RU2527924C2 - Erection of bypass pipeline under pressure - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: invention relates to pipeline transportation, particularly, to erection of bypass pipelines and can be used in repair of main oil lines without outage of product transfer. Proposed method comprises installation of box-type tees at pipelines and mounting of gates with flanges at said tees. Fitting of bore cold cutting devices at flanges of the gates, cutting to openings in pipelines by said devices at open gates, closing of said gates, release of overpressure from the gates, dismantling of cutting devices and connection of said flanges of bypass pipeline gates. Bore cutting device comprises housing to accommodate spindle. Cutter with plug-in inserts is fitted at the end of said spindle equipped with drive of rotation and axial displacement and spindle seal on cutting tool side.

EFFECT: simplified process, higher reliability of bypass line.

4 cl, 3 dwg

Description

The invention relates to pipeline transport, and in particular to methods of mounting bypass pipelines, and can be used in the repair of oil pipelines without stopping the pumping of the product (oil).

When repairing parts of oil pipelines (in particular, shut-off devices), in order to ensure uninterrupted pumping of oil at the repaired area, it is necessary to establish a temporary bypass line in the form of a parallel pipeline.

The prior art method of mounting pipe bends, which can be used to create a bypass line (see USSR author's certificate SU 1583700). The method includes installing coupling tees on the pipeline, mounting valves and hole-cutting devices on the tees, and forming holes. The disadvantage of this method is its low efficiency.

The objective of the claimed invention is to develop a simple method of installing a bypass line of the pipeline.

The technical result of the claimed invention is to simplify the method, increase the efficiency of installation and increase the reliability of the mounted bypass line.

The specified technical result is achieved due to the fact that the method of mounting the bypass line of the pipeline under pressure includes the installation of coupling tees on the pipeline, installation of valves equipped with flanges on the tees, installation of devices for cold cutting holes on the flanges of the valves, and cutting holes in the pipeline using these devices with open gate valves, closing gate valves, relieving excess pressure from valve bodies, dismantling cutting devices, connecting valve flanges with a bypass line boprovoda, wherein the cutting device using holes comprising a housing arranged in the spindle housing, which is mounted on the end of the cutting tool as a cutter with replaceable cutting inserts, the rotational mechanisms and axial displacement of the spindle and the spindle means for sealing the part of the cutting tool.

In addition, the specified technical result is achieved in special cases of the invention due to the fact that:

- after mounting the device for cutting holes and before cutting into the body of each valve, a non-combustible liquid is supplied to cool the cutting tool,

- the valve body is filled with liquid at ½ volume,

- cutting holes in the pipeline is carried out at a speed of rotation of the cutting tool is not more than 3000 rpm

The essence of the claimed method is illustrated in figures 1 and 2, which shows the installation diagram of the bypass line, and also figure 3, which shows in detail the design and installation diagram of the device for cutting holes.

The claimed method is implemented as follows.

If a malfunction is detected in a certain section of the pipeline 1, for example, a faulty linear valve 2, located between two wells of instrumentation (instrumentation) (Figs. 1, 3), the pipeline insulation is removed at this section, and coupling tees 4 are mounted at the ends of the section ( two or more). Clutch tee 4 is a structure consisting of two coupling halves, in one of which a hole is made and a pipe is installed. These coupling halves are installed with the coverage of the pipeline and are interconnected by welding. The use of coupling tees can significantly increase the installation speed of the bypass line, as well as its reliability.

Then, valves 5 are installed on the tees 4 of the nozzles, having nozzles 6 on both sides.

Then, to the free pipe 6 of each valve 5, a device 7 for cold cutting holes is connected (Figs. 1, 3).

This device 7 (see Fig. 3) contains a hollow spindle 9 located in the housing 8, in which a spindle 10 and a nut 11 are mounted on one end and placed on the screw 10, and a cutting tool 12 is placed on the other end. spindle rotation and axial movement mechanisms are provided, including a worm pair 13 driven by an electric motor (not shown), two gear wheels 14 and 15, coaxially arranged on the spindle 9 with the possibility of interaction with each other by means of a block of two gears 16 and 17 associated with furs Low 18 radial movement of the specified block. The first gear wheel 14 is rigidly connected to the worm wheel of the worm pair 13, and also to the hollow shaft 19 mounted outside the spindle 9. The second gear wheel 15 is rigidly connected to a sleeve 18 mounted outside the hollow shaft 19 and rigidly connected to the spindle 10. in the worm wheel of the worm pair 13, as well as in the gears 14 and 15, a through keyway 20 is made, which continues in the hollow shaft 19 through the slot. At the same time, a key 21 is mounted in the groove 20, mounted on the spindle. Also, in the cutting device 7, there is provided a means of sealing the spindle 9 on the side of the cutting tool, made in the form of a stuffing box 22 with sealing elements 23. At the same time, a channel 24 is made in the stuffing box 22 (in the lower part), overlapping by means of a ball valve 25. Channel 24 is necessary to fill the valve body with a non-combustible liquid for cooling the cutting tool, which also protects against the explosion of oil vapor (in the case of cutting an oil pipeline) at the time of cutting through the wall from the heated part of the cutting element one or sparks. In addition, the channel 24 is used to relieve excess pressure from the housing of the device 7.

The cutting tool 12 consists of a cutter on which interchangeable cutting inserts are mounted. This allows you to increase the speed of rotation of the cutting tool and, therefore, increase the productivity of cutting.

Before cutting the hole, if necessary, a non-combustible liquid is fed into the valve body 5 through the channel 24, which should fill approximately ½ of the volume of the valve body. Cutting holes using the described device is carried out by transmitting torque from the electric motor to the worm pair 13, then to the first gear wheel 14, the hollow shaft 19 with the keyway 20 and through the keyway 21 to the spindle, which ensures its rotational movement. In addition, rotation is also transmitted from the first gear wheel 14 to the gear block 16 and 17, and then to the second gear wheel 15, the sleeve 18 and the spindle 10, providing axial movement of the spindle.

The cutting is carried out with open valves 5. Preferably, the cutting is carried out at a cutter rotation speed of not more than 3000 rpm.

After forming the holes, the valves 5 are closed and the excess pressure is discharged from the valve bodies 5 through the channels 24.

Then the device 7 is dismantled and the nozzles 6 of the gate valves 5 are connected by a pipeline of the bypass line 26 (see figure 2). After that, you can open the gate valve 7 and let the pumped medium (oil) bypass the repaired area.

Thus, the claimed device allows for the rapid installation of the bypass line of the pipeline without stopping the pumping of the product.

Claims (4)

1. A method of mounting a bypass line of a pressurized pipeline, including installing coupling tees on the pipeline, mounting valves with flanges on the tees, installing cold cut-out devices on the flanges of the valves, cutting holes in the pipeline using these devices with open valves, closing the valves, overpressure discharge from valve bodies, dismantling of cut-out devices, connection of valve flanges by a pipeline bypass line, using a hole-cutting device and comprising a housing, a spindle housed in the housing, at the end of which a cutting tool is mounted in the form of a milling cutter with interchangeable cutting inserts, spindle rotation and axial movement mechanisms, and a spindle sealing means from the cutting tool side. 2. The method according to claim 1, in which after mounting the device for cutting holes and before cutting into the body of each valve, a non-combustible liquid is supplied to cool the cutting tool. 3. The method according to claim 2, in which the valve body is filled with liquid by ½ volume. 4. The method according to claim 1., In which the cutting holes in the pipeline is carried out at a speed of rotation of the cutting tool is not more than 3000 rpm

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