SU1268717A1 - Apparatus for biasing instruments in well - Google Patents

Abstract

1. DEVICE FOR PRESTERING THE INSTRUMENTS IN THE WELL, comprising a housing and a stem located therein and a pulse drive sequentially from top to bottom, a transmission mechanism and a pressure assembly, while the stem with the lower end is attached to the pressure assembly, characterized in that The transmission mechanism is made in the form of an electromagnet, the coil of which is attached to the housing, and the measles are mounted so that it can move along the axis of the housing l electromagnetic interaction with the rod. (L 2. The device according to claim 1, which is to ensure that, in order to return the clamping unit to its initial state, it is equipped with an additional transmission mechanism installed above the pulse drive.

Description

The invention relates to geophysical prospecting of mineral deposits and can be used in geophysical instruments that, in the course of their work, require pinching to the borehole walls. C & s invention - increase reliability in operation and return the clamping unit to its original state. FIG. 1 shows the proposed device is a longitudinal slit on. 2 shows section A-A in FIG. 1. A device for clamping instruments in a borehole comprises a housing 1 in which a rod 2 is placed and, from top to bottom, successively an additional transmission mechanism, an ignition drive 3, a transfer mechanism and a pressure assembly. Transmission mechanisms include coils 4 and 5 and measles 6 and 7, Coil 4 and 5 are attached to housing 1. Anchor 6 and 7 are made in the form of cylinders made of ferromagnetic material with a through groove and mounted in housing 1 with the ability to move along its axis and interact with the rod 2 by means of the magnetic field of the coils 4 and 5. The clamping unit contains a wedge 8 with a stepped working surface and a spacer 9 with a spring 10 The spacer 9 at one end constantly interacts with the working surface of the wedge 8. The pulse drive 3 m It can be made in the form of an electromagnetic drummer with a movable core 1 placed on the rod 2, which is installed inside the pulse drive 3 and transmission mechanisms and attached at one end to the wedge 8. The rod 2 has a head (not denoted by) placed in the upper part of the body 1. The anchor 7 in the initial position is pressed to the pulse drive 3 spring 12. The device operates as follows. The device on the cable is lowered into the well before it reaches the target point. A control voltage is supplied to the impulse drive 3. A coherent electromagnetic field causes the reciprocating movement of the movable core 11. When the movable core 11 moves towards the pressure node, the coil 5 supplies the control voltage. The electromagnetic field of the coil 5 is closed through the bark 7 and the current 2. This creates a temporary connection between the core 7 and the rod 2. The movable core 11 produces a force on the measles 7, which transmits it through the rod 2 to the wedge 8. the direction from the pulse drive 3 and the stepped working surface interacts with the spacer element 9, which moves towards the borehole wall and compresses the spring 10. The rod 2 moves together with the wedge 8, carries away the measles 7, which is compressed a spring 12. The control voltage is supplied to the switching actuator 3, the movable core 11 moves away from the pressure node. The control voltage from the coil 5 is removed. The connection between the bark 7 and the stem 2 disappears, and the spring 12 returns the bark 7 to its original position. When moving the movable core 11 in the direction of the pressure unit, the control voltage enters the cat 5, and then the device repeats until the end of the spacer element 9 is pressed against the borehole wall. The housing 1 is pressed against the opposite wall of the well. The spontaneous recovery of the wedge 8 to the initial position is prevented by frictional forces between the end of the spacer element 9 and the stepwise working surface of the wedge 8. The supply of voltage NR9 to the impulse drive 3 and the coil 5 is stopped. To return the clamping unit to its original position, after conducting research, a control voltage is applied to the pulse drive 3. The movable core 11, under the action of an electromagnetic field created by the pulse drive 3, moves away from the hold-down node. At the same time, control voltage is applied to coil 4. The electromagnetic field of the coil 4 is closed through the bark 6 and the rod 2. This creates a temporary rigid connection to the bark 6 and the rod 2. The mobile unit 11 moving from € produces a force effect on the bark 6, which transmits it through

rod 2 is wedge 8. Rod 2 with transfer wedge along with wedge 8j carries measles 6. When the wedge 8 is displaced, the spacer 9 under the action of the spring 10 sinks into the housing 1, the control voltage from the coil 4 and the pulse drive 3 is removed. The movable core 11 moves under its own weight in the direction of the pressure node. Anchor 6 returns to its original state. Further, the operations are repeated until 5 the pressure unit is returned to the initial state.

The device is moved to the next research item.

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FIG. /

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Claims (2)

1. DEVICE FOR CLIPING DEVICES IN A WELL, comprising a housing and a rod located therein and a pulse drive, a gear mechanism sequentially from top to bottom, and a pressure unit, the rod being attached to the pressure unit with a lower end, characterized in that, in order to increase reliability in operation, the transmission mechanism is made in the form of an electromagnet, the coil of which is attached to the body, and the anchor is mounted with the ability to move along the axis of the body l of electromagnetic interaction with the rod. 2. The device pop. 1, characterized in that, in order to return the clamping unit to its original state, it is equipped with an additional transmission mechanism mounted above the pulse drive. 1268717 A