SU143751A1 - Formation tester - Google Patents

Description

Unsealed well testers are known, the packer device of which is activated by the action of the pressure of the mud, as well as the design of the packer devices that are lowered onto the cable and activated by means of squibs.

The described formation tester differs from the known ones in that it contains a hydromechanical system, which presses the packer against the borehole wall and perforating squibs, which sequentially open the two-chamber sampler. This embodiment of the formation tester will shorten the test time in open hole wells as they pass, the test zone of which is isolated by a packer pressed against the wall of the well.

The drawing shows the proposed reservoir tester.

The formation tester consists of a switching mechanism /, hydraulics 2, a pivotally sliding mechanism 3, a monometric mechanism 4 and a collection 5.

Before the test is lowered, the shooting locks are charged into the well (5 and 7 and the perforator barrels 8 and 9 of the pivotally sliding mechanism. After the tester descends to the required depth, it is shot by lock 6. The clay mortar enters the chamber 10 above the pistol 7. Under the action of the clay The bushing and retaining sleeve 12 are moved downward.The force through the hydraulic rod 2 is transmitted to the sliding rods 13 of the hingedly sliding mechanism, while the hinge 14 moves down in the frame 15, and the hinge 16 is stationary. the frame 15 and comes in contact with the borehole wall, pressing the rubber liner 18 with the perforator 19 to the opposite wall of the borehole. Then using a switching device, it is fired from the main barrel of the perforator 8. At the moment of firing, the sealing plug 20 is pushed out of the receiving stem 20, and the contents plaJMb 143751-2

One hundred by the tube 2U enters the monometric chamber 22 with an electric sensor 23, which is connected to the cable. From the monometric chamber, the reservoir contents flow through the channels into a collection, which is equipped with a valve. | “2. The collection consists of two chambers 25 and 26. The first portion of the sample goes into chamber 25, then in M01ment reaching a certain pressure, an overflow device 27 is activated, which closes the opening for passage into chamber 25 and opens an opening into chamber 26. In addition, a collection is installed in the collector pump, which allows, if necessary, pumping the first portion of the fluid from the reservoir into the well. After the liquid collection operation is completed, a lock 7 is fired, and the plug 28 closes the inlet of the shut-off valve, and the mud gets through the rubber tubes 21 under the rubber pad 18; pressure equalization will occur on both sides. Then proceed to the rise of the tester to the surface. Cable tension is transferred to rod 29, with the lower part of the rod extending from the cavity of the piston 11, and the mud falls under the piston and pressure is equalized on both sides of the piston. Upon further movement, the upper part of the rod 29 abuts against the bottom of the locking sleeve 12, and further the tension of the cable is transmitted directly to the piston 11, the hydraulic rod 2 and the connecting rod / 5 of the hinge-sliding mechanism. Simultaneously with the tension of the cable, a shot is made from the trunks 9; the rubber pad is destroyed and the tester is lifted to the surface. After the tester rises to the surface, the cover 30 is unscrewed, a pressure gauge is screwed into the high-pressure valve 31, and then the sealing plug 32 is unscrewed. After testing, the proposed layer tester showed itself operational and it is advisable to test the formations in the open hole as it passes.

Subject invention

A formation tester using a packer device, activated by a squib and triggered by the action of a mud pressure, characterized in that. in order to reduce the testing time for uncased wells, it contains a hydromechanical system that presses the packer against the wall of the well and perforating squibs, successively opening the two-chamber sampler.