SU933972A1 - Packer of deep-well flow meter - Google Patents

Description

(54) WELL FLOW METER

The invention relates to geophysical-CMM studies of oil and gas wells, V A well packer is known for being a flow meter that is formed by springs arranged in radial planes with the possibility of their deformation tangentially to the base and equipped with limits for their displacement during deformation, for example, in the form of a protrusion in the same spring, which engages with the edge of the adjacent spring, which, when compressed by their base of the rolling rod, form a convex lantern adjacent to the walls of the well string. The lantern plates are interlaced with a cloth, which is the sealing element 1. fabric, but pulled out by the plates themselves. Therefore, the mohset packer is used only for discrete point sweeps, which does not allow accurate measurements of the inflow profile. The well packer is also known. It includes a system of sliding and clamping levers with a sealing element mounted on the body and a drive unit 2. However, the known packer has a complicated design of an actuator, which reduces its reliability. The purpose of the invention is to increase the reliability of the packer by reducing the contribution in contact with the surface of the column. The goal is achieved by the fact that the sealing element is designed as an elastic container fixed on the inner sides of the levers, the open end of which extends beyond the ends of the levers and is equipped with permanent magnets.

Fig, 1 shows the proposed aker; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a section BB in FIG. 2

The flow meter consists of the body of the device 1, the electrical device 2, the rod 3, the turret 4, the sliding 5 and the clamping 6 levers, the elastic tank 7 and the magnets 8. The number of levers can be different.

In the design under consideration for the example, four levers are taken.

Works flow meter as follows.

The flowmeter is lowered to a predetermined depth in the well on cable 9. From the surface, cable 9 supplies power to electric actuator 2 located in housing 1. Electric actuator 2 through rod .3 opens levers 5 and 6 all the way to the well wall. In this case, over the cross section, a well is formed with a four-lever; The system is a square (Fig. 2) with a dome on the levers 5 and straight lines across the sides of the square. The levers 6 at 3foM are adjacent to the walls of the well string, with a 25 ton psi elastic tank 7 attached to them. The part of the casing located below the levers 6 (4 g. 3) is in a free state and can be perpendicular to the axis of the zo-well column. When the levers 6 are pressed into the well columns, the free ends of the elastic sheath will be pressed against the walls of the well column by magnets 8. (FIG. 3). When the device moves along the well string with the wall of the string, the levers E parallel to the well axis and a part of the elastic shell pressed by the magnets 8 are in contact. P over the packer.

Defects encountered in the course of movement of a flow meter with such a design are easily wrapped around the free part of the elastic shell without damaging it.

F o rm ula invention

A downhole flowmeter packer, which includes a system of sliding clamping levers with a sealing element mounted on a frame, and a sealing element, characterized in that, in order to improve reliability by reducing wear when in contact with the surface of the column, the sealing element is designed as mounted on internal the sides of the levers of an elastic container, the open end of which extends beyond the ends of the levers and is equipped with permanent magnets.

Sources of information taken into account in the examination

1. USSR author's certificate number 323661, cl. G01 F 1/06, 02.O6.7b.

2. USSR Author's Certificate for Application No. 2864618/03,

cl. E 21 B 47/10, 07.01.80 (prototype

Claims (1)

Claim Packer downhole flow meter, including a system fixed to ksrpu, all sliding clamping levers with a sealing element and. a drive, t, characterized in that, in order to increase reliability by reducing wear upon contact with the surface of the column, the sealing element is made in the form of an elastic container fixed to the inner sides of the arms, the open end of which extends beyond the ends of the arms and is equipped with permanent magnets.