RU70680U1 - Spider - Google Patents

Abstract

The utility model relates to the oil and gas industry, and in particular to devices for carrying out hoisting operations during the overhaul of wells. The spider comprises a housing (1), a wedge suspension 4 connected to a lever control system, for example, a foot. Dies (6) are installed in the seat (10) of the wedges (5) with the help of a spring-loaded locking screw (11), not protruding beyond the radial surface of the plate (6). In the wedges (5), grooves (9) are made for interacting with the protrusions of the outer surfaces of the dies (6). The outer surfaces of the dies (6) are made with a radius corresponding to the radius of the seat (10) of the wedge (5), and the internal surfaces have a radius corresponding to the radii of the pipes being lowered. This reduces the time to replace the dies of the wedge suspension from one size of the retained pipes to another during the hoisting operations. 2 ill.

Description

The utility model relates to the oil and gas industry, and in particular to devices for carrying out hoisting operations during the overhaul of wells.

Spiders are devices for automating the operations of capturing, holding on weight, releasing and centering a casing string, tubing or drill pipe during their descent into the well and its lifting out of it.

Known spider comprising a housing with a Central conical hole, wedges installed in the Central conical hole, connected with a lever control system [RU 2030543 C1, IPC 6 Е21В 19/10, publ. 1995.03.10].

The disadvantage of this spider is the long duration and laboriousness of tripping operations, due to the need to remove and replace the wedge suspension from one size of the launched or extracted tubing to another in the course of the overhaul of the wells.

The challenge facing the creation of the spider is to expand the functionality - the implementation of hoisting operations with different sizes of launched or retrieved tubing.

The technical result achieved by the invention consists in reducing the time for replacing the dies of the wedge suspension from one size of the retained pipes to another during the round-trip operations during the overhaul of the wells without the laborious replacement of the wedge suspension by replacing the replaceable dies of one standard size pipes on the other.

The task and technical result are achieved by the fact that in the known spider containing the housing, the wedge suspension, in which the dies are located in the wedge seat, and the wedge lever control system, in contrast to the prototype, the dies are fixed in the wedge seat using a spring-loaded locking screws so that they can be replaced. In this case, the spring-loaded locking screw does not protrude beyond the radial surface of the ram, grooves are made in the wedges to interact with the protrusions of the outer surfaces of the rams, the outer surfaces of the rams having a radius corresponding to the radius of the wedge seat, and the inner surfaces of the rams have a radius,

corresponding to the radius of the descent pipes. In addition, the lever control system is configured to foot control the wedge suspension.

In Fig.1 shows a spider (General view, side view with a slit); figure 2. - view from above.

The spider comprises a housing 1, leaves 2, handles 3 of the lever control system, wedge suspension 4 with interchangeable dies 6 located on the wedges 5.

The housing 1 is made split, with a pharynx. For strength, it is equipped with stiffening belts. At the base of the housing 1 there are paws with slots for attachment to the wellhead flange (not shown). At the bottom of the housing 1, a centralizer 7 is inserted, held by a spring-loaded lock (not shown). Sash 2 is pivotally connected to the body 1 of the spider, fixed on the pin axis 8. The spider yaw is locked by the leaf 2 during the descent-lifting of the pipes and fixed in the closed position by the pin axis 8 with a loop. A handle 3 of the lever control system is pivotally connected to the housing 1, to which end the wedge suspension 4 is suspended from the hinge.

Wedge pendant 4 consists of three wedges 5: one central and two side. The side wedges are pivotally connected to the central wedge and spring-loaded in the opening direction. Replaceable dies 6 having protrusions on the outer surfaces are inserted into the grooves 9 of the wedges 5 and are mounted in the seat 10 of the wedges 5 using spring-loaded locking screws 11.

The outer surfaces of the dies 6 are made with a radius corresponding to the radius of the seat 10 of the wedge 5, and the inner surfaces with a radius corresponding to the radii of the descent pipes. The lever control system of the wedge suspension of the spider is made with the possibility of foot control.

The spider works as follows.

During tripping operations, the spider is mounted on the wellhead flange (not shown), centered and bolted. The wedge suspension 4 with interchangeable dies 6 installed in the wedges 5 for the diameter of the launched or removed pipes is lifted by the handle 3 of the lever control system using the foot of the worker (operator). A tubing (not shown) is lowered through the internal cavity of the wedge suspension 4 into the well, after which the handle 3 is released and the wedge suspension 4 is securely engaged with its interchangeable dies 6 with the pipe.

For lowering or lifting tubing of a different size, replaceable dies are replaced 6. For this purpose, the wedge suspension 4 is lifted from the housing 1 by pressing the worker’s foot 4, the spring-loaded locking screws 11 are unscrewed in the wedges 5, and the dies 6 are lifted above the seats under the action of the locking screw springs 11 10 wedges 5 and grooves 9 are removed. Then in the wedges 5 replace the replaceable dies 6 used standard size for the proposed use. Then the wedge suspension 4 is lowered and the spider is ready for use again.

As an example of a specific implementation of the inventive device, consider a spider that has passed a pilot test at a well of the Urengoy field. Technical characteristics of this spider: loading capacity 800 kN; nominal diameter of retained tubing 60 mm, 73 mm, 89 mm; overall dimensions 945 (1350 with drive) × 440 × 302 mm; foot drive; weight 302 kg.

The spider in the process of pilot tests withstood the weight of the column up to 800 kN compared to 320 kN for previously used spiders in the field.

The proposed spider has a less complex design, has a foot lever control system (drive). The transition from one pipe size to another is carried out by changing dies, and not wedge suspensions. This entails a decrease in the mass of the kit (for example, three wedges require one wedge suspension, not three), which significantly reduces the duration of work when switching from one pipe size to another.

Claims (2)

1. A spider comprising a housing, a wedge suspension in which dies are located in the wedge seat, and a wedge lever control system, characterized in that the dies are secured to the wedge seat using a spring-loaded locking screw so that they are replaced, while the spring-loaded locking screw does not protrude beyond the radial surface of the ram; grooves are made in the wedges for interaction with the protrusions of the outer surfaces of the rams, and the outer surfaces of the rams have a radius corresponding to p radius of the seat of the wedge and the inner surface of the dies have a radius corresponding to the radius of reentry tubes. 2. The spider according to claim 1, characterized in that the lever control system of the wedge suspension is made with the possibility of foot control.