KR20200072459A - Pipe Connecting Device for Earthquake-Proof using Elastic space ring - Google Patents

Abstract

The present invention relates to a pipe connecting apparatus for earthquake resistance using an elastic space ring made of elastic materials, and more specifically, to a pipe connecting apparatus for earthquake resistance using an elastic space ring made of elastic materials, which comprises: a first fixing ring made of synthetic resin materials and engaged with an outer circumferential surface on an end of a pipe on one side installed by being in contact, wherein an O-ring is installed on the inner circumferential surface and outer circumferential surface, and the outer circumferential surface is formed as a spherical surface which is an inclined surface which becomes thinner in a direction of being further away from the contact surface of the pipe; a second fixing ring made of synthetic resin materials and engaged with an outer circumferential surface on an end of another pipe on the other side installed by being in contact, wherein an O-ring is installed on the inner circumferential surface and outer circumferential surface, and the outer circumferential surface is formed as a spherical surface which is an inclined surface which becomes thinner in a direction of being further away from the contact surface with the other pipe, and which is installed with a side surface in full contact with the first fixing ring; a first flange member made of metallic materials and engaged with outer circumferential surface of the first fixing ring, wherein a plurality of fastening holes are formed at regular intervals along the circumference, and the inner circumferential surface is formed as a spherical surface which is an inclined surface corresponding to the outer circumferential surface of the first fixing ring; a second flange member made of metallic materials and engaged with the outer circumferential surface of the second fixing ring, wherein a plurality of fastening holes are formed at regular intervals along the circumference, and which is installed in contact with the first flange member, and has the inner circumferential surface which is formed as a spherical surface which is an inclined surface corresponding to the outer circumferential surface of the second fixing ring; an elastic space ring inserted into a side surface wherein the first fixing ring and the second fixing ring face each other; and a plurality of fastening members which fasten and fix the first flange member and the second flange member as one body.

Description

Pipe connection device for Earthquake-Proof using Elastic space ring

The present invention relates to a seismic piping connection device using an elastic space ring made of an elastic material, and more specifically, even when an installed pipe is inclined in a direction deviating from each other due to an earthquake or the like, the connection parts are stably maintained and damaged or damaged. It relates to a seismic pipe connecting device using an elastic space ring made of an elastic material that does not occur.

In general, fire pipes, gas pipes, oil pipes, water pipes, drain pipes, hot water pipes, and heating pipes are installed in buildings and facilities.

Most pipes are made of steel pipes, cast iron pipes, copper pipes, etc., and when the installation length of the pipes is long, the middle and middle neighboring pipes are fixedly connected to each other and used.

However, when a fire pipe, a gas pipe, an oil pipe, a water pipe, a hot water pipe, a heating pipe, a drain pipe, etc. are damaged, problems such as leakage of gas, water, or oil may occur, thereby causing secondary damage. Therefore, the structural strength of the pipe connection is required.

In particular, when an earthquake or the like occurs, both connecting portions of the pipe are inclined in different directions, excessive external force is applied to the connecting portions, and there is a fear that the connecting portion may be damaged or leak.

Republic of Korea Patent Registration No. 10-0516798, No. 10-0745868, No. 10-1281050, No. 10-1332190 has been disclosed a variety of techniques for connecting pipes by seismic design.

In the case of a structure in which a conventional pipe is connected, an earthquake-resistant design against earthquakes is not sufficient.

German Patent Publication DE30391 United States Patent Publication US380765 Japanese Patent Application Publication No. 201-165369

The present invention was made to solve the above problems, and even when the pipes installed due to an earthquake or the like are inclined in a direction deviating from each other, the connection portion is stably maintained and damaged or damaged by the first fixing ring and the second fixing ring. An object of the present invention is to provide an anti-seismic piping connection device using an elastic space ring made of an elastic material, which is configured to prevent damage.

In addition, the present invention is capable of absorbing the deformation occurring between the pipes as the first fixing ring and the second fixing ring are deformed, and the elastic space of an elastic material capable of effectively maintaining the gap generated in this case in a sealed state The purpose is to provide a seismic pipe connection device using a ring.

In order to solve the above problems, the present invention is a synthetic resin formed of a spherical surface which is coupled to the outer circumferential surface of one end of a pipe installed in contact with each other, the O-ring is installed on the inner circumferential surface and the outer circumferential surface, and the outer circumferential surface becomes thinner in thickness in a direction away from the contact surface of the pipe. First fixing ring of ash; It is coupled to the outer circumferential surface of the ends of the other pipes installed in contact with each other, O-rings are installed on the inner circumferential surface and the outer circumferential surface, and the outer circumferential surface is formed as a spherical surface which is an inclined surface that becomes thinner in thickness in a direction away from the contact surface of the pipe. A second fixing ring of a synthetic resin material installed in a state of being; A first flange member of a metal material which is coupled to the outer circumferential surface of the first fixing ring, has a plurality of fastening holes formed at intervals along the circumference, and the inner circumferential surface is formed of a spherical surface that is an inclined surface corresponding to the outer circumferential surface of the first fixing ring; It is coupled to the outer circumferential surface of the second fixing ring, a plurality of fastening holes are formed at intervals along the circumference, and is installed in contact with the first flange member, and the inner circumferential surface is a spherical surface that is an inclined surface corresponding to the outer circumferential surface of the second fixing ring. A second flange member made of a metal material; An elastic space ring fitted on a side surface of the first fixing ring and the second fixing ring facing each other; It includes a plurality of fastening members for fastening the first flange member and the second flange member integrally with each other.

An elastic tex is provided on the inner side of the elastic space ring to fix the position according to the pipe inner diameter.

The elastic space ring has a plurality of semicircular shapes arranged in a plane along the inner circumference.

The present invention made as described above is formed of a first fixing ring and a second fixing ring made of a material such as synthetic resin or silicon, and formed of a first flange member and a second flange member of a metal material, so that an earthquake or the like is generated and connected to neighbors. Even when the pipes are inclined in a direction in which they deviate from each other, it is possible to effectively seal the gaps occurring in the connecting portion of the pipe while the first and second fixing rings are deformed, and the first and second flange members It is possible to fix the connection part of the pipe firmly while maintaining the structural strength.

In addition, the present invention is capable of absorbing the deformation occurring between the pipes as the first fixing ring and the second fixing ring are deformed with a simple form of the space ring, and the gap generated in this case is effectively kept in a closed state, neighboring In this case, it is possible to maintain a state of close contact even when the pipes connected to each other are inclined in a direction that deviates from each other.

In addition, in the present invention, when water flows in, water flows into the space of the inner circumference by water pressure, so that the width decreases in the direction of refraction and expands on the other side while maintaining airtightness between the first flange member and the first fixing ring, The elastic tex centers on the inner diameter of the pipe, so that the elastic space ring is not pushed, it is possible to maintain a close contact effectively.

1 is a side view showing a state in which piping is connected using a seismic piping connecting device using an elastic space ring made of an elastic material according to an embodiment of the present invention.
Figure 2 is an exploded perspective view showing only one part of the seismic piping connecting device using an elastic space ring of an elastic material according to an embodiment of the present invention.
3 is an assembly cross-sectional view showing a horizontal state and a refraction state of a seismic pipe connecting device using an elastic space ring made of an elastic material according to an embodiment of the present invention.
4A, B, and C are cross-sectional views showing an elastic tex and an inner circumference of an elastic space ring made of an elastic material according to another embodiment of the present invention.
5 is a side view showing a state in which a pipe of a building is connected using a seismic pipe connecting device using an elastic space ring made of an elastic material according to another embodiment of the present invention.
6 is a side view showing a state in which the piping is inclined due to the occurrence of an earthquake in the state where the piping of a building is connected by using a seismic piping connecting device using an elastic space ring made of an elastic material according to another embodiment of the present invention.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be interpreted as being limited to the embodiments described in detail below. This embodiment is provided to more fully describe the present invention to those skilled in the art. Therefore, the shape of the elements in the drawings may be exaggerated to emphasize a clearer description. It should be noted that, in each drawing, the same members may be indicated by the same reference numerals. In addition, detailed descriptions of well-known functions and configurations that are judged to unnecessarily obscure the subject matter of the present invention are omitted.

2 to 4 a, b, c, seismic piping connecting device using an elastic space ring of an elastic material according to an embodiment of the present invention, pipes (2, 4), snap ring (8), First fixing ring 10', second fixing ring 20', first flange member 30', second flange member 40', elastic space ring 50-1, and fastening member 70 ).

The first fixing ring 10' is a synthetic resin formed of a spherical surface that is coupled to the outer circumferential surface of one end of the pipe that is installed in contact with each other, the O-ring is installed on the inner circumferential surface and the outer circumferential surface, and the outer circumferential surface becomes thinner in thickness in the direction away from the contact surface of the pipe. It is ash.

The second fixing ring 20' is coupled to the outer circumferential surface of the other end of the pipe that is installed in contact with each other, the O-ring is installed on the inner circumferential surface and the outer circumferential surface, and the outer circumferential surface is formed of a spherical surface which is an inclined surface that becomes thinner in thickness in a direction away from the contact surface of the pipe. It is a synthetic resin material that is installed in close contact with the first fixing ring.

The first flange member 30' is coupled to the outer circumferential surface of the first fixing ring 10', a plurality of fastening holes are formed at intervals along the circumference, and the inner circumferential surface is an inclined surface corresponding to the outer circumferential surface of the first fixing ring It is a metal material formed into a spherical surface.

The second flange member 40' is coupled to the outer circumferential surface of the second fixing ring 20', a plurality of fastening holes are formed at intervals along the circumference, and installed in contact with the first flange member, and the inner circumferential surface is the It is a metal material formed of a spherical surface that is an inclined surface corresponding to the outer peripheral surface of the second fixing ring 20'.

The elastic space ring 50-1 is an elastic material that is fitted to the side surfaces of the first fixing ring 10' and the second fixing ring 20' that face each other.

When the elastic space ring 50-1 contracts in the thickness direction, it is preferable to use an elastically deformable material that can stably seal between the first fixing ring 10' and the second fixing ring 20'. .

An elastic tex (50-3) is provided inside the elastic space ring (50-1) to fix the position according to the pipe inner diameter. That is, even if the elastic tex 50-3 is installed on only one side of the elastic space ring 50-1, it is possible to fix it while matching the inner diameter of the pipe.

In the elastic space ring 50-1, a plurality of semicircular shapes are arranged along the inner circumference (see FIG. 4A).

Therefore, it is possible to absorb the deformation occurring between the pipes 2 and 4 while the first fixing ring 10' and the second fixing ring 20' are deformed, and the gap generated in this case is effectively sealed. You can keep it.

In addition, the present invention can be used for a long time by supplementing the elasticity and reinforcing the continuous durability than when the inner circumferential portion 50-2 is made only of a curved line.

Fixing grooves 3 are formed on the outer circumferential surfaces of the ends of the pipes 2 and 4 installed in contact with each other, and snap rings 8 are inserted into the fixing grooves of the pipes 2 and 4, and the first fixing is performed. A locking jaw into which a portion of the snap ring is inserted is formed at an edge of the inner circumferential surface of the side of the ring 10 and the second fixing ring 20 that is in contact with each other.

Finally, the present invention includes a plurality of fastening members 70 for fastening and fixing the first and second flange members integrally with each other.

On the other hand, the seismic piping connecting device using an elastic space ring made of an elastic material according to an embodiment of the present invention includes a first fixing ring 10, a second fixing ring 20, a first flange member 30, It comprises a second flange member 40, and a fastening member (70).

The first fixing ring 10 is installed to be coupled to the outer circumferential surface of one end of the pipe 2 installed in contact with each other.

The second fixing ring 20 is installed to be coupled to the outer peripheral surface of the end of the other pipe 4 is installed in contact with each other.

O-rings 60 are installed on the inner circumferential surfaces and the outer circumferential surfaces 11 and 21 of the first fixing ring 10 and the second fixing ring 20.

Ring grooves 13 and 23 into which the O-ring 60 is inserted are formed on the outer circumferential surfaces 11 and 21 of the first fixing ring 10 and the second fixing ring 20.

Ring grooves 14 and 24 into which the O-ring 60 is inserted are also formed on the inner circumferential surfaces of the first fixing ring 10 and the second fixing ring 20.

The first fixing ring 10 and the second fixing ring 20 are formed with an inclined surface whose thickness becomes thinner as the outer circumferential surfaces 11 and 21 move away from the contact surfaces of the adjacent pipes 2 and 4.

In the above, the outer peripheral surfaces 11 and 21 of the first fixing ring 10 and the second fixing ring 20 are formed as curved surfaces (for example, a part of a spherical surface), and the first flange member 30 and the second It is preferable because the spherical contact with the flange member 40 is made.

The first fixing ring 10 and the second fixing ring 20 are formed of a material such as synthetic resin or silicone, and the pipes 2 and 4 connected to each other are inclined in a direction that deviates from each other due to an earthquake or the like. When deformation occurs in the first fixing ring 10 and the second fixing ring 20 is deformed, it is possible to absorb the deformation occurring between the pipes (2, 4), the gap occurring in this case It is preferable because it is possible to effectively keep it in a closed state.

A plurality of elastic member holes 18 and 28 are respectively formed on the side surfaces of the first fixing ring 10 and the second fixing ring 20 facing each other, and the elastic members of the first fixing ring 10 are formed. It is also possible to install a plurality of elastic members 50 in a state that is inserted into the hole 18 and the elastic member hole 28 of the second fixing ring 20.

When the elastic member 50 is installed between the first fixing ring 10 and the second fixing ring 20 as described above, deformation occurs between the first fixing ring 10 and the second fixing ring 20. In some cases, it is possible to impart resilience.

Or, if the fluid is not inside in a state where the pipes 2 and 4 are coupled to each other, the first fixing ring 10 and the second fixing ring 20 are pushed toward the center, and the O-ring 60 is removed. 2 Although the fluid may leak because it is not in close contact with the flange member 30 and the second flange member 40, the elastic member 50 between the first fixing ring 10 and the second fixing ring 20 as described above When installed, the elastic force of the elastic member 50 acts such that the first fixing ring 10 and the second fixing ring 20 are in close contact with the first flange member 30 and the second flange member 40 It is possible to prevent the fluid from leaking.

The first flange member 30 is installed in a state of being coupled to the outer circumferential surface of the first fixing ring 10.

The second flange member 40 is installed in a state of being coupled to the outer circumferential surface of the second fixing ring 20.

A plurality of fastening holes 36 and 46 are formed at intervals along the circumference of the first flange member 30 and the second flange member 40.

The second flange member 40 is installed in contact with the first flange member 30.

The first flange member 30 and the second flange member 40 are preferable because it is possible to form a metal material to maintain high structural strength.

The first flange member 30 and the second flange member 40 are integrally fixed in close contact with each other by a fastening member 70 installed through the fastening holes 36 and 46.

The fastening member 70 may be configured using a bolt, and it is also possible to additionally use a nut 72 fastened with the bolt.

As shown in Figure 4 a, b, c, the elastic space ring (50-1) pushes the first fixing ring 10 and the second fixing ring 20 with elastic force before the water flows, water pressure in the initial stage Keep it confidential until it gets caught.

When water flows in, water flows into the space of the inner circumferential portion 50-2 by water pressure, and the width decreases in the direction of refraction while maintaining airtightness between the first flange member 30 and the first fixing ring 10. The other side can be effectively in contact even when inflated.

The elastic tex 50-3 serves to prevent the elastic space ring 50-1 from being pushed by holding the center of the inner diameters of the pipes 2,4.

In addition, the width is reduced in the direction of refraction using the elastic force of the elastic space ring 50-1, and the opposite side serves to expand.

Next, a process of connecting pipes to each other using a seismic pipe connecting device using an elastic space ring made of an elastic material according to an embodiment of the present invention configured as described above will be described.

First, fixing grooves 3 and 5 are formed at the ends of the pipes 2 and 4.

Then, the O-ring 60 is respectively inserted into the ring groove 13 formed on the outer circumferential surface 11 of the first fixing ring 10 and the ring groove 14 developed on the inner circumferential surface, and the outer circumferential surface of the second fixing ring 20 The O-rings 60 are inserted into the ring grooves 23 formed in the 21 and the ring grooves 24 developed on the inner circumferential surface, respectively.

In addition, the O-ring 60 is also inserted into the ring groove 45 formed in the side surface 44 of the second flange member 40.

Then, the first flange member 30 and the first fixing ring 10 are sequentially inserted into one pipe 2, and the second flange member 40 and the second fixing ring 20 are inserted into the other pipe 4. ) Sequentially.

Next, the snap rings 8 are coupled to the fixing grooves 3 and 5 of the pipes 2 and 4, respectively.

In the above, the ends of the pipes 2 and 4 facing each other are not in full contact, and the pipes 2 and 4 are configured to be positioned with a slight gap (for example, about 10 mm) in a direction in which the pipes 2 and 4 are displaced from each other. This is preferable because it can secure a minimum space that can be inclined (a space that can reduce interference between pipes).

In addition, the end faces of the first fixing ring 10 and the second fixing ring 20 that face each other may be configured to be positioned with a slight gap as in the pipes 2 and 4.

In addition, the first flange member 30 and the second flange member 40 are moved to make contact with each other, and the first and second flange members 30 and 40 are fastened using a fastening member 70. Fix and fasten them in close contact with each other.

When configured as described above, between the first flinth member 30 and the second flange member 40, between the first flange member 30 and the first fixing ring 10, the second flange member ( Between the 40) and the second fixing ring 20, between the first fixing ring 10 and one pipe 2, and between the second fixing ring 20 and the other pipe 4, respectively. Since 60 is provided, airtightness is maintained high.

5 shows a state in which a structure in which both pipes 2 and 4 are connected to each other is installed in the building 100 as described above.

As shown in Fig. 5, when using a seismic piping connecting device using an elastic space ring made of an elastic material according to another embodiment of the present invention, it is formed on the wall 100 of the building to pipe the pipes 2 and 4 The outer circumferential surface 11 of the first fixing ring 10 or the second fixing ring 20 formed by forming a gap between the pipe hole 102 and the pipes 2 and 4 as a curved surface (for example, a part of a spherical surface) 21) Alternatively, since it is possible to close the outer circumferential surface of the first flange member 30 or the second flange member 40, there is no need to fill it with a separate non-combustible material or a filling material such as cement, and the piping installation work is more It is possible to carry out easily.

6 shows a state in which the first fixing ring 10 and the second fixing ring 20 are deformed when the pipes 2 and 4 connected to each other are inclined in an off-axis direction due to an earthquake or the like.

For example, when an external force in different directions acts on one pipe 2 and the other pipe 4, and when both pipes 2 and 4 are inclined in a direction deviating from each other, both pipes 2 and 4 abut against each other. The end surface is attached to one side and the other side is deformed into an open shape, and the first fixing ring 10 and the second fixing ring 20 are engaging jaws 15 and 25 on the snap rings 8 installed on the pipes 2 and 4 ), the first flange member 30 and the second flange member 40 are in close contact with each other by the fastening member 70 and fixed while being deformed in the same shape as the pipes 2 and 4 State is maintained.

In the above, the outer circumferential surfaces 11 and 21 of the first fixing ring 10 and the second fixing ring 20 are formed as curved surfaces, and the inner circumferential surfaces 32 of the first flange member 30 and the second flange member 40 are formed. , 42), the outer circumferential surfaces 11 and 21 of the first fixing ring 10 and the second fixing ring 20 and the first flange member 30 and the second flange member 40 ), the first fixed ring 10 and the second fixed ring 10 are formed while the spherical contact is made between the inner circumferential surfaces 32 and 42 of the first flange member 30 and the second flange member 40. The fixing ring 20 is coupled in a state in which sliding is possible between the first flange member 30 and the second flange member 40.

Therefore, it is possible that the first fixing ring 10 and the second fixing ring 20 are deformed together with the pipes 2 and 4 when both pipes 2 and 4 are inclined to be displaced from each other.

2-one pipe, 3-fixing groove, 4-other pipe, 5-fixing groove, 8-snap ring
10-first fixing ring, 11-outer peripheral surface of the first fixing ring, 12-side of the first fixing ring
13,14-Ring groove, 15-Hanging jaw, 20-Second fixing ring
21-Outer peripheral surface of the second fixing ring, 22-Side of the second fixing ring, 23, 24-Ring groove
25-locking jaw, 30-first flange member
32-inner peripheral surface of the first flange member, 36-fastening hole, 40-second flange member
42-inner peripheral surface of the second flange member, 44-side surface of the second flange member, 45-ring groove
46-Fastening hole, 47-Female thread, 50-1: Elastic space ring
50-2: inner circumference, 50-3: elastic tex, 60-O-ring, 70-fastening member
72-nut, 100-building wall, 102-plumbing hole

Claims (2)

A first fixing ring of a synthetic resin material which is coupled to the outer circumferential surface of one end of the pipe that is installed in contact with each other, has an O-ring installed on the inner circumferential surface and an outer circumferential surface, and is formed with a spherical surface that is an inclined surface whose thickness becomes thinner in a direction away from the pipe contact surface;
It is coupled to the outer circumferential surface of the ends of the other pipes installed in contact with each other, O-rings are installed on the inner circumferential surface and the outer circumferential surface, and the outer circumferential surface is formed as a spherical surface that is an inclined surface that becomes thinner in thickness in a direction away from the contact surface of the pipe. A second fixing ring of a synthetic resin material installed in a state of being;
A first flange member of a metal material which is coupled to the outer circumferential surface of the first fixing ring, has a plurality of fastening holes formed at intervals along the circumference, and the inner circumferential surface is formed of a spherical surface that is an inclined surface corresponding to the outer circumferential surface of the first fixing ring;
It is coupled to the outer circumferential surface of the second fixing ring, a plurality of fastening holes are formed at intervals along the circumference, and is installed in contact with the first flange member, and the inner circumferential surface is a spherical surface that is an inclined surface corresponding to the outer circumferential surface of the second fixing ring. A second flange member made of a metal material;
An elastic space ring fitted on a side surface of the first fixing ring and the second fixing ring facing each other;
Includes; a plurality of fastening members for fastening the first flange member and the second flange member integrally with each other;
It is possible to fix the position in accordance with the inner diameter of the pipe by giving an elastic tex on the inside of the elastic space ring,
The elastic space ring is a plurality of semi-circular shape in a plane along the inner circumference, seismic piping connection device using an elastic space ring made of an elastic material. According to claim 1,
Fixing grooves are formed on the outer circumferential surfaces of the ends of the pipes installed in contact with each other.
Install the snap ring by inserting it into the fixing groove of the pipe,
A seismic piping connection device using an elastic space ring made of an elastic material forming a locking jaw into which a portion of the snap ring is inserted at an edge of an inner circumferential surface of a side contacting each other of the first fixing ring and the second fixing ring.

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