RU168710U1 - HYDRAULIC DRIVE BRAKE PUMP PUMP - Google Patents

Abstract

The proposed utility model "hydraulic drive of a sucker rod pump" is intended for use in pumping equipment for oil production from boreholes. The technical objective of the proposed solution is to expand the technical capabilities of the hydraulic drive by installing the shtagravychitel above the working cylinder and increase the ease of maintenance. For this, the hydraulic drive sucker rod the pump contains a hydraulic power station, a working cylinder, and the drive is equipped with a rotator, installed m above the piston of the working cylinder and the additional rod-shaft connected to it, while the rod rotator is equipped with a jet limiter in the form of a translational kinematic pair.

Description

The proposed utility model is intended for use in pumping equipment for oil production from boreholes.

The closest technical solution to the proposed design is a hydraulic drive sucker rod pump containing a hydraulic station, a working cylinder (RU 135735 U1, 12.20.2013).

The disadvantage of this design is the inability to install the stemmer due to the fact that access to the wellhead is difficult.

The technical objective of the proposed solution is to expand the technical capabilities of the hydraulic drive by installing the shtangovshchitel higher than the working cylinder and increasing ease of maintenance.

For this, the hydraulic drive of the sucker rod pump contains a hydraulic power station, a working cylinder, the drive being equipped with a shtag rotator installed above the piston of the working cylinder and an additional rod-shaft connected to it, while the shtag rotator is equipped with a reactive reversal limiter in the form of a translational kinematic pair.

A distinctive feature of the proposed device is that the drive is equipped with a rod rotor mounted above the piston of the working cylinder and an additional rod-shaft connected to it, while the rod rotor is equipped with a reactive reversal limiter in the form of a translational kinematic pair.

The essence of the technical solution is illustrated by drawings, where in FIG. 1 is a diagram of a hydraulic drive in which a guide in the form of a pipe is fixedly connected to the working cylinder parallel to its axis, and the slider is made in the form of a sleeve connected with the housing of the shtangovshchitel.

In FIG. 2 is a diagram of a hydraulic drive in which the guide is made in the form of a sleeve rigidly fixed to the working cylinder, and the slider is in the form of a pipe connected with the housing of the shtangovshchitel.

The hydraulic drive of the sucker rod pump, see FIG. 1, contains a hydraulic station with a tank 1, connected by a pressure pipe 2 with a working cylinder 3, the rod 4 of which is connected to the rod string 5. The hydraulic actuator is equipped with a rod-shaft 6, connected to the piston 7 and the rod rotator 8. The limiter of reactive rotation of the rod rotor 8 is made in the form progressive kinematic pair containing a guide and a slider. At the same time, the guide 9 in the form of a pipe is fixedly mounted on the working cylinder 3 parallel to the axis of the working cylinder 3, and the slider 10 in the form of a sleeve is fixed on the stand gear 8. Also, the cable drive of the stand gear 8 is installed in the form of a cable 11 in the form of a cable 11 fixed to the lever 12 of the stand gear 8 .

In FIG. 2 limiter reactive reversal of the barreler is made in the form of a translational kinematic pair containing a guide and a slider. In this case, the guide in the form of a sleeve 13 is mounted on the working cylinder 3, and the slider in the form of a pipe 14 is connected with the housing of the shtanglyazhitel 8. Also, the drive of the shtanglivatel in the form of a bracket 15, interacting with the lever 12 of the shtagrevatel 8 is installed on the hydraulic drive.

The operation of the device is as follows. The pump installation of the hydraulic station 1 through the pressure pipe 2 delivers the working fluid to the pressure rod cavity of the working cylinder 3. At the same time, the piston 7 is lifted, the rod 4 is retracted and the rod string 5 is lifted. Together with the piston 7, the rod-shaft 6 and the associated rotator are moved 8. In this case, the slider 10 of the drawer 8 moves along the guide 9, fixedly mounted parallel to the axis of the working cylinder. When reaching the upper position, the fluid supply to the pressure rod cavity of the working cylinder 3 by the hydraulic station 1 is stopped, the descent begins. During the descent, the weight of the rod string 5 squeezes the liquid from the pressure rod cavity of the working cylinder 3 into the hydraulic power station. Similar to the lift, the rod-shaft 6 and the associated rod 8 are released. At the end of the stroke, the rod 8 is actuated downward, the cable 11 is pulled and turns the rod 12 lever 8. In this case, the rod rotator rotates the rod-shaft 6, piston 7, rod connected in series 4 of the working cylinder 3 and the column of rods 5. The slider 10, being engaged with the guide 9, fixedly mounted parallel to the axis of the working cylinder 3, prevents the reactive rotation of the casing 8 in the opposite direction.

The operation of the device (see Fig. 2) is characterized in that the movement of the rod rotator 8 is carried out together with a slider fixed to it in the form of a pipe 14, which is meshed with a sleeve 13, fixed stationary on the working cylinder 3. The rod rotator 8 is actuated at the end downward movement when the lever 12 of the drawer 8 is turned away from interacting with the bracket 15. A slider in the form of a pipe 14 fixed to the drawer 8 is in engagement with the sleeve 13 fixedly fixed, which prevents a reactive turn of the drawer housing body 8 in the opposite direction.

Thus, the proposed device extends the technical capabilities of the hydraulic drive and increases ease of maintenance.

Claims (3)

1. A hydraulic actuator of a sucker rod pump containing a hydraulic power station, a working cylinder, characterized in that the actuator is equipped with a shank mounted above the piston of the working cylinder and connected to it by an additional shaft-shaft, while the shank is equipped with a reactive reversal limiter in the form of a translational kinematic pair. 2. The hydraulic drive according to claim 1, characterized in that the translational kinematic pair is made in the form of a guide and a slider, the guide being made in the form of a pipe fixedly connected to the working cylinder and mounted parallel to its axis, and the slider is made in the form of a sleeve connected with stemmer housing. 3. The hydraulic drive according to claim 1, characterized in that the translational kinematic pair is made in the form of a guide and a slider, moreover, the guide is made in the form of a sleeve mounted on the working cylinder, and the slider is in the form of a pipe connected to the housing of the shtangovraschitel.

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