SU1268718A1 - Apparatus for investigating and sampling rock - Google Patents

Abstract

The invention relates to the field of well logging and is intended for sampling of rocks from the walls of a well. The purpose of the invention is to increase the efficiency of remote control of the operation of the probe rod and the rock picker sleeves. For this purpose, check valves are installed in the pressure 16 and drain lines of the pump. The transforming cam mechanism is made in the form of a clip rigidly fixed on the top- (L - 1c

Description

It is the end of the rod 8 piston 7 pump. The yoke 3 has an external stop 4 with a protrusion, and inside it is placed a yulachok 5 with a screw groove interacting with the inner protrusion. The cam 5 is fixed on the shaft of the electric motor 2. On the case 1, the supporting planes (OP) 6, which interact with the external stop 4, are fixed at the rotation of the casing 3 at a predetermined angle defined by the OP 6 position. The distributor element is fixed in the washer 9 secured with a spline connections on the piston rod 7 of the pump 7. The washer 9 is placed in the housing 1 with the possibility of rotation and communication when turning in one direction the discharge line 16 of the pump with the piston cavity of the zones of the dowsing rod 13. The piston cavity of the rock extraction sleeve is in communication with the drain line 17 when turning in the opposite direction - communication with the discharge line f6 with the piston cavity breeding sleeve. The piston cavity of the probe rod 13 communicates with the drain line 17. The pump sucks the working fluid from the intake-drain tank 10 and injects it through lines 16 and 18 into the piston cavity of the probe rod 13, which moves and penetrates into the rock. 5 il.

Claims (1)

The invention relates to well logging, in particular to devices for the selection of rock from the walls of a well. The purpose of the invention is to increase the efficiency of remote control of the operation of the probe rod and the rock picker sleeves. FIG. 1 shows the proposed device, a longitudinal section; Fig 2 - pump piston; on. FIG. 3 - section A-A in FIG. 2 with the starting position of the piston; Fig 4 is the same, after rotation of the piston on 45; in fig. 5 is a section BB in FIG. 3. A device for research and sampling of rocks consists of a housing 1, an electric motor 2 with a gearbox, a cam-converting mechanism containing an arm 3 with an external stop 4 and a cam 5, bearing planes 6, a piston 7 with a rod 8, on which spitz A washer 9 with grooves is lapped by a single plane, and the rod 8 is freely biased relative to the washer 9 in the axial direction, and fixed in the circular one (Fig. 2). for the flooding and drainage tank 10, the differential piston 11, the selection unit 12 in which the piston is located with zones of the dowel rod 13 and rock-removing sleeves 14, pressure sensor 15, pressure line 16, drain line 17, discharge line 18, probing rod 13 and discharge line 19 rock-collecting sleeves, emergency lines 20-22, air cavity 23. Case 1 and node 12 of the selection are connected with shear pins 24 and 25, The device works as follows. After descending to a predetermined depth of investigation, the electric motor 2 is switched on with the gearbox, which begins to rotate the cam of the conversion mechanism. The holder 3 of the transforming mechanism at the same time performs a reciprocating movement, interacting through the stop 4 with one supporting plane 6, which fixes the holder 3 from turning. The pump piston 7, which is rigidly connected through the rod 8 to the holder 3 of the conversion mechanism, also begins to reciprocate, which ensures the operation of the pump. The pump sucks the working fluid from the intake-drain tank 10 and injects it through lines 16 and 18 into the piston cavity of the probe rod 13, probing the rod is extended and inserted into the rock. The monitoring of the operation of the device and the recording of pressure diagrams are carried out by G by means of a pressure sensor 15, When the piston with its probing end position is reached, the electric motor reverses. The holder 3 of the transforming mechanism rotates with the cam to extreme positions at a certain angle (for example, 45 °) until the external stop 4 interacts with the other supporting plane 6, turning the piston 7 and the washer impaled on it. between the cam and the cage, which is acted upon by an additional axial load from the overpressure in the cavity, in this position the washer 9 connects the discharge line 18 of the pump with the hydraulic line 19 of the sleeves and the discharge line 17c Yelnia line probing with the piston rod 13. The oil from beneath the piston to the rod -13 under the action determined by the interaction of the hydrostatic pressure of the well and flows into the spring cavity 10J and the piston rod 13 with the probe takes the initial position. The device is ready for sampling. If this interval of the well is not of interest, then repeat the drive of the device in the discharge line of the pump and turn on the piston with the probe rod again. The operation of the device in the mode of sampling is similar to that described. The proposed device allows us to repeatedly examine the side stacks of the well throughout the section. If the drive of the device fails (for example, the electric motor burns out), the device is removed from the borehole walls using an emergency system. Tensioning pins 24 and 25 are cut off by a tension cable of 300-400 kgf. Housing 1. At the same time, the selection node 12 is slightly displaced and the emergency lines 20 and 21 are connected to air space 23 under atmospheric pressure through line 22. The oil, due to the full differential pressure 718, flows into the cavity 23, and the executive bodies 13 and 14 return to their original position. The volume of cavity 23 is filled in such that it is always greater than or equal to the volume of oil displaced from cavity 10. The device is removed to the surface. Claims of Invention A device for research and sampling of rocks, comprising a housing and electrodes accommodated therein. an engine, a pump with a rod and a piston, cylinders with hollow rods in the form of hollow rods with pistons, a cylinder with a probe rod and piston, a distribution element in communication with the pressure and drain lines of the pump, a suction-drain container, characterized in that the purpose of increasing the efficiency of remote control of the probe rod and rock-separating bushings, it is equipped with non-return valves, installed in the pressure and drain lines of the pump, which converts the cam mechanism, made in the form of a cage, rigidly fixed on the upper end of the piston rod of the pump, provided with an external stop, an internal protrusion and a cam placed inside it with a screw groove interacting with the internal protrusion of the cage, the cam is fixed on the electric motor shaft, and the supporting planes are fixed on the body, interacting with the external stops of the cage when turning the latter to the extreme position, the distribution element being made in the form of a washer fixed by means of a movable spline joint on the pump piston rod and placed in a housing All can be rotated and communicated when the pump line with the piston cavity of the probe rod is rotated in one direction, and the piston cavity of the rock bushing - with the drain line, when turning in the opposite direction of the pressure pipe line with the piston cavity of the rock extractor tube, and the piston rod of the probe rod - with a drain line. / f rod A / acyffr of / e f / fos / pi NT FIG. 2