RU2746330C1 - Clamp for holding sucker rod string - Google Patents

Abstract

FIELD: oil industry.

SUBSTANCE: invention relates to the oil industry, in particular to equipment for deep-well pumping of oil from a well with a pumping unit, and can be used to clamp a polished rod and hold a sucker rod string on the suspension beam of the pumping unit. Clamp for holding a string of sucker rods, containing a body with a hole for the rod, consisting of two half-bodies, connected by a rotation mechanism relative to each other at one end, and at the other end - equipped with a threaded compression mechanism in the form of a cylindrical pin with a thread for at least one corresponding nut inserted into the through-holes of the corresponding half-bodies. The half-bodies and their mounting holes are identical. The turning mechanism is made in the form of a spring plate rigidly connected by its ends with the corresponding half-cases and working for expansion. On the side of the spring plate, the body is equipped with an additional hole for the mounting projection of the traverse. The stem bore in each half-body has a radius corresponding to the maximum stem diameter that the clamp can grip, and the distance between the remote points of the hole when the half-bodies are compressed does not exceed the minimum stem diameter that the clamp can grip.

EFFECT: easy manufacture, maintenance and repair, versatility in work, low metal consumption.

1 cl, 3 dwg

Description

The proposal relates to the oil industry, in particular, to equipment for deep-well pumping of oil from a well using a pumping unit and can be used to clamp a polished rod and hold a sucker rod string on the suspension beam of the pumping unit.

Known clamp for holding a string of sucker rods (patent for PM RU No. 62965, IPC Е21В 19/10, publ. 05/10/2007 Bull. No. 13), containing a body with a hole for the rod, and the body consists of two half-bodies installed on the axis, and connected by a threaded connection, the axis is installed in the hole of one half-body by press fit, in the hole of the other half-body - along a sliding fit, in one half-body there is a hole for the bolt, in the other there is a through groove for the bolt body and a through groove for a rectangular head that exceeds it in width bolt.

There is also known a clamp for holding a string of sucker rods (patent for PM RU No. 78254, IPC Е21В 19/10, publ. 20.11.2008 Bull. No. 32), containing a body with a hole for the rod, consisting of two half-cases mounted on the axis and connected threaded connection, in one half-case there is a hole for the bolt, in the other - a through groove for the bolt body, and one of the half-cases is rigidly fixed on the axis, and the second is installed with the ability to rotate around it, while in the half-case having a through groove for the bolt body, a recess is made for fixing the bolt head.

The closest in technical essence is a clamp for holding a string of sucker rods (patent for PM RU No. 177350, IPC Е21В 19/10, publ. 16.02.2018 Bul. No. 5), containing a body with a hole for the rod, consisting of two half-bodies installed on the axis and connected by a threaded connection, in one half-case there is a hole for the bolt, in the other - a through groove for the bolt body, one of the half-cases is fixed on the axis, and the second is installed with the possibility of turning around it, in the second half-case there is a recess with stops for the bolt head , moreover, the half-body with a bolt hole is fixed on the axis by an integral connection made by welding.

The disadvantages of all analogs are a narrow area of application, since they are manufactured for one standard size of a wellhead polished rod, the complexity of manufacturing, maintenance and repair, as well as a large metal consumption, since it consists of two half-shells connected by an axis, which requires increased dimensions in height for strength and, as a follower, of a large mass, while the seats for the threaded connection have a complex shape for the implementation of the possibility of quick installation or removal from the polished rod due to the lack of fixation in the unfolded position and directly on the traverse.

The technical task of the proposed technical solution is to create a universal, easy to manufacture, maintain and repair clamp for holding a sucker rod string with a relatively low metal consumption due to the possibility of fixing polished rods of various diameters, a spring connection of half-shells operating for expansion, the possibility of temporary fixation on a traverse and simple seats for threaded compression mechanism.

The technical problem is solved by a clamp for holding a string of sucker rods, containing a body with a hole for the rod, consisting of two half-bodies connected by a mechanism of rotation relative to each other at one end, and at the other end - equipped with a threaded compression mechanism in the form of a cylindrical pin with a thread for at least one corresponding nut inserted into the through-holes of the corresponding half-bodies.

What is new is that the half-bodies and their mounting holes are made the same, the turning mechanism is made in the form of a spring plate rigidly connected by its ends with the corresponding half-bodies and working for expansion, and the body on the side of the spring plate is equipped with an additional hole for the landing projection of the traverse, while the hole under the rod in each half-body has a radius corresponding to the maximum diameter of the wellhead polished rod that can grip the clamp, and the distance between the remote points of the hole when the half-bodies are compressed does not exceed the diameter of the minimum diameter of the wellhead polished rod that can grip the clamp.

It is also new that the body bore in the half-bodies is provided with jaws made of a material softer than the stem material.

FIG. 1 shows the clamp from the side with a partial longitudinal section.

FIG. 2 shows a clip with a section A-A of FIG. one.

FIG. 3 shows the clamp in isometric view.

A clamp for holding a string of sucker rods (not shown) comprises a housing 1 (Figs. 1 - 3) with an opening 2 (Figs. 2 and 3) for a polished wellhead rod (not shown), connected from above to a string of sucker rods at the wellhead (not shown ). The body 1 consists of two half-bodies 3 and 4, connected at one end by a rotation mechanism relative to each other in the form of a spring plate 5 rigidly connected by its ends 6 and 7 with the corresponding half-bodies 3 and 4 and working for expansion. At the second end of the half-body 3 and 4 are equipped with a threaded compression mechanism in the form of a cylindrical pin 8 (bolt, pin, etc.) with a thread 9 for at least one corresponding nut 10. The pin 8 (Fig. 2) is inserted into the mounting through holes 11 and 12 of the corresponding half-bodies 3 and 4. The half-bodies 3 and 4 and their mounting holes 11 and 12 are made the same. The body 1 (Fig. 2 - 3) from the side of the spring plate 5 is provided with an additional hole 13 for the landing protrusion 14 (Fig. 1) of the traverse 15 (shown conditionally). The authors do not pretend to methods of manufacturing the traverse 15 and the projection. Hole 2 (Fig. 2) for the rod in each half-body 3 and 4 has a radius R corresponding to the maximum diameter of the rod (2R ≈ D _max ), which can grip the clamp, and H the distance between the remote points of hole 2 with compressed half-bodies does not exceed the minimum diameter the diameter of the stem (H ≤ D _mn ), which the clamp can grip. To increase the service life of the clamp and avoid damage to the stem, the opening 2 (Figs. 2 and 3) of the half-bodies 3 and 4 of the body 1 can be provided with jaws (not shown) made of a material softer than the stem material. The jaws can be fixed inside hole 2 with hot melt glue, blind rivets, or the like. (the authors do not pretend to this, since such solutions are known from open sources). The spring plate 5 can be rigidly connected by its ends 6 and 7 with the corresponding half-cases 3 and 4 using rivets 16, welding screws (not shown), anaerobic glue (not shown), made immediately as part of the half-cases 3 and 4 (if they are made of spring material) and / or the like. The authors do not pretend to methods of connecting the plate with the corresponding half-cases 3 and 4, since such solutions are known from open sources.

Structural elements and technological connections, which do not affect the operability of the device in the drawings (Fig. 1 - 3) are not shown or are shown conditionally.

The clamp works as follows (with an example of a specific implementation).

Two identical half-cases 3 (Figs. 2 and 3) and 4 are made with holes 2 and 13 of the case 1, which greatly simplifies the manufacture, repair and maintenance of the clamp. Hole 2 of half-shells 3 and 4 is supplied with copper sponges, fixed with anaerobic glue. In this case, hole 2 (Fig. 2) for the rod in each half-body 3 and 4 is made so that the radius R corresponds to the maximum diameter of the rod (in practice, R = 19 mm, which corresponds to the diameter of the rod D _max = 38 mm), and H is the distance between remote points of hole 2 with compressed half-bodies does not exceed the diameter of the minimum rod diameter (in practice, H = 31.5 mm, which does not exceed the rod diameter D _mn = 32 mm). Such a design of hole 2 allows one clamp to be used for rods with a diameter of 32 mm to 38 mm, which significantly reduces the number of standard sizes of required clamps. The thickness of half-shells 3 and 4 depends only on their strength characteristics, which must be sufficient to hold the rod, which allows them to be made much thinner and lighter than their counterparts. Half-shells 3 (Figs. 2 and 3) and 4 to obtain a single body 1 are connected with a spring plate 5, the ends 6 and 7 of which are attached to the corresponding half-shells 3 and 4 using hot glue (melting at 60 - 65 ºС) and rivets 16 (to facilitate assemblies - rivets hold the spring plate 5 until the glue sets, and disassembly after drilling and removing the rivets 16 and heating the bodies 3 and 4). Assembly and disassembly of half-cases 3 and 4 to each other into a single body 1 does not require special tools and adjustment of all parts. A pin 8 in the form of a bolt with washers 17 and 18 (to reduce friction during rotation) and thread 9 was inserted into the landing through holes 11 (Fig. 2) and 12 of the corresponding half-housings 3 and 4 to each other, overcoming the force of the spring plate 5. In this case, the hole 2 (Fig. 2 and 3) remains open for the passage of the rod head. The assembled clamp using the hole 13 (Fig. 1), put on the landing projection 14 (to simplify installation on the traverse 15 and fixing the rod), is installed on the traverse 15 so that hole 2 (Figs. 2 and 3) is located above the hole (not shown) traverse 15 (Fig. 1) under the rod. After inserting the rod into the hole of the crosshead 15 and hole 2 (Figs. 2 and 3) of the housing 1, by rotating the nut 10 on the thread 9 of the pin 8, the half-bodies 3 and 4 are compressed, overcoming the force of the spring plate 5, until the rod is covered below its head. Thus, the rod is securely fixed by a clamp on the traverse 15 (Fig. 1) of the rope suspension, allowing it to work in normal mode. To detach the rod from the cross-arm 15 by rotating the nut 10 (Fig. 2) on the thread 9 of the pin 8 of the half-body 3 and 4 are unclamped due to the elasticity of the spring plate 5 and the rod is removed from the hole 2 and the hole of the cross arm 15 and (Fig. 1). In this case, the removal and retention of the clamp is not required due to the interaction of the hole 13 of the housing 1 with the protrusion 14 of the traverse 15.

The proposed clamp for holding the string of sucker rods is easy to manufacture, maintain and repair, versatile in operation, has a low metal consumption due to the possibility of fixing polished rods of various diameters, connecting the half-bodies with a spring plate working for expansion, the possibility of temporary fixation on the crosshead and simple universal mounting holes for threaded compression mechanism.

Claims (2)

1. A clamp for holding a string of sucker rods, containing a body with a hole for the rod, consisting of two half-bodies, connected by a mechanism of rotation relative to each other at one end, and at the other end - equipped with a threaded compression mechanism in the form of a cylindrical pin with a thread for at least one a corresponding nut inserted into the landing through holes of the corresponding half-bodies, characterized in that the half-bodies and their landing holes are made the same, the rotation mechanism is made in the form of a spring plate rigidly connected by its ends with the corresponding half-bodies and working for expansion, and the body on the side of the spring plate is equipped with with an additional hole for the mounting projection of the traverse, while the hole for the stem in each half-body has a radius corresponding to the maximum diameter of the stem that can grip the clamp, and the distance between the remote points of the hole when the half-bodies are compressed does not exceed the size of the minimum diameter meter of rod that can grasp the clamp. 2. The clamp for holding the string of sucker rods according to claim 1, characterized in that the opening of the body in the half-bodies is provided with jaws made of a material softer than the material of the rod.

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