RU2775850C1 - Device for fixing the cable of deep equipment on a downhole lubricator - Google Patents

Abstract

FIELD: measurement instruments.

SUBSTANCE: invention relates to means of protection of measurement instruments during well survey. The device includes an open clamp, the ends of which form parallel straight sections directed away from its annular part, brackets are mounted on the straight sections of the clamp with the possibility of axial movement along them, on which, at the bottom of the straight sections of the clamp, a clamping assembly is installed, made in the form of jaws mounted between each other. , on each of which clamping blocks with grooves are mounted.

EFFECT: invention makes it possible to fix the cable and stop the equipment during their descent.

5 cl, 4 dwg

Description

SUBSTANCE: invention relates to means of protection of measurement instruments during well inspection [E21B 47/017].

The MOUNTING MECHANISM OF THE DRILLING DATA METER [CN 211370380, published: 08/28/2020] is known from the prior art, containing a mounting plate, a locking mechanism is provided on the mounting plate, and the locking mechanism includes a locking plate, a movable rod, a fixed frame, a nut, a screw, a driven sprocket , a drive motor, a locking device, a drive sprocket, a fixing bar and a movable rod are provided respectively on the outside and inside of the mounting plate, and the fixing frame is fixed in the inner middle of the mounting plate, the movable rod is located between the fixed frames, the nut is provided in the middle of the movable rod, and the fixed frame and the mounting plate are provided with a screw through the bearing, the screw is threaded through the nut, the end of the screw is fixed by the driven sprocket, the motor drive is provided on the inner side wall of the mounting plate on one side of the mounting frame, and the locking device is provided on the drive motor, and the motor output end drive is provided with a drive sprocket, and the drive sprocket and the driven sprocket are connected by a drive force chain.

The disadvantage of the device is the complexity of its manufacture, as well as the high complexity during its installation. In addition, this device cannot be placed on lubricators without the use of additional equipment.

Also known from the prior art is a DEVICE FOR FASTENING THE WELL OF ANOTHER TESTING DEVICE [CN 212614672, publ.: 26.02.2021] containing a top plate, characterized in that a plurality of fixed shafts are provided at the lower end of the top plate, and the fixed shafts are rigidly connected to the top plate, a plurality of first fixing plates and second fixing plates are installed on the outer wall of the fixed shaft, and the outer wall of the first fixing plate is provided with a through hole, the through hole passes through the first fixing plate, the fixing shaft and the second fixing plates, and also into the pin provided in the through hole, the installation the pin is movably connected to the through hole, the second fixing plate is provided with a second groove, and the second groove is provided with a protective cover, the protective cover is rigidly connected with the second groove, the protective cover is provided with a cylinder inside, and both ends of the cylinder are connected with the protective cover.

The disadvantage of the device is the complexity of its manufacture, as well as the high complexity during its installation. In addition, this device cannot be placed on lubricators without the use of additional equipment.

The closest in technical essence is a DEVICE FOR DRIVING A GEOPHYSICAL CABLE OF A "RIGID" DESIGN INTO A WELL UNDER HIGH PRESSURE [RU 2736743 C1, publ.: 11/19/2020], containing a cable blowout preventer, a lubricator signaling device, a lubricator receiving chamber, a wellhead cable sealer, an intra-lubricator cable pushing mechanism located between the receiving chamber and the cable seal chamber, and an intra-lubricator upper roller, characterized in that the upper roller of the geophysical cable suspension system, placed in a separate housing and included in the internal cavity of the lubricator, is made in the form of small rollers located along the inner envelope of the arcuate body, with a bending diameter corresponding to the diameter of the upper roller required for the applied design of the "rigid" geophysical cable, and the mechanism for pushing it is made of a long-stroke and is located in the descending branch of the lubricator in a separate housing, and me the mechanisms of the cable hook and the pushing element, as well as the element that slows down the cable, during the idling of the pushing element, are made operating in a mode that “spares” the cable in the sheath, namely, the elastic conical clamping elements compressing the cable, located between the rigid conical supports.

The main technical problem of the prototype is its complex design, which causes the complexity and laboriousness of manufacturing and installation of the device, as well as the inability to fix the cable and stop the equipment during their descent (ascent).

The objective of the invention is to eliminate the disadvantages of the prototype.

The technical result of the invention consists in providing the possibility of fixing the cable and stopping the equipment during their descent (ascent) and increasing the reliability of the device as a whole.

The specified technical result is achieved due to the fact that the device for fixing the downhole equipment cable on the downhole lubricator, consisting of an open clamp, the ends of which form parallel straight sections directed away from its annular part, on the straight sections of the clamp with the possibility of axial movement along them are mounted brackets, on which a clamping assembly is installed at the bottom of the straight sections of the clamp, made in the form of jaws mounted between each other, on each of which clamping blocks with grooves are mounted.

In particular, a clamping bolt is mounted in the collar with a clamping plate placed inside the collar.

In particular, the clamping jaws are made of metal.

In particular, the clamping jaws are made of plastic.

In particular, the clamping jaws are made of a composite material.

Brief description of the drawings.

Figure 1 shows a top view of the device for fixing the cable downhole equipment on the downhole lubricator.

Figure 2 shows a front view of the device for fixing the cable downhole equipment on the downhole lubricator

Figure 3 shows a side view of the device for fixing the cable downhole equipment on the downhole lubricator

Figure 4 shows a device for fixing the cable downhole equipment on the downhole lubricator

The figures indicate: 1 - clamp, 2 - tie bolts, 3 - longitudinal holes, 4 - brackets, 5 - jaws, 6 - small tie bolts, 7 - clamping blocks, 8 - grooves, 9 - bushing, 10 - clamping bolt, 11 - clamping plate, 12 - thrust sleeve, 13 - lubricator, 14 cable, 15 - rollers.

Implementation of the invention.

The device for fixing the downhole equipment cable on the downhole lubricator contains a collar 1 (see Fig. 1-3) made open and containing an annular part and straight sections. The straight sections of the clamp 1 are formed by its open ends, made elongated and placed parallel to each other. In the straight sections of the clamp 1, near its annular part, symmetrical holes are made through which a coupling bolt 2 is mounted, connecting both straight sections of the clamp 1. Along the longitudinal axis of symmetry, in the straight sections of the clamp 1, longitudinal holes 3 are made. Outside the clamp 1 to its straight sections through mentioned longitudinal holes 3 with the help of the second tie bolt 2 brackets 4 are mounted, made with the possibility of moving along the mentioned longitudinal holes 3. Brackets 4 are made in the form of corners, the horizontal shelves of which are flush with the plane of the lower surface of the clamp 1 and directed in opposite directions. From below, to the brackets 4 across the straight sections of the clamp 1, a jaw 5 of the clamping assembly is mounted, made, for example, from a corner, while said jaw 5 is mounted to the brackets 4 by a detachable connection through at least one elongated hole made along the jaw 5. Such the connection of the jaw 5 to the brackets 4 is made with the possibility of adjusting the position of said jaw 5 to the left/right from the central axis of symmetry of the clamp 1. Holes are made in the jaw 5 through which the second jaw 5 is mounted to it with the help of small tie bolts 6, while to adjacent each other Clamping pads 7 are mounted to each other surfaces of the jaws 5. Clamping pads 7 are made of a material that provides high friction force (reliable adhesion) with the cable 14 interacting with them, for example, aluminum, plastic, etc. In the middle parts of the pads 7, at least one groove 8 is symmetrically made, forming, when the pads 7 are connected, a through hole made with the possibility of cable 14 passing through it.

To make it possible to install the device on lubricators 13 of various diameters, a through hole (not shown in the figures) is made in the base of the clamp 1, coaxially with which a bushing 9 with an internal thread is mounted on the outer side of the clamp 1. A clamping bolt 10 is mounted through the sleeve 9 into the clamp 1. The clamping bolt 10 abuts against the clamping plate 11, while in one of the embodiments, a thrust bushing 12 is mounted to the clamping plate 11 to stop the clamping bolt 10 through it.

A device for fixing the cable of downhole equipment on a downhole lubricator is used as follows.

The clamp 1 is mounted on the lubricator 13 (see Fig. 4) and tightened with the help of tie bolts 2 around the lubricator 13.

If the inner diameter of the clamp 1 in the contracted state exceeds the outer diameter of the lubricator 13, said clamp 1 is fixed on the lubricator 13 using the clamping plate 11. its opposite surface of clamp 1.

Next, one of the jaws 5 is mounted to the brackets 4.

The cable 14 of the descent equipment is passed through the rollers 15 and placed along one of the grooves 8 of the clamping blocks 7, after which the second jaw 5 is mounted to the first one using small tie bolts 6, tightening them to a degree that ensures the cable 14 slides between the clamping blocks 7 with an interference fit that excludes cable free play 14.

The equipment is lowered using cable 14 into the well. After the descent equipment reaches the required depth, the small coupling bolts 6 of the jaws 5 are tightened with a force that excludes the movement of the cable 14 between them.

EFFECT: providing the possibility of fixing the cable and stopping the equipment during their descent (ascent) is achieved by making a device for fixing the cable of the downhole equipment on the downhole lubricator in the form of a clamp 1, which is made with the possibility of mounting it anywhere in the lubricator 13 and the presence of a clamping unit, made of jaws 5 with clamping pads 7 with grooves 8 providing sliding in said cable assembly 14 and fixing said cable 14 to hold the descending equipment at the required depth in the well. The use of the described device for fixing the cable of downhole equipment eliminates the need for additional equipment for lowering / raising equipment.

In addition, a simple design of the device, consisting of the minimum allowable set of structural elements that ensure the operable state of the device through their possible states, makes it possible to increase the reliability of the device as a whole.

Claims (5)

1. A device for fixing the cable of downhole equipment on a downhole lubricator, consisting of an open clamp, the ends of which form parallel straight sections directed away from its annular part, brackets are mounted on the straight sections of the clamp with the possibility of axial movement along them, on which brackets are mounted at the bottom of the straight sections the clamp has a clamping assembly made in the form of jaws mounted between each other, each of which has clamping pads with grooves. 2. The device according to claim 1, characterized in that a clamping bolt with a clamping plate located inside the clamp is mounted in the clamp. 3. The device according to claim 1, characterized in that the clamping pads are made of metal. 4. The device according to claim 1, characterized in that the clamping pads are made of plastic. 5. The device according to claim 1, characterized in that the clamping pads are made of composite material.

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