SU1513137A1 - Prismatic core-taker - Google Patents

Abstract

The invention relates to mining. The purpose of the invention is to simplify the design and increase reliability. The prismatic core collector contains a housing 1 lowered on a cable, inside which are placed an electric motor (E) 4, a pump 5, a rock-destroying tool (PI) 2 pivotally mounted on carriage 3 in case 1, an automatic regulator of feed rate PI 2 including spring-loaded relative to case 1 a hydraulic throttle 8 installed in the supply line of the supply hydraulic cylinder 6. The drive of the hydraulic cable 8 is made in the form of an electromagnet (EM) 10, the winding of which is sequentially connected to the supply circuit E 4, and the core 9 of the EM 10 is mechanically connected to the hydrothrottle 8. With increasing load on the PI 2, the current in the power supply winding E 4 increases, which leads to for an increase in the magnetic field in the winding EM 10. At the same time, the core 9 of the latter moves the hydrothrottle 8 up, opening the access of the working fluid from the channel "a" to the suction cavity, which slows down the speed of movement of the carriage 3 and PI 2. When the load on the PI decreases 2 occur the reverse process. 1 il.

Description

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8 villages were made in the form of an electromagnet (EM) 10, the winding of which is sequentially connected to the supply circuit E 4, and the middle tube 9 EM10 is mechanically connected to the hydrothrottle 8. With increasing load on the PI 2, the current in the power supply winding E4 increases, which entails an increase magnetic field in

ten

winding EM.Yu. In this case, the core 9 of the latter moves the hydrothrottle 8 up, opening access of the working fluid from the channel a to the suction cavity, which slows down the speed of movement of the carriage 3 and PI 2. When the load 1 decreases, the reverse process occurs on PI 2. 1 il.

The invention relates to mining, namely, devices for sampling rock from open hole walls, which are drilled for oil, gas and other minerals.

The aim of the invention is to simplify the design and increase reliable operation.

The drawing shows a prismatic core sampler.

In the cylindrical housing 1, which is lowered on the cable into the well, mounted X) mechanisms are used to cut and extract a prismatic core. As a rock-breaking tool, two cutting disks 2 are used, located at a certain angle to one another in the carriage 3, movably fixed in the housing 1. Sch) The disks are driven from the electric motor 4 through a system of shafts and gears (not shown). ), and the longitudinal movement (feed) - by means of a pump 5 and a hydraulic cylinder 6, the rod of which is connected to the carriage 3. The carriage is connected with a copy groove 7. - The automatic regulator of the feed speed of the cutting disks consists of spring-loaded Corps 1 (hydro themes) with a conical throttle valve 8 on skom associated with the core 10. The electromagnet 9 Obmatka electromagnet is connected in series to the power circuit 11 of the motor 4. The hydraulic coupling between the pump 5, the hydraulic cylinder 6 and 8 is carried gndrodrosselem - a and b channels. The internal cavity of the device is filled with a dielectric working fluid and is compensated with the external environment using a compensator. The device is equipped with a decentralizer 12 for fixing the device in the wellbore, and a core-receiving chamber 13 for collecting the cut cores.

The prismatic core sampler operates as follows.

In the kerN sampling interval, the geophysical cable and power supply circuit supplies current to the electric motor 4, which drives the cutting disks 2 and the pump 5. By means of the corresponding / lean system, the rotator 12 is pushed out of the housing and the core sampler is fixed in the wellbore. After that, the working fluid through the channel a begins to flow under the piston of the hydraulic cylinder 6, which moves upward, entraining the carriage 3 with the cutting discs 2. Since the carriage 3 is connected with a guide groove 7 by means of guide pins, it makes path according to the profile of the copier. In this case, the cutting discs are inserted into the wall of the well and, moving along its vertical axis, cut a trihedral prismatic rock sample core. During the cutting process, due to the heterogeneity of the rocks and the various resistances to their destruction, the load on the cutting disks and, accordingly, on the motor shaft changes. As the load increases, the supply current increases. An increase in the supply current in circuit 11 will entail an increase in the magnetic field in the winding of the electromagnet 10. The core 9 of the electromagnet, overcoming the elastic spring forces, moves the hydraulic circuit 8 up, opening the working fluid access from the discharge line a through channel b to the suction cavity. Consequently, the amount of working fluid in the discharge line a decreases and the speed of movement of the carriage 3 slows down. -When reducing the load on the cutting discs 2, the reverse process occurs. The presence of a conical shape of the hydrodissel ensures an optimal flow rate of the working fluid.

under the working piston of the hydraulic cylinder 6 and the necessary speed of movement of the carriage.

Claims (1)

- Upon completion of the core sampling cycle by reversing the electric motor 4, the carriage 3 and the decentrator 12 return to their original position, and the core is stored in the g core receiver 13. Claims of the invention A prismatic core collector containing a housing, which is lowered on a cable, inside which is placed an electric motor, a pump, a rock-destroying tool, fixed in a carriage, movably mounted relative to housing, automatic feed rate regulator of rock cutting tool, including a hydraulic throttle spring loaded relative to the body, installed in the feed line of the feed hydraulic cylinder, characterized in that, in order to simplify the design and increase reliability of operation, the automatic feed speed regulator of the rock destructive tool is made in the form of an electromagnet, winding which is sequentially connected to the power supply circuit of the electric motor, and the core of the electromagnet is mechanically connected to the hydro choke.