SU1317112A1 - Downhole geophysical instrument - Google Patents

Abstract

FIELD: engineering. The geophysical well survey can be used in clamping and centering devices and it allows to increase the maintainability of the instrument. The internal cavity of the device housing 1 forms a compensated volume filled with a liquid dielectric 2. It houses the actuator 6 of the working rod 5 connected to the lever 4 and the corrugated sylphon (HS) 7 for withdrawing the rod 5 from the compensated volume. One end of the cl with

Description

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HS 7 is fixed on housing 1 and the other on rod 5. The latter is detachable, and its parts 8, 9 are connected by mating a protrusion on one part 8 of rod 5 and a corresponding hole on another part 9. The connector is located inside HS 7 at a distance nii, exceeding the length of HS 7 in a compressed state, from the end of HS 7. fixed on the housing 1. The height of its corrugation is determined by the ratio h 0 –sn, where h is the height of the corrugation of the HS 7, oL is the magnitude of the stroke, and is the length1

The invention relates to a technique for geophysical research in a well and can be used in receiving and centering devices.

The purpose of the invention is to increase retainability,

The drawing shows a downhole geological instrument.

The device includes a housing 1, the internal cavity of which forms a compensated volume filled with a liquid dielectric 2. The pressure and temperature changes are compensated by a compensator 3 mounted on housing 1. A lever 4 is pivotally mounted on the housing 1, the small arm of which engages with the working rod 5 To move the working rod 5 within the working stroke L, the actuator 6 is located in the compensated volume of the housing 1. To move the working rod 5 from the compensated volume to the uncompensated one, serves background 7p one end of which is fixed to housing 1, and the other end to working rod 5, Rod 5 is made detachable, consisting of two parts 8 and 9, with the connector position located inside the bellows at a distance exceeding the bellows length in a fully compressed state from the end of the bellows 7 fixed on the body 1. Both parts 8 and 9 of the working rod 5 are interconnected by mating a protrusion on one part 8 of the working rod 5 and a corresponding hole in the other part 9 of the working rod 5,

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on the ledge ,. When dismantling the HS 7, it is disconnected from the stem 5 and compressed. As a result, a possibility appears. the disconnection of parts B, 9 of the rod 5, After the upper part 8 is moved by the amount of the working stroke by means of the actuator 6, a gap equal to h is formed between the parts 8, 9. Thus, the bellows can be pulled through this gap. The installation of the new HS 7 is carried out in the reverse sequence. 1 il.

moreover, the mutual fixation of both parts is carried out with a finger 10 located inside the bellows 7, the height of which the corrugation is determined by the ratio

h L

(mm)

where h is the height of the corrugation of the bellows, L is the magnitude of the working stroke,

, c (- the length of the protrusion on one part of the working rod stock.

The device works as follows.

When dismounting a damaged bellows, the latter must be disconnected from the working stem and fully non-compressed. Since the length of the bellows in a fully compressed state is less than the distance from the place of disconnection of the working rod to the end of the bellows 7 fixed to the body, when the latter is fully compressed, it opens access to the finger 10, which must be knocked out to disconnect both parts 8 and 9 of the working rod 5. After moving the upper part of the working rod 5 by the amount of the working stroke (for example, by means of the actuator 6), a gap is formed between the upper 8 and 9 lower parts of the working rod 5, the value of which is greater than or equal to the difference between the magnitude of the working stroke L and d q a protrusion on top of the operating rod 8 5. Since the size of the corrugations of the bellows 7 is less than or equal to said difference, the latter can pull the article through said gap pred3 13171

disconnecting it from the housing 1 and bending perpendicular to the upper part of the stem 5, the installation of the new bellows is carried out in reverse order, with

Thus, the constructive execution of the device ensures a higher maintainability due to the possibility of replacing the rubber of a strong background.

Claims (1)

Invention Formula A downhole geophysical instrument, f5 comprising a housing, the internal cavity of which forms a compensated volume filled with a liquid dielectric, a drive located in the compensated volume, providing movement within the working stroke of the operating rod connected to the lever, and a corrugated bellows for outputting with five 0 124 a working stock from a compensated volume, one end of the bellows is fixed on the housing, and the other end is mounted on the operating stem, characterized in that, in order to increase maintainability, the operating stem is detachable, its parts are interconnected by means of a mating protrusion made on one part the working rod and the corresponding hole on the other, while the connector is located inside the bellows at a distance exceeding the length of the bellows in a compressed state, from the end of the bellows fixed to the body, the height of the corrugation is determined from by attitude. h L - ot, where h is the height of the corrugation bellows; L is the magnitude of the working stroke, cf is the length of the protrusion on one part of the working rod.