KR101922419B1 - Pipe Connecting Device for Earthquake-Proof - Google Patents

Abstract

The present invention provides an earthquake-proof pipe connecting device which is configured to stably maintain a connection part by a first fixing ring and a second fixing ring and prevent breakdown of or damage to the connection part even when installed pipes are inclined in misaligned directions due to occurrence of an earthquake. The earthquake-proof pipe connecting device of the present invention comprises: a first fixing ring coupled to an outer circumferential surface of an end of one side pipe installed to be in contact with each other, having an O-ring installed on an inner circumferential surface and an outer circumferential surface thereof, and having an outer circumferential surface which is a slope surface in which a thickness becomes thinner in a direction away from a contact surface of the pipe; a second fixing ring coupled to an outer circumferential surface of the end of the other side pipe installed to be in contact with each other, having an O-ring installed on an inner circumferential surface and an outer circumferential surface thereof, having an outer circumferential surface which is a slope surface in which a thickness becomes thinner in a direction away from the contact surface of the pipe, and having a side surface which is closely placed with the first fixing ring; a first flange member coupled to an outer circumferential surface of the first fixing ring and having a plurality of coupling holes formed along a circumference thereof at intervals; a second flange member coupled to an outer circumferential surface of the second fixing ring, having a plurality of coupling holes formed along a circumference thereof at intervals, and installed to be in contact with the first flange member; and a plurality of coupling members for integrally coupling and fixing the first flange member and the second flange member.

Description

{Pipe Connecting Device for Earthquake-Proof}

More particularly, the present invention relates to a piping connection device for an internal combustion engine, in which even if an installed pipe due to an earthquake or the like is tilted in a direction in which the pipes are mutually offset, the connection portion is stably maintained, ≪ / RTI >

Generally, piping such as fire-fighting pipe, gas pipe, oil pipe, water pipe, drain pipe, hot water pipe, and heating pipe is installed in buildings and facilities.

Most piping materials consist of steel pipe, cast iron pipe, copper pipe, etc. When the installation length of the piping is long, the pipes in the middle and middle are fixedly connected to each other.

However, if fire pipes, gas pipes, oil pipelines, water pipes, hot water pipes, heating pipes and drain pipes are damaged, problems such as leakage of gas, water, and oil may occur and secondary damage may occur. Therefore, the structural strength of the pipe connection portion is required.

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

Korean Patent Registration Nos. 10-0516798, 10-0745868, 10-1281050 and 10-1332190 disclose various techniques for connecting piping by earthquake-resistant design.

In the case of a structure connecting a conventional pipe (pipe), an earthquake-proof seismic design is not sufficient.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a method of manufacturing a pipe structure in which even if a pipe installed due to an earthquake or the like is inclined in a direction in which the pipes are deviated from each other, Which is constituted so as not to occur in the case of a pipe connecting apparatus for an internal combustion engine.

An O-ring is provided on an inner circumferential surface and an outer circumferential surface of the pipe, and the thickness of the O-ring is increased as the outer circumferential surface is moved away from the contact surface of the pipe. An O-ring is provided on the inner circumferential surface and the outer circumferential surface, and the thickness of the outer circumferential surface of the first fixing ring is smaller than the thickness of the outer circumferential surface of the other pipe. A second fixing ring formed of an inclined surface that is thinned and installed in a state in which the first fixing ring and the side face are in tight contact with each other, and a plurality of fixing holes formed on the outer peripheral surface of the first fixing ring, A first flange member, a plurality of fastening holes joined to the outer circumferential surface of the second stationary ring and spaced apart from each other around the circumference, It comprises a plurality of fastening members for fixing by fastening the group first flange member and a second flange member, which is installed in contact with the state, the first flange member and second flange member integrally with each other.

The first retaining ring and the second retaining ring are formed of a material such as synthetic resin or silicone, and the first flange member and the second flange member are formed of a metal material.

The inner circumferential surfaces of the first flange member and the second flange member are formed as inclined surfaces corresponding to the outer circumferential surfaces of the first retaining ring and the second retaining ring.

Wherein a plurality of spring holes are formed in the side surfaces of the first retaining ring and the second retaining ring facing each other and a plurality of spring holes of the first retaining ring and a plurality It is also possible to install a spring of

It is also possible to form a ring groove on the outer circumferential surface of the end portion of both pipes which are installed in contact with each other in the above, and to install the snap ring in the ring groove.

And a locking protrusion for inserting a part of the snap ring may be formed on an inner circumferential edge of the side surface of the first retaining ring and the second retaining ring.

A ring groove may be formed in a side surface of the second flange member that contacts the first flange member, and an O-ring may be provided in the ring groove.

According to the piping connection apparatus for vibration damping according to the embodiment of the present invention, since the first flange member and the second flange member are formed of the first fixed ring and the second fixed ring made of a synthetic resin or silicone, The first fixing ring and the second fixing ring are deformed to effectively seal the gap generated at the connecting portion of the pipe, It is possible to firmly fix the connecting portion of the pipe with the flange member and the second flange member maintaining the structural strength.

According to the pipe connection apparatus for the dustproof sealant according to the embodiment of the present invention, the gap between the first flange member and the first retaining ring, between the second flange member and the second retaining ring, between the first retaining ring and the first retaining ring, 2 O rings are provided between the stationary ring and the pipe and between the first flange member and the second flange member, so that it is possible to maintain a state in which the adjacent pipes are in close contact with each other even when they are inclined toward each other Do.

In addition, according to the pipe connection apparatus for the dustproof pipe according to the embodiment of the present invention, since the snap ring is provided at the connection portion of the pipe and the engagement protrusions are formed at the side surfaces of the first retaining ring and the second retaining ring, It is possible to prevent the first retaining ring and the second retaining ring from being detached from the coupled pipe, respectively, even if the inclination occurs in the misaligned direction.

FIG. 1 is a side view showing a piping connected using a piping connection device according to an embodiment of the present invention.
2 is an exploded perspective view showing a piping connection apparatus for an internal combustion engine according to an embodiment of the present invention.
FIG. 3 is an assembled cross-sectional view showing a piping connection device for an internal combustion engine according to an embodiment of the present invention.
FIG. 4 is an assembled cross-sectional view illustrating a piping connection apparatus according to another embodiment of the present invention.
FIG. 5 is a side view showing a piping connection of a building using a piping connection device according to another embodiment of the present invention.
6 is a side view showing an inclined state of a pipe due to occurrence of an earthquake or the like in a state where piping of a building is connected using a piping connection device for an internal combustion engine according to another embodiment of the present invention.
7 is an assembled cross-sectional view showing a deformed state of the pipe when the pipe is inclined, according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, a preferred embodiment of a pipe connection device for an internal combustion engine according to the present invention will be described in detail with reference to the drawings.

The present invention can be embodied in various forms and is not limited to the embodiments described below.

Hereinafter, for the purpose of clearly illustrating the present invention, a detailed description of parts that are not closely related to the present invention is omitted, and the same or similar components are denoted by the same reference numerals throughout the entire description of the present invention, .

1 to 3, a pipe connecting apparatus for an internal combustion engine according to an embodiment of the present invention includes a first stationary ring 10, a second stationary ring 20, a first flange member (not shown) 30, a second flange member 40, and a fastening member 70.

The first stationary ring 10 is installed to be coupled to an outer peripheral surface of an end of one pipe 2 which is installed in contact with each other.

The second stationary ring 20 is coupled to the outer peripheral surface of the other end of the pipe 4,

An O-ring 60 is provided on the inner peripheral surface and the outer peripheral surfaces 11, 21 of the first retaining ring 10 and the second retaining ring 20.

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

Ring grooves 14 and 24 into which the O-rings 60 are inserted are formed on the inner circumferential surfaces of the first stationary ring 10 and the second stationary ring 20, respectively.

The first stationary ring 10 and the second stationary ring 20 are formed as inclined surfaces whose outer peripheral surfaces 11 and 21 become thinner in the direction away from the contact surfaces of the neighboring pipes 2 and 4 do.

It is preferable that the outer circumferential surfaces 11 and 21 of the first retaining ring 10 and the second retaining ring 20 are curved (for example, part of a spherical surface) It is preferable that spherical contact is made with the second flange member 40.

The first stationary ring 10 and the second stationary ring 20 are formed of synthetic resin or silicon or the like and the pipes 2 and 4 to which the adjacent stations are connected are inclined in a direction It is possible to absorb the deformation occurring between the pipes 2 and 4 while the first retaining ring 10 and the second retaining ring 20 are deformed when deformation occurs at the connecting portion, So that it is possible to effectively maintain the gap formed in the hermetically sealed state.

A plurality of spring holes 18 and 28 are formed in the side surfaces of the first retaining ring 10 and the second retaining ring 20 facing each other and the spring of the first retaining ring 10 It is also possible to provide a plurality of springs 50 in a state of being inserted into the hole 18 and the spring hole 28 of the second stationary ring 20.

When the spring 50 is provided between the first retaining ring 10 and the second retaining ring 20 as described above, when deformation occurs between the first retaining ring 10 and the second retaining ring 20 It is possible to give a restoring force to the user.

Alternatively, when the fluid is not present in the 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 to the center, The fluid can be leaked because the second flange member 30 and the second flange member 40 are not in close contact with each other. The first retaining ring 10 and the second retaining ring 20 are brought into close contact with the first flange member 30 and the second flange member 40 by an elastic force of the spring 50, And it is possible to prevent the fluid from leaking.

The first flange member 30 is installed to be coupled to the outer circumferential surface of the first stationary ring 10.

The second flange member 40 is installed to be coupled to the outer circumferential surface of the second stationary ring 20.

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

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

It is preferable that the first flange member 30 and the second flange member 40 are made of a metal material because the structural strength can be kept high.

The first flange member 30 and the second flange member 40 are integrally fixed in a state of being closely contacted with each other by a fastening member 70 provided through the fastening holes 36 and 46.

The fastening member 70 may be formed using a bolt, or a nut 72 to be fastened to the bolt may be additionally used.

4, when the bolt is used as the fastening member 70, if the female screw 47 is formed on the inner surface of the fastening hole 46 formed in the second flange member 40, It is possible to fasten and fix the fastening member 70 without using the nut 72.

The inner circumferential surfaces 32 and 42 of the first flange member 30 and the second flange member 40 are formed on the outer circumferential surfaces 11 and 21 of the first fixing ring 10 and the second fixing ring 20, As shown in Fig.

The outer circumferential surfaces 11 and 21 of the first retaining ring 10 and the second retaining ring 20 are formed into a curved surface (for example, a part of a spherical surface) The outer circumferential surfaces 11 and 21 of the first retaining ring 10 and the outer circumferential surfaces 21 and 22 of the second retaining ring 20 are formed to have the same curvature as the inner circumferential surfaces 32 and 42 of the second flange member 40, A spherical surface contact is made between the inner circumferential surfaces 32 and 42 of the first flange member 30 and the second flange member 40. When the pipes 2 and 4 are inclined to be shifted from each other, The fixing ring 10 and the second retaining ring 20 are easily deformed corresponding to the inclination of the pipes 2 and 4.

The outer circumferential surfaces of the first flange member 30 and the second flange member 40 are curved in a curved surface corresponding to the outer circumferential surfaces 11 and 21 of the first stationary ring 10 and the second stationary ring 20 For example, a part of a spherical surface).

A ring groove 45 may be formed in a side surface 44 of the second flange member 40 that contacts the first flange member 30 and an O-ring 60 may be provided in the ring groove 45 .

As described above, when the O-ring 60 is provided on the side surface 44 of the second flange member 40, the sealing performance of the joint surface between the first flange member 30 and the second flange member 40 is greatly improved .

The fixing grooves 3 and 5 are formed with circumferential grooves 3 and 5 on the outer circumferential surfaces of the end portions of the pipes 2 and 4 which are disposed in contact with each other. It is also possible to insert and install the base plate 8.

The fixing grooves 3 and 5 are formed such that a part of the inserted snap ring 8 protrudes from the outer peripheral surface of the pipes 2 and 4.

The engagement protrusions 15 and 25 for inserting a part of the snap ring 8 are formed on the inner circumferential edges of the side surfaces 12 and 22 of the first retaining ring 10 and the second retaining ring 20, ) Can be formed.

When the retaining jaws 15 and 25 are provided with the snap ring 8 as described above, the first retaining ring 10 and the second retaining ring 10 coupled to the ends of the pipes 2 and 4, 20 are prevented from being separated from the pipes 2, 4.

Next, a process of connecting the pipes to each other using the piping connection apparatus according to an embodiment of the present invention will be described.

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

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

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

The first flange member 30 and the first fixing ring 10 are sequentially inserted into the one pipe 2 and the second flange member 40 and the second fixing ring 20 ) Are sequentially inserted.

Next, the snap ring 8 is engaged with the fixing grooves 3, 5 of the pipes 2, 4, respectively.

The spring 50 is inserted into the spring hole 18 of the first stationary ring 10 and then the first stationary ring 10 and the second stationary ring 20 are connected to both pipes 2, 4 and the opposite ends of the spring 50 are inserted into the spring holes 28 of the second retaining ring 20 The first stationary ring 10 and the second stationary ring 20 are brought into close contact with each other.

It is preferable that the opposite ends of the pipes 2 and 4 are arranged to be positioned with a slight gap (for example, about 10 mm) (A space in which the interference between pipes can be reduced) that can be inclined in the direction in which they are offset from each other can be ensured.

The end faces of the first stationary ring 10 and the second stationary ring 20 facing each other can also be arranged to be slightly spaced as in the case of the two pipes 2 and 4.

The first flange member 30 and the second flange member 40 are brought into contact with each other so that the first flange member 30 and the second flange member 40 are engaged with each other using the fastening member 70. [ Tightly in a state in which they are completely in close contact with each other.

The first flange member 30 and the second flange member 40 are disposed between the first flange member 30 and the second flange member 40, between the first flange member 30 and the first holding ring 10, Between the first stationary ring 10 and the one pipe 2 and between the second stationary ring 20 and the other pipe 4 between the first stationary ring 10 and the second stationary ring 20, 60 are provided, the airtightness is kept high.

5 shows a state in which the building 100 is provided with a structure in which both pipes 2 and 4 are connected as described above.

As shown in FIG. 5, when the pipe connecting apparatus according to another embodiment of the present invention is used, a pipe hole 102 formed in a wall 100 of a building for piping pipes 2 and 4, The outer circumferential surfaces 11 and 21 of the first retaining ring 10 or the second retaining ring 20 formed with a curved surface (for example, a part of a spherical surface) between the pipes 2 and 4, Or the outer circumferential surface of the first flange member 30 or the second flange member 40. Therefore, it is not necessary to use a filler such as a non-combustible material or cement to fill the pipe, It is possible to carry out.

6 and 7 show the first fixing ring 10 and the second fixing ring 20 when the pipes 2 and 4 connected to each other due to an earthquake or the like are inclined in a direction in which the pipes 2 and 4 adjoin each other Indicates a deformed state.

For example, when both pipes 2 and 4 are tilted in mutually offset directions by an external force acting in different directions on one pipe 2 and the other pipe 4, the two pipes 2 and 4 The first retaining ring 10 and the second retaining ring 20 are connected to a snap ring 8 provided on the pipes 2 and 4, The first flange member 30 and the second flange member 40 are deformed into the shapes of the pipes 2 and 4 because the fastening members 15 and 25 are engaged with each other, (70) so as to be held in a fixed state.

The outer circumferential surfaces 11 and 21 of the first retaining ring 10 and the second retaining ring 20 are curved and the inner circumferential surfaces of the first flange member 30 and the second flange member 40 The outer circumferential surfaces 11 and 21 of the first retaining ring 10 and the second retaining ring 20 and the first flange member 30 and Spherical contact is made between the inner circumferential surfaces 32 and 42 of the second flange member 40 so that the first flange member 30 and the second flange member 40 are fixed in position, The stationary ring 10 and the second stationary ring 20 are coupled in a slidable manner between the first flange member 30 and the second flange member 40.

Therefore, when both the pipes 2 and 4 are inclined to be mutually shifted, the first retaining ring 10 and the second retaining ring 20 can be deformed together with the pipes 2 and 4.

According to the piping connection apparatus for the dustproof pipe according to the present invention, the pipes (2) and (4) are inclined in directions deviating from each other at an inclination angle (7 °) It is possible to connect.

While the present invention has been described in connection with the preferred embodiments thereof with reference to the accompanying drawings, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, , Which are also within the scope of the present invention.

2 - One Pipe, 3 - Locking Holes, 4 - Other Pipe, 5 - Locking Holes, 8 - Snap Ring
10 - first fixing ring, 11 - outer peripheral surface of first fixing ring, 12 - side surface of first fixing ring
13, 14-ring groove, 15-stop jaw, 18-spring hole, 20-second retaining ring
21 - the outer circumferential surface of the second stationary ring, 22 - the side surface of the second stationary ring, 23 -
25-stop jaw, 28-spring hole, 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 - spring, 60 - O - ring, 70 - fastening member
72 - Nuts, 100 - Building wall, 102 - Plumbing holes

Claims (4)

A first retaining ring made of a synthetic resin material and formed of a spherical surface which is joined to an outer circumferential surface of an end portion of one pipe which is installed in contact with each other and which is an inclined surface whose outer circumferential surface is thinner in a direction away from a contact surface of the pipe,
A synthetic resin material joined to the outer circumferential surface of the other end of the pipe to be installed in contact with each other and formed of a spherical surface having a sloped surface whose outer circumferential surface is thinner in a direction away from the contact surface of the pipe, 2 fixed ring,
A first flange member made of a metal material and coupled to an outer circumferential surface of the first stationary ring and having a plurality of fastening holes spaced apart from each other around the circumference and having an inner circumferential surface formed of a spherical surface having a slope corresponding to an outer circumferential surface of the first stationary ring,
A plurality of fastening holes formed at circumferential intervals on the outer circumferential surface of the second retaining ring and being in contact with the first flange member and the inner circumferential surface being a spherical surface that is an inclined surface corresponding to the outer circumferential surface of the second retaining ring A second flange member of a metallic material to be formed,
And a plurality of fastening members for fastening and fixing the first flange member and the second flange member integrally with each other,
The first flange member and the second flange member, between the first flange member and the first fixing ring, between the second flange member and the second fixing ring, between the first fixing ring and the one pipe, An O-ring is provided between the second stationary ring and the other pipe,
A plurality of spring holes are formed on side surfaces of the first retaining ring and the second retaining ring which face each other,
A plurality of springs are provided in a state of being inserted into the spring hole of the first stationary ring and the spring hole of the second stationary ring,
A fixing groove is formed on the outer circumferential surface of the end portion of both pipes which are installed in contact with each other,
A snap ring is inserted into the fixing groove of the pipe,
And a retaining protrusion for inserting a part of the snap ring is formed on an inner circumferential edge of the side surface of the first retaining ring and the second retaining ring which are in contact with each other. delete delete The method according to claim 1,
And a ring groove into which an O-ring is inserted is formed in a side surface of the second flange member which is in contact with the first flange member.

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