RU2132969C1 - Water well pumping unit - Google Patents

Abstract

FIELD: water wells. SUBSTANCE: pumping unit has tubing string, ejector and centrifugal pumps, operation control device and dynamic level metering device. Ejector pump has radial intake channels. Control device is made in form of ring float and body with radial intake channels connected with float by tie-rods and installed for movement of ejector pump. It has ejector pump channel overlapping section and stops of positions with open and overlapped channels. EFFECT: provision of operation of pumping unit at optimum conditions with minimum energy losses. 5 cl, 1 dwg

Description

 The invention relates to inkjet and pumping technology, and relates mainly to pumping units for downhole water intake.

 Known borehole pumping unit for borehole intake containing a tubing string, a centrifugal pump and a device for regulating the operation of the installation (see Karelin V.Ya., Minaev A.V. Pumps and pumping stations. M .: Stroyizdat, 1986 p. 59 , fig. 2).

 In a known installation, the adjustment of the operating mode is carried out by changing the characteristics of the pump by the method of throttling the valve installed on the pressure line of the installation.

 The disadvantage of this regulation is uneconomical, because regulation is only possible in the direction of decreasing feed.

 Also known is a downhole pumping unit containing a tubing string and a jet pump mounted thereon with a receiving chamber and a bypass pipe and a centrifugal pump (see AS USSR N 1588924, MKI F 04 F 5/54).

 In a well-known installation during well development, the kill fluid pumped out by a centrifugal pump enters the tubing string through the jet pump and in parallel through the bypass pipe, which compensates for the hydraulic resistance created by the jet pump.

 However, the regulation of the operating mode is also carried out by a valve, which reduces the efficiency of the installation.

 The objective of the proposed invention is to increase efficiency by ensuring the operation of the installation in optimal mode and maintaining the energy balance, taking into account possible pressure drops in the systems of use of the installation.

 The problem is solved in that the device for regulating the operating mode of the installation is made in the form of an annular float movably mounted on the jet pump and connected to it by housing rods with radial receiving channels, a section of the receiving channel of the jet pump and stops for positions with open and closed channels.

 In addition, the means for measuring the dynamic level of the well are made in the form of a flexible measuring connection thrown through a guide roller mounted on the wellhead and connected at one end to an annular float and to the other with a counterweight.

 Also, the rods are rigidly connected to the body, and telescopically with the annular float, and the annular float is equipped with means for fixing on the rods.

 It is advisable that the means for fixing was made in the form of a ratchet mechanism, the rail of which is mounted on one of the rods.

 It is also advisable that the annular float was equipped with an additional housing for overlapping the receiving channels of the housing, and the dimensional flexible connection is equipped with a stop for contact with the limit switch of the centrifugal pump at the time of closing the receiving channels of the housing.

 The essence of the proposed invention is illustrated in the drawing.

 The installation comprises a column of tubing 1, a jet pump 2 with receiving radial channels 3, a centrifugal pump 4, a device for regulating the operating mode 5 and means for measuring the dynamic level of the well 6.

 A device for regulating the operating mode 5 is made in the form of a housing 7, an annular float 8 connected by rods 9, moreover, it is rigidly connected to the housing, and telescopically with the annular float. The housing 7 has radial receiving channels 10 and a section 11 for blocking the receiving channels 3 of the jet pump 2.

 The means for measuring the dynamic level of the well includes a flexible measuring connection 12, a counterweight 13, a guide roller 14.

 Rod 9 is equipped with an emphasis 15.

 The ring float 8 is equipped with a means 16 for fixing on the rods a position relative to the housing 7, which is made in the form of a ratchet mechanism with a dog 17 and a rail 18, which is made on one of the rods. The annular float 8 is equipped with an additional housing 19 for blocking the receiving channels 10 of the housing 7.

 At the wellhead, a limit switch 20 of the centrifugal pump 4 is installed at the level of the guide roller 14, and the dimensional connection is provided with a stop 21 to turn off the pump in the position corresponding to the overlapping of the channels 10 of the housing 7 with an additional housing 19.

 The housing 7 has stops 22, 23 for holding the housing in the open and closed channels 3 of the jet pump 2.

 Installation works as follows. The installation is lowered into the well under the calculated dynamic level, while the annular float 8 is in the upper position and the ratchet dog 16 is disengaged from the rack 18 and touches the stop 15, on the rods 9, the housing 7 is in the lower position and the channels 3, 10 disclosed (as shown in the drawing).

 After the descent, pump 4 is started, having previously excluded possible pressure drops, to establish the dynamic level of the well with a maximum flow rate and a minimum pressure of the system.

 During pumping, a gradual decrease in the level in the well will occur until a constant operating level is established corresponding to the maximum flow rate of the well, and the annular float 8 will move from the upper position to the position corresponding to the dynamic level, and the ratchet mechanism will fix this position on the rods 9 relative to the housing 7.

 After the dynamic level has been established, the installation is put into operation taking into account the pressure drops and the dynamic level, for example, when using the installation to supply water from the well to the storage tank, the dynamic level drops in the well and the pressure drops depend on the static level in the storage tank.

 It should be noted that the design dimensions of the annular float 8 are selected from the calculation of balancing the device 5, and the cross-sectional dimensions of the channels 3, 10 are selected taking into account changes in the dynamic level of the well with changes in pressure, i.e., the throughput of channels 3, 10 depends on the differences in the dynamic level.

 During long-term operation of the installation, the static and dynamic level of the well is naturally triggered, while the annular float 8 moves on the rods 9 to the next level relative to the housing 7 and is fixed with a ratchet mechanism in this position.

 After triggering the entire telescope stroke, the annular float 8 moves to its lowest position and the additional housing 19 overlaps the channels 10 of the housing 7, at which time the stop 21 finds itself on the limit switch 20 and turns off the centrifugal pump 4.

 Further operation of the installation is carried out after clarifying the flow rate, immersion depth, taking into account the flow rate and dynamic level of the well and replacing the replacement parts of the jet pump, and if necessary, replacing the centrifugal pump.

Claims (5)

 1. A downhole pump installation comprising a tubing string, a jet pump with radial receiving valves, a centrifugal pump, a device for regulating a plant operating mode and a means for measuring a dynamic level, characterized in that the device for regulating a plant operating mode is movable mounted on the jet pump of the annular float and the housing rods connected to it with radial receiving channels, the overlapping section of the receiving channels of the jet pump and stops for positions with open and closed receiving channels.  2. Installation according to claim 1, characterized in that the means for measuring the dynamic level of the well is made in the form of a flexible measuring connection thrown through a guide roller mounted on the wellhead and connected at one end to an annular float and to the other with a counterweight.  3. Installation according to claim 2, characterized in that the rods are rigidly connected to the housing, and telescopically with the annular float, and the annular float is equipped with fixation means on the rods.  4. Installation according to claim 3, characterized in that the means for fixing the annular float is made in the form of a ratchet mechanism, the rail of which is mounted on one of the rods.  5. Installation according to claim 4, characterized in that the annular float is provided with an additional housing for closing the receiving channels of the housing, and the flexible measuring connection is provided with a stop for contact with the limit switch of the centrifugal pump at the time of closing the receiving channels of the housing.