SU1080098A1 - Well instrument pressing device - Google Patents

Abstract

1. BORING DEVICE PRESSING DEVICE, comprising a housing, springs, a spacer, a rod hinged to the spacer and connected to the cable on which the downhole tool is suspended, a release mechanism in which the follower bar is mounted on a spring-loaded swinging carriage and hinged associated with the cam, which is the outboard support for the expansion element, characterized in that, in order to improve the performance of the downhole tool by providing the ability to control the pressure device The main device, the rod consists of two parts, the upper and the lower, in the junction of which the release mechanism is placed, the rod parts being interconnected by means of a flattened axis and made with the possibility of their longitudinal movement inside the housing both together and separately. 2. The device according to A.1, about tl and h; -auy e with the fact that the lower part | the rod is made with an axle socket (L with flats crossing into a longitudinal groove, connected to the load with a cable, and with a spacer element and connecting to the body, the upper part of the stem is fitted with an eye at the bottom, 3. on the axle with flats installed without rotation relative to this axis, the release mechanism cam. 00

Description

(ABOUT

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The invention relates to well logging and is intended for use in well logging instruments, in particular in multi-instrument seismic probes.

A downhole tool clamping device consisting of a body, self-wedging spacers with a curvilinear working surface, a spring-loaded pushing rod, a locking mechanism with a trailing tendril and an eccentric cam, acting as outboard supports for the self-sticking spacers, are known. the turn is pivotally connected to the spring-loaded EMEM by the pushing rod, and the following barb in the fixing mechanism is fixed on the spring-loaded rocking carriage hinged to the eccentric vym cam C1

The disadvantages of this device are the one-time opening and the absence of an anti-gripping device.

Closest to the present invention is a downhole pressure device comprising a housing, springs, a spacer, a rod pivotally connected to a spacer and connected to the cable on which the downhole tool is suspended, a release mechanism in which the follower bar is mounted on a spring-loaded oscillator. a carriage that is articulated with a cam, a pull, which is an outrigger support for the spacer element 2.

The disadvantage of this device is that it is also a single disclosure. Once opened in a well, it can only move upward to the surface, and it cannot be lowered deeper into the well, which does not allow the device to maneuver along the well and inhibits the increase in productivity of the well.

The purpose of the invention is to improve the performance of a downhole tool by providing the ability to control its pressure device.

This goal is achieved by the fact that in the downhole pressure device, comprising a housing, springs, a spacer, a rod pivotally connected to the spacer and connected to the cable on which the downhole tool is suspended, a release mechanism in which the follow bar is fixed to a spring-loaded kachakltsey ka-. a hinge connected to the cam, a pull, which is an outrigger for the spacer element.

The rod consists of two parts, the upper and the lower, in the junction of which the release mechanism is placed, the stem parts being interconnected by means of an axle with flats and made with the full possibility of their longitudinal movement inside the housing both together and separately.

At the same time, the lower part of the stem is made with an axle socket with flips, which go into the longitudinal groove is connected to the load with a cable, and with a spacer element and the harness to the body, the upper part of the stem at the bottom is equipped with an eye in which it is fixed on the axle with flats. relative to this axis cam release mechanism

Fig. 1 shows the downhole pressure device before descending into the well in a state in which the expansion arm is recessed; Fig. 2 is the same, in the state in which the expansion lever of the pressing device is opened and the downhole tool is fixed to the well; FIG. 3 shows a detail of the release mechanism, node I in FIG. 2; in FIG. 4, the pressing device in the state when the expansion arm is open, the release mechanism is in the initial position, the device can move upwards; Fig. 5 - the same, in the state when the expansion arm is closed (recessed in the housing) to the end, and the downhole tool, moving up, is caught in the well

The clamping device of the downhole tool consists of a housing.1, inside which the clamping part is located, two springs and a release mechanism. The housing 1 at the ends is provided with tips 2 and 3 and has a longitudinal window 4 through which the expansion lever 5 and the drag 6 can be exposed to the outside (Figures 2 and 4). Inside the housing 1, a guide bed 7 is provided for the lower part 8 of the stem, below the cavity 9 for the damper spring 10, in the upper tip 2 the cavity 11 for the anti-snap spring 12.

The rod consists of two parts: the upper 13 and the lower 8. The upper part 13 at the bottom has an eyelet 14, in which, on the axle 15 with the flats, it is fixed without possibility of turning the cam 16 of the release mechanism relative to this axis 15. The upper part 13 of the stem is directly connected to the armor of the cable 17. The lower part 8 at the top under the axis 15 has a slot 18, and under its flats a longitudinal groove 19 connected to the slot 18. In the lower part 8 of the rod in the slot there is a hinge axis 20 for the distance lever 5 .

With the help of the spacer arm 5 and mb, the lower part 8 of the rod is connected to the housing 1. The lower part 8 of the rod is also connected to the armor of the cable 21 going to the below located load 22 (device).

The lower and upper parts 8 and 13 of the stem are made with the possibility of some longitudinal movement separately and, together within the housing 1, they are interconnected by means of a flattened axis 15, on which a cam 16 is fixed in its middle part.

The spacing arm 5 is a rod terminating on one side of a curvilinear shape with an end, and on the other side with a locking nest for the hinge axis 20. The spacing lever 5 is connected by means of a hinge axis 23 with a thrust 6, and it is connected to the body with a hinge axis 24 .

The anti-catch spring 12 is permanently locked in the upper tip 2 by means of the captive sleeve 25.

The release mechanism includes a shaft 15, a spring-loaded, spring-loaded spring 26 with respect to the upper part of the rod 1, a cam 16 on which, in turn, the carriage 27 with a follow tendril 28 is spring-loaded.

The clamping device of the well device works as follows.

During the descent, the thrust lever 5 is sunk inside the housing 1, the cam 1 occupies the position shown in Fig. 1, and the follow bar 28 tracks the borehole wall (the well is not shown).

When lifting the device, the follower bar 28 enters into the thrust with the borehole wall and through the swinging carriage 27 rotates the cam 16 clockwise along with the axis 15. During this rotation, when the flats of the axis 15 coincide with the side walls of the longitudinal groove 19, the lower part 8 of the rod under the action of the load 22, it goes down, exposes the expansion arm 5 - outside the housing 1, and crushes the damper spring 10 into the cavity 9 (Fig. 2).

Thus, under the action of the weight of the lower part 8 of the rod and the downstream load 22, the expansion arm 5 tends to occupy an extreme extended position. If, in this case, the expansion arm 5 has reached the borehole wall and the instrument has stopped lifting, then it is wedged and freezes in the wellbore.

In this position, the cable 17 is pulled only under its own weight and the weight of the upper part 13 of the stem.

If the cable 17 is slightly lowered, the axis 15 falls into its socket 18 and the cam 16 under the action of the spring 26 becomes the starting position (Fig. 4).

5 To move the instrument up. you should pull the cable 17, then it carries the lower and upper parts 8 and 13 of the rod and the load 22 behind it, which leads to the removal / withdrawal, and

10, the downhole tool begins to move upwards, touching the walls of the borehole with housing 1 and the end of the distance lever 5. At the same time, the cable 17 is slackened, and the position of the distance rod 5 and 5 and rod 6 is in agreement with the direction of movement of the device.

When the device enters the normal part of the well from the cavity, the expansion lever 5 folds up to size

0 wells, since in this case the movement of the housing 1 is slowed down or suspended for some instant, the lower and upper parts 8 and 13 of the rod continue to move

5 upwards under the action of tensioning the cable 17. If, at the same time, the lever 5 is folded so that the next barb 2 touches the borehole wall and turns the axis 15, then the upper

The stem portion 13 moves higher and the situation shown in FIG. 2 arises.

Further, as the lower and upper parts 8 and 13 of the stem move upwards, the expansion arm 5 retracts into

5 case 1. There comes a moment when case 1, having parted with the wall of the well under the action of the spring 10 and its own weight, goes down relative to hanging on the cable 17

0 the lower and upper portions 8 and 13 of the stem and through m u 6 it receives the control lever 5 to its original position, the lever is closed (Fig. 5). In the state according to FIG. 5, the well device can be lowered down again without raising it to the surface, i.e. without loss of time to lift the device to the surface for refilling the lever.

0, The use of the invention provides control of the clamping lever of the downhole tool in the well from the surface by maneuvering the cable.

5 A downhole toolholder does not need electric motors, pumps, seals, additional electrical conductors, etc., which typically operate a controlled pressure device. Therefore, this downhole pressure device is simpler, safer and cheaper compared to known pressure devices.

with devices.

The clamping device of the well device can be used in multi-instrument seismic probes for its intended purpose in each section, and also as a clamping device for the load, without additional use of the cable core.

The downhole toolholder can also be used for its intended purpose in field geophysical instruments in order to reduce the wear of the instrument elements in contact with the walls of the well.

7

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FIG. 2

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Claims (2)

1. The downhole tool clamping device, comprising a housing, springs, a spacer element, a rod pivotally connected to a spacer element and connected to a cable, a cable on which the downhole tool is suspended, a release mechanism in which the tracking antenna is mounted on a spring-loaded swinging carriage, pivotally cam-related, traction; which is a remote support for the races = ~ of the porous element, characterized in that, in order to '' increase the productivity of the downhole tool by providing the ability to control the clamping device of the downhole tool, the rod consists of two parts, upper and lower, in the junction of which there is a release mechanism, parts of the stem are interconnected by means of a flat axis and are made with the possibility of their longitudinal movement inside the housing, both together and separately. 2. The device according to claim 1, it follows that the lower part of the rod is made with a socket for an axis with flats moving into a longitudinal groove, connected by a cable with a load, and a spacer element and a rod with a body, the upper part of the rod below equipped with an eye in which - on the axis with flats installed without t l and h: -a · the possibility of rotation about this axis of the cam of the release mechanism. ·