RU91370U1 - CONNECTION ASSEMBLY FOR DOSING DEVICE LINE - Google Patents

Abstract

1. The connection node of the discharge line of the dosing device, comprising a housing and a locking device located in it, consisting of a seat with an axial channel, a shutter, a spring and means for adjusting the compression force of the spring, characterized in that the shutter contains a pusher with a tapered seating surface in contact in the extreme in the upper position with a saddle, and with a guide cylindrical element, cylindrical inserts made of corrosion-resistant material are installed in the passage channels of the housing, and a ball is located above the shutter aporny element with passage channels, wherein one channel is formed in a through ball valve element, and the other two shirts communicated with a passage, and formed perpendicularly to the first channel, providing the connection of two feed lines chemicals. ! 2. The node according to claim 1, characterized in that the conical groove is made on the housing, from the side opposite to the connection with the capillary pipeline, and the diameter of the cone corresponds to the inner diameter of the flange.

Description

The utility model relates to equipment of the oil industry, in particular, to means for connecting the injection line of a reagent dispenser to a capillary pipeline for supplying a chemical reagent to a predetermined interval of the well.

A device is known for supplying a reagent to a pipeline system [1], where a shut-off device is installed on the discharge line, made in the form of several consecutive check valves with spring-loaded shut-off bodies (balls).

The reliability of this device is ensured by the fact that during operation of the metering pump, at least one of the check valves will operate, so several installed valves increase the likelihood of a shutdown of the discharge line. Several installed check valves increase the cost of construction and complicate the process of servicing the device.

Closest to the claimed (prototype) is the node connecting the discharge line of the dosing device to the product pipeline [2]. The assembly includes a housing and a saddle with an axial channel located therein, a shutter made in the form of a sphere or ball, a spring mounted to interact with the shutter, and means for adjusting the compression force of the spring.

The dosing device supplies chemical reagents, which are often corrosive media, so there is a high probability of corrosion wear, removal of corrosion products and clogging of the shutter with an abrasive, which reduces the reliability of the unit. The implementation of the site of the corrosion-resistant material will significantly increase the cost of the product.

The objective of the utility model is to increase the reliability of the connection unit of the discharge line of the metering device and, thereby, increase the reliability of the metering device, as well as the stability of the supply of the chemical reagent.

The problem is solved in that the connection unit of the discharge line of the dosing device includes a housing and a locking device located therein, consisting of a seat with an axial channel, a shutter, a spring and means for adjusting the compression force of the spring. The shutter comprises a pusher with a conical seating surface in contact with the seat in its highest position and equipped with a guide cylindrical element. In the passage channels of the housing, cylindrical inserts of corrosion-resistant material are installed. Above the shutter is a ball locking element with passage channels. One channel is made through on the ball locking element, and two other channels communicated with through are made perpendicular to the first channel. A guide conical groove is made on the assembly’s body, opposite to the connection with the capillary pipeline, and the diameter of the cone corresponds to the inner diameter of the flange.

In FIG. the claimed connection unit for the discharge line of the dosing device, consisting of a housing 7, in which a locking device 2 is installed, comprising: a seat 3, a valve 4, a spring 5, means for adjusting the compression force of the spring 6. the valve 4 contains a pusher 7 with a tapered seating surface and a cylindrical guiding element 8. In the passageways of the housing 1, cylindrical inserts 9 of a corrosion-resistant material are installed. An opening 10 is made in the assembly’s body with a conical guide groove 11. The ball locking element 12 includes a ball element 13 and an adjustment valve 14.

The proposed site operates as follows. The assembly is mounted on the discharge line of the dosing device - a ball locking element is attached to the discharge line of the dosing device. On the other hand, a capillary pipe 15 is attached to the assembly using a threaded connection. During the operation of the metering device, the shutter 4 prevents the reagent from returning to the metering device. The pusher 7 with the guiding cylindrical element 8 allows you to push corrosion products (abrasive), as a result of which no sediment forms on the seat 3, and the conical seating surface of the pusher 7 fits snugly on the seat 3. Cylindrical inserts 9 made of corrosion-resistant material protect the assembly from corrosion wear, which increases the reliability of the site and prevents the entrainment of corrosion products together with the reagent in the capillary pipe 15 and further, for example, into the well.

An aperture 10 is made in the assembly’s body, which makes it possible to carry out technological operations at the well, such as flushing, level beat, etc. The hole 10 is made with a guide conical groove 11 (the diameter of the cone corresponds to the inner diameter of the flange 16), which allows the technological equipment to be easily introduced into the housing, eliminating its jam.

Ball locking element 12 with passage channels is attached to the locking device 2 by means of a thread. Using the control valve 14, the position of the ball element 13 changes, as a result of which the direction of movement of the reagent changes and it becomes possible to simultaneously connect two supply lines of a chemical reagent. In FIG. there is a section AA, which shows possible options for the position of valve 14. In position 1, two inhibitors are simultaneously fed, since both channels are open. In position 2, one of the channels is blocked, and the inhibitor is supplied in only one line. In position 3, another channel is blocked, and another chemical reagent enters the device.

Thus, the proposed design ensures the reliability of the connection node of the injection line of the dosing device and the stable supply of the chemical reagent with the possibility of simultaneously connecting two supply lines, greatly simplifies the process of supplying the chemical reagent to the well, and the node itself has increased resistance to aggressive environments.

Information sources:

1. Patent No. 76066 of the Russian Federation, ЕВВ 37/06, 2008.

2. Patent No. 64684 of the Russian Federation, ЕВВ 37/06, 2007.

Claims (2)

1. The connection node of the discharge line of the dosing device, comprising a housing and a locking device located in it, consisting of a seat with an axial channel, a shutter, a spring and means for adjusting the compression force of the spring, characterized in that the shutter contains a pusher with a tapered seating surface in contact in the extreme in the upper position with a saddle, and with a guide cylindrical element, cylindrical inserts made of corrosion-resistant material are installed in the passage channels of the housing, and a ball is located above the shutter aporny element with passage channels, wherein one channel is formed in a through ball valve element, and the other two shirts communicated with a passage, and formed perpendicularly to the first channel, providing the connection of two feed lines chemicals. 2. The assembly according to claim 1, characterized in that the conical groove is made on the housing, from the side opposite to the connection with the capillary pipeline, and the diameter of the cone corresponds to the inner diameter of the flange.