RU111246U1 - DEVICE FOR LIQUID INJECTION IN A GAS PIPELINE - Google Patents

Abstract

 A device for injecting liquid into a gas pipeline, including a cylindrical nozzle rigidly mounted on the gas pipe perpendicular to its axis, a hollow rod concentrically placed inside the cylindrical nozzle with a replaceable nozzle mounted on the lower end, while the hollow rod is centered inside the cylindrical nozzle by means of a sleeve, on the upper end of the cylindrical the pipe has a flange on which shutoff valves and a mechanism for vertical movement of the hollow rod, consisting of cylines, are installed case with two symmetrically made slotted windows, covers are placed on the ends of the cylindrical case, a travel assembly is installed in the upper cover, including a sliding bearing provided with an internal thread, a flywheel, a key, a lock nut, a stuffing box is included in the lower cover, including a flange, a pressure sleeve, studs with nuts, stuffing box, inside the cylindrical housing there is a retractable spindle equipped with a thread interacting with the thread of the sliding bearing of the running unit, on the lower part a movable spindle, a removable travel stop is fixed, a pipe elbow is mounted between the sliding spindle and the hollow rod, rigidly connected to them, and the pipe elbow is connected hydraulically to the hollow rod, a cylindrical pipe is installed in the lateral hole of the pipe elbow connected to the fluid supply unit, which consists of two series connected shut-off valves and detachable connection between them.

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 formation 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, adopted for the prototype (RF patent No. 13916), comprising a block box for pumping the inhibitor and an inhibitor inlet into the gas pipeline, including a valve installed on the gas pipeline perpendicular to its axis, a nozzle vertical displacement assembly, mounted on it and containing a cylindrical body, inside of which a hollow rod with a nozzle is installed, the upper part of the rod is threaded and is connected to the threaded connection of the flywheel head, through which lowering and raising the nozzle through the valve into the cavity of the gas pipeline or from it, in addition, on the threaded part of the rod protruding from the node for the vertical movement of the nozzle, a restrictive nut is installed. The pressure line of the blocking box of the pump inhibitor is connected by a flexible pipe to the hollow rod of the unit for the vertical movement of the nozzle.

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

The technical result of the claimed utility model is to increase the reliability, safety and ease of maintenance of the device.

The technical result is achieved by the fact that the device for injecting liquid into the gas pipeline includes a cylindrical nozzle rigidly mounted on the gas pipe perpendicular to its axis, a hollow rod with a replaceable nozzle mounted on the lower end is concentrically placed inside the cylindrical nozzle, while the hollow rod is centered inside the cylindrical nozzle by bushings, on the upper end of the cylindrical nozzle there is a flange on which shutoff valves and a vertical mechanism are sequentially installed the movement of the hollow rod, consisting of a cylindrical body with two symmetrically made slotted windows, covers are placed on the ends of the cylindrical body, a travel assembly is installed in the upper cover, including a sliding bearing provided with an internal thread, a key, a lock nut, a flywheel, a stuffing box is installed in the lower cover including flange, push sleeve, studs with nuts, stuffing box, a retractable spindle equipped with a thread interacting with the thread is placed inside the cylindrical body a sliding bearing of the running unit, a removable travel stop is fixed on the lower part of the sliding spindle, a pipe elbow is mounted rigidly connected to them between the extending spindle and the hollow rod, and the pipe elbow is connected hydraulically to the hollow rod, a cylindrical pipe is connected to the lateral hole of the pipe elbow fluid supply unit, consisting of two series-connected shut-off valves and a detachable connection between them.

In FIG. shows a device for injecting liquid into a gas pipeline.

A device for injecting liquid into a gas pipeline consists of a cylindrical pipe 1 rigidly fixed to the gas pipeline 2 perpendicular to its axis. Inside the cylindrical pipe 1, a hollow rod 3 is concentrically placed, provided at the bottom with a removable nozzle 4 made in one diametric size, while the hollow rod 3 is centered inside the pipe 1 by means of a 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 pipe 1 is equipped with a flange 6, on which shut-off valves 7 and the mechanism for the vertical movement of the hollow rod 8 are sequentially installed. Nogo move the hollow stem 8 comprises a cylindrical body 9 with two symmetrically made slotted windows 10. At the ends of the cylindrical body 9 has an upper 11 and lower 12 cover. In the upper cover 11, a running assembly 13 is installed, including a sliding bearing 14 with an internal thread, a key 15, a lock nut 16, a flywheel 17. Inside the cylindrical housing 9, the sliding spindle 18 is moved by the interaction of its threaded portion with the thread of the sliding bearing 14 of the running assembly 13. In the lower cover 12 is equipped with a stuffing box 19, which includes a flange 20, a pressure sleeve 21, studs 22 with nuts 23, stuffing box 24. A removable travel stop 30 is fixed on the bottom of the drawer spindle 18. The lower end of the drawer spindle 18 and the upper end of the hollow rod 3 rigidly connected gon tube 25, the hollow rod 3 Pipe elbow 25 communicates hydraulically. A cylindrical pipe 26 is installed in the lateral hole of the pipe elbow 25, which is connected to a fluid supply unit consisting of two sequentially installed shut-off valves 27, 28 and a detachable connection 29 between them. Part of the fluid supply unit with the shutoff valve 28 and the inhibitor supply pipe is stationary and does not change its coordinates.

A device for injecting liquid into a gas pipeline works as follows.

The device for injecting liquid into the gas pipeline has three main positions: the first is the main (working), when the shutoff valve 7 is in the “open” position: while the hollow rod 3 is inserted all the way into the flange 19 of the stuffing box 18, and the nozzle 4 is placed in the zone the working environment of the gas pipeline 2; the second is intermediate, when the nozzle 4 is located above the shut-off element of the shut-off valve 7, and the travel stop 30 rests on the sliding bearing 14 of the running assembly 13; the third one is the upper one, when the shut-off valve 7 is in the “closed” position, the travel stop 30 is removed, while the hollow stem 3, together with the nozzle 4, is brought out, outside the stuffing box 19. The liquid is supplied to the gas pipeline when the device for injecting liquid into the gas pipeline is in the first position, as follows: first, the shut-off valves 27, 28 and the liquid open at an overpressure greater than the pressure of the working medium pumped in the gas pipeline 2, through the pipe angle 25 enters the hollow rod 3 and then into the force nku 4, where, spraying, is injected into the pumped medium. To carry out maintenance or replacement of the nozzle 4, the device for injecting liquid into the gas pipeline is moved to the second position, at that the shut-off valves 27 and 28 are first closed, then the detachable connection 29 is disconnected, rotation of the flywheel 17 gives translational upward movement by means of the sliding spindle 18 to the hollow stem 3 until the stroke limiter 30 is in contact with the sliding bearing 14 of the travel assembly 13. The stop valves 7 are then moved to the closed position, the stroke limiter 30 is removed and then turning the flywheel 17, output the first rod 3 together with the nozzle 4 to outside the packing assembly 19. After a replacement or servicing the injector 4 putting it in the working area of the pipeline 2 is carried out in reverse order. This ensures uninterrupted flow of the working medium through the gas pipeline.

The proposed design of a device for injecting liquid into a gas pipeline reduces the complexity of servicing or replacing the nozzle due to the fact that there is no need to disconnect the flange connection of the stop valves and the mechanism of vertical movement of the nozzle; improves reliability and safety through the use of a fluid supply unit with shut-off valves and a detachable connection between them.

Claims (1)

A device for injecting liquid into a gas pipeline, including a cylindrical nozzle rigidly mounted on the gas pipe perpendicular to its axis, a hollow rod concentrically placed inside the cylindrical nozzle with a replaceable nozzle mounted on the lower end, while the hollow rod is centered inside the cylindrical nozzle by means of a sleeve, on the upper end of the cylindrical a flange is placed on the nozzle, on which shutoff valves and a mechanism for vertical movement of the hollow rod, consisting of cylines, are installed case with two symmetrically made slotted windows, covers are placed on the ends of the cylindrical case, a travel assembly is installed in the upper cover, including a sliding bearing provided with an internal thread, a flywheel, a key, a lock nut, a stuffing box is included in the lower cover, including a flange, a pressure sleeve, studs with nuts, stuffing box, inside the cylindrical housing there is a retractable spindle equipped with a thread interacting with the thread of the sliding bearing of the running unit, on the lower part a movable spindle, a removable travel stop is fixed, a tube elbow is mounted rigidly connected to them between the extendable spindle and the hollow rod, the tube elbow is connected hydraulically to the hollow rod, a cylindrical nozzle is connected to the lateral hole of the tube elbow connected to the fluid supply unit, which consists of two series connected shut-off valves and detachable connection between them.