RU99848U1 - DEVICE FOR PIPING INTO AN EXISTING GAS PIPELINE - Google Patents

Abstract

 A device for inserting into an existing gas pipeline containing a disconnecting device mounted on a fitting that is connected to the existing gas pipeline by welding, characterized in that it is additionally provided with a cylindrical body, one end of which is connected to the disconnecting device by means of a threaded connection with a sealing ring, and the other the end has a washer, which is equipped with a sleeve for holding the packing and a nut for fixing and adjusting the sleeve with the packing.

Description

FIELD OF THE INVENTION

The invention relates to pipeline transport of liquids and gases, in particular, to devices for tapping into an existing gas pipeline and can be used in the reconstruction, repair of gas pipelines, pipelines and transportation of the product to the consumer.

State of the art

A device for blocking a cavity of a gas pipeline under pressure, comprising a housing inside which a plug with a sealing plug is movably placed, and a drive for translational movement of the plug relative to the axis of the housing, wherein the sealing plug is made in the form of metal expandable sectors (two external and two internal), each of which is equipped with an elastic sealing element, and the drive for translational movement of the plug is made in the form of, for example, three gears mounted on the housing, and two re screw-nut flange pairs mounted on the end face of the plug with the possibility of their interaction with gears, with two gears being driven and the third wheel driving, the nuts being placed in the plug, and each screw with one ring is rigidly fixed to one of driven gears.

In the device for shutting off the gas pipeline cavity under pressure, the elastic sealing elements of the metal expandable sectors are made primarily of polyurethane or fluoroplastic (see US Pat. No. 2173810, class F 16 L 55/124, publ. September 20, 2001).

The disadvantage of this device is the low reliability.

A device is known that is used in the method of repairing a defective section of an existing pipeline, including the manufacture of a split sleeve, mounting its parts on the pipe, fastening the parts, sealing the coupling sleeve by stuffing the sealant in the guides located radially along the ends of the coupling, followed by filling the coupling sleeve with a sealant under a pressure equal to or exceeding the pressure in the pipeline through valves installed in the lower and upper parts of the coupling, while previously with two split rings are installed on the sides of the defective section, two on each side, and the rings are pressed onto the pipeline during installation and fixed, after which the coupling parts are mounted on the rings so that the ends of the coupling are above the extreme rings, after which the half-coupling parts are pressed against the rings and fasten together, then from both edges of the coupling, over the cavities formed by each pair of rings, the pipe wall and the coupling, make holes in which open additional taps are fixed, after which the first a syringe filled with a self-vulcanizing sealant is connected to the filling valve, with which the sealant is brought into the cavity between the corresponding pair of rings until the required pressure is created, after which the additional valve is closed and the syringe is disconnected, after which the syringe is connected to another additional valve and the sealant is inserted into the cavity between the other a pair of rings, in addition, after the sealant has hardened in the end guides, the syringe is connected to the tap in the lower part of the coupling and the sealant is pressed into the coupling space o, creating a pressure equal to or greater than the pressure in the pipeline, after which the valve is closed and the syringe is disconnected, and after the end of the self-vulcanization of the sealant, all valves are mechanically removed and the holes are closed.

In the method, the sealant, which is pressed into the cavity formed by each pair of rings, the surface of the pipe and coupling, contains a filler, which is elastic granules whose dimensions exceed the dimensions of the cracks between the adjacent surfaces of the rings, coupling and pipe.

In the method, the sealant, which is pressed into the cavity formed by each pair of rings, the surface of the pipe and coupling, contains a filler, which is a fluoroplastic chip.

In the method, before the sealant is pressed in, the inner ends of each pair of rings are radially attached to the pipeline, and the ends of the split coupling are radially attached to the surface of the extreme rings, and gluing, soldering or welding is used for fastening (see US Pat. No. 2314453, class F 16 L 55/18, published on January 10, 2008).

The disadvantage of this device is its low reliability and high complexity when repairing an existing pipeline.

A device and method for repairing gas pipelines by installing a process coil on the emergency section of the pipe is described in that the emergency section of the pipeline is localized and gas is pumped out of it. After that, the part of the pipe containing the defect is cut out and a technological coil is welded in its place. The method is radical, essentially repeating the installation of the pipeline. At the same time, it has significant drawbacks associated with the complexity, inevitability of large financial costs, determined by the need to bleed the gas and the forced downtime of the pipeline (see, for example, the Rules for the overhaul of the linear part of gas pipelines. BCH 2-112-79. - Moscow: VNIIST, 1973, pp. 34-35).

The closest in technical essence and the achieved positive effect and accepted by the authors for the prototype is the device used in the method of connecting the outlet to the existing gas pipeline, which includes cleaning the pipe section, installing a split sleeve in this section, in one of the halves of which a hole is cut, welding between each other with longitudinal seams of the coupling parts, installation of a branch pipe and cutting a hole in the gas pipeline, while a saddle-shaped copper disk is pre-installed in the coupling hole, cat the second one is pressed to the gas pipeline with a centralizer screw and a two-layer surfacing is performed in the resulting groove, which has two passes in each layer along the perimeter of the circular seam, then the copper disk is removed and the outlet pipe is welded to the surfacing with obligatory welding of the root part of the corner connection from the inside of the pipe .

In the method, the diameter of the copper disk is chosen smaller than the inner diameter of the pipe by the thickness of its wall.

In the method, the diameter of the hole in the coupling exceeds "the outer diameter of the outlet pipe by the thickness of its wall.

In the method, a threaded hole is pre-formed in the copper disk into which a bolt is screwed to remove the forming device.

In the method, the first layer of surfacing is performed by welding materials that form a weld metal of lower strength, but with high plastic properties compared to the gas pipeline metal (see US Pat. No. 2236630, class F 16 L 41/04, publ. September 20, 2004 g.).

The disadvantage of this device is the low reliability and quality, complexity of installation.

Disclosure of invention

The objective of the invention is to develop a device for insertion into the existing gas pipeline, which has high reliability in operation, simplifying the design and installation, reducing material costs.

The technical result that can be obtained using the present invention is to simplify the design and installation, increase reliability.

The technical result is achieved using a device for inserting into an existing gas pipeline, containing a disconnecting device mounted on a fitting that is connected to the existing gas pipeline by welding, while it is additionally equipped with a cylindrical body, one end of which is connected to the disconnecting device by means of a threaded connection with a sealing ring and the other end has a washer, which is equipped with a sleeve for holding and adjusting the sleeve with a packing gland.

Thus, the insertion without reducing the pressure in the existing gas pipelines with a pressure of 0.005-1.2 MPa is performed using a device containing a disconnecting device, for example, a gas valve ball type mounted on the nozzle, the latter is connected to the existing gas pipeline by welding, while the disconnecting device using a threaded connection with a sealing ring install one end of a cylindrical body made of steel and designed to center the drill during operation, and the other end of the cylindrical body has a washer designed to prevent the stuffing box from getting into the working part of the housing and equipped with a sleeve for holding the stuffing box and a nut for fixing tion and adjustment of the sleeve with stuffing box packing.

Brief Description of the Drawings

In FIG. given a device for tapping into an existing gas pipeline, a general view.

The implementation of the invention

A device for inserting into an existing gas pipeline contains a fitting 1 with a short thread, rigidly mounted at one end to an acting gas pipeline 2, for example, by welding, while a disconnecting device 3 is connected to the other end of the fitting 1, for example, a 3/4 ball valve made of gas brass, to which a cylindrical body 4 is connected in series with one end by means of a threaded connection with a sealing ring 5, made, for example, of fluoroplastic and necessary to create a tightness between the disconnecting device trinity 3 and a cylindrical body 4, the latter being designed to center the drill (not shown in Fig.) during operation, and the other end of the cylindrical body 4 has a washer 6, which is equipped with a sleeve 7 made of steel to hold the stuffing box seal 8, which is necessary for create tightness when performing work and a nut 9, designed to fix and adjust the sleeve 7 of the stuffing box seal 8.

A device for tapping into an existing gas pipeline is operated as follows ..

A place for insertion into the existing gas pipeline 2 is determined, a “cold” fitting 1 is welded with a nominal diameter of 20-25 mm, a length of at least 100 mm with a short thread for installing a disconnecting device 3, for example, a 3/4 gas ball valve made of brass, then on the threaded connection set disconnecting device 3; 3/4 gas faucet with a nominal diameter of 20-25 mm, seal the threaded joints using linen strands in accordance with GOST 10330, impregnated with lead minium in accordance with GOST 19151, mixed with drying oil in accordance with GOST 7931, then a cylindrical body 4 is sequentially screwed onto the disconnecting device 3 using a threaded connection with a sealing ring 5 made of fluoroplastic to create a tightness between the disconnecting device 3 and the cylindrical body 4, which is designed to center the drill during operation, then using the core (not shown in FIG.) through a cylindrical body 4, punching is performed under a drill (not shown in FIG.), a drill with a diameter of 16-18 mm and a length of at least 400 mm is installed, while tightness during drilling is ensured by a stuffing box seal 8, which is held by a sleeve 7, made of steel and located on the washer 6, and using a nut 9, fix and adjust the sleeve 7 of the stuffing box seal 8, moreover, drilling is performed without reducing the working pressure in the existing gas pipeline, which is from 0.005 to 1.2 MPa, while for drilling uses a pneumatic tool, at the end of drilling, the drill is removed to the length of the nozzle 1 and the disconnecting device 3, only then the shut-off device 3 is closed, the drill is removed from the cylindrical body 4, the latter is removed, the chips are removed (in FIG. not shown) by gas purging through the disconnecting device 3, then the disconnecting device 3 and the mounted gas pipeline 2 are connected, the welded joint and threaded connections are checked for leaks.

The invention in comparison with the prototype and other known technical solutions has the following advantages:

- simplification of the design and installation of the device;

- improving the quality of sealing;

- improving the quality of repair of a defective section of an existing gas pipeline without reducing the pressure in it;

- high reliability in work.

Claims (1)

A device for inserting into an existing gas pipeline, comprising a disconnecting device mounted on a fitting that is connected to the existing gas pipeline by welding, characterized in that it is further provided with a cylindrical body, one end of which is connected to the disconnecting device by means of a threaded connection with an o-ring, and the other the end has a washer, which is equipped with a sleeve for holding the packing and a nut for fixing and adjusting the sleeve with the packing.