KR200379248Y1 - Squeeze off apparatus of gas pipe - Google Patents

Abstract

The present invention relates to a compression device for a gas pipe that can easily adjust the falling distance of the pressure rod according to the diameter of the gas pipe to compress the gas supply to the gas pipe to minimize the damage to the gas pipe when temporarily blocked, The characteristic configuration is a pair of guide bars 10 installed on both sides of the gas pipe 1, and a fixed rod fixed to the lower portion of the guide bar 10 to be in contact with the bottom surface of the gas pipe (1) 11), a pressure rod 12 installed to be elevated on the upper side of the guide bar 10, an elastic member 13 for elastically supporting the pressure rod 12, and the pressure rod 12 downward. In the compression device for a gas pipe composed of a pressing means for moving 14 and a pressing force generating means 16 for generating a pressing force of the pressing means 14, one of the guide bar 10 of the guide bar ( 10) of the pressure rod 12 Pressing amount setting unit 20 for limiting the moving distance, and the fixed portion 20 to prevent the pressure rod 12 to rise when the pressure is released due to the failure of the parts in the state in which the pressure rod 12 is lowered It was included.

Description

Compressor for gas pipes {Squeeze off apparatus of gas pipe}

The present invention relates to a compression device for a gas pipe, and more particularly, when the gas supplied to the gas pipe temporarily shuts down the pressure of the pressure rod according to the diameter of the gas pipe so as to minimize the damage to the gas pipe to compress It is related with the compression apparatus for gas piping which can be adjusted easily.

In general, when the distance between a gas supplying source and a gas using place is located at a long distance, pipes are buried underground, and these pipes are repaired or replaced regularly or irregularly.

Meanwhile, in the past, metal pipes made of metal materials have been widely used. However, as various accidents occur due to a decrease in gas supply and breakage of metal pipes due to corrosion of the metal pipes for a long time, recently, pipes made of synthetic resin (PE) ( Hereinafter referred to as "gas piping" is widely used.

If any specific part of the gas pipe buried underground is damaged, a certain length is cut and then connected to a new gas pipe. In this case, a compression (squeeze off) operation is performed to block the movement of gas. The gas line is being repaired after the operation.

Conventionally, as shown in FIG. 1, a compression operation is performed using a compression apparatus.

When compressing the gas pipe 1, the fixing rod 11 is installed in the lower portion and the pressure rod 12 is installed in the upper portion so as to be located in a direction perpendicular to the center direction of the gas piping 1, and then the pressurizing means 14 The pressure bar 12 is moved downward to guide the guide bar 10 by compressing the gas pipe 1.

However, in the related art, since no means for adjusting the movement amount of the pressure rod 12 for compressing the gas pipe 1 has been devised, the gas pipe 1 should be compressed depending on the skill of the operator. There was a problem that the amount of compression of 1) is adjusted according to the operator.

That is, when the compression amount of the gas pipe 1 is small, the gas moving through the gas pipe 1 is not completely blocked, so that the gas leaks during cutting and connection work of the gas pipe 1, resulting in a safety accident. There was this.

On the other hand, when the compression amount of the gas pipe 1 is large, the gas moving through the gas pipe 1 can be completely blocked, but there was a problem that the gas pipe 1 is broken.

In order to solve this problem, as shown in FIG. 2, when compressing a gas pipe, a compression device for a gas pipe having a reference block capable of pressurizing a pressure rod with an optimum pressure amount according to the diameter of the gas pipe has been developed. .

As referred to herein, a conventional compression apparatus is provided with a pair of guide bars 10 to be installed on both sides of the gas pipe 1, and the bottom of the gas pipe 1 is provided under the guide bar 10. The fixed rod 11 is provided in contact with the pressure bar, the upper side of the guide bar 10 is guided by the guide bar 10 is moved to the upper / lower pressure bar to compress the gas pipe 1 ( 12) is installed.

On the other hand, at both ends between the guide bar 10 and the pressure bar 12 is provided with an elastic member 13 for elastically supporting the pressure bar 12, the guide bar 10 and the pressure bar 12 In the center between the pressing means 14 for moving the pressing rod 12 to the bottom is provided.

And, the upper surface of the fixing rod 11 is provided with a space maintaining block 20 for limiting the lower moving distance of the pressure rod 12, the height (C) of the space maintaining block 20 is a gas pipe As installed in accordance with the size of (1), the height H of the space keeping block 20 is determined by the equation (1).

[Equation 1]

H = t × 2 × C

From here

C: Height of the spacing block

t: thickness of gas pipe

C: 0.7 (constant).

That is, when the pressure rod 12 is moved downward to compress the gas pipe 1, the gas moving through the gas pipe 1 is blocked and pressurized so that the gas pipe 1 is not damaged. Is to maintain the gap between the rod 12 and the fixed rod (11).

The reason why the constant C is maintained at 0.7 is a value considering the pressure of the gas pipe 1 and the bending state of the pressure rod 12 and the fixed rod 11 when pressurizing the pressure rod 12. If 0.6 is set to 0.6, the gas pipe 1 is excessively damaged, and if the constant C is set to 0.8, the gas cannot be shut off completely.

However, such a conventional compression apparatus must be provided with a space keeping block 20 according to the diameter of each gas pipe 1 when compressing the gas pipe 1, as well as to the gas pipe 1 during the compression operation. There was a problem that the work is cumbersome because the corresponding space maintaining block 20 to be located on the upper side of the fixing rod (11).

In addition, in order to maintain the compressed state after compressing the gas pipe 1, there is a problem that the pressurizing means 14 must be continuously operated so that the pressurizing rod 12 is not moved upward.

The present invention has been devised to solve the above problems, and its purpose is to pressurize the pressure bar with an optimum pressure amount according to the diameter of the gas pipe when compressing the gas pipe to cut and connect the gas pipe. The present invention provides a compression device for a gas pipe that can easily perform a compression operation of a gas pipe by limiting a moving distance of the pressure bar and providing a fixing means to prevent the pressure bar moved downward.

Referring to the characteristic configuration of the present invention for achieving the above object is as follows.

Compression device for a gas pipe of the present invention is a pair of guide bars installed on both sides of the gas pipe, a fixed rod fixed to the lower portion of the guide bar to be in contact with the bottom surface of the gas pipe, so as to be elevated on the upper side of the guide bar In the compression apparatus for gas piping comprising a pressurizing rod provided, an elastic member for elastically supporting the pressurizing rod, a pressurizing means for moving the pressurizing rod downward, and a pressurizing force generating means for generating a pressing force of the pressurizing means, wherein the pair A guide groove formed in the longitudinal direction on the outer circumferential surface of one of the guide bar of the guide bar and the lower end portion of the guide bar formed in parallel to have a different length, and the one end of the pressure bar to be raised and rotated in a state fitted to one end of the pressure bar And a setting block installed at the inner side of the setting block to selectively fit into the guide groove. Pressing amount setting unit consisting of a guide pin formed; A plurality of locking jaws formed in the longitudinal direction on the outer circumferential surface of the other guide bar of the pair of guide bars, the separation groove formed in the longitudinal direction on one side of the locking jaw, the connection formed between the locking jaw and the separation groove A groove, a fixed block installed at the other end of the pressure bar to be lifted and rotated while being fitted to the other end of the pressure bar, and pivotally connected to the inner side of the fixed block so as to raise the pressure bar by being selectively coupled to the locking jaw; It includes a stopper provided as possible, and a fixing portion consisting of a leaf spring for supporting the stopper elastically.

Referring to the present invention having such characteristics in detail as follows.

Figure 3 is a front view showing a compression device according to the present invention, Figure 4 is an enlarged perspective view showing a pressing amount setting portion of the compression device according to the present invention, Figure 5 is a cross-sectional view showing a fixing part of the compression device according to the present invention.

As referred to herein, a pair of guide bars 10 are provided to be installed at both sides of the gas pipe 1, and the lower end of the guide bar 10 contacts the bottom surface of the gas pipe 1. The fixed rod 11 is provided so that the guide bar 10 is provided with a pressure rod 12 for compressing the gas pipe 1.

On the other hand, the pressing rod 12 is provided with an elastic member 13 for elastically supporting the pressing rod 12, the pressing rod 12 to the connection beam 15 connecting the upper end of the guide bar 10. Pressing means 14 for moving the lower portion is provided, the elastic member 13 is installed between the connecting beam 15 and the pressing rod 12, the pressing means 14 generates a pressing force The pressing force generating means 16 is connected via the hose 17.

One of the pair of guide bars 10 is provided with a pressurizing amount setting unit 20 for limiting the amount of movement of the pressurizing rod 12 according to the diameter of the gas pipe 1. The other side of the guide bar 10 is provided with a fixing part 30 for preventing the pressure rod 12 from rising.

The pressing amount setting unit 20 is formed with a guide groove 23 in the longitudinal direction on the outer circumferential surface of the one side guide bar 10, the guide groove 23 is preferably formed in plurality in parallel, Thus, when forming a plurality in parallel, the lower end forms different lengths.

On the other hand, the one end of the pressing rod 12 is provided with a setting block 21 which is raised / lowered together with the pressing rod 12, a plurality of guide grooves 23 on the inner surface of the setting block 21 Guide pin 22 to be fitted to any one of the) is formed, the setting block 21 is to be rotatably installed on the pressure rod 12 to adjust the position of the guide pin (22).

And the display unit 24 to check the diameter of the gas pipe 1 corresponding to the guide groove 23 according to the position of the guide pin 22 when rotating the setting block 21 of the setting block 21 ) Is formed.

In addition, the fixing portion 30 is formed with a plurality of locking jaws 32 in the longitudinal direction on the outer peripheral surface of the other guide bar 10, the outer side of the guide bar 10 on one side of the locking jaw (32) Separation groove 36 is formed in the circumferential direction in the longitudinal direction, and the connecting groove 37 is moved between the locking jaw 32 and the separation groove 36 so that the stopper 33 to be described later will be moved. Formed.

And the other end of the pressing rod 12, the fixing block 31 is fitted to be elevated with the pressing rod 12, the fixed block 31 is installed to be selectively rotatable.

In addition, the stopper 33 is installed on the inner surface of the fixed block 31 so as to be rotatable via the hinge 34, the stopper 33 is elastically installed via the leaf spring (35).

On the other hand, at least two or more stoppers 33 installed on the locking jaw 32 and the fixing block 31 formed on the guide bar 10 may be provided at a plurality. desirable.

Referring to the present invention configured as described in detail as follows.

First, in order to compress the gas pipe 1, the fixed bar 11 is positioned on the bottom of the gas pipe 1 and the lower ends of the guide bars 10 are coupled to both ends of the fixed bar 11, respectively.

In this state, the setting block 21 is rotated while checking the display unit 24. In this case, the setting block 21 is rotated to a position corresponding to the diameter of the gas pipe 1, and the setting block 21 is rotated. When rotating the guide pin 22 formed on the inner surface is to be located in any one of the guide groove 23 of the plurality of guide grooves (23).

When the pressing force generating means 16 is operated after the setting operation of the pressing amount setting unit 20 is completed as described above, the pressing force generated by the pressing force generating means 16 is transferred to the pressing means 14 through the hose 17. Since the pressure rod 12 connected to the pressure means 14 is moved to the lower side while being guided by the guide bar 10, the elastic member 13 installed between the connection beam 15 and the pressure rod 12. ) Becomes tension.

As such, when the pressure rod 12 is moved, the gas pipe 1 is compressed by the pressure rod 12, and when the guide pin 22 is positioned at the lower end of the guide groove 23, the pressure rod 12 is moved. Will no longer descend.

That is, according to the diameter of the gas pipe 1 is to adjust the falling position of the pressure rod 12 accurately.

In addition, when the pressing rod 12 is moved to the lower portion of the fixed block 31 installed on the other side of the pressing rod 12 is moved together, the stopper 33 installed inside the fixed block 31 is While rotating by the elastic force of the leaf spring 35 is to be moved to the lower side without interfering with the locking step (32).

As described above, the pressing force applied to the pressing rod 12 is released due to a failure of the pressing means 14 or the pressing force generating means 16 in the state in which the pressing rod 12 is moved to compress the gas pipe 1. When the pressure rod 12 is moved upward by the restoring force of the elastic member 13, the stopper 33 installed in the fixing portion 30 is in contact with the catching jaw 32, so that the pressure rod 12 is raised. Will be prevented.

On the other hand, in the case of releasing the compressive force after the gas pipe (1) is compressed and the repair and replacement of the gas pipe (1) is completed, if the fixed block 31 installed on the fixing part 30 is rotated to the release position The stopper 33 installed in the fixed block 31 is moved along the connection groove 37 and then positioned in the separation groove 36.

In this state, when the pressing force acting on the pressurizing means 14 is removed, the pressurizing rod 12 is raised by the restoring force of the elastic member 13, and as the pressurizing rod 12 rises, the compressed gas pipe ( 1) is to be returned.

In this way, the present invention can control the pressure applied to the gas pipe at any time regardless of the skill of the operator when compressing the gas pipe so that the gas moving to the gas pipe is blocked, thereby improving damage prevention and recovery rate of the gas pipe. There is a unique effect that can be made.

In addition, the present design prevents the rod from rising when the pressing force acting on the pressure rod is released due to the failure of the component in the state in which the gas pipe is compressed, so that an accident due to the component failure can be prevented in advance. It works.

1 is a front view showing a conventional compression device.

Figure 2 is a front view showing a conventional compression apparatus of another embodiment.

Figure 3 is a front view showing a compression device according to the present invention.

Figure 4 is an enlarged perspective view showing the pressure setting portion of the compression device according to the present invention.

5 is a cross-sectional view showing a fixing part of the compression device according to the present invention.

※ Explanation of symbols about main part of drawing ※

1: gas piping 10: guide bar

11: fixed rod 12: pressure rod

13 elastic member 14 pressing means

16: pressing force generating means 20: pressurization amount setting unit

21: setting block 22: guide pin

23: guide groove 24: display unit

30: fixed part 31: fixed block

32: Jam Jaw 33: Stopper

34: hinge 35: leaf spring

36: separation groove 37: connection groove

Claims (3)

A pair of guide bars 10 installed at both sides of the gas pipe 1, a fixed rod 11 fixed to the lower part of the guide bar 10 so as to contact the bottom surface of the gas pipe 1, and Pressurizing rod 12 installed on the upper side of the guide bar 10 to be elevated, an elastic member 13 for elastically supporting the pressurizing rod 12, and pressing means for moving the pressurizing rod 12 downward ( In the compression apparatus for gas piping consisting of 14) and the pressing force generating means 16 which generate | occur | produces the pressing force of the said pressurizing means 14, Of the pair of guide bar 10 is formed in the longitudinal direction on the outer circumferential surface of one side of the guide bar 10, the lower end of the guide groove 23 and parallel formed to have a different length, and the pressure rod 12 Protruding from the inner side of the setting block 21 to be selectively fitted to the guide block 23 and the setting block 21 installed at one end of the pressure rod 12 so as to be elevated and rotated in the state fitted to one end of the guide rod 23. Pressing amount setting unit 20 consisting of a guide pin 22 formed to be; A plurality of locking jaws 32 formed in the longitudinal direction on the outer circumferential surface of the other guide bar 10 of the pair of guide bars 10, and the separation groove formed in the longitudinal direction on one side of the locking jaw (32) 36, the connecting groove 37 formed between the locking jaw 32 and the separation groove 36, and the pressure rod 12 to be raised and rotated while being fitted in the other end portion of the pressure rod 12 The fixed block 31 installed on the other end of the and the engaging jaw 32 is selectively coupled to the inner side of the fixed block 31 so that the pressure rod 12 is raised so as to be pivotable via the hinge 34. Compression device for a gas pipe, characterized in that it comprises a stopper (33) installed, and a fixed portion (30) consisting of a leaf spring (35) for elastically supporting the stopper (33). According to claim 1, Compression device for gas pipes, characterized in that the display portion 24 is further formed on the surface of the setting block 21 so as to check the diameter of the gas pipe 1 corresponding to the guide groove (23). . The gas pipe compression of claim 1, wherein at least two or more stoppers 33 installed on the locking jaw 32 and the fixing block 31 formed on the guide bar 10 are installed at equal intervals. Device.