KR101918856B1 - Connection pipe for high-pressure buried pipe - Google Patents

Abstract

The present invention relates to a connection pipe for a pressure pipe to connect a pressure pipe buried under the ground in a different direction and, more specifically, relates to a connection pipe structure for a buried pressure pipe, which can maintain a stable coupling with a pressure pipe even though strong earth pressure or water supply pressure is applied.

Description

Connection pipe for high-pressure buried pipe

The present invention relates to a connection pipe for a pressure pipe that connects pressure pipes in different directions buried in the ground. Especially, since the installation is simple and fixed firmly in the ground, even if a strong earth pressure or a water pressure acts, And relates to a connector structure of a buried pressure pipe.

Generally, in order to transport a fluid such as a constant water, a pressure pipe is buried in the ground, and the fluid is sent at a high pressure so that the fluid flows through the pressure pipe at a high pressure and is transported to a destination.

However, such a pressure pipe is constituted by continuously connecting pressure pipes of a certain length. In such a case, the direction of the pressure pipe, that is, the flow path, must be changed for the condition or branching of the topography.

When the flow path is changed as described above, a pressure pipe is used by using an 'L' type connecting pipe or a 'T' type connecting pipe.

In recent years, even if the pressure pipe inserted into the connection pipe by the earthquake or the earth pressure is turned at a predetermined angle, the insertion port portion of the connection pipe is expanded so that the watertightness is maintained so that even if the pressure pipe inserted into the connection pipe is rotated by a predetermined angle by earthquake or earth pressure, A connector is used which is configured to maintain the temperature.

Such a connection pipe is configured such that the rubber packing of the connection pipe presses and fixes the outer surface of the pressure pipe so that the pressure pipe inserted into the connection pipe can be shifted by a predetermined angle, so that a locking device such as a bolt can not be used for the pressure pipe and the connection pipe.

And the fluid flowing through the pressure tube at a high pressure causes a great hydraulic pressure to act on the connection tube at the point where the flow path changes.

As described above, since the connecting pipe and the pressure pipe can not be used with a pinching device such as a bolt, there is a problem that the connecting pipe is leaked from the pressure pipe due to such water pressure and leakage occurs.

1, the pressure pipe 10 is inserted into the insertion hole of the connecting pipe 20 in the embedding hole 30, and the embedding hole 30 is buried in the ground The concrete 50 is poured into the rear portion of the connecting pipe 20 (the side opposite to the side where the pressure pipe 10 is inserted)

1, the concrete 50 is placed on the rear side of the connecting pipe 20 so that the fluid flowing through the pressure pipe 10 at a high pressure is changed in the flow direction in the connecting pipe 20 so that the connecting pipe 20 is connected to the pressure pipe 10 A large force is exerted in the direction in which the concrete pipe 50 is pulled out, and this force is supported by the concrete 50 to prevent the connection pipe 20 from coming off the pressure pipe 10.

1, a sand bag 40 may be provided on the rear side of the connection pipe 20 so that the sand bag 40 is in contact with the connection pipe 20.

This method has a problem that concrete must be poured at each point where the connection pipe 20 is installed, and it is necessary to wait until the poured concrete is cured so that construction is very inconvenient and air takes a long time.

Literature 1. Utility Model Registration No. 20-0420287, "Connection Structure of Repeater for Separating Heat Generating Part" Document 2: Korean Utility Model Registration No. 20-0350167, "Connection pipe of indoor electric pipe"

The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a connecting pipe and a pressure pipe which can not use a locking device such as a bolt to allow a pressure pipe to be turned by a predetermined angle from a connecting pipe due to earthquake or earth pressure It is an object of the present invention to provide a buried pressure tube connection structure that is firmly fixed in the ground while being easy to install.

In order to accomplish the above object, the present invention provides a connection pipe structure for a buried pressure pipe, comprising: a body 101 having insertion ports 102 formed in different directions; an expanded portion 104 formed by expanding the inside of the insertion port 102; A packing groove 103 in which a packing is inserted into the insertion port 102 and a body 101 in a direction opposite to an insertion port 102 through which the fluid flows into the connection pipe 100 through the pressure pipe 10, And a support 105 protruding from the insertion hole in a direction opposite to the insertion port so as to contact with the back plate 110. The pressure of the fluid, which is buried in the interior of the body 101 and flows into the body 101 at high pressure, (105) is supported on a plate-shaped back plate (110) to fix the connector (100).

At this time, the support member 105 is formed of a plurality of support members 105, and the ends of the support members 105 are formed in a planar shape, As shown in FIG.

The connection pipe 100 is formed such that the body 101 is formed in an L shape and the plane normal of the end of the support 105 forms the same angle as the axis of each insertion port 102. [

The body 110 of the connection pipe 100 is formed with a holder 109 protruding outward and fixing the connection pipe 100 to prevent the connection pipe 100 from moving.

The holder 109 is composed of a horizontal base 107 in the horizontal direction and a vertical base 108 in the vertical direction and is composed of a connecting rod 106 for fastening the holder 109 to the connecting pipe.

The holder 109 has the same surface area on both sides of the horizontal table 107 with reference to the connecting table 106 and has the same surface area on the vertical table 108 with respect to the connecting table 106 .

Further, the holder 109 is a runner generated when the connection pipe 100 is injection-molded.

The present invention having the above-described structure can firmly fix the connection pipe 100 to the ground by using the support plate 105 and the back plate 110 without a locking device such as a bolt, , The air can be remarkably shortened.

Also, even if the earth pressure is applied to the joint pipe 100 buried in the ground, the holder 109 serves as an anchor to firmly fix the joint pipe 100 so as not to move.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a conventional connection pipe for a buried pressure pipe; FIG.
2 is a rear perspective view of a connector according to the present invention;
3 is a front perspective view of a connector according to the present invention;
4 is a plan sectional view of a connector according to the present invention.
5 is a view showing a state in which a holder of a connector tube is used as a handle;
6 is a view showing a construction of a connector according to the present invention.
FIGS. 7 to 9 are rear perspective views showing another type of support of the connector according to the present invention; FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, the present invention will be described in detail with reference to preferred embodiments of the present invention and the accompanying drawings, wherein like reference numerals refer to like elements.

It is to be understood that when an element is referred to as being "comprising" another element in the description of the invention or in the claims, it is not to be construed as being limited to only that element, And the like.

2 is a rear perspective view of a connection pipe according to the present invention, FIG. 3 is a front perspective view of a connection pipe according to the present invention, and FIG. 4 is a cross- 5 is a view showing a state in which a holder of a connection pipe is used as a handle, FIG. 6 is a view showing a state in which the connection pipe according to the present invention is installed, and FIGS. 7 to 8 are cross- FIG. 9 is a rear perspective view showing another type of support of the connector according to the present invention. FIG.

The opposite side where the insertion port 102 is formed in the connection pipe 100 is referred to as a rear side and the direction in which the insertion port 102 is formed in the connection pipe 100 is referred to as a front side.

2 and 3, the connection pipe 100 according to the present invention includes a support 105 protruding from the body 101 at the rear of the body 101 of the connection pipe 100, A holder 109 protrudes from the body 101 on the front side of the body 101 of the body 100.

4, the connecting pipe 100 of the present invention is formed with a body 101 in the form of an "L" shape, and an insertion port 102 through which the pressure tube 10 is inserted is formed at both ends of the body 101, .

A packing groove 103 in which a packing is inserted and fixed is formed on the inner side of the insertion port 102 and an expanded portion 104 in which an inner diameter of the body 101 is expanded is formed, (Not shown) compresses the outer surface of the pressure tube 10 to maintain the watertightness. Even if the pressure tube 10 inserted into the insertion port 102 is torn due to earthquake or earth pressure, Tubular portion 104 for receiving.

Since it is a known technology to accommodate the angular displacement amount of the pipe inserted into the coupling pipe 100 by the pipe expansion unit 104 as described above, a detailed description thereof will be omitted.

As shown in FIG. 2, a predetermined number of supports 105 are protruded from the rear of the connection pipe 100 according to the present invention. The end portions of the support pins 105 protruding from the connection pipe 100 are formed in a flat shape, The plane formed at the end of the support 105 is configured to be located on the same plane.

The support pipe 105 is formed in a direction opposite to the insertion port 102 of the connection pipe 100. The fluid introduced at a high pressure from the pressure pipe 10 inserted into the insertion port 102 is inserted into the insertion hole 102 of the connection pipe 100, And presses the body 101 with a strong pressure. Further, a larger pressure may be applied to the body 101 by the pulsating pressure of the fluid.

The pressure applied to the inner wall of the body 101 causes a problem that the connection pipe 100 is pulled out of the pressure pipe 10. [

In order to prevent such a problem, as shown in FIG. 2, a support 105 formed in a flat shape so that an end portion thereof is positioned on the same plane in the body 101 or the expansion portion 104 at the back (opposite side of the insertion port) Respectively.

The connection pipe 100 having the support 105 formed therein is constructed as shown in FIG.

As shown in FIG. 6, after the connection pipe 100 is positioned at the refracted portion of the underground buried hole 30, the pressure pipe 10 is inserted into the insertion port 102 of the connection pipe 100.

After the back plate 110 is installed on the embedding hole 30 so that the flat surface of the end of the support 105 protruding in the back (opposite direction of the insertion port) of the connector 100 is in contact. The land 30 is filled with the soil.

When the high-pressure fluid flows into the pressure pipe 10 after the connection pipe 100 is constructed as described above, the high-pressure fluid introduced into the insertion port 102 of the connection pipe 100 flows through the inner wall of the body 101 of the connection pipe 100, And flows into the other pressure pipe 10.

At this time, the high-pressure fluid is changed in direction and a large pressure acts on the connection pipe 100 in a direction opposite to the direction in which the fluid flows, and the pressure is applied to the support 105 protruded from the body 101 of the connection pipe 100 ).

6, the support pipe 105 is supported by the back plate 110, which is a metal plate, so that even if a large pressure acts on the connection pipe 100, the connection pipe 100 is fixed without being detached from the pressure pipe 10.

Since the back plate 110 in the form of a wide plate closely attached to the support base 105 is supported on the soil, the back plate 110 is not pushed by the pressure.

After the connection pipe 100 is positioned on the refracted portion of the embedding hole 30 as described above, the back plate 110 is installed on the embedding hole 30 so as to contact the support 105 of the connection pipe 100 Therefore, the construction is very fast and simple.

In the embodiment of the present invention, the 'L' type connection pipe 100 has been described. In the case of the 'L' type connection pipe 100, the 'L' type connection pipe 100 is formed in a direction opposite to the insertion port 102 through which the high pressure fluid flows into the connection pipe 100. In this case, 4, the plane normal of the end portion of the support 105 of the 'L' type connection pipe 100 is the same as the axis of each insertion port 102. In this case, It is preferable to construct the connecting pipe 100 so that it is constructed without directionality when the connecting pipe 100 is installed.

In the embodiment of the present invention, the support 105 protruding from the connection pipe 100 is formed as a 'king', but the support 105 may be formed into an 'I' shape as shown in FIG. 7 , As shown in FIG. 8, or may be formed into a predetermined number of columns as shown in FIG.

In this case, the planes of the end portions of the supports 105 of Figs. 7 to 9 are all to be formed so as to be located on the same plane.

It is also possible to form the body 105 in such a manner that the body 105 does not protrude from the body 101 and the body 101 protruding from the support 105, that is, the body 101 opposite to the insertion port 102 is flat

Of course, in this case, the body 101 should protrude to the outside and the end portion of the protruded portion must be flat so that the internal flow path of the connection pipe 100 is not narrowed.

2 and 3, the holder 109 protrudes from the front of the connection pipe 100. As shown in FIG.

The holder 109 protrudes forward of the body 100 of the connection pipe 100 so that when the connection pipe 100 is buried in the ground, the holder 109 is buried in the ground together with the connection pipe 100 And serves as an anchor of the connection pipe 100, so that when the earthquake or the earth pressure acts, the connection pipe 100 is firmly fixed without moving.

The holder 109 is formed by protruding a connecting rod 106 from the body 101 or the widening part 104 as shown in FIG. 3 and a holder 109 is formed on the connecting rod 106.

The holder 109 is formed into various shapes, and preferably formed into a three-dimensional shape rather than a planar shape, so that the holder 109 can cope with earth pressures acting in various directions.

In the embodiment of the present invention, as shown in FIG. 3, the holder 109 is formed with a horizontal base 107 formed in a horizontal direction and a vertical base 108 in a vertical direction.

The horizontal base 107 and the vertical base 108 constitute the three-dimensional holder 109, so that even if the earth pressure acts in the vertical direction or the horizontal direction, the holder 109 can cope with the earth pressure without any direction.

It is preferable that the surface areas of both sides of the horizontal band 107 are the same on the basis of the connecting rods 106 and the surface areas of the vertical rods 108 are the same on the basis of the connecting rods 106 .

If the surface area of both sides of the horizontal base 107 or the upper and lower surface areas of the vertical base 108 are different from each other with respect to the connection base 106 fixing the holder 109 to the connection pipe 100, The surface area of both sides of the horizontal base 107 with respect to the connecting base 106 and the vertical surface 108 of the vertical base 108 with respect to the connecting base 106 can be reduced, ) Are equal to each other.

The holder 109 may be formed in a separate configuration, but may be formed using a runner, which is a byproduct generated when injection molding the connection pipe 100

When the connecting tube 100 is injection molded, the molten synthetic resin that has flowed through the passage between the gate and the mold cavity is hardened, and the runner is formed as a by-product. Generally, such a runner is cut during the production process.

The holder 109 of the present invention is designed such that the molten resin flow path of the mold is formed so that the horizontal base 107 and the vertical base 108 are formed so as not to remove the runner generated after the injection tube 100 is injection- (109).

The holder 109, which is constructed as described above, is buried in the ground and fixes the connection pipe 100 in correspondence with the earth pressure so as not to move. However, when the operator handles the connection pipe 100 as shown in FIG. 5, ) Can be used as a handle.

Since the pressure pipe connector 100 is used for piping that flows at a high pressure, the pipe wall is thick. In addition, since the pipe which is buried in the ground and pressurizes the high-pressure fluid is mostly a large diameter, the connection pipe 100 is very large and heavy.

As shown in FIG. 5, the holder 109 protruding from the connection pipe 100 is used as a handle to handle the connection pipe 100, as shown in FIG. 5, by which an operator can handle the heavy and large connection pipe 100. It becomes very easy.

The present invention having the above-described structure can firmly fix the connection pipe 100 to the ground by using the support plate 105 and the back plate 110 without a locking device such as a bolt, , The air can be remarkably shortened.

Also, even if the earth pressure is applied to the joint pipe 100 buried in the ground, the holder 109 serves as an anchor to firmly fix the joint pipe 100 so as not to move.

The technical idea of the present invention has been described above with reference to the embodiments.

It will be apparent to those skilled in the art that various changes and modifications may be made to the embodiments described above from the description of the present invention.

Further, although not explicitly shown or described, those skilled in the art can make various modifications including the technical idea of the present invention from the description of the present invention Which is still within the scope of the present invention.

The above-described embodiments described with reference to the accompanying drawings have been described for the purpose of illustrating the present invention, and the scope of the present invention is not limited to these embodiments.

10: Pressure tube
30: Landfill
100: Connector
101: Body
102:
103: Packing groove
104:
105: District
106: Links
107: Horizontal band
108: Vertical stand
109: Holder
110: back plate

Claims (7)

A body 101 having insertion ports 102 formed in different directions,
A packing groove 103 in which a packing is inserted into the insertion port 102;
A support 105 protruding from the body 101 in a direction opposite to the insertion port 102 through which the fluid flows into the connection pipe 100 through the pressure pipe 10 and contacting one surface of the back plate 110 embedded in the ground, ; And
A holder 109 protruding outward from the body 110 of the connection pipe 100 and configured to be fixed so that the connection pipe 100 does not move when the connection pipe 100 is embedded in the horizontal pipe 107 and the vertical bar 108 perpendicular to the horizontal pipe 107; As a result,
The pressure generated by the fluid flowing into the body 101 at high pressure by being buried in the ground and flowing into the body 101 is supported by the back plate 110 embedded in the plate- Wherein the first and second connecting portions are fixed to each other.
The method according to claim 1,
The support 105 is formed of a plurality of supports 105,
Wherein the end portions of the support portions (105) are formed in a planar shape, and the end portions of the support portions (105) are all positioned on the same plane.
3. The method of claim 2,
The connection pipe 100 is formed with an L-shaped body 101,
Wherein the plane normal of the end of the support (105) is at the same angle as the axis of each insertion port (102).
delete delete The method according to claim 1,
The holder 109 has the same surface area on both sides of the horizontal base 107 with respect to the connecting base 106 for fastening the holder 109 to the body 101, 108) having the same surface area as that of the upper and lower surfaces.
The method according to claim 1,
Wherein the holder (109) is a runner produced when the connection pipe (100) is injection molded.

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