RU1815326C - Device for testing pools - Google Patents

Abstract

Usage: in the oil and gas industry for hydrodynamic research of wells. Purpose: reliability is improved by eliminating premature valve opening when passing through a complex curved wellbore. The inventive device contains a composite housing 1, 2,

Description

upper 3 and lower 4 adapters, rod 5, pusher 6, sleeve 7, sleeve 9, hollow rod 10 with a baffle and radial channels 11, piston 13 and dowel 14. The rod 5 is made with blind shaped grooves 33. They are arranged for movement dowels 14. The device has additional spring-loaded dowels 29 with eccentric holes 32 and installed

threaded fasteners 31 therein. They are connected to the stem 5 so that the additional key 29 can rotate relative to the axis of the fastener. Positive effect: this eliminates the arbitrary premature compression of the device and the opening of the valve when passing through a complex curved wellbore. 3 ill.

The invention relates to the oil and gas industry, and in particular to devices for hydrodynamic research of wells.

The aim of the invention is to increase the reliability of the device by eliminating the premature opening of the valve when passing through a curved wellbore.

The presence of additional spring-loaded keys with eccentric holes through which their fastening bolts are passed to the rod eliminates the compression of the device, i.e. opening the inlet valve during tool landings. The execution of the body with through the curly grooves ensures the rotation of additional keys around the axis of the bolt and move them along the groove during rotation and axial displacement of the rod relative to the body only by lowering the pipe string while turning them to the right. The execution of the rod with blind figured grooves provides movement of the main keys along the figured groove simultaneously with additional keys. Such a design eliminates the spontaneous operation of the device when passing the test equipment along a complexly curved barrel.

Fig. 1 shows a diagram of a device in a transport, i.e. closed position of the intake valve; in FIG. 2 - stock scan; in FIG. 3 - scan housing.

The formation testing device comprises a composite body 1, 2, upper 3 and lower 4 adapters installed in the body, rod 5, pusher b, sleeve 7 with radial channels 8, sleeve 9, hollow rod 10 with a baffle and radial channels 11 and longitudinal channels 12 , piston 13, key I. The sealing of movable and fixed joints is carried out using standard rubber rings 15, 16. 17, 18. 19, 20. 21 and 22. The sleeve 9 is held in place by means of bolts 23, and the key 14 is held by casing 24. The device has a hydraulic chamber 25, communicating through ra a dialysis hole 26 in the housing 2 with external space, and a hydraulic chamber 27 in communication

through a radial hole 28 in the pusher 6 with an internal cavity. The device is provided with additional keys 29, spring-loaded with a spring 30 and secured to the stem 5 by means of fasteners 31. The spring 30 prevents the keys 29 from turning around the axis of the bolt 31. The key 29 is made with eccentric holes 32 into which the fasteners 31 are mounted. Stock 5

made with blind curly grooves 33 (see Fig. 2) for the main keys 14 and a threaded hole for fasteners 31. The housing 1 is made with through curly grooves 34 (see Fig. 3) for additional

dowels 29 and with sleeves for dowels 14,

The device operates as follows.

Before launching the device into the well

adapters 3 and 4 are connected to other nodes of the test equipment and lowered into the borehole on drill pipes. In this case, the device is in an extended state and in a closed position (see

FIG. 1) inlet valve. After installing the equipment in the well and creating a load on the packer, the drill string is turned two to three turns to the right. When this rod 5 begins to rotate

around its axis relative to the housing 1 and the keys 29, bolted 31 through eccentric holes to the rod 5, overcoming the elastic force, the springs 30 / rotate 90 ° clockwise

around the axis of the fastening element 31 and begin to move along the figured groove 34 around the circumference of the cylindrical body 1. Having reached the longitudinal wall of the groove 34, under the action of the elastic forces of the spring 30, the keys 29 rotate around the axis of the bolt 31 back 90 ° (counterclockwise) and move down longitudinal section

the groove 34. At the same time, the keys 14, which are fixedly mounted in the sockets of the housing 1, slide along the blind figured groove 33 on the outer surface of the rod 5. Thus, the rod 5 rotates 90 ° relative to the housing and moves down to the end of the ends of the housing 1 and adapter 3. In this case, the rod 5 moves the pusher b and the sleeve 7 connected thereto, the radial channels 8 of the sleeve 7 are aligned with the radial channels 11 of the rod 10 with the baffle, and the inlet valve of the device is opened.

The fluid coming from the formation flows through the longitudinal holes 12, the radial channels 8 of the sleeve 7 and the radial channels 11 of the rod 10 into the internal central channel of the device and further into the cavity of the drill pipe above the test equipment. At the end of the inflow period, the inlet valve is closed to record the pressure recovery curve (HPC). To do this, the pipe string is lifted and the calculated part of the instrument weight is removed from the device. The removal of the compressive load is facilitated by the buoyant force of the annular fluid due to the difference in the pressures of the hydrostatic column of fluid in the chamber 25 and the pressure in the chamber 27, which is in fluid communication with the cavity of the device (pipes) through the opening 28. Due to the hydraulic imbalance of the device, a tensile force arises, in As a result, the device body retains the necessary load on the packer, and the rod 5 and the associated pusher b and sleeve 7 are moved upward relative to the body, the radial channels 8 of the sleeve 7 are disconnected with radial channels 11 the rod 10 and the inlet valve is closed. At the end of the registration period of the HPC by creating a compressive load by lowering the pipe string, the inlet valve is again opened and a second test cycle is carried out. If necessary, cycles are repeated 5 times.

Compared with the prototype, the use of the proposed device avoids the unsuccessful descent of the test equipment into the well due to the exception of premature actuation of the device (open the inlet valve) and overflow of the borehole fluid into the cavity of the drill pipe when working in complex and conditional horizontal wells5.

Claims (1)

SUMMARY OF THE INVENTION A formation testing apparatus comprising a housing with upper and lower adapters, radial channels, and 0 hydraulic chambers, a rod installed in the housing, interconnected by a key connection with the possibility of axial telescopic movement of the piston and cylinder, the pusher, the sleeve and the exhaust valve in the form of a hollow rod with a baffle and radial channels blocked by a sleeve, characterized in that that, in order to increase the reliability of the device operation by eliminating the premature opening of the valve when passing through a complex curved wellbore, the rod is made with blind shaped grooves and in which are placed with the possibility 5 of the key, and has additional spring-loaded keys with eccentric holes and threaded fasteners installed in them, connected to the rod with the possibility of turning an additional key relative to the axis of the fastener. Figure 1