SU874959A1 - Drilling tool centering device - Google Patents

Description

(54) DRILLING TOOL CENTER

. I;

The invention relates to the field of drilling wells, and more particularly to devices for centering a drilling tool while controlling the direction of the wellbore of vertical and inwardly directed boreholes.

Centering devices of a boring tool, such as a downhole motor, are known, including a body having welded blades secured by cutting: connections to the body of a bottomhole motor (1). This centralizer is located in a strictly defined place and does not move along the drilling tool. When the blades are triggered, the Titrators are replaced in the repair shops, which; 1 rolls the operational regulation, the direction of the wellbore.

The closest technical solution to the draft is the centralizer of the drilling tool, which includes a body with blades, longitudinal and transverse tongues on the inner surface of the body. and fittings attaching the housing to the drilling tool 2.

The drawback of the device is that contact stresses act on the body fastening assembly, as a result of which the body does not reliably secure to the drilling tool. . the one leading to the rotation of the body and its axial displacement;

The purpose of the invention is to increase the reliability of fastening the hull due to the separate perception of axial and circumferential forces.

This goal is achieved by the fact that the 10 boring tool has grooves that form longitudinal and transverse closed cavities with the housing grooves, and the fastening elements are made in the form of balls and new lips in closed cavities with a gap along the cavity length, the gap size being larger than the ball diameter. , FIG. I shows the centering device on the boring tool in section; in fig. 2 is a section A-A in FIG. I (along the transverse groove); in fig. 3 - section. BB to fng. 1 (longitudinal; groove):

The centering device consists of a body I with blades and a fixing unit for drilling tool 2. The mounting unit contains balls 3 and locking plugs 4.

The balls 3 are placed in transverse grooves a and longitudinal grooves in, made on the body I and the drilling tool 2 and forming closed cavities. Lock plugs 4 are placed in the housing I at the outputs of the longitudinal grooves viv opposite sides of the transverse grooves a. At the junction points of the transverse and longitudinal grooves, the lock plugs 4 are aligned.

Between the balls 3 of the transverse closed cavity along its length there is a gap d, and between the balls 3 of the longitudinal closed cavity along its length there is a gap C. Clearances: d and larger than the diameter of the ball 3.

Collect centralizer boring tool as follows.

On the drilling tool 2 put on the case and combine the transverse grooves a, forming a closed cavity. One of the locking plugs 4 is wrapped, and balls 3 are placed in the hole for the other. After the balls 3 have been completely laid out, one of them is removed, for example, they are pulled out with steel wire in the opposite hole under the locking plug 4 and the lock plugs 4 are wrapped. The balls are filled with balls 3 longitudinal cavities formed by longitudinal channels 6.

During the operation of the zeitriding device in the well, axial loads are perceived by balls 3 in the transverse cavity S, and circumferential forces perceive balls 3 into the longitudinal cavities. The locking plugs 4 do not perceive the force and are unloaded.

If it is necessary to replace the case I with the blades or move it along the drilling tool 2 (to the places with transverse and longitudinal grooves), the lock stoppers} 4 are inverted and the balls 3 are pushed out with steel cable into the opposite openings of the transverse and longitudinal cavities.

The placement of the balls in the transverse and perpendicular to the inm longitudinal cavities of circular cross section allows perception.

the mother axial forces are only balls in the transverse cavities, and the circumferential forces are only balls in the longitudinal cavities. The presence of a gap between balls larger than the ball diameter in both types of cavities precludes the contact of the caps and the perception of unusual forces, LI, i.e., axial forces in the longitudinal cavities and circumferential forces in the transverse cavities.

Technical and economic efficiency

the invention is to reduce the material costs associated with the wiring of directional wells.

Claims (2)

Invention Formula A drill tool centralizer, including a body with blades, profile and transverse grooves made on the inner surface of the body, and elements of the body attachment to the boring tool, characterized in that, in order to increase . reliability of fastening of the body due to the separation of axial and circumferential forces; - the drilling tool has grooves forming longitudinal and transverse closed with the housing grooves1; e cavities, and elements to {heat are made in the form of balls and installed in a closed cavity with a gap along the length of the cavity, and the size of the gap is greater than the diameter of the ball. Sources of information taken into account in the examination I. Bel V.M. The layout of the bottom of the drill string. VNIIOENT, M., 1972, p. 68 2. US Patent No. 3482589, cl. 308-4, pub. 1969 (prototype) ..