RU193036U1 - Wellhead suspension - Google Patents

Abstract

The proposal relates to the oil and gas industry and can be used in the operation of sucker rod pump installations, in particular as a cable suspension of the wellhead rod of a ground drive. under the rope and ring samples under the upper ends of the corresponding nodes of the suspension of the rope containing the inner conical surface under the corresponding w evidence and inserted into the lower traverse with the possibility of rotation. The lower traverse from two ends is equipped with removable stoppers made with the possibility of covering the corresponding lower parts of the rope suspension units with their fixation from longitudinal movement. Each node of the suspension of the rope between the traverses is equipped with planes for tool standard or adjustable keys. Tool wrench planes are made in the form of flats, a square regular prism or a hexagonal correct prism. The proposed cable suspension of the wellhead rod allows simple and reliable unwinding of the ropes without dismantling or loosening the structural elements and connections of the cable suspension. 3 s.p. f-ly, 2 ill.

Description

The proposal relates to the oil and gas industry and can be used in the operation of sucker rod pumping units, in particular as a cable suspension of the wellhead rod of a ground drive.

Known cable suspension for rods containing the upper and lower traverses (patent SU No. 1707237, IPC F04B 47/00, EV 43/00, publ. 23.01.1992 in Bull. No. 3), installed with the possibility of movement relative to each other for placement between them dynamometer, cable suspension attachment nodes, a wedge clamp of the wellhead rod passing through the wellhead seal, while it is provided with a sleeve located coaxially relative to the wellhead shaft and connected to the upper beam, the lower end of the sleeve passed through an opening in the lower beam and protrusion t from it by an amount not less than the length of movement of the lower beam relative to the upper, which is necessary for mounting the dynamograph.

One of the drawbacks of this suspension is the manufacturing complexity associated with a large number of precisely customized parts.

The closest is the cable suspension of the downhole pumping unit (patent SU No. 488910, IPC ЕВВ 43/00, publ. 25. 10.1975 in Bull. No. 39), including the upper and lower crossheads, suspension units of the polished rod located on the upper crosshead, lifting screws and suspension components of the rope containing the bushings with cones installed in them, and the lifting screws are placed in the bushings and interact with the traverse.

Common drawbacks of both suspensions are the lack of fixation of the rope suspension nodes between the traverses from falling out in the direction radial from the rod and the difficulty of twisting the rope due to the difficulty of turning the rope suspension nodes assembled in the suspension relative to its axis.

The technical task of the proposed utility model is to create a simple and reliable design of the cable suspension of the wellhead rod, which allows to unwind the ropes without dismantling or loosening the connecting nodes of the cable suspension and stop during operation.

The technical problem is solved by the cable suspension of the wellhead rod, including the upper and lower traverses, a polished rod suspension unit located on the upper traverse having end grooves for the rope and ring samples under the upper ends of the corresponding rope suspension units containing an inner conical surface for the corresponding bushings and inserted into lower traverse with the possibility of rotation.

New is the fact that the lower traverse from two ends is equipped with removable stoppers made with the possibility of covering the corresponding lower parts of the rope suspension units with their fixation from longitudinal movement, while each rope suspension unit between the traverses is provided with planes for standard or adjustable wrenches.

What is new is that the planes for the tool keys are made in the form of flats, a square regular prism or a hexagonal regular prism.

In FIG. 1 shows a diagram of a cable suspension with partial longitudinal sections.

In FIG. 2 shows a top view of a cable suspension.

Rope suspension of the wellhead rod (not shown), including the upper 1 (Fig. 1) and lower 2 crossheads, a suspension unit 3 of a polished wellhead rod, located on the upper crosshead 1 having end grooves 4 (Fig. 2) under the rope (not shown) and annular samples 5 (Fig. 1) under the upper ends 6 of the corresponding nodes of the suspension 7 of the rope, containing the inner conical surface 8 under the corresponding bushings (not shown) and inserted into the lower beam 2 with the possibility of rotation. The lower traverse 2 from two ends is equipped with removable (due to, for example, bolts 9) stoppers 10, made with the possibility of covering the corresponding lower parts of the nodes of the suspension 7 of the rope with their fixation from longitudinal movement (for example, using the protrusions 11 in the lower part of the nodes of the suspension 7 the rope and grooves 12 in the lower traverse and 13 stoppers 10 or grooves in the lower part of the suspension nodes 7 of the rope and the protrusions in the lower traverse and stoppers 10 - the last is not shown) in the stopper 10 and the lower traverse 2. Each node of the suspension 7 of the rope between the traverses is equipped with a flat awns 14 (FIGS. 1 and 2) under standard tools or wrenches (not shown). The plane 14 under the tool keys can be made in the form of a hexagonal regular prism 15, square regular prism or flats (the latter are not shown).

Structural elements and technological connections that do not affect the operability of the cable suspension in FIG. 1 and 2 are not shown or shown conventionally.

Cable suspension works as follows.

The nodes of the suspension 7 of the rope are inserted into the lower traverse 2 (Fig. 1) so that the protrusions 11 enter the grooves 12, the nodes of the suspension 7 of the rope are fixed rotatably with stoppers 10 using bolts 9 so that the protrusions 11 of the suspension 7 are included in the grooves 13 stopper 10. In the nodes of the suspension 7 insert the ends of the ropes, while aligning the lower beam 2 to an approximate horizontal position. The ends of the ropes are fixed with conical bushings due to interaction with the conical surface 8 of the suspension unit 7. On the ropes using end grooves 4 (Fig. 2), the upper crosshead 1 (Fig. 1) is mounted until the ring samples 5 stop, on the upper ends 6 of the suspension unit 7 of the rope with fixation from unauthorized lateral movements. Often during installation, twisting (twisting) of one or both ropes occurs, as a result of which the suspension of the cable from the horizontal and / or excessive tension of one of the ends of the ropes occurs, which can lead to a “bend” of the wellhead and / or breakage of one of the ends of the ropes work. To eliminate the negative consequences, the ends of the suspension rope in the opposite direction of the strand are alternately untwisted. The unwinding is carried out with a standard or adjustable wrench, interacting with the corresponding planes 14 (Fig. 1 and 2), for example, a hexagonal prism 15, the corresponding suspension nodes 7 (Fig. 1) of the ropes. Work on the unwinding of the rope can be carried out by simple manipulations with a tool wrench by one specialist without disassembling or relaxing the structural elements and joints of the rope suspension. This reduces the working time for unwinding the rope by about 2 - 2.5 times. A wellhead rod is inserted into the holes 16 and 17, respectively, of the lower 2 and upper 1 traverses, onto which the suspension assembly 3 is put on top until it stops in the upper crosspiece 1. The wellhead rod is fixed in the suspension assembly 3 using dies (not shown) resting on the conical surface 18, or nuts with a washer (not shown), or using any other known design (the authors do not claim to attach the wellhead rod to the suspension assembly 2). After that, the wellhead drive (not shown), which drives the ropes and the cable suspension with the wellhead, is put into operation.

The proposed cable suspension of the wellhead rod allows you to simply and reliably unwind the ropes without dismantling or relaxing the structural elements and connections of the cable suspension.

Claims (4)

1. Rope suspension of the wellhead rod, including the upper and lower traverses, a polished rod suspension assembly, located on the upper traverse, having end grooves for the rope and ring samples under the upper ends of the corresponding rope suspension assemblies containing an inner conical surface for the corresponding bushings and inserted into the lower the cross-beam with the possibility of rotation, characterized in that the lower cross-beam from two ends is equipped with removable stoppers made with the possibility of covering the corresponding lower parts of the nodes waxes rope latching them against longitudinal movement, wherein each suspension rope assembly traverses between planes provided under standard tools or wrenches. 2. Rope suspension of the wellhead according to claim 1, characterized in that the planes for the tool keys are made in the form of flats. 3. Rope suspension of the wellhead according to claim 1, characterized in that the planes for the tool keys are made in the form of a square regular prism. 4. Rope suspension of the wellhead according to claim 1, characterized in that the planes for the tool keys are made in the form of a regular hexagonal prism.

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