RU59693U1 - DEVICE FOR CENTERING DEVICES IN A WELL - Google Patents

Abstract

The utility model relates to the technique of oil and gas production and can be used when running geophysical instruments on a cable into a well for conducting geophysical surveys. A device for centering instruments in a well comprises a housing with a shank for attaching to the cable and with a socket for hanging the instruments, and a spring installed in the housing and centering it. As a centralizer, spring-loaded balls are installed located in the housing openings with degrees of freedom of rotation around their axes and return translational movement along the axis of these holes. Springs are installed in the indicated holes under the balls in contact with them. Achieved no wear and tear of the centralizer.

Description

The utility model relates to the technique of oil and gas production and can be used when lowering geophysical instruments on a cable into a well for conducting geophysical surveys.

There are various devices for centering instruments in the well in order to improve the quality and reliability of research results by geophysical instruments.

Known devices are rigid or elastic elements located on housings or devices (NN Krivko, VD Sharovarin, VN Shirokov. Field geophysical apparatus and equipment. M: Nedra, 1981, 280 s .; T.D. Dakh-Kilgov. Geophysical surveys in wells. M.: Nedra, 1982, 352 pp.)

There is also known a device for centering instruments in a well, adopted as a prototype, comprising a housing with a shank for attaching to the cable and with a socket for hanging the instruments, as well as a spring fixed in the housing and centering it (V.N. Vasilievsky, A.I. Petrov Technique and technology for determining the parameters of wells and reservoirs. M., 1989, S. 224-226, Fig. 91, 92).

The disadvantages of the prototype is that a spring of the type of long spring directly contacts the walls of the pipe when lowering and lifting devices into the well. This leads to rapid wear of the contact part of the leaf spring and, as a result, to spring breakdowns and to accidents.

The objective of the utility model is to eliminate these drawbacks.

The technical result achieved by using the proposed utility model is the absence of wear and breakage of the centralizer.

The specified technical result is achieved by the fact that in the device for centering the instruments in the well, comprising a housing with a shank for attaching to the cable and with a socket for hanging the instruments, as well as a spring installed in the housing and centering it, according to the utility model, spring-loaded devices are installed as a centralizer balls located in the radial holes of the housing with degrees of freedom of rotation around their axes and reciprocating movement along the axis of these holes, and the springs are installed in the indicated opening tii under the balls in contact with them.

Installation in the proposed device as a centralizer of spring-loaded balls with degrees of freedom of rotation around their axes ensures their contact with

the walls of the pipe, resulting in the movement of the device in the well balls rotate in all directions. In this case, the sliding friction of the leaf springs is replaced by rolling friction of the balls, as a result of which the friction forces are reduced hundreds of times. Thanks to this, the wear of the balls is also reduced hundreds of times, and they work for decades, practically without any wear that is noticeable to the eye. Almost without wear, the balls never collapse.

The fact that the balls are spring-loaded and located in the radial openings of the body with a degree of freedom of reciprocating movement along these openings makes it possible to drown or exit the ball on all protrusions and recesses on the walls of the pipes, which ensures the operability of the device in both prepared and unprepared pipes wells. In addition, adaptive balls tracking of irregularities on the inner surface of the pipes further reduces ball wear.

The location of the springs in the housing openings under the balls in contact with them provides, firstly, the balls adaptively track irregularities in the surface of the pipes due to the ability of the balls to compress the elastic springs in contact with them, returning the balls to their place as soon as the unevenness is passed; secondly, the springs are closed in the holes by balls and do not contact the internal surfaces of the pipes, as a result of which they do not wear out and do not break.

Thus, the planned technical result is achieved in full.

The proposed device is shown in the drawing, where Fig. 1 shows a cross section thereof, and Fig. 2 is a side view.

A device comprising a housing 1 with a shank 2 for attachment to a cable and with a socket 3 for hanging devices, as well as a spring 4 installed in the housing 1 and centering it. As a centralizer, spring-loaded balls 5 are installed, located in the radial holes 6 of the housing 1 with degrees of freedom of rotation around their axes and reciprocating movement along the axis 7 of the holes 6, and the springs 4 are installed in these holes 6 under the balls 5, in contact with them.

The device operates as follows.

Before starting work, the shank 2 is fixed in the cable head of the lift. Geophysical instruments are fixed in the socket 3, and the device is lowered into the well. In this case, the balls 5 compress the springs 4 by 3-5 mm. During the descent and lifting of the device, the balls 5 are in contact with the inner surface of the pipe in the well and roll on this surface, almost without wearing out. When any ball 5 enters the recess on the pipe surface, the spring 4 presses the ball 5 into the recess, and when exiting the recess

or in contact with a protruding irregularity, the ball compresses the spring 4. Thus, the balls 5 adaptively monitor the surface of the pipe and provide constant centering of the device with constant rolling friction of the balls 5. The rolling friction ensures almost no wear of the balls 5 and the complete absence of their destruction.

Located in the radial holes 6 of the housing 1, the springs 4, closed by balls 5, do not contact the surfaces of the pipes, and therefore do not wear out and do not break.

Claims (1)

A device for centering instruments in a well, comprising a housing with a shank for attaching to the cable and with a socket for hanging the instruments, as well as a spring installed in the housing and centering it, characterized in that spring-loaded balls located in the housing openings with degrees are installed as a centralizer freedom of rotation around its axes and reciprocating along the axis of these holes, and the springs are installed in these holes under the balls in contact with them.