RU2347946C1 - Rod pump group drive - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: invention relates to oil production and can be used in cluster well operation using rod pumps. The rod pump cluster drive comprises a motor, a reduction gear with a crank and counterweight, posts with guide pulleys, rope suspensions with fasteners and mouth sealers. The proposed drive is furnished with dynamic load killer representing a two-arm lever running free on the shaft fitted on the crank. Note the mouth sealers are set inside the hole and represent tight pairs "long cylinder - short con rod" with diameters not less than those of the working pump.

EFFECT: higher serviceability due to killing dynamic loads, smaller sizes metal content ensured by reduced overall dimensions of guide pulley posts and drive base.

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Description

The invention relates to techniques for oil production and can be used in the operation of cluster wells with rod pumps.

A known drive mounted on a foundation and containing a frame, a rack, a balancer with a head, a rope suspension, a roller assembly for attaching a rope suspension, a pulley (Aut. St. USSR 682668, ЕВВ 47/02, 1979). The disadvantage of this drive is the inability to operate wells located at a distance greater than the diameter of the pulley, as well as the rigid transmission of dynamic loads from one rod column to another and to the gearbox.

A well-known group drive of sucker-rod pumps, including a motor, gearbox, balancer, guide pulleys mounted on a rack with a base, two rope suspensions connecting the balancer with wellhead rods, each of which includes two ropes and an attachment unit for the wellhead rod (Aliverdizade K.S. Drives sucker rod pump. - M .: Nedra, 1973). The disadvantage of this design is the impossibility of operating wells located at different distances between the mouths from each other, as well as the rigid transfer of dynamic loads from one column of rods to another and to the gearbox.

The closest technical solution (prototype) is a group drive of sucker-rod pumps, which includes an engine, a gearbox with a crank and a counterweight placed on a two-arm guide mounted perpendicular to the crank at the end of the driven shaft opposite to the place of installation of the crank, racks with guide pulleys and rope suspensions with attachment points mounted on a crank. (Aut. St. RF 2118709, class 6 В 47/02, bull. No. 25 of 09/10/98).

The disadvantages of this group drive are large dimensions and metal consumption, due to the presence of high racks for guide pulleys in the design, as well as the rigid transfer of dynamic loads from one rod column to another and to the gearbox.

An object of the invention is to increase the operability of the drive by damping dynamic loads, reducing the dimensions of the drive and metal consumption by reducing the dimensions of the racks of the guide pulleys and the base of the drive.

The objective is achieved by the fact that the well-known group drive of sucker-rod pumps, including an engine, a gearbox with a crank and a counterweight, racks with guide pulleys, rope suspensions with attachment points and wellhead seals, according to the invention is equipped with a dynamic load damper, which is made in the form of a two-arm lever that rotates freely on the axis mounted on the crank, and wellhead seals are placed inside the wells and are made in the form of tight pairs “long cylinder - short rod” with diameters not less than the diameters working pumps.

The drawing shows a group drive sucker rod pumps.

A group drive of sucker-rod pumps consists of an engine 1, a gearbox 2, a crank 3 mounted on one of the ends of the driven shaft 4 of the gearbox 2, a damper 5, guide pulleys 6 and 7, flexible links 8 and 9, which connect the short rods 10 and 11 to the damper 5, which is mounted on the axis 12 with the possibility of free rotation on the crank 3. The short rods 10 and 11 are placed inside the long cylinders 13 and 14, provided with holes 15 and 16, and fixed in the sealed supports 17 and 18 of the holders 19 and 20, suspended on the plates 21 and 22. To the short rods 10 and 11 the rod columns 23 and 24 with the working pumps 25 and 26 are provided. At the second end of the driven shaft 4 of the gearbox 2 there is a two-arm rail 27 on which the counterweight 28 is placed.

Group drive operates as follows.

The rotation from the engine 1 is transmitted to the gearbox 2 and then to the crank 3. When the crank 3 is rotated, one of the rod columns, for example 23, with a short rod and a plunger of the working pump moves up and the other down. In the well, where the column of rods 23 moves downward, the fluid is supplied through the holes 15 in the long cylinder 13 to the injection line, without falling onto the day surface due to the tight connection of the short rod 10 with the long cylinder 13 and the long cylinder 13 with the holder 19 by means of an airtight support 17 The corresponding flexible link 8, due to the greater force in it than in the other flexible link 9, which provides a downward stroke, makes a straight line with the two-arm damper 5. When changing the ratio of forces in the flexible links 8 and 9 due to the dynamic components of the two shoulders, the lever rotates around the axis 12, giving this flexible link 9 with a greater load a certain free play, which reduces the magnitude and amplitude of the dynamic loads.

A positive effect during operation of the proposed variant of a group drive of sucker-rod pumps is achieved by damping the dynamic loads on the drive during operation and reducing the dimensions of the drive.

The present invention can be used in all cluster wells, regardless of the distance between the wells and the nature of the produced fluid.

Claims (1)

A group drive of sucker-rod pumps, including an engine, a gearbox with a crank and a counterweight, racks with guide pulleys and rope suspensions with attachment points, characterized in that it is equipped with a damper of dynamic loads, which is made in the form of a two-shouldered lever that rotates freely on an axis mounted on the crank and wellhead seals are located inside the wells and are made in the form of tight pairs “long cylinder - short rod” with diameters not less than the diameters of the working pumps.