SU1629511A2 - Downhole geophysical instrument - Google Patents

Abstract

This invention relates to a technique for field geophysical well surveying. The goal is to increase operational reliability by reducing the lengths of the levers and increasing the rigidity of the system. For this, a main gear wheel 5 meshed with a gear 4 which is made integral with the rod 4 engages with a gear 6 of the rod 6 and an additional gear wheel 14 which is integral with the roller. The ends of the roller through the transverse holes in the housing 1 of the device go outside and are connected to the clamping lever 15. The latter is installed relative to the housing 1 from the side opposite to the remote probe 11. At the command from the surface, the power rod 3 of the electromechanical drive 2 moves up engaging with wheel 5, shifting rod 6 downward. Simultaneously rotates to

Description

The invention relates to a technique for field geophysical well studies and is an improvement of the instrument according to the author. No. 1461884.

The purpose of the invention is to increase reliability in operation by reducing the lengths of the levers and increasing the rigidity of the system.

Figure 1 shows the downhole geophysical instrument, a general view; figure 2 - section aa in figure 1; on fig.Z - section bb in figure 1.

The downhole geophysical instrument contains a hermetic case 1 with a recess E and a groove L in which an electromechanical actuator 2 is placed, the power rod 3 of which is connected to the rod 4, which is integral with the rack gear engaged with the main gear 5, which simultaneously engages with a gear rack rod 6. The rods 4 and b through the sealed holes in the housing 1 outwards. The rod 6 is connected to a lever 7 having a protrusion G associated with the rod 8, which enters the opening of the frame 9 and has a protrusion. Frame 9 is pivotally connected to the stem 4, and between the frame. 9 and a protrusion of the rod 8, a spring 10 is installed. The lever 7 is also connected to an external probe 11, which is spring-loaded with a spring 12 resting on the axis 13. The main gear wheel 5 engages with an additional gear wheel 14, integral with the roller, the ends of which through the transverse holes in the housing 1, go outside and are connected to the clamping lever 15. The housing 1 of the device is connected to the geophysical cable 16.

Well geophysical instrument operates as follows.

Upon command, the electromechanical actuator 2 is turned on from the surface and its force rod 3 moves downwards. At the same time, the main gear wheel 5 rotates and moves the rod 6 upwards. The lever 7 rotates, the spring 12 rotates the remote probe 11 relative to the point K until the projection G of the lever 7 of the upper part of the remote probe 11 touches. With further movement

the lever 7, the remote probe 11 is placed in the niche E of the housing 1. At the same time, the main gear wheel 5, which is engaged with the additional gear

the wheel 14 rotates it, and the clamping lever 15 associated with its shaft is placed in the groove L of the housing 1.

Bringing the device into working condition is performed by a command from the surface

wherein the power rod 3 of the electromechanical actuator 2 moves upwards, moves the rod 4 engaging with the main gear wheel 5, shifting the rod 6 downwards. The additional gear wheel 14 simultaneously rotates and the pressure lever 15 touches the borehole wall. Further movement of the lever 7 leads to deformation of the spring 12 and pressing the entire working surface of the remote probe 11 to

well wall. Next, the frame 9, carried away by the rod 4 upward, compresses the spring 10, which provides the necessary force to press the remote probe 11.

When moving the device in the trunk

using a logging cable 16, the remote probe 11 can be contacted with defective parts of the surface of the well, since the remote probe 11 is under the simultaneous influence of two springs.

spring 12, which changes the angular position of the remote probe 11 relative to the axis of the well, and spring 10 that moves the probe in the transverse direction relative to the axis of the well.

The hydrostatic pressure of the downhole environment does not prevent the movement of the rods 4 and 6, since the forces developing by pressure are balanced by the main gear.

wheel 5, creating about its axis the same oppositely directed moments.

The application of the invention makes it possible, in the same dimensions, to significantly reduce the length of the lever associated with the remote probe, increase the rigidity and strength of the whole mechanism, remove the sealed instrument case from contact with the borehole wall and prevent its wear.

Claims (1)

Invention Formula Well Geophysical Instrument auth.St. No. 1461884, characterized in that, in order to increase reliability in operation by reducing the lever lengths and increasing their rigidity, it is equipped with an additional gear wheel that engages with the main gear wheel, a pressure lever mounted relative to the body on the opposite side remote probe, with the ends of the transverse shaft protruding beyond the sealed enclosure of the device and one end of the transverse shaft connected to the clamping lever. 7 Bb