SU581246A1 - Controllable hold-down device for down-the-hole instruments - Google Patents

Description

one

The invention relates to field geophysical surveys of squares.

A pressing device is known in which a set of spring-loaded springs l is used as a strength element.

A disadvantage of the known device is that in order to change the magnitude of the pressing force, it is necessary to rebuild the set of cup springs by changing the number of operating plates, for which complete disassembly of the device is necessary.

In addition, special equipment is needed to make a set of disc springs.

A device for testing formations is known, in which there is a controlled pressure device, the drive of which is made in the form of a spring-loaded rod connected to an electric motor through a screw pair of 2J.

In this device, the force with which the presser acts on the stack of a well or casing, and, consequently, the presser, is not constant, is not controlled, and depends on the amount of deformation of the spring of the spring-loaded rod. Constancy of the clamping force

. , /. , A well equipment to the well wall is a prerequisite for performing many geological and geophysical oggerations in the well, for example,

registration of pressure recovery curves, registration of density density diagrams, resistance curves for the rocks, porosity diagrams, as it affects the degree

contact of the sensor with the test medium and the conditions of the permeability of the wellbore.

The purpose of the invention is to provide

strny effort clamping the device to the borehole wall.

To achieve this goal, a device comprising a housing, a pressure lever and an actuator, which is made in

The form of a power rod connected to the engine through a screw pair is equipped with a drive switch, a movable spring-loaded support rigidly connected to it and a rod,

the latter is kinematically connected with a pull and adapted to interact with a drive switch located on a power rod.

The drawing shows the proposed

device.

In the housing 1 of the device is placed the electric motor 2 of the drive, which through the gearbox 3 and the screw pair 4 communicates the forward movement of the spring-loaded rod 5. The spring 6 rests on the piston of the rod 5, and the other end acts through the movable support 7 on the short arm 8 of the pressure lever 9. In a sealed The case of the body on the rod 5 is fixed limit switch 10 .. To turn it on and off the movable support 7 tons

11 is connected to the pusher 12, which is placed in the piston 13 and sealed with rubber rings. Due to the channel 14, which connects the cavity of the groove 15 of the pusher 12 with the well, and the equal area of the sections in contact with the well fluid, the pusher 12 is not exposed to external hydrostatic pressure. Extreme position pusher

12 is fixed by the return spring 16.

The device works as follows.

After the device is lowered into the well for a predetermined exploration interval, the electric motor 2 is activated. The electric motor through the gearbox 3 and the screw pair 4 begins to progressively move the rod 5, which, through the spring 6 and the movable support 7, presses on the short arm 8 of the pressure lever 9 fixed to the axis, pushing it out of the device case 1. The lever extends all the way into the borehole wall and the device is deflected to the opposite wall without compressing the spring 6. After the long lever arm stops the borehole wall, the support 7 is fixed in place and the compression of the spring 6 and the downhole tool begin to compress the string 5. Upon reaching the shoulder, the pusher 12 of the annular protrusion of 11 tons of ha fixes the pusher 12, whose lever, having reached the button of the switch 10, opens the power supply circuit of the electric motor of the drive. The motor is always disconnected at the same position of the movable support 7 relative to the spring-loaded rod 5, n, thus, the magnitude of the deformation of the spring 6 is constant, which ensures a constant force of the device against the borehole wall over the entire range of wells studied by the device. If we consider that against the cavernous intervals, the measurement results are usually not interpreted, and if there is a small

If the thickness (1-2 cm) or microaverns, the pressing force will vary slightly, then the goal is achieved.

To return the presser lever

5, the direction of rotation of the motor shaft is changed to the initial position.

Ensuring a constant force of the downhole tool against the wall of the well regardless of its change. diameter in a predetermined range allows to improve the accuracy of determining the physical parameters of the layers due to reliable contact of the sensor - the studied medium while ensuring the necessary permeability along the wellbore in the mode of continuous chart recording.

Claims (2)

1. Author's certificate of the USSR 200536, cl. E 21 B 47/00, 1966, 2. USSR Author's Certificate No. 273111, class, E 21 V 49/00, 1966, 15 -