RU204801U1 - Device for injection of liquid into a gas pipeline - Google Patents

Abstract

The utility model relates to the field of operation of equipment for compressed gases, in particular, to devices for injecting various liquids, for example, inhibitors of hydrate formation or corrosion, into a pipeline, and can be used in the gas, oil, and chemical industries. The technical result is to simplify the design, a decrease in metal consumption, an increase in the reliability, safety and ease of maintenance of the claimed device, while the device for injection of liquid into a gas pipeline includes a cylindrical nozzle rigidly fixed to the gas pipeline pipe perpendicular to its axis, inside the cylindrical nozzle a hollow rod is concentrically placed with a replaceable nozzle installed at the bottom end, in this case, the hollow rod is centered inside the cylindrical pipe by means of a bushing, a flange is placed on the upper end of the cylindrical pipe, on which shut-off valves and a mechanism for vertical movement of the hollow rod, consisting of a cylindrical valve a case with two symmetrically made slotted windows, on the ends of the cylindrical body there are covers, in the upper cover there is a running unit, including a sliding bearing equipped with an internal thread, a flywheel, a key, a lock nut, a stuffing box is installed in the bottom cover, including a flange, a push bushing, studs with nuts, stuffing box packing, inside the cylindrical body there is a sliding spindle equipped with a thread interacting with the thread of the sliding bearing of the running unit, a thrust bushing is installed on the lower part of the sliding spindle, between the sliding spindle and the hollow rod there is a pipe square, rigidly connected to them, and with the pipe square is connected hydraulically with a hollow rod, a cylindrical branch pipe is installed in the side opening of the pipe square, connected to the fluid supply unit, consisting of two shut-off valves connected in series and a detachable connection between them, while the hollow rod in its upper part is equipped with a stop , made with it at the same time, the nozzle is installed coaxially with the hollow rod and in the operating position protrudes into the cavity of the gas pipeline by an amount exceeding its thickness, but not more than two diameters of the hollow rod, the retractable spindle is located inside the cylindrical body with the ability to move, and the movement of the retractable spindle the same for all diameters of gas pipelines, and the shut-off valve located closer to the cylindrical body is equipped with an unloading device. 2 c.p. f-crystals, 1 fig.

Description

The utility model relates to the field of operation of equipment for compressed gases, in particular, to devices for injecting various liquids, for example, hydrate or corrosion inhibitors into a pipeline, and can be used in the gas, oil, and chemical industries.

A device for aerosol inhibition of a gas pipeline is known, including a cylindrical pipe rigidly fixed to the gas pipeline pipe perpendicular to its axis, a hollow rod is concentrically placed inside the cylindrical pipe with a replaceable nozzle installed at the lower end, a flange is located on the upper end of the cylindrical pipe, on which a mechanism for vertical movement of the hollow rod is installed , consisting of a cylindrical body with a window, covers are placed on the ends of the cylindrical body, a running unit is installed in the upper cover, while the hollow rod is installed inside the cylindrical body, in the upper part it is equipped with a thread that interacts with the thread of the running unit, and is hydraulically communicated with the fluid supply unit (RF Patent No. 13916, F17D 1/05, C 23 F 11/02op.10.06. 1999).

The disadvantages of the known device are insufficient reliability, safety and ease of maintenance.

It is known a device for injecting liquid into a gas pipeline containing a cylindrical pipe rigidly fixed to the gas pipeline pipe perpendicular to its axis, inside the cylindrical pipe a hollow rod is concentrically placed with a replaceable nozzle installed at the bottom end perpendicular to its axis, while the hollow rod is centered inside the cylindrical pipe by means of a sleeve on the upper end of the cylindrical nozzle there is a flange, on which shut-off valves and a mechanism for vertical movement of the hollow rod are sequentially installed, consisting of a cylindrical body with two symmetrically made slotted windows, on the ends of the cylindrical body there are covers, in the top cover there is a running unit including a sliding bearing, equipped with an internal thread, a key, a lock nut, a flywheel, a stuffing box is installed in the bottom cover, including a flange, a push bushing, studs with nuts, a stuffing box, inside the cylindrical body there is a sliding spindle l, equipped with a thread interacting with the thread of the sliding bearing of the running unit, a thrust bushing is installed on the lower part of the sliding spindle, between the sliding spindle and the hollow rod there is a pipe square, rigidly connected to them, and the pipe square is connected to the hollow rod hydraulically, into the side opening of the pipe elbow, a cylindrical pipe is installed, connected to the fluid supply unit, consisting of two series-connected shut-off valves and a detachable connection between them (RF Patent No. 111246, F17D 3/12, op.10.12. 2011, prototype).

The disadvantage of the known device is that for different diameters of pipelines and the placement of the nozzle at the operating position in the center of the pipeline with liquid injection into the flow of the pumped medium along its course, an individual design of the device is required with an appropriate stroke to move the nozzle for each diameter of the pipeline and, as a consequence, the larger the diameter of the pipeline, the greater its metal consumption and overall dimensions of the device and, as a consequence, with significant dimensions of the device, a maintenance site is required for its maintenance. Also, the disadvantage is that its design does not provide for a device for relieving pressure from the cavity of the valve and stem when the device is in the position for the period of inspection or replacement of the nozzle, which affects the reliability and safety of the device during its maintenance.

The technical result of the proposed technical solution consists in simplifying the design, reducing metal consumption, increasing the reliability, safety and ease of maintenance of the device.

The technical result achieved is achieved by the fact that the device for injection of liquid into a gas pipeline includes a cylindrical nozzle rigidly fixed to the gas pipeline pipe perpendicular to its axis, inside the cylindrical nozzle a hollow rod is concentrically placed with a replaceable nozzle installed at the bottom end, while the hollow rod is centered inside the cylindrical nozzle by means of a bushing, a flange is placed on the upper end of the cylindrical nozzle, on which shut-off valves and a mechanism for vertical movement of the hollow rod are sequentially installed, consisting of a cylindrical body with two symmetrically made slotted windows, covers are placed on the ends of the cylindrical body, a running unit is installed in the upper cover, including a sleeve bearing equipped with an internal thread, a flywheel, a key, a lock nut, a stuffing box is installed in the bottom cover, including a flange, a push bushing, studs with nuts, stuffing box, inside the cylindrical body size There is still a retractable spindle equipped with a thread interacting with the thread of the sliding bearing of the running unit, a thrust bushing is installed on the lower part of the retractable spindle, between the retractable spindle and the hollow rod there is a pipe square, rigidly connected to them, and the pipe square is hydraulically communicated with the hollow rod, into the lateral the opening of the pipe square is a cylindrical pipe connected to the fluid supply unit, consisting of two shut-off valves connected in series and a detachable connection between them, while the hollow stem in its upper part is equipped with a stop made with it, the nozzle is installed coaxially with the hollow stem and in operating position protrudes into the gas pipeline cavity by an amount exceeding its thickness, but not more than two diameters of the hollow stem, the retractable spindle is located inside the cylindrical body with the ability to move, and the movement stroke of the retractable spindle is the same for all diameters of gas pipelines, and the shut-off valve is located located closer to the cylindrical body, it is equipped with an unloading device.

FIG. depicts a device for injection of liquid into a gas pipeline.

A device for injecting liquid into a gas pipeline consists of a cylindrical nozzle 1 rigidly fixed to the gas pipeline 2 perpendicular to its axis, inside the cylindrical nozzle 1 a hollow rod 3 is concentrically placed, equipped in the lower part with a removable nozzle 4 installed coaxially with a hollow rod 3 and made with it in one diametrical dimension.

The nozzle 4 is installed in the area of the working medium of the gas pipeline 2 with the possibility of supplying a liquid, for example, an inhibitor, to the pumped working medium, perpendicular to its flow in the upper part of the gas pipeline 2 and in the working position protrudes into the cavity of the gas pipeline 2 by an amount exceeding its thickness, but not more two diameters of hollow stem 3.

The hollow rod 3 is centered inside the cylindrical nozzle 1 by means of the sleeve 5, which further reduces the effect of bending forces acting on the hollow rod 3 from the working medium of the gas pipeline 2.

The upper end of the cylindrical nozzle 1 is equipped with a flange 6, on which shut-off valves 7 and a mechanism for vertical movement of the hollow rod are installed in series. The mechanism for vertical movement of the hollow rod consists of a cylindrical body 8 with two symmetrically made slotted windows 9. At the ends of the cylindrical body 8 there are upper 10 and lower 11 covers.

In the upper cover 10, a running unit is installed, including a sliding bearing 12 equipped with an internal thread, a key 13, a lock nut 14, a flywheel 15.

A stuffing box is installed in the bottom cover 11, which includes a flange 16, a pressure bushing 17, studs 18 with nuts 19, and a stuffing box packing 20.

Inside the cylindrical body 8, a retractable spindle 21 is placed with the possibility of movement by means of the interaction of its threaded part with the thread of the sliding bearing 12 of the running unit, while the movement of the retractable spindle 21 is the same for all diameters of gas pipelines 2.

The hollow rod 3 in its upper part is equipped with a stop 22, made integral with it, and a stop sleeve 23 is installed on the lower part of the sliding spindle 21.

Between the retractable spindle 21 and the hollow rod 3 there is a pipe elbow 24 rigidly connected to them, namely,

the lower end of the sliding spindle 21 and the upper end of the hollow rod 3 are rigidly connected by a pipe square 24, and the hollow rod 3 with the pipe square 24 is hydraulically connected.

A cylindrical pipe 25 is installed in the side opening of the pipe square 24, which is connected to the fluid supply unit, consisting of two sequentially installed shut-off valves 26, 27 and a detachable connection 28 between them, while the shut-off valve 26, located closer to the cylindrical body 8, is equipped with a relief valve. device 29.

A part of the fluid supply unit with a shut-off valve 27 and an inhibitor supply pipeline is stationary and does not change its coordinates.

Shut-off valve 26 with unloader 29 is a device for relieving pressure from the valve cavity and hollow stem 3 when the Device is in the position for injecting liquid into the gas pipeline 2 for the period of inspection or replacement of the nozzle 4, which affects the reliability and safety of the Device during its maintenance.

The device for injecting liquid into the gas pipeline works as follows.

The device for injecting liquid into the gas pipeline has two positions:

the first position is the main (working) position, when the shut-off valve 7 is in the "open" position: in this case, the hollow rod 3 is introduced until the stop 22 touches the flange 16 of the stuffing box assembly, and the nozzle 4 is located in the area of the working medium of the gas pipeline 2 by an amount exceeding it thickness, but not more than two diameters of the hollow rod 3 with the possibility of supplying a liquid, for example, an inhibitor, into the pumped medium perpendicular to its flow in the upper part of the gas pipeline 2;

the second position is upper, when the nozzle 4 is located above the shut-off element of the shut-off valve 7, and the thrust sleeve 23 abuts against the sliding bearing 12 of the running unit.

The supply of a liquid, for example, an inhibitor, to the gas pipeline 2 is carried out when the Device for injecting liquid into the gas pipeline is in the first position, as follows:

first, the shut-off valves 26, 27 are opened and the liquid under excess pressure greater than the pressure of the working medium pumped in the gas pipeline 2 through the pipe elbow 24 with the cylindrical nozzle 25 enters the hollow rod 3 and then into the nozzle 4, where it is sprayed into the pumped medium perpendicular to its flow in the upper part of the gas pipeline 2.

A liquid in a sprayed state under the action of inertial forces and its own gravity, passing through the layer of the pumped medium, completely mixes with it and performs its functions assigned to it.

To stop the supply of liquid to the pumped medium in the event of maintenance work or replacement of the nozzle 4 The device for injecting liquid into the gas pipeline is moved to the second position, while the shut-off valves 26, 27 are first closed, then the detachable connection 28 is disconnected, the rotation of the flywheel 15 is given a translational motion upwards by means of the sliding spindle 21 to the hollow rod 3 until the thrust sleeve 23 comes into contact with the sliding bearing 12 of the running unit. Then the shut-off valve 7 is moved to the "closed" position, the pressure is released from the cavity of the shut-off valve 7 cut off from the gas pipeline 2 and the hollow stem 3 by means of the unloading device 29 of the shut-off valve 26.

The pressure is released directly from the unloader 29 or through a hose (not shown in the figure) attached to the end of the unloader 29 into the atmosphere. Disconnecting the bottom cover 11 from the shut-off valve 7, remove the upper part of the Device for injecting liquid into the gas pipeline assembly, thereby providing access to the nozzle 4. After replacing or servicing the nozzle 4, install the disconnected part of the Device back to the shut-off valve 7 and transfer the Device to the operating position in reverse order, ensuring uninterrupted supply of the working medium through the gas pipeline 2.

The proposed design of the device for injection of liquid into the gas pipeline allows to simplify the design, reduce the metal consumption and increase the ease of maintenance due to the fact that a thrust sleeve is installed on the lower part of the sliding spindle, the nozzle is installed coaxially with the hollow rod and in the operating position protrudes into the cavity of the gas pipeline by no more than two diameters of a hollow rod with the possibility of supplying liquid, spraying and injecting into the pumped medium perpendicular to its flow in the upper part of the gas pipeline, which makes it possible to perform a Device for injecting liquid into a gas pipeline of the same size, with one stroke of the sliding spindle, only with a difference in the mating surface for pipelines of various the diameter of the cylindrical nozzle intended for the installation of the Device for injection of liquid into the gas pipeline on them, and also improves reliability and safety due to the use of a shut-off valve with an unloader device in the liquid supply unit.

Claims (4)

1. A device for injecting liquid into a gas pipeline, including a cylindrical nozzle rigidly fixed to the gas pipeline pipe perpendicular to its axis, a hollow rod is concentrically placed inside the cylindrical nozzle with a replaceable nozzle installed at the bottom end, while the hollow rod is centered inside the cylindrical nozzle by means of a sleeve, on the upper the end of the cylindrical nozzle has a flange on which shut-off valves and a mechanism for vertical movement of the hollow rod are installed in series, consisting of a cylindrical body with two symmetrically made slotted windows, covers are placed on the ends of the cylindrical body, a running unit is installed in the top cover, including a sliding bearing, equipped with an internal thread, flywheel, key, lock nut, a stuffing box is installed in the bottom cover, including a flange, a push bushing, studs with nuts, stuffing box, inside the cylindrical body there is a sliding spindle equipped with a thread, mutually acting with the thread of the sliding bearing of the running unit, a thrust bushing is installed on the lower part of the sliding spindle, a pipe elbow is placed between the sliding spindle and the hollow rod, rigidly connected to them, and the pipe elbow is hydraulically connected to the hollow rod, a cylindrical pipe is installed in the side hole of the pipe elbow, connected to a fluid supply unit consisting of two shut-off valves connected in series and a detachable connection between them, characterized in that the hollow rod in its upper part is equipped with a stop made with it at the same time, the nozzle is installed coaxially with the hollow rod and in the working position protrudes into the cavity of the gas pipeline by an amount exceeding its thickness, but not more than two diameters of the hollow rod. 2. The device according to claim 1, characterized in that the retractable spindle is displaced inside the cylindrical body, while the movement of the retractable spindle is the same for all diameters of gas pipelines. 3. The device according to claim. 1, characterized in that the shut-off valve located closer to the cylindrical body is equipped with an unloading device.

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