SU1298326A1 - Motion converter for downhole mechanisms - Google Patents

Abstract

The invention relates to pump construction and allows for increased reliability of operation. The stop 12 is installed on the inner surface of the housing 1 with the ability to interact with the end surface (TP) 13 of the separator 4. Since TP 13 is profiled, the working body (PO) 8 will perform a reciprocating motion. Element 14 keeps PO 8 from spinning. The frequency of the reciprocating movement of the PO 8 depends on the speed of rotation of the separator 4 and on the number of periods of its profiled TP 13. 1 Cp f-ly, 2 ill. Go (X 00 oo ND Fy

Description

The invention relates to motion conversion devices for downhole mechanisms and can be used, in particular, in the design of a submersible well pumping pump.

The aim of the invention is to increase the reliability of operation.

FIG. 1 is a schematic diagram of a motion conversion device for downhole mechanisms; in fig. 2 separator in the form of glass with longitudinal Yu grooves.

A motion conversion device for downhole mechanisms, such as a submersible pump, comprises a housing 1,

When the separator 4 rotates and taking into account the fact that the grooves 5 of the separator 4 are inclined at an angle to the longitudinal axis of the separator 4, the end surface 13 of the separator 4 will be constantly pressed against the stop 12 fixed in the housing 1.

Since the end surface 13 of the separator 4 is made profiled, the working body 8 of the mechanism reciprocates.

The transfer of rotational movement from the separator 4 to the working body 8 (piston pusher) is excluded as a result of using a two-way thrust bearing 15 and the holding element 14 to the inside of which the driving shaft 2jj of the barrel body 8 is turned from turning.

with the formation between them of the annular gap 3, in which is placed the separator 4 in the form of a glass with longitudinal grooves 5 (Fig. 2), rigidly connected by the bottom 6 with the driven shaft 7, to which is connected

The frequency of the reciprocating movement of the working body 8 depends on the speed of rotation of the separator 4 (which in turn depends on the speed of rotation of the driving shaft 2 and the number of periods

The working body 8 (for example, a pusher on 20 sinusoidal treadmills 9 and 10) coca) mechanism. From the number of periods of the shaped torus facing one surface of the body 1 and the drive shaft 2, sinusoidal treadmills 9 and 10 are made, in which placed in the grooves 5 of the separator 4 ball satellites 11.

The driven shaft 7 is connected to the housing 1 through a power interaction element, made in the form of a stop 12 mounted on the inner surface of the housing 1 with the possibility of interaction with the end surface 13 of the separator 4, made profiled.

The longitudinal grooves 5 of the separator are inclined at an angle to the longitudinal axis of the separator 4, and the shaft 7 is connected to the working body 8 of the mechanism through the element 14 of keeping the working body 8 from turning (for example, a key).

Communication of the driven shaft 7 with a working organ25

thirty

35

Separator surface 4.

The implementation of a motion conversion device for downhole mechanisms with a force interaction element, performed in the form of a profiled end surface of the separator, interacting with an abutment fixed in the housing, while constantly pressing it as a result of tilting the separator longitudinal grooves to its longitudinal axis instead of a compression spring provides a significant improving the reliability of the device with a limited well size.

Claims (2)

1. A motion conversion device for downhole mechanisms, for example, a submersible pump, comprising a housing within which a drive shaft is located to form between them an annular 45 Mr. 8 can be carried out with the use of the gap in which the separator is placed in the form of a glass with longitudinal grooves, rigidly connected by a bottom with a driven shaft, to which the working body of the mechanism is connected, while on sinusoidal treadmills facing each other facing the casing and drive shaft, and the driven satellites placed in the slots of the separator the shaft is connected to the housing through a power interaction element with the possibility of its axial movement, characterized in that, in order to increase the reliability of operation, the power interaction element is designed as an emphasis a, mounted on the inner surface of the housing with the possibility of interaction of the two-row thrust bearing 15. Sinusoidal treadmills 9 and 10 can be performed not directly on the drive shaft and the housing 1, but on the sleeves 16 and 17 rigidly connected with them. A motion conversion device for downhole mechanisms operates as follows. When rotating, for example, the shaft of a submersible electric motor of a submersible pump (not shown) rotates together with it a rigidly connected drive shaft 2, as well as sleeves 16. Rotation from sleeve 16 is transmitted to 50 spherical satellites 11, which are inter-55 with the end surface of the separator, act with closed sinusoidal profiled, while tracks 9 and 10 of the sleeves 16 and 17 and the groove-longitudinal grooves of the separator are inclined mi 5 separator 4. at an angle to the longitudinal axis of the separator. When the separator 4 rotates and taking into account the fact that the grooves 5 of the separator 4 are inclined at an angle to the longitudinal axis of the separator 4, the end surface 13 of the separator 4 will be constantly pressed against the stop 12 fixed in the housing 1. Since the end surface 13 of the separator 4 is made profiled, the working body 8 of the mechanism reciprocates. The transfer of rotational movement from the separator 4 to the working body 8 (piston pusher) is excluded as a result of using a two-way thrust support 15 and the working member 8 to prevent the working body 8 from being turned. barrel 8 from cranking. The frequency of the reciprocating movement of the working body 8 depends on the speed of rotation of the separator 4 (which in turn depends on the speed of rotation of the driving shaft 2 and the number of periods sinusoidal racetracks 9 and 10) and on the number of periods of the profiled torus Separator surface 4. The implementation of a motion conversion device for downhole mechanisms with a force interaction element, performed in the form of a profiled end surface of the separator, interacting with an abutment fixed in the housing, while constantly pressing it as a result of tilting the separator longitudinal grooves to its longitudinal axis instead of a compression spring provides a significant improving the reliability of the device with a limited well size. Invention Formula 1. A motion conversion device for downhole mechanisms, for example, a submersible pump, comprising a housing within which a drive shaft is located to form between them an annular the gap in which the separator is placed in and the driven shaft is connected to the working body of the mechanism through an additionally installed element for holding the working body from turning. 2. A device according to claim 1, characterized in that the longitudinal grooves of the separator are inclined to the longitudinal axis of the separator at an angle of 3-6 °. 4sh2 .g