 100 is fastened to a plurality of pipes 10 facing each other to prevent the pipe 10 from leaving. Referring to FIG. 2, the fastening part 100 faces the first fastening part 110 coupled to the outside of one of the pipes 10 facing each other and the first fastening part 110. A second fastening portion 120 is formed. The first fastening part 110 and the second fastening part 120 fix the plurality of pipes 10 as they are formed by being assembled together. In addition, a bonding device 130 is formed at the first fastening part 110 and the second fastening part 120 so that the first fastening part 110 and the second fastening part 120 are fixed to the plurality of pipes 10. As such, the bonding device 130 is formed with bonding plates 131 protruding outward from both ends of the first fastening portion 110 and the second fastening portion 120 . At this time, the bonding plates 131 formed on the first fastening part 110 and the second fastening part 120 are formed to overlap each other, and the bonding member 132 is formed by the bonding hole formed in the bonding plate 131. formed through penetration. The joint member 132 may be formed of bolts and nuts, and the joint member 132 is formed by being coupled to one joint plate 131 by a hinge.

In addition, a fixed body 116 through which the moving part 300 is fixed and penetrated is formed outside the first fastening part 110, and a plurality of fixed bodies 116 are equally spaced outside the first fastening part 110. are placed as In addition, the fixing plate 126 protrudes from the outside of the second fastening part 120, and an elastic hole into which the moving part 300 is inserted is formed in the fixing plate 126. At this time, the elastic hole is formed on a straight line with the fixture 116, and when the moving part 300 penetrates and is fixed through the fixture 116, the other end of the moving part 300 is inserted into the elastic hole.

Therefore, the fastening part 100 of the present invention is formed in plurality, and has a feature of preventing separation of the pipe 10 as it is formed to overlap at the top and bottom so as to surround the plurality of pipes 10.

(Example 3-1) The present invention relates to an earthquake-resistant water supply pipe joint, and in Example 2-1, the first fastening formed on the first fastening part 110 and surrounding the flange 11 plate 111; It is formed by being depressed inside the first fastening plate 111, and includes a receiving hole 113 in which the second fastening part 120 is accommodated.

(Example 3-2) In Example 3-1, the earthquake-resistant water supply pipe joint of the present invention is formed at one end of the first fastening plate 111 and is formed by bending toward the pipe 10 A first holding plate 112; includes.

(Example 3-3) In Example 3-1, the earthquake-resistant water supply pipe joint of the present invention is formed in the receiving hole 113 and prevents the second fastening portion 120 from being separated to the outside. It includes; breakaway bump (114).

(Example 3-4) In Example 3-1, the earthquake-resistant water supply pipe joint of the present invention is formed in the receiving hole 113 and prevents leakage between the second fastening plates 121 A sealing member 115; includes.

The present invention relates to the first fastening part 110, and specifically, the first fastening part 110 is caught on the end of the pipe 10 to prevent the position of the pipe 10 from being deformed. Referring to FIG. 3, in this first fastening part 110, a first fastening plate 111 surrounding the flange 11 formed at the end of the pipe 10 is formed, and the first fastening plate 111 once A first holding plate 112 formed by bending toward the pipe 10 is formed. In addition, the first fastening part 110 is formed with an accommodation hole 113 formed by being recessed inward on a bonding surface in contact with the second fastening part 120 . The accommodating hole 113 accommodates one end of the second fastening part 120, and a separation prevention bump 114 is formed to prevent separation after the second fastening part 120 is inserted. In addition, a sealing member 115 is formed in the receiving hole 113, and the sealing member 115 is formed of a rubber material such as silicon, so that when the insertion protrusion 123 to be described later moves forward and backward in the insertion hole, a first fastening is performed. It is possible to prevent leakage from occurring between the portion 110 and the second fastening portion 120 .

(Embodiment 4-1) The present invention relates to an earthquake-resistant water supply pipe joint, and in Embodiment 3-1 or Embodiment 3-4, it is formed on the second fastening part 120, and the first fastening a second fastening plate 121 formed to face the plate 111; An insertion protrusion 123 protrudes from the front of the second fastening plate 121 and is inserted into the receiving hole 113.

(Example 4-2) In Example 4-1, the earthquake-resistant water supply pipe joint of the present invention is formed at one end of the second fastening plate 121 and is formed by bending toward the pipe 10 The second holding plate 122; includes.

(Example 4-3) In Example 4-1, the earthquake-resistant water supply pipe joint of the present invention includes an insertion plate 124 formed on the insertion protrusion 123 and inserted into the receiving hole 113; It is formed on one end of the insertion plate 124 and protrudes outwardly, including a locking jaw 125.

The present invention relates to the second fastening part 120, and specifically, the second fastening part 120 is caught on the end of the pipe 10 facing the first fastening part 110 to prevent the position from being deformed. will be. Referring to FIG. 4, the second fastening part 120 is formed with a second fastening plate 121 formed to face the first fastening plate 111, and one end of the second fastening plate 121 has a 1 The second holding plate 122 formed by bending toward the pipe 10 so as to be caught on the flange 11 of the pipe 10 in contact with the fastening plate 111 is formed. In addition, an insertion protrusion 123 accommodated in the receiving hole 113 of the first fastening part 110 is formed on the front surface of the second fastening part 120 . The insertion protrusion 123 can secure fluidity in the plurality of pipes 10 by moving forward and backward in the receiving hole 113 . In addition, the insertion protrusion 123 is formed with an insertion plate 124 inserted into the accommodation hole 113, and at one end of the insertion plate 124, a locking jaw 125 protrudes outward and is formed in the accommodation hole 113. It is caught on the departure prevention bump 114. This is to prevent the first fastening part 110 and the second fastening part 120 from being separated when vibration occurs as the locking jaw 125 is caught on the separation preventing jaw 114 .

(Example 5-1) The present invention relates to an earthquake-resistant water supply pipe joint, and in Example 2-2 or Example 4-1, formed in the airtight part 200, the flange 11 Adhesion part 210 to be inserted; An elastic confidential part 220 formed between the plurality of close contact parts 210 and formed by being bent in a zigzag pattern; includes.

(Example 5-2) In the earthquake-resistant water supply pipe joint of the present invention, in Example 5-1, the coupling protrusion 230 formed on the outside of the airtight part 200 and coupled to the fastening part 100 includes;

(Example 5-3) In the earthquake-resistant water supply pipe joint of the present invention, in Example 5-1, the elastic airtight portion 220 is formed to be wrinkled; includes.

The present invention relates to an airtight part 200, and specifically, the airtight part 200 is to prevent water leakage by inserting a plurality of pipes 10, respectively. Referring to FIG. 4, the airtight part 200 is inserted into the flange 11 so as to surround the flange 11, and is separately inserted into the first fastening part 110 and the second fastening part 120, respectively. . At this time, as the coupling protrusion 230 is formed on the outside of the airtight portion 200, the airtight portion 200 is coupled to the fastening portion 100, and the coupling protrusion 230 is formed on the inside of the fastening portion 100 It is inserted into the coupling hole with an interference fit. In addition, the airtight part 200 has a close contact part 210 into which a plurality of pipes 10 are inserted, respectively, and the close contact part 210 is more effectively attached to the pipe 10 as the plurality of fastening parts 100 are joined. Fits tightly to prevent leaks. And, between the plurality of contact parts 210, an elastic confidential part 220 is formed, and the elastic confidential part 220 is bent in a zigzag shape to form a wrinkle shape. This is to prevent the flange 11 from being separated from the contact portion when the gap between the plurality of pipes 10 is widened.

(Embodiment 6-1) The present invention relates to an earthquake-resistant water supply pipe joint, and in Embodiment 2-2 or Embodiment 5-1, formed in the moving part 300, the fixture 116 and an elastic shaft 310 connecting the fixing plate 126; An elastic body 320 formed to surround the elastic shaft 310 and absorbing shock by an elastic force; includes.

(Example 6-2) In Example 6-1, the earthquake-resistant water supply pipe joint of the present invention is formed at the other end of the elastic shaft 310 and coupled through the fixing plate 126 (311). );

(Example 6-3) In the earthquake-resistant water supply pipe joint of the present invention, in Example 6-1, the elastic body 320 is formed on both sides of the fixing plate 126, respectively; includes.

The present invention relates to the moving part 300, and specifically, the moving part 300 is formed on the outside of the fastening part 100 so that the plurality of fastening parts 100 have fluidity by vibration and impact. In such a moving part 300, the plurality of pipes 10 may be separated from each other by a force acting on the plurality of pipes 10 due to an earthquake, shock, or the like, and do not secure fluidity in the plurality of pipes 10. Otherwise, the pipe 10 may be damaged. On the other hand, in the present invention, the distance between the first fastening part 110 and the second fastening part 120 formed to face each other can be flexibly adjusted, and the moving part 300 is formed on the outside of the fastening part 100. This is to provide elasticity when the plurality of fastening parts 100 move due to vibration and impact, so that the fastening parts 100 absorb vibration.

Referring to FIGS. 3 and 4 , the moving part 300 has one end fixed to the fixture 116 formed outside the first fastening part 110 and the other end fixed to the fixed plate of the second fastening part 120. An elastic shaft 310 formed through 126 is formed. A plurality of elastic bodies 320 are formed on the elastic shaft 310, and the elastic bodies 320 are formed as springs and are formed to surround the elastic shaft 310 on both sides of the fixing plate 126, respectively. In addition, the coupling body 311 is coupled to the other end of the elastic body 320 to prevent the elastic shaft 310 from being separated from the fixing plate 126, and the coupling body 311 is formed in a nut or spherical shape to form an elastic shaft ( 310). In this way, when vibration and impact are generated by the moving part 300, when the gap between the first fastening part 110 and the second fastening part 120 is widened, elasticity is provided by the elastic body 320 to reduce vibration and shock. absorption to improve seismic performance.

10: pipe 11: flange
100: fastening part 110: first fastening part
111: first fastening plate 112: first holding plate
113: receiving hole 114: departure prevention bump
115: sealing member 116: fixture
120: second fastening part 121: second fastening plate
122: second holding plate 123: insertion protrusion
124: insertion plate 125: locking jaw
126: fixed plate 130: bonding device
131: bonding plate 132: bonding member
200: confidential part 210: contact part
220: elastic confidential part 230: coupling protrusion
300: moving part 310: elastic shaft
311: combination body 320: elastic body

Claims (8)

In a water supply pipe joint connecting a plurality of pipes 10 and absorbing vibration and shock,
Fastening parts 100 fastened to surround each of the plurality of pipes 10 facing each other;
An airtight part 200 formed inside the plurality of fastening parts 100 and in close contact with the plurality of pipes 10;
A moving part 300 connecting the plurality of fastening parts 100 and securing fluidity in the pipe 10 by elasticity;
A flange 11 formed at an end of the pipe 10 and protruding outward; includes,
A first fastening part 110 formed on the fastening part 100 and formed to surround the pipe 10;
A second fastening part 120 formed to face the first fastening part 110 and wrapped around the other pipe 10;
a first fastening plate 111 formed on the first fastening part 110 and surrounding the flange 11;
A second fastening plate 121 formed on the second fastening part 120 and formed to face the first fastening plate 111; includes,
an accommodation hole 113 recessed into the first fastening plate 111; and
An insertion protrusion 123 protruding from the front of the second fastening plate 121 and inserted into the receiving hole 113;
an insertion plate 124 formed on the insertion protrusion 123 and inserted into the receiving hole 113; It is formed at one end of the insertion plate 124 and protrudes outward; includes a locking jaw 125,
Formed in the airtight part 200, the contact portion 210 into which the flange 11 is inserted;
An elastic confidential part 220 formed between the plurality of close contact parts 210 and formed by being bent in a zigzag pattern;
An earthquake-resistant water supply pipe joint comprising a coupling protrusion 230 formed on the outside of the airtight portion 200 and coupled to the fastening portion 100.
delete delete delete delete delete The method of claim 1,
a fixture 116 formed outside the first fastening part 110 and to which the moving part 300 is fixed;
An earthquake-resistant water supply pipe joint comprising: a fixing plate 126 formed on a straight line with the fixing body 116 and protruding outward of the second fastening part 120 through which the moving part 300 passes.
The method of claim 7,
an elastic shaft 310 formed in the moving part 300 and connecting the fixed body 116 and the fixed plate 126;
An earthquake-resistant water supply pipe joint comprising an elastic body 320 formed to surround the elastic shaft 310 and absorbing shock by an elastic force.

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