RU207404U1 - A device for supplying a reagent to a pipeline fluid - Google Patents

Abstract

The proposal relates to the oil and gas industry, namely to devices for supplying a liquid reagent to a fluid pumped through a pipeline under pressure. in the body, connected to the pipeline, and installed in the pipeline using a hollow rod, which is in communication with the supply pipeline. The nozzle is made in the form of an oblique cut of the lower part of the stem directed along the flow in the pipeline. The stem is provided with a thread on the outside, above which it is provided with a seal. The body is equipped with a central channel for sealing with a stem seal, with a lower thread for the stem thread. The stem is fitted from above with a thread for connection with a regulating head with a longitudinal cavity communicated by a side outlet with a supply pipeline. Below the lateral outlet inside the regulating head, a lock rod saddle is made, hermetically inserted from above into the cavity of the regulating head and equipped with a thread to interact with the internal thread of the cavity for longitudinal movement during opening or closing of the saddle when rotating with the upper pin. The pin is connected with the possibility of longitudinal movement with a rotating knob, fixed against falling out at the end of the regulating head. The proposed device for supplying the reagent to the pipeline fluid is simple and reliable, since it consists of unified, simple parts fixed during operation, which can be used for different standard sizes diameter of the pipeline with any depth of installation of the stem inside. 1 wp f-ly, 3 dwg

Description

The proposal relates to the oil and gas industry, namely to devices for supplying a liquid reagent to a fluid pumped through a pipeline under pressure.

Known dispenser of liquid reagents (patent SU No. 348231, IPC B01J 4/02, B03D 1/14, publ. 08/23/1972 Bull. No. 25), including a container with a needle valve, and the needle valve is installed on the discharge pipe, inside which is mounted a diffusion a device made in the form of petals that regulate the position of the valve depending on the amount of mineral suspension entering the enrichment apparatus.

The disadvantages of this dispenser are the complexity of the manufacture and regulation of internal petals, which quickly fail in a fast-flowing and aggressive environment, reducing reliability, and if the petals fail, it is necessary to remove the pipe section for replacement, which requires stopping the pumping through the pipeline for a long time, and all structural elements are individual for each standard size of the pipeline, which requires a large number of spare parts for repair and maintenance.

The closest is a device for placing an element for pumping liquid in a pipeline (patent RU No. 2460934, IPC F17D 01/14, publ. 09/10/2012 Bull. No. 25), which includes a mounting pipe installed in series on the pipeline with or without a guide, a shut-off fittings, a chamber with an element for pumping liquid mounted in it, connected through a gland with a lifting and lowering mechanism, a fitting connected to the chamber, and the lower section of the chamber is reconstructed into an area with sealing boundaries made of elastic waterproofing material, tightly adhering to the lateral surface of the element for pumping liquid, which serves to form a liquid into the flow, which, when the device is operating, is pumped through the fitting and the element for pumping the liquid, which excludes the mixing of this flow with the pipeline liquid, which is not passed (not pumped) through the element for pumping the liquid, and the mounting branch pipe with a guide or without directing it is carried out from the condition of contact with the inner surface of the mounting nozzle or a guide installed on it at least at three levels.

The disadvantages of this dispenser are the complexity of manufacture, large weight and dimensions and low reliability associated with a large number of precisely adjusted and spaced along the length of the body of elements with a movable element for pumping liquid, and all structural elements are individual for each standard size of the pipeline, which requires a large number of spare parts for repair and maintenance.

The closest in technical essence is a device for aerosol inhibition of a liquid gas pipeline (patent for PM RU No. 13916, IPC F17D 1/05, C23F 11/02, publ. 06/10/2000 Bull. No. 16), containing a container for storing the inhibitor, a dosing pump , filter and nozzle, and it is equipped with a unit for vertical movement of the nozzle installed on the gas pipeline, made in the form of a cylindrical body with a hollow rod located in it, the upper threaded part of which is connected to the flywheel, and the lower part is connected to the nozzle, while the metering pump connected to the hollow rod by a flexible pipeline, and the lower part of the cylindrical body through a valve is connected to the gas pipeline.

The disadvantages of this dispenser are the complexity of manufacture, large weight and dimensions and low reliability associated with a large number of precisely adjusted and spaced along the length of the body of elements with a movable rod, which requires a large number of spare parts for repair and maintenance.

The technical problem of the proposed utility model is to create a simple and reliable design of a device for supplying a reagent to a pipeline fluid.

The technical problem is solved by a device for supplying a reagent to a pipeline fluid, including a container for storing a reagent, a dosing pump with a supply line supplying the reagent and a nozzle located in a housing connected to the pipeline and installed in the pipeline using a hollow rod, which is communicated with the supply pipeline.

The novelty is that the nozzle is made in the form of an oblique cut of the lower part of the stem directed along the flow in the pipeline, the stem is equipped with a thread on the outside, above which it is equipped with a seal, and the body is equipped with a central channel for sealing with a stem seal, with a lower thread for the stem thread, which from above it is equipped with a thread for connection with a regulating head with a longitudinal cavity communicated by a lateral outlet with a supply pipeline, below the lateral outlet, inside the regulating head, a saddle of a locking rod is made, hermetically inserted from above into the cavity of the regulating head and equipped with a thread to interact with the internal thread of the cavity for longitudinal movement in the time of opening or closing the saddle during rotation with the help of the upper pin, which is connected with the possibility of longitudinal movement with a rotating knob, fixed against falling out at the end of the adjusting head.

What is also new is that the side outlet is removable with a calibrated longitudinal bore.

FIG. 1 shows the device in isometric view.

FIG. 2 shows the device from the front in longitudinal section.

FIG. 3 shows the device from the side in longitudinal section.

The device for supplying the reagent to the pipeline fluid (not shown) includes a container for storing the reagent, a metering pump with a reagent supply line (not shown) and a nozzle 1 (Fig. 1) located in the housing 2 connected to the pipeline and installed in pipeline using a hollow rod 3, which is communicated with the supply pipeline. The nozzle 1 is made in the form of an oblique cut of the lower part of the rod 3, directed along the flow in the pipeline. The stem 3 (Fig. 2 and 3) is equipped with a thread 4 on the outside, above which it is equipped with a seal 5. The body 2 (Fig. 3) is equipped with a central channel 6, for sealing with a seal 5 of the stem 3, with a lower thread 7 for the thread 4 of the stem 3. The stem 3 from above is equipped with a thread 8 for connection with a regulating head 9. The regulating head 9 is equipped with a longitudinal cavity 10 communicated with a side outlet 11 with a supply pipeline. Below the lateral outlet 11 in the cavity 10 of the control head, a saddle 12 of the locking rod 13 is made, hermetically inserted from above into the cavity 10 of the control head 9 and equipped with a thread 14 to interact with the internal thread 15 of the cavity 10 for longitudinal movement during the opening or overlap of the seat 12 when rotating with by means of the upper pin 16. The pin 16 is connected with the possibility of longitudinal movement with a rotating knob 17, fixed against falling out at the end of the adjusting head 9 (for example, screws 18 - Fig. 2, rolling, spring clips or the like - the latter is not shown). The pin 16 (Fig. 2) can be made cylindrical with flattened, square, rectangular, in the form of an asterisk, or the like, inserted into the corresponding hole 19 (Fig. 1 and 2) in the knob 17. If it is necessary to adjust the maximum flow rate of the reagent added to the flow of the pipeline, the side outlet 11 (Fig. 3) can be made replaceable with a calibrated longitudinal passage channel 20, the cross-section of which will limit the maximum flow rate of the reagent.

The device for supplying the reagent to the pipeline fluid works as follows.

At the installation site of the device in the pipeline, a special branch (not shown) with a connecting thread, flange or the like is hermetically fixed (by welding, clamping sleeve, etc.). Then the pipeline is opened and the outlet is sealed (with a plug with a valve, a ball valve, or the like - not shown). Before installing the device, a body 2 (Fig. 2) with a connecting thread 21, a flange (not shown) or the like is selected. for connection with a special tap. A rod 3 of the required length is inserted into the central channel 6 (Fig. 3) of the selected body 2 (selected in advance from the technological parameters of the most efficient supply of the reagent into the pipeline) with the nozzle 1 and twisted along the corresponding threads 4 and 7. The space of the central channel 6 is sealed with a seal 5 rod 3. From the side of the direction of the nozzle 1 on the rod 3 make a mark (not shown) with paint or a punch (not shown), or, to carry out the assembly so, the branch 11 and the position of the nozzle 1 had the same direction relative to the axis of the pipeline along the flow of the fluid. On the upper thread 8 of the rod 3, a hermetically sealed regulating head 9 is installed with a side outlet 11, a locking rod 13, hermetically installed in the cavity 10, and a knob 17, fixed from disconnection, for example, by screws 18 (Fig. 2). If necessary, the branch 11 (Fig. 3) with the required through passage 20 is installed in advance. By rotating the knob 17 (Fig. 1) with the help of the hole 19 interacting with the sliding fit with the pin 16 (Fig. 3), the locking rod 13 is rotated until it tightly interacts with the seat 14 using the counter threads 14 and 15, the locking rod 13 and the cavity 10 adjusting head 9, respectively. Then the body 2 is connected to a special pipeline branch, for example, using a thread 21 (Fig. 2), for which the body 2 (Fig. 1) can be equipped with a hexagon 22 for standard wrenches, technological protrusions (not shown) for a special tool, grooves (not shown) for wrenches or the like. By turning the rod 3 (Fig. 3) in the body 2 along the corresponding threads 4 and 7 to the lapel (no more than one turn to prevent complete unscrewing), the nozzle 1 is located in the direction of the fluid flow, for this, the mark on the rod 3 or the side outlet 11 is placed along the pipeline axis towards the outgoing flow. The side outlet 11 is connected to a supply pipeline, which is connected through a metering pump to a container for storing a reagent (for example, a corrosion inhibitor, a foam damper, or the like). Reverse rotation of the knob 17 (Fig. 3) and the locking rod 13 achieve its departure from the seat 14, opening the communication of the channel 20 of the outlet 11 through the channel 10, the seat 14 and the rod 3 with the nozzle 1 with the fluid medium of the pipeline. The metering pump is turned on and the reagent is supplied from the container through the supply pipeline through the device to the fluid medium (water, water-oil mixture, oil, etc.) of the pipeline. If it is necessary to change the metering pump and / or container, by rotating the knob 17 and the locking rod 13, the seat 14 is closed (without relieving the pressure in the pipeline), and after changing the seat 14 is again opened by removing the locking rod 13 from it.

It is also possible to use this device after tapping into a high-pressure pipeline inside a special branch using equipment for "cold" tapping (not shown - see patents RU No. 133246, 2155295, 2173809, 2221960 or the like), in which the cutting the tool (not shown) with a closed valve above a special branch is replaced with a body 2 (Fig. 3) with a rod 3 equipped with a regulating head 9 with a closed locking rod 13 with a seat 14. In this case, the hexagon 22 or the technological protrusions of the body 2 are joined for rotation with a rotating head (not shown) of cold tapping equipment. After that, the equipment for cold tapping seals the valve completely, open it completely and, using a feeder (not shown) of this equipment, insert the body 2 (Fig. 2) inside a special outlet with an internal thread, in which the body 2 is hermetically fixed by rotation using, for example, thread 21 , which is determined by the absence of leakage from a special outlet (not shown) of the sealed housing in the equipment for "cold" tapping. After that, the equipment for cold tapping is removed, and the body 2 with the rod 3 and the adjusting head 9 remains on a special branch of the pipeline. Above the regulating head 9, a knob 17 is installed, fixed with screws 18, the hole 19 of which is aligned with the pin 16 of the locking rod 13 (Fig. 2). A branch 11 with a channel 20 is connected from the side to the regulating head 9. By turning the rod 3 in the housing 2, the nozzle 1 is positioned in the direction of the fluid flow, for this, the mark on the rod 3 or the side branch 11 is positioned along the pipeline axis towards the outgoing flow. The side outlet 11 is connected to a supply pipeline, which is connected through a metering pump to a container for storing a reagent (for example, a corrosion inhibitor, a foam damper, or the like). Then the device works in the same way as described above.

The authors do not pretend to technology and equipment for "cold" tapping into the pipeline.

This design of the device for supplying the reagent to the fluid of the pipeline makes it possible to manufacture several bodies 2 (Fig. 2) with connecting and sealing elements (for example, thread 21) for use for all types of special pipelines used for all types of special pipelines used, but each with the same central channel 6 and internal thread 7. In this case, you can use the same (unified) rods 3 (Fig. 3) and a regulating head 9 with a side outlet 11, a locking rod 13 and a knob 17, which greatly simplifies the manufacture, repair and maintenance of the device as a whole. The length of the rod 3 can be adjusted using its lower part in the form of a branch pipe 23 of the required length with a nozzle 1 (an oblique cut is easy to make), which is pressed in, welded or glued to the upper part of this rod 3 (the authors do not pretend to be).

The proposed device for supplying the reagent to the pipeline fluid is simple and reliable, since it consists of unified, simple, fixed during operation parts that can be used for different standard sizes of the pipeline diameter with any depth of installation of the stem inside.

Claims (2)

1. A device for supplying a reagent to a pipeline fluid, including a nozzle located in a housing connected to the pipeline and installed in the pipeline using a hollow rod, which is in communication with the supply pipeline, characterized in that the nozzle is made in the form of an oblique cut of the lower part of the rod, directed downstream in the pipeline, the stem is equipped with a thread on the outside, above which it is equipped with a seal, and the body is equipped with a central channel for sealing with a stem seal, with a lower thread for the stem thread, which is equipped on top with a thread for connection with a regulating head with a longitudinal cavity communicated by a side outlet with a supply pipeline, below the lateral outlet inside the regulating head, a saddle of the locking rod is made, hermetically inserted from above into the cavity of the regulating head and equipped with a thread to interact with the internal thread of the cavity for longitudinal movement during opening or closing of the saddle when rotating with the upper pin, which is connected with the possibility of longitudinal movement with a rotating knob, fixed against falling out at the end of the adjusting head. 2. The device for supplying the reagent to the pipeline fluid according to. 1, characterized in that the lateral outlet is removable with a calibrated longitudinal bore.

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