KR100952203B1 - Device for blocking a pipe - Google Patents

Abstract

The present invention relates to a pipe blocking device that blocks the inside of a pipe adjacent to the object when the object is replaced, such as a pipe or a valve coupled to the pipe, so that the fluid is blocked within a minimum range. Pipe blocker according to the present invention is a pipe blocker for blocking the inside of the pipe to block the flow of the fluid inside the hollow pipe, is inserted into the pipe, expandable in the radial direction of the pipe, expansion Expansion member for blocking the inside of the pipe at the time; A pressure member installed inside the expansion member so as to be linearly movable in the radial direction of the pipe; A drive moving member connected to the pressing member so as to be linearly movable between a pressing position for pressing the pressing member so that the expansion member is pressed by the pressing member to be in close contact with the inner circumferential surface of the pipe and a pressing release position where the pressing against the pressing member is released; It is provided.

Pipe, water pipe, flow control valve, check valve, stage

Description

Device for blocking a pipe

The present invention relates to a pipe blocker, and more particularly to a pipe blocker for blocking the flow of fluid in the pipe by blocking the inside of the pipe.

In general, a water pipe is composed of a large diameter main pipe for transporting a large amount of water over a long distance, and branch pipes that are used for relatively short distance transportation to supply water to buildings such as homes and offices branched from the main pipe. In this way, the branched water pipe is provided with a flow control valve so that the water can be interrupted, so that the replacement operation can be easily carried out through the stage when replacing the old water pipe or the flow control valve.

On the other hand, conventionally, when replacing the water supply pipe or the flow control valve, the work is performed after locking all the flow control valve disposed around the water supply pipe or the flow control valve to be replaced is a disadvantage that the range of the singular becomes wider. there was. For example, in order to replace the valve a installed in the branch pipe 2, as shown in FIG. In order to do this, the c valve must be shut off, so the number of stages becomes B. In addition, since the main pipe itself must be blocked in order to block the c valve, which is a valve which is directly fractionated from the main pipe 1, the range of the singular number increases exponentially, such that all the branches diverged from the main pipe are singular.

Therefore, in the related art, since a wide range of stages is involved when replacing a water pipe or a flow control valve, there is a need to make the range of stages minimum.

The present invention has been made to solve the above problems, an object of the present invention is to block the inside of the pipe adjacent to the object when the replacement of the object, such as a flow control valve coupled to the pipe or pipes to block the fluid within the minimum range It is to provide a pipe blocking device to be made in.

In order to achieve the above object, the pipe blocker according to the present invention is a pipe blocker for blocking the inside of the pipe to block the flow of the fluid inside the hollow pipe, is inserted into the inside of the pipe, An expandable member that is expandable in a radial direction and closes the inside of the pipe when inflated; A pressing member installed inside the expansion member so as to be linearly movable in the radial direction of the pipe; The expansion member is pressed by the pressing member to the pressure member so as to be able to move linearly between the pressing position for pressing the pressing member so as to be in close contact with the inner peripheral surface of the pipe, and the pressing release position is released from the pressing member. It is characterized in that it comprises a drive moving member connected.

According to the present invention of the above configuration, it is possible to easily block the inside of the pipe to be replaced or the pipe adjacent to the flow control valve, it is possible to replace the pipe or flow control valve with a minimum of the blocking of the fluid.

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

2 is a schematic cross-sectional view of a pipe blocking device according to an embodiment of the present invention, FIG. 3 is a cross-sectional view schematically showing a state in which a pipe is blocked by the pipe blocking device shown in FIG. 2, and FIG. 4 is shown in FIG. 2. It is a schematic exploded perspective view of the pressing member and the drive moving member shown.

2 to 4, the pipe blocking device 100 of the present embodiment is the inside of the pipe 11 coupled to the pipe or flow control valve to be replaced when replacing the hollow pipe or the flow control valve It is arranged to block the inside of the pipe (11). As such, when the inside of the pipe 11 is blocked, the fluid flow in the pipe 11 is blocked, so that the pipe or the flow control valve can be easily replaced. In addition, the pipe blocking device of the present embodiment may be used regardless of the type of fluid flowing in the pipe.

Pipe blocking device 100 of the present embodiment includes an expansion member 10, the fixing member 20, the pressing member 30, and the drive moving member (40).

The expansion member 10 is inserted into the pipe 11. A space is formed inside the expansion member 10. The expansion member 10 is made of an elastically deformable material such as rubber, and is expandable in the radial direction of the pipe 11. Therefore, when the expansion member 10 expands as shown in FIG. 3 from the state shown in FIG. 2 and comes into close contact with the inner circumferential surface of the pipe 11, the inside of the pipe 11 is blocked so that the fluid is shown by an arrow. It will no longer flow in the flow direction.

The fixing member 20 is fixed inside the expansion member 10. The fixing member 20 is formed in an annular shape, one side of the fixing member 20 is fixed to the inner surface of the expansion member (10). The tapered portion 21 is formed on the other side of the fixing member 20. The tapered portion 21 is formed to be inclined with respect to the radial direction of the pipe 11.

The pressing member 30 is installed inside the expansion member 10, and can linearly move in the radial direction of the pipe 11. A plurality of pressing members 30 are disposed along the circumferential direction of the pipe 11, and the plurality of pressing members 30 form an annular shape as a whole.

Each pressing member 30 is provided with a first recess 31 and a second recess 32. The first concave portion 31 and the second concave portion 32 are each formed concave with respect to the outer circumferential surface of the pressing member 30, and are formed long in the circumferential direction of the pipe 11. In addition, an annular elastic member 50 is fitted into each of the first recess 31 and the second recess 32 of each pressing member 30. Here, the elastic member 50 may be elastically deformed to some extent in the circumferential direction of the elastic member 50. As such, the plurality of pressing members 30 are interconnected by a pair of elastic members 50 fitted to the first concave portion 31 and the second concave portion 32, and form a hollow shape in the center thereof. do.

At one end and the other end of each pressing member 30, an inclined portion 33 and an auxiliary inclined portion 34 are formed, respectively. The inclined portion 33 is formed to be inclined with respect to the radial direction of the pipe 11. The auxiliary inclined portion 34 is formed to be inclined in a direction opposite to the inclined direction of the inclined portion 33. The auxiliary inclined portion 34 is formed to be inclined to correspond to the tapered portion 21 of the fixing member to be in surface contact with the tapered portion 21.

The drive moving member 40 is for pressing the pressure members 30 to closely contact the expansion member 10 to the inner circumferential surface of the pipe 11. The drive moving member 40 is configured to include a shaft 41 formed long in one direction, and a coupling member 42 coupled to one side of the shaft 41 by bolts 43. The shaft 41 is fitted to the plurality of pressing members 30 and the fixing member 20, and the plurality of pressing members 30 are disposed around the shaft 41. The coupling member 42 is formed with a taper portion 421. The tapered portion 421 is formed to be inclined to correspond to the inclined portion 33 to be in surface contact with the inclined portion 33.

The drive moving member 40 is linearly movable along the longitudinal direction of the shaft 41. The drive moving member 40 is disposed between the pressure release position and the pressure position. In the pressure release position shown in FIG. 2, the tapered portion 421 of the coupling member 42 of the drive moving member is in contact with the inclined portion 33 of the pressing member 30, but the tapered portion 421 of the coupling member is not shown. Does not press the inclined portion 33 of the pressing member. In this state, when the shaft 41 of the driving member moves to the right side, the taper portion 421 of the coupling member also moves to the right side, and the taper portion 421 presses the inclined portion 33 of the pressing member. . As such, when the inclined portion 33 of the pressing member is pressurized, the inclined portion 33 of the pressing member and the tapered portion 421 of the coupling member slide relative to each other, and the pressing member 30 moves in the radial direction of the pipe 11. Will be moved to. Of course, the auxiliary inclined portion 34 of the pressing member and the tapered portion 21 of the fixing member are also sliding relative. As a result, in the pressing position shown in FIG. 3, each pressing member 30 pressurized by the taper portion 421 of the coupling member presses the expansion member 10 in the radial direction of the pipe 11, thereby expanding the expansion member. 10 comes into close contact with the inner circumferential surface of the pipe 11.

On the other hand, the pipe blocker 100 is further provided with a driving means for linearly moving the drive moving member 40, in particular in this embodiment is provided with a hydraulic actuator operating by hydraulic pressure as the drive means. The hydraulic actuator includes a cylinder 60, a piston 70, and an elastic member 80.

The cylinder 60 has a space 61 therein. The cylinder is installed inside the pipe 11 and is coupled to a separate fixing device (not shown) so that the expansion member 10 does not move when the inside of the pipe 11 is blocked. That is, the cylinder 60 is fixed to the position inside the pipe 11 by the fixing device.

The piston 70 is installed in the cylinder 60 so as to be linearly movable. In particular, in the present embodiment, the piston 70 is not formed as a separate component from the shaft 41 of the driving member, and is formed in the radial direction of the pipe 11 from the shaft portion 71 and the outer surface of the shaft. It is configured to include a pair of partitions 72 and 73. The pair of partitions 72 and 73 are spaced apart a certain distance along the longitudinal direction of the shaft 71. The pair of partitions 72 and 73 divide the inner space 61 of the cylinder 60 into a first space 611, a second space 612, and a third space 613. The first space 611 and the third space 613 are formed between the partition 72 and one inner surface of the cylinder 60 and between the partition 73 and the other inner surface of the cylinder 60, respectively, Space 612 is formed between a pair of partitions 72 and 73. In addition, one side of the piston 70 is in communication with the hydraulic cable 90, the other side is formed with a hydraulic passage 711 in communication with the first space 611. The hydraulic cable 90 is fitted into the hydraulic passage 711, and when hydraulic pressure is applied to the first space 611 through the hydraulic cable 90, the hydraulic pressure presses the partition 72 to the right, so that the piston 70 Will move to the right. When the piston 70 moves as described above, the driving movement member 40 integrally formed with the piston 70 also moves in the same direction together with the piston 70. Therefore, the driving member 40 can be moved from the pressure release position to the pressure position. On the other hand, it is preferable that the check valve 91 is provided in the hydraulic cable 90 to prevent the hydraulic pressure supplied to the first space 611 from flowing back.

The elastic member 80 elastically biases the piston 70 in the left direction in the state shown in FIG. Here, the left direction refers to a direction opposite to the direction in which the piston 70 moves when hydraulic pressure is applied to the first space 611. The elastic member 80 includes a plurality of compression coil springs 80 installed in the third space 613. One end of each compression coil spring 80 is in contact with the inner surface of the cylinder 60, the other end of each compression coil spring 80 is in contact with the partition 73. Therefore, when the hydraulic pressure is not normally applied, the piston 70 is positioned as shown in FIG. 2 by the elastic force of the elastic member 80. When hydraulic pressure is applied, the piston 70 overcomes the elastic force of the elastic member 80. The piston 80 is moved to the right.

An example of a process of replacing a pipe by using the pipe blocker 100 configured as described above will be described. After inserting and installing the pipe blocker 100 as shown in FIG. 2 in the pipe 11 adjacent to the pipe to be replaced, the hydraulic pressure is applied to the first space 611 through the hydraulic cable 90. , The partition 72 of the piston is pressed by the hydraulic pressure to move the piston 70 to the right. When the piston is moved, the shaft 41 of the driving member which is integrally formed with the piston 70 is also moved to the right side, and the taper portion 421 of the coupling member 42 fixed to the shaft 41 is moved. Each pressing member 30 is pressed. As such, when each pressing member 30 is pressed, each pressing member 30 is slid relative to the coupling member 42 and the fixing member 20 in the radial direction of the pipe 11 to expand the expansion member 10. Pressurized, the expansion member 10 is finally pressed until in close contact with the inner circumferential surface of the pipe (11) as shown in FIG. As such, when the expansion member 10 is in close contact, the inside of the pipe 11 is blocked by the expansion member 10, so that the fluid no longer flows in the direction of the arrow of FIG. 2. After the pipe 11 is blocked, it is only necessary to remove the replacement pipe coupled to the pipe 11 blocked by the expansion member 10 and to join the new pipe.

On the other hand, even if the auxiliary inclined portion 34 of the pressing member presses the tapered portion 21 of the fixing member, the cylinder 60 is fixed by a separate fixing device, so that the position of the fixing member 20 is constantly fixed. Is maintained. In addition, when the fixing member 20 is pressed, the length of the rear end portion of the expansion member 10 disposed between the fixing member 20 and the cylinder 60 is relatively much larger than the thickness of the expansion member 10 in the radial direction. As a result, the rear end of the expansion member 10 is not compressed.

After the replacement of the pipe is completed, when the fluid applied to the first space 611 is drained, the piston 70 is moved to the left side by the elastic force of the elastic member 80, so that each pressure member Pressurization to 30 is released. In this way, the pressure on the pressing member 30 is released, the expansion member 10 is also no longer pressurized in the radial direction of the pipe 11 is contracted to fall from the inner surface of the pipe (11). Thus, the pipe blocker 100 can be easily separated from the pipe 11 that was installed.

As described above, in the present embodiment, since the inside of the pipe 11 adjacently coupled to the pipe to be replaced can be easily blocked, unlike the conventional case, the blocking range of the fluid can be minimized when the pipe is replaced.

And, if you want to replace the flow regulating valve coupled to the pipe 11 may be subjected to the process as described above. That is, the pipe blocking device 100 is installed and operated on the pipe 11 coupled to the replacement valve to close the pipe 11, and then only the flow control valve needs to be replaced.

As mentioned above, the present invention has been described in detail with reference to preferred embodiments, but the present invention is not limited to the above embodiments, and various modifications may be made by those skilled in the art within the technical idea of the present invention. It is obvious.

1 is a schematic diagram showing a singular range in a conventional valve replacement process.

2 is a schematic cross-sectional view of a pipe blocking device according to an embodiment of the present invention.

3 is a cross-sectional view schematically illustrating a state in which a pipe is blocked by the pipe blocking device shown in FIG. 2.

4 is a schematic exploded perspective view of the pressing member and the driving member shown in FIG.

<Description of the symbols for the main parts of the drawings>

10 ... expansion member 11 ... pipe

20 ... Fixing member 21 ... Tapered part

30.Pressure member 31 ... First recess

32 The 2nd recess 33

34.Secondary inclination part 40 ... Drive member

41 ... shaft 42 ... coupling member

50, 80 ... elastic member 60 ... cylinder

70 ... piston 72,73 ... partition

21 Tapered section 90. Hydraulic cable

100 ... Pipe breaker 421 ... Tapered section

711 ... hydraulic furnace

Claims (7)

In the pipe blocker for blocking the inside of the pipe to block the flow of the fluid inside the hollow pipe, An expansion member inserted into the pipe and expandable in a radial direction of the pipe and blocking the inside of the pipe when inflated; A plurality of pressing members disposed in the expansion member in the circumferential direction of the pipe and installed to be linearly movable in the radial direction of the pipe; The expansion member is pressed by the pressing member to the pressure member so as to be able to move linearly between the pressing position for pressing the pressing member so as to be in close contact with the inner peripheral surface of the pipe, and the pressing release position is released from the pressing member. Drive moving member connected; And And driving means for linearly moving the driving member. Each pressing member has an inclined portion formed to be inclined with respect to the radial direction of the pipe, The driving member is inserted into the plurality of pressing members, and has a tapered portion inclined to correspond to the inclined portion to contact the inclined portion, If the tapered portion presses the inclined portion during the linear movement of the drive member, the taper and the inclined portion is sliding, the pipe member characterized in that the pressing member moves linearly along the radial direction of the pipe. delete The method of claim 1, Each of the pressing members is formed with a concave recessed with respect to the outer surface of the respective pressing members, Pipe blocking device, characterized in that the annular elastic member is fitted to the recessed portion of the plurality of pressing members. The method of claim 1, Each pressing member further has an auxiliary inclined portion which is formed to be inclined in a direction opposite to the inclined direction of the inclined portion, The inside of the expansion member, the pipe blocking device, characterized in that the fixing member having a tapered portion that is formed to be inclined corresponding to the auxiliary inclined portion in contact with the auxiliary inclined portion. The method of claim 1, The drive moving member, the shaft is formed long in the moving direction of the drive moving member; And a coupling member coupled to the shaft and having the tapered portion formed therein. The method of claim 1, The drive means, cylinder; And It is installed to be linearly movable inside the cylinder, and is connected to the driving member to move the drive member in conjunction with the linear movement in the cylinder, the inner space of the cylinder in the first space and the second space And a hydraulic passage communicating therewith with the first space so that the driving member moves from the pressure release position to the pressure position by linear movement when the hydraulic pressure supplied from the outside is applied to the first space. Piston which is; characterized in that it comprises a pipe blocker. The method of claim 6, And an elastic member for elastically biasing the piston in a direction opposite to the direction in which the piston moves when the hydraulic pressure is applied by the driving means.

Images