SU1208202A1 - Arrangement for biasing instruments in a hole - Google Patents

Description

The invention relates to geophysical studies of wells and can be used in the creation of instruments for providing pressure probes to the well wall.

The purpose of the invention is to increase the reliability of work by compensating for the change in the size of the gap between the striker and the pressure assembly.

The drawing shows a device for clamping devices in the well, a longitudinal section.

The device contains a protective casing 1J in which a pulse drive5 is placed successively in a transmission, compensating, and clamping unit. An electromagnetic drummer is used as a pulse drive, which includes electromagnetic coils (one is shown in the drawing) and a movable core 3,

The transfer unit includes a flange 4 of the flange 5 spring 5 and the elastic element 6. The hammer 4 through the flange spring 5 is pressed through the elastic element 6 to the actuator and at one end interacts in the initial position with the core 3 of the actuator. At the other end of the striker 4 are made protruding. The elastic element 6 is made in the form of a rubber gasket and is designed to reduce the impact on the drive of the transfer unit after transferring the force from the drive and compensating the stroke of the striker 4 when the device returns to its original position.

The compensating unit includes a housing 7 with an axial and side channel, compensating elements 8, made in the form of balls, a clamp 9 with a spring 10, a washer 11 with a blue spring 12 and sealing rings 13, the compensating elements 8 are placed in the housing 7 and the spring 12 through press the washer 11 to the retainer 9, which has a protrusion and is placed in the housing 7 perpendicular to its axis so that its end goes into the axial channel and interacts with the compensating elements 8. In the initial position, the protrusion of the retainer 9 is hooked to the housing 7 and interacts with onethe projections of the striker 4. Compensating elements in their installed Such way that they can be moved from the shackles of the channel in an axial bore of the housing. The end of the striker 4c protrusions located in the axial channel of the housing 7,

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The clamping unit includes a wedge 14, having a stepped working surface, a clamping element 15 with a flange, one end of which is pressed against the stepped working surface of the wedge 14 through the flange by a spring 16, and the second is placed in the opening of the casing 1, the chipper slide 17, rods 18 and 19, the spring 20, the adjusting nut 21 and the sealing rubber rings 22, the Stems 18 and 19 are attached to the tire 14 at one end, the Rod 19 is placed in the axial channel of the housing 7, and the rod 18 has a flange through its second end, which interacts with the spring 20, the second end of which installed with maybe interaction with the slider 17, which is installed in a certain position in the casing 1 with the help of 1; adjusting nut 2 K

In the initial position, one of the compensating elements 8 / interacts with the end face of the rod 18, the second protrusion of the striker 4 interacts with one of the compensating elements 8. In case 7 of the slot 1a, a key 23, one end of which is placed in a groove made in the body of the striker 4. Projection length the steps of the working surface of the wedge 14 on the longitudinal axis of the casing 1 is chosen equal to or greater than the diameter of the compensating elements 8,

The device works as follows.

Using the adjusting nut 2 to the slide 17, the necessary force of the spring 20 is established, which supports the wedge 14 through the rod 18. in the starting position.

The geophysical instrument is attached to the device and lowered into the well to the desired depth. To the driver (not shown) of the electrically driven drummer, the control unit is fed.

5, the voltage and under the action of m 1 gnit- ing of the FIELD core 3 moves upwards. Then, the control voltage from said coil is removed and voltage is applied to coil 2, Core 3 under the action of electromagnetic field of coil 2 and

The intrinsic mass moves downwards and produces a pulsed effect. on the striker 4, which moves 5 on-W., a flange compresses the spring 5, one latch moves the latch 9 into the housing 7 J and the other stupa cuts off the compensating elements

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s 8 that did not fall into the axial anal housing 7, and transmits the force through the compensating element 8 placed in the axial anal housing 7, and the rod 19 to the wedge 14. The latter moves in the housing 1 away from the drive and the stepped working surface moves the pressure member 16 toward the borehole wall. The flange of the clamping element 15 compresses the spring 16, and the rod 18 through its flange - the spring 20. During the next cycle, the core 3 moves up, the striker 4 returns to its original position under the action of the spring 5. The elastic element 6 holds the striker 4, see the stroke when returning to the starting position. Spring 10 returns the latch 9 to its original position. In the space 7 formed in the axial channel of the housing 7, the spring 12 through the washer 11 pushes out from the side channel the required number of compensating elements 8, the number of which corresponds to or slightly more than the number of steps of the working surface of the wedge 14 to which it moved relative to the end clamping element 15, interacting with the wedge 14.

With the next action of the core 3, the nipple 4 will move to transfer this action to the pressure node for the same distance as during the previous action, due to the compensating elements 8 that filled the resulting simple 208202

the axial channel of the housing 7. The process of transferring the force effect of the pulsed drive to the pressure node is made as long as

5, the clamping element I5 will not be pressed against the wall of the well with the required force. In this case, the casing 1 with the same force will be pressed against the wall of the well from the opposite side.

10 Key 23 prevents rotation of the striker 4 around its axis. Rings 13 and 22 ensure the integrity of the cavities of the device. To return the device to its original position, a pulse drive is turned off and the cable is lifted from the well. The casing 1 is displaced upward, the end face of the clamping element 15 due to friction forces remains in place, and the other end of it

20 out of the ledge of the working surface of the wedge 14, creating a force directed towards the pulse drive, transmitted to the wedge 14. Wedge 14 under the action of

the force, as well as the force of the spring 20 transmitted through the rod 18, moves upwards. The rod 19 moves upwards and moves the compensating elements 8, displacing them from the axial

channel housing 7 to its original position in the side channel. The upward displacement of the wedge 14 is facilitated by the spring 20 through the rod 18. The cable is twitched until

The clamping element 15 will not occupy any intermediate position between the original and the working, ensuring the free movement of the device in the well.

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Claims (1)

DEVICE FOR CLAMP PRI-. BOROV IN A WELL, comprising a guard and a sequentially mounted pulse drive with a spring-loaded striker, a clamping unit including a wedge, and a clamping element, characterized in that, in order to increase the reliability by compensating for changes in the gap between the striker and the clamping unit, it is equipped with a spring-loaded clamp and a compensating assembly installed between the striker and the clamping unit, made in the form of a housing with axial and side channels, while compensating elements with _v are placed in the side channel Q with the possibility of moving to the axial <g channel, and in the upper part of the body there is a spring-loaded lock with protrusions for interaction with the striker and compensating elements. SU,. „1208202>