SU709804A1 - Clamping device of remote probe of well-logging device - Google Patents

Description

The invention relates to the field of oil industry and can be used in equipment for field geophysical research of boreholes.

A device for a formation dipmeter is known, which has two pairs of diametrically located shoes pressed against the walls of the well. Each pair of shoes is equidistant from the axis of the device, i.e. the device is centered in the well. Pivotally connected leverage systems ensure that all four shoes are held in the same plane perpendicular to the axis of the device, regardless of the degree of leverage opening, i.e. a constant recording point is provided [1],

However, due to the large number of levers, the reliable operation of the system in viscous drilling fluids is not ensured.

A known device for a remote probe of a downhole tool, comprising a housing, a measuring shoe mounted movably on a base connected to the housing of the device using a lever system made in the form of an upper compression arm and a U-shaped rod system

This device is the closest to the invention ps technical essence and the achieved result.

However, such a device has a low vertical dissecting ability, since the lower squeezing levers of the U-shaped system of rods are not located inside the lever system, but protrude outward. This leads to a smoothing of the curve recorded in caverns close to rectangular.

The aim of the invention is to increase the vertical dismembering method. probe by reducing the longitudinal dimensions of the lever system.

This goal is achieved by the fact that the short rod of the U-shaped system of rods is pivotally connected on one side to the shoe. '

With this embodiment of the device, when recording the diameters of the well in caverns with the lower side from the bottom of the bottom, the true shape will be recorded, since the lower levers of the U-shaped system of rods are installed inside the lever system.This allows more accurate registration of vertical changes in diameters in the caverns.

The drawing shows a section of the clamping device in a plane passing through the axis of the device and two shoes, section.

The device consists of a power spring 1, rocker 2, two rods 3 and 4. Each rod, for example, rod 3, in its lower part through a cracker 5, two rods 6 and 7 is connected to the upper 8 and 9 and lower 10 and 11 squeezing levers. These levers are equal in length and at one end are pivotally attached to the device body, and the other to the bases 12 and 13, on which shoes 14 and 15 can slide.

In order for the recording points of all the shoes to remain in the same unchanged plane perpendicular to the axis of the device regardless of the degree of opening of the levers, the device uses a U-shaped system of rods formed by short rods 16 and 17 together with levers 10 and 11. The upper ends of the rods 16 and 17 are pivotally connected to movable shoes, and the lower ones to the middle of levers 10 and 11. Protective pads 18 and 19 are attached to the upper part of the bases.

The device operates as follows. When exposed to a common spring

709804 4 on the rod, for example, rod 3, rod 6 through cracker 5 squeezes levers 9, 11 symmetrically about the axis of the device And shoe 15 is pressed against the wall of the well _{5 of the} spring. In this case, the upper hinges of the lever 11 and the rod 17 are in a plane perpendicular to the axis of the drive. Since the upper hinge of the rod 17 is connected to the shoe 15, the recording point 10 remains unchanged regardless of the magnitude of the opening of the lever system.

Other shoes work similarly.

Claims (2)

The invention relates to the field of the oil industry and can be used in equipment for the geophysical research of boreholes. A device is known for the formation of a layer, which has two pairs of diametrically located shoes pressed against the walls of the well. Each pair of shoes is equidistant from the axis of the device, i.e. the instrument is centered in the well. Articulated lever systems ensure that all four shoes are held in one plane perpendicular to the device axis, regardless of the degree of opening of the levers, i.e. the recording point is not constant; however, a large number of levers do not ensure reliable operation of the system in viscous drilling fluids. It is known that the clamping device of the remote probe of the downhole tool, containing the neck body and the measuring shoe. mounted movably on the base connected with the KopitycoM of the device by means of a lever system made in the form of an upper compressive lever and a Y-shaped system of rods 2. This device is closest to the invention of PS technology and the achieved result. However, such a device has a low vertical dismemberment ability, since the lower squeezing levers of the Y-shaped system of rods are not in the middle of the lever system, but protrude outwards. This leads to a smoothing curve recorded in caverns close to rectangular. The aim of the invention is to increase the vertical dissection of the probe's ability by reducing the longitudinal dimensions of the lever system. This goal is achieved by the fact that the short stem of the Y-shaped system of rods is pivotally connected on one side to the shoe. With such an apparatus, when recording the bore diameters in the caverns from their bottom to the bottom, the tones will be recorded in the true shape, since the levers of the Y-shaped bar system are installed inside the lever system. This makes it possible to more accurately record the vertical changes in the diameters in the cavities. The drawing shows a section of the clamping device in a plane passing through the axis of the device and two shoes, breaking. The device consists of a power spring 1, a rocker arm 2, two rods 3 and 4. Each rod, for example a rod 3, Two rods 6 and 7 are associated with the upper 8 and 9 and lower 10 and 11 squeezing levers. These levers are equal in length and are pivotally attached at one end to the instrument body, and secondly to the bases 12 and 13, along which the shoes 14 and 15 can slide. In order for the recording points of all the shoes to remain in one fixed plane perpendicular to the axis regardless of the degree of opening of the levers, the device uses a Y-shaped system of rods formed by short rods 16 and 17 together with levers 1O and 11. The upper ends of the rods 16 and 17 are pivotally connected with movable shoes, and the lower ones with the middle of the levers 1O and 11 To ver It base portion are attached a protection covers 18 and 19. The apparatus operates as follows. When the common spring O44 is acting on the rod ;; for example, rod 3, ton ha 6, through the cracker 5, squeezes the levers 9, 11 ii symmetrically about the device axis, and the shoe 15 presses against the borehole wall. In this case, the upper hinges of the lever 11 and the rod 17 are in a plane perpendicular to the axis of the drive. Since the upper hinge of the rod 17 is associated with the shoe 15, the recording point remains unchanged regardless of the magnitude of the opening of the lever system. Other shoes work similarly. Claiming device of the remote probe of the downhole tool, comprising a housing, a measuring shoe mounted movably on the base, associated with the instrument housing by means of a lever system made in the form of an upper lever and a U-shaped rod system, in order to increase the vertical dissecting capacity of the probe by reducing the longitudinal dimensions of the lever system; the short stem of the Y-shaped stem system is pivotally connected on one side to the shoe. Sources of information taken into account in the examination 1. US patent number 3423671, cl. 324-1, pub. 1969. 2. USSR author's certificate number 480222, cl. E 21 B 47/00, 1973 (prototype).