KR101691502B1 - Sealing tester of gas tube - Google Patents

Abstract

The present invention relates to a sealing tester of a gas tube to confirm whether there is a defect of a synthetic resin pipe to supply gas and a bonding portion of components. The sealing tester of a gas tube comprises: a body wherein one side is penetrated for an end portion of a gas pipe to be introduced, and a pressure gauge and a valve to provide compressed air are mounted in the other side; a rubber ring arranged in a sealing space of the body, and adhering to an external diameter of the gas pipe, and a handle mounted in an external diameter of the body. Moreover, the sealing tester of a gas tube comprises: a coupling space provided by extending a front end of the sealing space of the body; a stopper accommodated in the sealing space of the body, and composed of a plurality of slip rings which is in contact with an external diameter of the gas pipe to be clamped and a coil spring pressurizing the slip rings; and a fixing ring inserted into a front end of the coupling space of the body to prevent the stopper from being left to be screwed. To correspond to both sides of the slip rings of the stopper, a first guide piece and a second guide piece are formed. The first guide piece is inserted into a first through hole perforated in the coupling space of the body, and the second guide piece is inserted into a second long through hole perforated in the coupling space of the body. Therefore, in accordance with a moving position of the second guide piece of the slip rings, an internal diameter of the slip rings is in contact with an external diameter of the gas pipe to be fixated or released.

Description

[0001] SEALING TESTER OF GAS TUBES [0002]

TECHNICAL FIELD The present invention relates to a gas pipe airtightness testing apparatus for confirming whether or not a joint portion of a synthetic resin pipe and accessories for gas supply is defective, and particularly, a simple structure that can be easily attached to and detached from a gas pipe improves the usability and reliability of the airtightness test. To the gas-tightness tester.

Generally, natural gas is stored in the storage tank of the receiving base from the LNG transporting line, and is introduced into the regional management station through the pipeline at a pressure of about 70 kg / cm 2, passes through the gas filter and the static pressure facility, / ㎠, and it is supplied to the city gas and the power plant of demand through the weighing equipment.

The city gas is buried in the ground to supply the gas to a home or an industrial complex, and connects the branch pipe from the buried gas pipe.

Since these gases are in a state of gas or liquid at a high pressure, if a leakage due to defects or damage occurs in the gas pipes and connection parts, it may lead to a major accident. Therefore, a gas tightness test .

For example, as a device for airtightness test, a gas leakage check device of domestic registered utility model No. 20-0169091 (Announcement of Mar. 2, 2000) and a leak examination device of registration model 20-0377627 (announcement of Mar. 14, 2005) The air supply device and the closing device for the cylinder valve, and the regulator 20-0449532 (the notification of July 16, 2010) 'the cylinder valve inspection adapter' and the registered utility model No. 20-0463806 (the notification of November 26, 2012) A leakage inspection apparatus has been proposed.

Among the conventional leakage testing devices, those used in a state of being directly connected to a pipe for inspection are not available in the field. The use of the sealing force of the rubber ring in the state of being inserted into the inner diameter of the pipe makes it easy to carry and can be used in the field, but can be separated when high pressure is applied. There is a problem that an economic loss occurs.

Korean Registered Utility Model No. 20-0169091 (Announced on February 2, 2000) Korean Registered Utility Model No. 20-0377627 (Announced on March 14, 2005) Korean Registered Utility Model No. 20-0449532 (Notice of July 16, 2010) Korean Registered Utility Model No. 20-0463806 (Notice of 26th, 26th, 2012)

Accordingly, the present invention has been made to overcome the deficiencies and deficiencies of the prior art by improving the structure so that the structure is simple and reasonable, easy to manage, and can be easily attached and detached to the synthetic resin gas pipe, And a gas-tightness test device for improving the gas-tightness.

 The gas pipe airtightness testing apparatus of the present invention is characterized in that the gas pipe airtightness testing apparatus includes a body having one side thereof penetrated so as to allow a gas pipe end to be inflow and a valve for supplying a pressure gauge and compressed air to the other side, A ring and a handle mounted on an outer diameter of the body, wherein the fastening space includes a fastening space extending from the tip of the airtight space of the body; A stopper including a plurality of slip rings accommodated in the fastening space of the body and adapted to contact and clamp the outer diameter of the gas pipe, and a coil spring for pressing the slip rings; And a fixing ring fitted to the front end of the fastening space of the body so as to be screwed to prevent the stopper from coming off; Wherein a first guide piece and a second guide piece are formed so as to correspond to both sides of a plurality of slip rings of the stopper, the first guide piece is fitted in a first through hole formed in a fastening space of a body, And the inner diameter of the slip ring is fixed or released in contact with the outer diameter of the gas pipe in accordance with the moving position of the second guide member of the slip ring. .

Further, the present invention is characterized in that the structure of the slip ring is improved so as to facilitate the inflow and outflow of the gas pipe.

The gas pipe airtightness testing apparatus of the present invention is characterized in that a plurality of slip rings of a stopper disposed in a fastening space of a body for supplying compressed air are artificially moved and then a gas pipe is introduced and then the gas pipe is stably clamped It is possible to provide an effect that the work efficiency can be improved because it is possible to carry out the airtightness test after the test and the operation is simple and easy to carry,

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a sectional view showing a gas pipe hermeticity testing apparatus according to the present invention; FIG.
FIG. 2 and FIG. 3 are sectional views showing an operating state of the gas pipe hermeticity testing apparatus according to the present invention.
4 is an enlarged view of a portion 'A' in FIG. 3;
5 and 6 are cross-sectional views illustrating an operating state according to another embodiment of the present invention.
7 is an enlarged cross-sectional view of another embodiment according to the present invention.

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, terms and words used in the present specification and claims are to be construed in accordance with the principles of the present invention, on the basis that the inventor can properly define the concept of a term in order to best explain his invention It should be construed as meaning and concept consistent with the technical idea of.

As shown in FIG. 1, the present invention can be used to carry out a confidential inspection through a pressure test at a work site or a buried site while conveniently carrying a defect of a connecting portion of a polyethylene gas pipe 100, A valve 300 for supplying compressed air and a valve 300 for passing the open end of the gas pipe 100 through one side and supplying the pressure gauge 200 and compressed air to the other side, A rubber ring 2 disposed in the inner airtight space 11 of the body 1 and closely attached to the outer diameter of the gas pipe 100 and a rubber ring 2 mounted on the outer diameter of the body 1, And a knob 3 for providing convenience of operation.

The key technology of the present invention is to provide a fastening space 12 by extending the tip of the airtight space 11 of a conventional body 1 and providing a stopper 4 for clamping the gas pipe 100 to the fastening space 12, .

1 and 2, the stopper 4 includes a plurality of slip rings 41 which are housed in the fastening space 12 of the body 1 and which are brought into contact with the outer diameter of the gas pipe 100 to clamp the slip rings 41, And a coil spring (42) for pressing the coil spring (41).

The first guide piece 411 and the second guide piece 412 are formed to correspond to both sides of the plurality of slip rings 41 of the stopper 4 and the first guide piece 411 of the slip ring 41 A first through hole 121 is formed in the fastening space 12 of the body 1 so as to provide a small flow space to allow the slip ring 41 to flow after being inserted, A second through hole 122 is formed in the fastening space 12 of the body 1 so as to provide a long hole so that the fastening hole 412 can be moved forward and backward.

2, when the second guide piece 412 moves to the rear side of the body 1, the gas pipes 10 flow into the slip rings 41 at a predetermined distance from the first guide pieces 411, And the second guide piece 412 is moved forward of the body 1 as shown in FIG. 3 so that the inner diameter of the slip ring 41 contacts the outer diameter of the gas pipe 100, The inner diameter of the slip ring 41 fixes and closes the outer diameter of the gas pipe 100 in accordance with the movement position of the second guide piece 412 of the plurality of slip rings 41.

The inner diameters of the slip rings 41 are made to contact the outer diameter of the gas pipe 100 flowing into the body 1 for the airtightness test so that the coil spring 42 provides an elastic force so as to maintain the clamping state .

The reason why the slip ring 41 is formed of a plurality of plates is that if the outer diameter surface of the synthetic resin gas pipe 100 is enlarged, it is formed as irregular irregular surfaces rather than a uniform flat surface so that the contact area is small and unstable in a single case, Therefore, as shown in FIG. 7, a plurality of inner diameters of the slip rings 41 are brought into contact with the irregular surfaces at equal intervals, thereby increasing the clamping effect, thereby increasing the clamping effect. The number of the rings 41 is most preferably 3 to 4, but the quantity of the rings 41 is not limited to this and can be increased or decreased.

A fixing ring 5 is fastened to the front end of the fastening space 12 of the body 1 so as to prevent the stopper 4 from coming off.

5 and 6, in order to increase the pressing force by which the inner diameters of the plurality of slip rings 41 are brought into close contact with the outer diameter of the gas pipe 100 by the elastic force of the coil spring 42, And the operation rod 7 is additionally provided to easily operate the movement of the second guide piece 412 of the slip ring 41. [

A hole 412 'is formed in the second guide piece 412 of the slip ring 41 so as to engage the operating rod 7 and a pair of ribs 412' projecting from the rear of the outer diameter of the body 1, So that the operating rod 7 is inserted into the hole 412 'of the second guide piece 412 and the ribs 13 and 13' of the body 1, The holding ring 6 is fixed and the knob 3 is fixed between the pair of ribs 13 and 13 so that the operating rod 7 can be moved easily. The spring 8 is interposed between the second guide piece 412 of the slip ring 41 and the rib 13 of the body 1 so as to add an elastic force.

7, the fixing bolt 91 and the supporting bolt 91 can be added to adjust the elastic force of the coil spring 8. [

The adjustment bolt 91 is rotatably mounted on the rib 13 of the body 1. The support plate 92 is screwed on one side of the adjustment bolt 91 and the other side is fitted on the operation rod 7 And adjusts the elasticity of the coil spring 8 by adjusting the pitch of the coil spring 8 through the movement of the support plate 92 by the rotation of the adjustment bolt 91.

Next, the operation of the present invention configured as described above will be described.

The present invention relates to a gas-tightness inspection method using compressed air to check whether or not a connection part of a gas pipe (100) is abnormal, and to perform an intermediate inspection and a final inspection at a work site or a field buried in the ground, The second guide pieces 412 on one side of the plurality of slip rings 41 of the stopper 4 are moved to the rear of the body 1 by an artificial force so that the plurality of stoppers 4 are moved to the body 1).

When the open end of the gas pipe 100 is introduced into the airtight space 11 of the body 1, the plurality of slip rings 41 are maintained orthogonal to the body 1, And the front end of the gas pipe 100 is completely introduced into the airtight space 11 of the body 1, the outer diameter of the gas pipe 100 is reduced to the outer circumference of the rubber ring 2 So that the airtightness can be maintained.

When the second guide pieces 412 of the plurality of slip rings 41 which have been artificially pulled are placed, if the plurality of slip rings 41 are pushed by the restoring force of the coil spring 42, The second guide pieces 412 corresponding to the second guide pieces 412 move along the second through holes 122 of the body 1 so that the corner portions of the inner diameters of the plurality of slip rings 41 are aligned with the outer diameters of the gas pipe 100, It is clamped so as not to come out while being in contact as shown in FIG.

The open end of the gas pipe 100 is inserted into the gas tight space 11 of the body 1 while pulling the second guide pieces 412 of the slip rings 41 as described above, The second guide piece 412 of the gas pipe 100 is clamped while the edge portions of the inner diameters of the plurality of slip rings 41 adhere to the outer diameter of the gas pipe 100 by the action of the elastic force of the coil spring 42, The valve 300 is opened to supply the compressed air from the unshown air compressor 1.5 to 2 times higher than the gas supply pressure. If the pressure is maintained for 1 hour or more after the valve 300 is locked, It is possible to conveniently perform the airtightness test.

5 and 6, the second guide piece 412 of the plurality of slip rings 41 is fixed to one end of the operating rod 7 by pulling the knob 3 which is broken in the operating rod 7 The coil spring 42 and the operating rod 7 in the fastening space 12 of the body 1 can be easily moved by the stop ring 6 so that the gas pipe 100 can be easily introduced and the pulled- The corner portions of the inner diameters of the plurality of slip rings 41 are more tightly adhered to the outer diameter of the gas pipe 100 and clamped.

7, when the support plate 92 is moved through the forward and reverse rotations of the adjustment bolts 91, the pitch interval of the coil springs 8 can be adjusted easily, so that the corner portions of the inner diameters of the slip rings 41 So that the elasticity of the gas pipe 100 can be adjusted so as to be in close contact with the outer diameter of the gas pipe 100.

Therefore, the present invention can stably and easily clamp the gas pipe 100 through the simple movement of the plurality of slip rings 41 of the stopper 4 and the elastic force of the elastic spring 42 and the elastic spring 8, Since it is easy to carry, intermediate inspection can be easily performed in each part and / or buried work area, thereby improving work efficiency.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Accordingly, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

1: Body 11: Confidential space
12: fastening space 121: first through hole
13, 13 ': rib
2: Rubber ring 3: Handle
4: stopper 41: slip ring
42: coil spring 411: first guide piece
412: second guide piece
5: Retaining ring
6: Stop ring
7: Working rod
8: coil spring
91: adjusting bolt
92: Support plate

Claims (3)

And a valve 300 for supplying compressed air to the pressure gauge 200 and the compressed air is installed on the other side of the gas confinement space 11 of the body 1, And a handle (3) mounted on an outer periphery of the body (1), wherein the rubber ring (2) is in close contact with the outer diameter of the gas pipe (100)
A fastening space 12 extending from the tip of the airtight space 11 of the body 1;
A plurality of slip rings 41 which are accommodated in the fastening space 12 of the body 1 and contact and clamp the outer diameter of the gas pipe 100 and a coil spring 42 for pressing the slip rings 41, (5) fitted to the end of the fastening space (12) of the body (1) and screwed thereto so as to prevent the stopper (4) and the stopper (4) from coming off;
A first guide piece 411 and a second guide piece 412 are formed so as to correspond to both sides of the plurality of slip rings 41 of the stopper 4, Is inserted into the first through hole 121 formed in the fastening space 12 and the second guide piece 412 is inserted into the second through hole 122 formed in the fastening space 12 of the body 1 And the inner diameter of the slip ring (41) is fixed or closed in contact with the outer diameter of the gas pipe (100) according to the moving position of the second guide piece (412) of the slip ring (41) ,
A hole 412 'is formed in the second guide piece 412 of the slip ring 41 so as to form a pair of ribs 13 and 13' protruding from the rear of the outer diameter of the body 1, The stop ring 6 is fixed to one end while being inserted into the hole 412 'of the second guide piece 412 and the ribs 13 and 13' of the body 1 and a pair of ribs 13 and 13 ' The second guide piece 412 of the slip ring 41 and the ribs 4 of the body 1 are inserted into the operating rod 7 while the handle 3 is fixed to the operating rod 7, And an adjusting bolt 91 mounted on the adjusting bolt 91 so as to be rotatable with respect to the rib 13 of the body 1, And a support plate (92) for adjusting an elastic force by adjusting the pitch of the coil spring (8) while one side is screwed and the other side is fitted to the operation rod (7). delete delete

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