SU1617198A1 - Sucker-rod pumping unit - Google Patents

Abstract

The invention makes it possible to increase the efficiency in the operation of a downhole installation by more rational expenditure of the chemical agent (CA) by ensuring proportionality between the volumes of the CA dispensed and the pumped well fluid. A sucker-rod pump (H) 1 with a working pair of cylinder 2 - a hollow plunger 3 is installed on the column of pumping pipes, in which respectively suction and discharge valves 4, 5 are located. In the housing 6 below H 1 there is dispenser 7 XA, made in the form of connected between each other and installed one above another of the dosing plunger H 8, hydraulically communicated by the injection cavity 9 with the chamber 10 of the H 1 suction, and the container 11 XA. The container 11 is connected to the cylinder 12 H 8, the plunger to-rogo has a rod 14 with a limiter 15 mounted on it. The container 11 is made with inlet and outlet nozzles 18, 19. The rod 14 is equipped with a normally open disc valve 20, the saddle 21 of which is installed in the housing 6 with the formation of a hydraulic communication channel 22 of the cavity 9 with the chamber 10. The locking element 23 is made in the form of a disk 24 and mounted on the rod 14. The saddle 21 is provided with restraints 25, installed with the possibility of interaction with the element 23. 1 Il.

Description

The invention relates to an oil production technique, in particular, to well pumping sump units, and can be used in the oil industry in the operation of wells requiring the metered supply of paraffin formation inhibitors, scaling, corrosion, as well as demulsifiers and other chemicals.

The purpose of the invention is to increase the efficiency in operation by more rational consumption of the chemical agent by ensuring proportionality between the volumes of the chemical agent being metered and the pumped well fluid.

 The drawing schematically shows a General view of the downhole pumping unit.

A well pumping pump assembly contains a pump pump 1 mounted on a column of pumping pipes (not shown) with a working pair cylinder 2 - a hollow plunger 3 with suction 4 and pressure valve 5 located in the housing 6 under the rod pump located respectively in the cylinder 2 and the hollow plunger 3 1 chemical dispenser 7, made in the form of a metering plunger pump 8 connected with one another and installed one above the other, hydraulically communicated by its discharge 9 cavity with the suction chamber 10 of the sucker rod pump a 2 and a chemical container 11 connected to the cylinder 12 of the dosing plunger 8 pump, the plunger of which has a rod 14 with the stroke limiter 15 installed on it, as well as check valves 16 and 17 of the dosing plunger 8 pump, and the chemical container 11 is made with 18 inlet and outlet 19 nozzles. The stem 14 of the metering plunger pump 8 is additionally equipped with a normally open poppet valve 20, the seat 21 of which is installed in the housing b of the chemical agent dispenser 7 to form the hydraulic communication channel 22 of the discharge 9 of the cavity of the metering plunger pump 8 with the suction chamber 10 of the stamping pump 1, and the locking valve The ment 23 is made in the form of a disk 24 and is mounted on the rod 14 of the plunger 13 of the dosage pump. The seat 21 of the poppet valve 20 is equipped with additional limiters 25 that are installed with the ability to interact with the locking device 1 by the element 23. In the housing 6 below the restrictor 15 there are side channels 25 connecting the well bottom (not shown) with the suction chamber 10 of the sucker rod pump 1. The proposed borehole pumping unit operates as follows.

Before lowering the sucker rod t: acoc8 1 into the well, the dispenser 7 is filled with a chemical agent / attached to the suction chamber 10 of the heavy pump.

During the course of the hollow plunger 3 of the sucker rod; -; SCoca 1, the rzbo-a dispenser of the 7 xvtiv peareHTa dispenser is in contact with it. the borehole fluid through the suction chamber 10 and the fully open 4-valve. The fluid pressure in the sub-plunger cavity of cylindrical e 2 at this moment will be equal to the pressure corresponding to its dynamic level of fluid 8 of the well.

When down the hollow plunger 3 of the rod pump 1, the fluid pressure in the sub-plunger cavity of the cylinder 2 increases to a value corresponding to the hydrostatic pressure of the liquid column in the high-pressure tubing column. The suction valve 4 is closed, and the pressure valve 5 opens and the fluid from the sub-plunger cavity of the cylinder 2 of the sucker-rod pump 1 flows into its pre-plunger cavity (not shown) and further into the column of pumping pipes.

The plunger 13 of the metering plunger pump is driven by pressure drop. At the same time, the check valve 17 opens and the chemical through the axial channel (not labeled) of the plunger 13 is injected into the suction chamber 10 of the sucker-rod pump 1, where it mixes with the well fluid, the flow of which acts on the disc valve 20 in the form of a disk 24

In turn, when the sucker-rod pump 1 is operating, the well fluid through the side channels 25 fills the housing 6 and through the gap between the stem 14 and the seat 21 of the normally open valve 20, bending its closure element 23 in the form of a disk 24, is directed into the suction chamber 10 pump 1.

Claims (1)

Invention Formula A well pumping unit containing a pumping pump mounted on the pumping tube with a working pair of cylinder-hollow plunger and located respectively in the cylinder and the hollow plunger with suction and discharge valves placed in the housing under the rod pump chemical agent dispenser made in the form of self-installed and one above each other dosing plunger pump, hydraulically: self-pressurized discharge cavity with suction chamber of the sucker-rod pump, and chemical reagent container a connected to the cylinder of a metering plunger pump, the plunger of which has a rod with a stop limiter installed on it, as well as check valves of the metering pump, the chemical container being made with inlet and outlet pipes, characterized in that, in order to increase the efficiency by a more rational expenditure of X1.. of the reagent by ensuring proportionality between the volumes of the chemical agent being metered and the pumped downhole fluid, the rod of the metering plunger pump additionally tion is equipped with a normally open; a poppet valve, the saddle of which is installed in the 3 case of the dispenser with the formation of a hydraulic communication channel of the discharge cavity of the metering pump with the chamber of the withdrawal of the sucker-rod pump, and the locking element is made in the form of a disk and mounted on the plunger rod, and the seat is equipped with additional limiters installed with the ability to interact with the locking element.