RU2517107C1 - Dual string spider - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: spider having a body with two vertical through tapered openings consists of two halves pivoting in the horizontal plane and dissymmetric in regard to the joint line and fixed rigidly in a closed position at the front by a stopper made as a rod. It also contains two gripping mechanisms that include four-part slips installed so that they can be moved in the through tapered openings and lever mechanisms interacting pivotally with the slips. The spider is equipped with a mechanism for each gripping mechanism interacting with the lever mechanism. Under the body there is a basis in the form of a plate with the central opening, at the front side up to the central opening there is a through groove in the plate. Over the body there is a cover in the form of a plate with the central opening that consists of two pivoting halves fixed rigidly to the racks of the lower half of the body. The device is equipped with a vertical axis fixed rigidly at the upper plane of the basis at the rear side and connected pivotally to the rear side of the body half, the cover half. At that the spider is fixed by "Open" or "Closed" position regulators for the body half and an open position regulator for the slips. The centres of tapered openings are placed in the joint line of the body by which the tapered openings are divided into semi-openings. Drives of the gripping mechanisms are united with the lever mechanisms and contains coaxial external and internal shafts with fixed rigidly manual handles, levers and consoles with rocker arms mounted opposite to each other at the lateral sides of the body halves, they are mounted so that they can rotate in brackets connected to the lateral sides of the body halves. The drives of the gripping mechanisms also contain detachable rods connected pivotally to the rocker arms; the rods consist of two links connected by the interacting gear racks at each link. Fixation of the links in the connected position is made by a lock in the form of a spring-actuated bushing. At that the rod of the first gripping mechanism is connected to the rocker arms of the external shafts while the rod of the rear gripping mechanism is connected to the rocker arms of the internal shafts. Parts of each slip are dissymmetric in regard to the joint line of the body; they interact in pairs with one of semi-openings in the through tapered openings of the body. At that both parts of pairs of the front slip are connected in pairs with the rocker arms of the internal shafts and both pairs of the rear slip are connected in pairs with the rocker arms of the external shafts.

EFFECT: serviceability and maintainability, improved operational reliability and safety, expansion of operational functionality.

8 dwg

Description

The invention relates to equipment for the oil and gas industry, and in particular to devices for hoisting operations with pipes during drilling, repair and development of wells.

Known spider (PM RF №70680, IPC ЕВВ 19/10, published on 02/10/2008), containing:

- a housing with a tapered bore and a throat closed by a pivoting sash with a locking finger,

- wedge pendant containing three wedges,

- the central of which is pivotally connected to the suspension, and two side pivotally connected to the central wedge and provided with springs,

- moreover, the grooves are made in the wedges, in which replaceable dies are installed, secured with spring-loaded locking screws,

- and the wedge suspension is pivotally connected to the lever control system, controlled, for example, by the foot of the operator.

A disadvantage of the known spider is the increased complexity and control complexity due to its design, which, when the pipe is gripped, implies the need for preliminary wedges to be withdrawn upward from the conical opening of the housing by pressing the pedal of the lever control system. Given that the wedges with dies have a significant mass and the centers of gravity of each of them in the working position, i.e. when placed in a conical hole of the body, are shifted to the center of the wedge from the axis of the hinge, the rise of the wedge suspension will be accompanied by the rotation of the wedges under the influence of their gravity to a position where the axis of the hinge and the center of gravity of the wedge with the die coincide in a vertical plane. Moreover, in the process of lifting the wedge suspension, the upper parts of the dies, turning, will simultaneously approach the center of the conical hole, and the lower parts of the wedges, turning, will simultaneously be removed from the center of the conical hole, as a result of which, after the wedges are removed from the conical opening of the housing, the diameter of the the circumference around the lower part of the wedges at the upper point will exceed the diameter of the conical hole in the housing. Therefore, to return the wedges into the cone hole of the body in order to capture the descent pipe, the operator must use his foot through the pedal of the control lever system to keep the wedge suspension in the upper position above the cone hole and at the same time manually turn the wedges to bring the lower parts of the wedges into the cone hole. Considering that at this moment the pipe suspended on the hook block will be in the working area, this operation is uncomfortable and unsafe for one operator, since he needs to simultaneously control the position of the wedge suspension over the body with his foot and bring the lower part of all the wedges to the vertical axis with his hands, passing through the center of the conical hole, and, holding them in this position, lower the wedges with dies with the foot through the pedal of the lever control system into the conical hole of the body. Therefore, based on the requirements of industrial safety, for the management of a well-known spider, the participation of at least one more operator is necessary.

In addition, the known device does not have sufficient reliability. This is due to the fact that often the longitudinal axis of the upper pipe of the drill string installed in the wedges of the rotor or on the elevator may not coincide with the vertical axis of the rig’s tower and, therefore, with the axis of the center of the conical hole of the known spider’s body suspended on the hook block, which may be caused displacement of the tower from the vertical due to uneven settlement of the supports of the tower block, for example, from the one-sided arrangement of candles on one of the candlesticks. Therefore, if the axes of the conical hole of the body and pipe are misaligned and parallel, the latter, when captured and held by a known spider, will interact not with the radial recess of the dies of the wedge suspension, but with their edges along the generatrix. In this case, a torque will arise, from the impact of which the dies can rotate in the grooves of the wedges. With a significant value of this moment, it is possible to cut the spring-loaded locking screw, fixation of the die, its exit from the wedge groove and falling into the wellbore, which can create an emergency.

A disadvantage of the known spider is the impossibility of its use in tripping operations in wells developed using a double column of elevator pipes while simultaneously operating two layers, due to the design of the known device that allows suspending and holding only one pipe string and only coaxially with the axis of the well.

Known two-column spider (US patent No. 4381584, published 05/03/1983), containing:

- a housing with two through conical holes, consisting of two halves rotatable in the horizontal plane, mirror symmetrical with respect to the connector line, rigidly connected by a bolt and nut on the front side and articulated by a vertical axis on the rear side,

- and the centers of the conical holes are located on a line perpendicular to the line of the connector,

- two gripping mechanisms, including wedges and dies, interacting with the pipes and installed with the possibility of vertical movement in the through conical holes of the housing, and lever mechanisms, pivotally interacting with the wedges;

- while the wedges consist of three identical interacting parts,

- a drive for each gripping mechanism in the form of a hydraulic or pneumatic cylinder,

- and two centering rods intersecting at right angles at the intersection of the connector line and the line connecting the centers of the conical holes, and located in a horizontal plane below the gripping mechanisms in the holes made in the halves of the housing at an angle of 45 ° to the connector line,

- and the center of the housing is located on the line of the connector in the middle between the conical holes.

A disadvantage of the known device is the increased material and time costs when putting it into operation due to the need to install communications and control lines to actuate the mechanized drives of the gripping mechanisms, as well as their maintenance during operation. In addition, both hydraulic and pneumatic actuators have reduced reliability at low temperatures, which limits the operational capabilities of the well-known two-column spider. The operational capabilities of the known device are also limited by the presence in its design of centering rods, which are closely located to the surface of the descent pipes. Therefore, the well-known spider can only be used when releasing sleeveless pipes, since the couplings or locks connecting the pipes have a diameter larger than the pipes, and the centering rods will prevent them from passing through the conical opening of the housing.

The same circumstance increases the laboriousness of the operation of the known spider, since the centering rods need to be dismantled before the halves of the spider are opened, which is necessary, for example, to increase the passage space and lower the equipment of larger diameter in the well compared to the descent pipes, for example, a packer or centralizer.

In addition, the centering rods reduce the safety of conducting work at the well, for example, when an oil and gas occurrence occurs, when it is necessary to quickly dismantle the spider from the wellhead. However, the presence in the layout of the pipe string of equipment of larger diameter compared to pipes requires the preliminary removal of the centering rods, which takes a certain amount of time, during which the emergency situation can worsen and go into an open fountain.

Failure of gripping gear drives can lead to similar consequences, for example, due to a rupture of a pipeline to hydraulic or pneumatic cylinders or due to failure of a hydraulic station or compressor, for example, during a power outage. In this case, the gripping mechanisms that hold the pipes will prevent the spider from dismantling from the mouth, since when the spider is lifted up through the stationary pipes, the notches of the dies will cut into the pipes due to wedges interacting with the conical holes, and the gripping mechanisms will be held in the conical holes. At the same time, removing gripping mechanisms from the conical hole by lifting pipes is also impossible due to the fact that the notch of the dies works only to hold the pipe when it moves down, and when moving up, the pipe will slide freely along the notch of the dies of the wedges without lifting them. In addition, the lever mechanisms of the drives will additionally hinder the removal of the gripping mechanisms, so disassembling is necessary before opening the housing to remove the spider from the wellhead with gripping mechanisms located in the conical holes, first removing the centering rods and the bolt with nut connecting the body halves , which also requires a significant investment of time.

The disadvantages of the known device should also include the possible trauma of operation at the beginning of the descent of the first pipes and its increased complexity, due to the need for manual orientation of the wedges, which, being pivotally suspended, under the influence of their own weight, will rotate and tilt to the center of the conical holes, preventing the end-pipes from entering inside gripping mechanisms. The safe execution of this operation requires the simultaneous participation of four operators, of which two operators must simultaneously hold the wedges in an upright position and lead the ends of the pipes into the opening formed between the wedges, and two more operators simultaneously control the descent of two pipes and the drives of the gripping mechanisms, which, if inconsistent, handling and lack of proper dexterity of operators can result in personal injury.

The combination of these shortcomings reduces the reliability, safety and ease of use of the well-known two-column spider and limits its operational capabilities.

The objective of the invention is to provide a technical solution to the spider, devoid of the above disadvantages.

The technical result of solving this problem is to increase the reliability, security and usability of a well-known spider and expand its operational capabilities.

To ensure this result, a known two-column spider containing

- a housing with two vertical through conical holes, consisting of two halves rotatable in the horizontal plane, mirror symmetrical with respect to the connector line, rigidly connected in closed position on the front side and articulated by a vertical axis on the rear side,

- two gripping mechanisms, including wedge dies, interacting with the pipes and installed with the possibility of movement in the through conical holes of the housing, and lever mechanisms, pivotally interacting with wedge dies,

- while the wedge dies consist of several identical interacting parts,

- and a drive for each gripping mechanism, interacting with a linkage,

- moreover, the center of the housing is located on the connector line in the middle between the conical holes, which are made in the form of truncated cones with a smaller base down,

ACCORDING TO THE INVENTION

- is additionally equipped with a base located under the body in the form of a plate with a central hole, on the upper plane of which a vertical axis is rigidly fixed from the rear side, articulating the halves of the body, and a through groove is made from the front side to the central hole in the plate,

- and a lid located above the body in the form of a plate with a central hole, consisting of two rotary halves, mirror symmetric with respect to the connector line and pivotally connected from the rear side by the vertical axis of the halves of the body,

- wherein each half of the lid is rigidly connected by the uprights to the lower half of the housing,

- and the diameters of the holes of the base and cover are greater than the sum of the center-to-center distance L between the through conical holes of the body and the diameter d of their smaller base,

- as well as the latches of the positions of the halves of the body "Open" or "Closed", made in the form of fingers installed with the possibility of vertical movement in the holes made in each of the halves of the body from the back side, and interacting with the holes made in the base, the axes of which are coaxial fingers in the positions of the halves of the body "Open" or "Closed",

- while the rigid connection of the halves of the housing in the closed position is carried out by a stopper made in the form of a rod interacting with vertical holes made in each of the halves of the housing from the front side and coaxial in their closed position,

- the center of the case coincides with the centers of the holes of the base and the cover, and the centers of the conical holes are located on the line of the connector of the case, which cone holes are divided into half-holes, while the front cone hole is offset from the center of the case to its front side, and the rear cone hole is offset from the center of the case to its back side,

- gripper drives are combined with lever mechanisms and contain coaxial external and internal shafts with manual control handles rigidly mounted on them, levers and consoles with rocker arms, located opposite to each other on the side surfaces of the housing halves and mounted for rotation in brackets connected to the side the surfaces of the halves of the body,

- detachable rods pivotally connected to the rocker arms, consisting of two links connected by gear racks interacting with each other, made on each link, while the links are fixed in the connected position by a lock in the form of a spring-loaded sleeve, the thrust of the front gripping mechanism being connected to the rocker arms of the outer shafts, and the traction of the rear gripper is connected to the rocker arms of the inner shafts,

- and the latches of the open position of the wedge dies, in which they are pulled upward from the conical holes, made in the form of plates with handles and grooves pivotally mounted on the housing and interacting with the protrusions on the shafts,

- each wedge die consists of four parts that are located mirror symmetrically with respect to the housing connector line and interact in pairs with one of the half-openings of the through-cone openings of the body, while both pairs of parts of the front wedge-shaped die of the front gripper interact with the half-openings of the front conical openings of the body, and both pairs of parts of the rear wedge plate of the rear gripping mechanism interacts with the half-holes of the rear conical opening of the housing, both pairs of parts eredney wedge plates are pairwise connected with levers inner shaft and both of the pair of rear wedge plates are pairwise connected with levers outer shafts.

The invention is illustrated by drawings, where:

- figure 1 - shows a top view of the spider before starting the hoisting operations;

- figure 2 is a view a in figure 1;

- figure 3 is a view of B in figure 2;

- figure 4 is a section bb in figure 2, half of the body in the "Open" position;

- figure 5 is a cross section GG in figure 2 in position - the wedge dies are raised from the conical holes for the descent or lifting of the pipe columns;

- in Fig.6 - section DD in Fig.2 in position - the wedge dice are lowered into the conical holes for gripping and holding the pipe string;

- in Fig.7 is a view of E in Fig.1 in position - the rods are connected;

- in Fig. 8 - view E in Fig. 1 in position - the rods are disconnected.

The inventive double spider (1, 2, 3 and 4) contains a base 1 in the form of a plate with a central hole 2, to which a through groove 3 is made on the front side. On the rear side, along the longitudinal axis of the base 1, coincides with the longitudinal axis of the groove 3 and the center of the hole 2, a vertical axis 4 is rigidly fixed on the plate. On top of the base 1 is a body 5 consisting of the left 6 and right 7 halves, mirror symmetrical with respect to the connector line Ж-Ж and pivotally mounted on the vertical axis 4 with the possibility of rotation in the horizontal plane and re building house 5 from the “Open” position to the “Closed” position and vice versa. In the position of the housing 5 "Open" is the installation or dismantling of the inventive spider from the wellhead if there are pipes in the last deflated columns - front 8 and rear 9 (Fig. 4), and in the "Closed" position, the claimed spider performs tripping operations with the columns pipes 8 and 9 (FIGS. 5 and 6).

To fix the housing 5 in the "Open" or "Closed" position (Figs. 1, 2 and 4), the halves 6 and 7 are equipped with fingers 10 with handles 11 mounted for vertical movement in openings 12 and grooves 13 made in each of the halves 6 and 7 on the back side. Fixation is carried out by the interaction of the fingers 10 with the holes 14 made in the plate symmetrically located relative to the longitudinal axis of the base 1, the coaxial fingers 10 in the "Open" position, or the holes 15, the coaxial fingers 10 in the "Closed" position. A rigid connection of the halves 6 and 7 of the housing 5 in the closed position (FIGS. 1 and 3) is carried out by a stopper 16 made in the form of a rod, interacting with vertical holes 17 made in each of the halves 6 and 7 of the housing 5 from the front side and coaxial in position building 5 "Closed".

Above the casing 5 there is a lid 18 (Figs. 1, 2 and 3) in the form of a plate with a central hole 19, consisting of two rotary halves - the left 20 and the right 21, mirror symmetric with respect to the connector line Ж-Ж and pivotally connected from the rear side of the vertical axis 4, common with the vertical axis 4 of the halves 6 and 7 of the housing 5, with each half of the cover 18 being rigidly connected by the uprights 22 to the lower half of the housing 5, i.e. half 20 of the cover 18 is connected to half 6 of the housing 5, and half 21 of the cover 18 is connected to half 7 of the housing 5.

Through the cone holes 5 are made in the housing 5 (FIGS. 1, 5 and 6) - the front 23, offset to the front side of the housing 5, and the rear 24, offset to the rear side of the housing 5, which are made in the form of truncated cones with a smaller base down. The centers of the holes 23 and 24 are located on the line of the Ж-Ж connector mirror symmetrically with respect to the center of the housing 5, which coincides with the centers of the hole 2 of the base 1 and the hole 19 of the cover 18, each conical hole 23 and 24 is divided by the line of the Ж-Ж connector of the case 5 into two half-holes 25, each of which is located in one of the halves 6 or 7, and form conical openings 23 and 24 in the “Closed” position of the body 5. In this case, the diameters of the holes 2 of the base 1 and the holes 19 of the cover 18 are greater than the sum of the center-to-center distance L between the holes 23 and 24 and diameters d and the smaller base (1).

Both gripping mechanisms - front 26 and rear 27 contain wedge dies, the front 28 of which interacts with the pipes 8 and is installed with the possibility of movement and interaction in the front hole 23 of the housing 5, and the rear 29 interacts with the pipes 9 and is installed with the possibility of movement and interaction in the rear hole 24 of the housing 5, and each wedge die 28 and 29 consists of four identical interacting parts 30, located mirror symmetrically relative to the line of the Zh-Zh connector and pairwise interacting x with one of the half holes 25.

The drives of the gripping mechanisms 26 and 27 (Figs. 1, 2, 7 and 8) are combined with linkage mechanisms and comprise coaxial outer 31 and inner 32 shafts mounted for rotation in brackets 33 located opposite to each other on the side surfaces of the halves 6 and 7 housing 5. On the outer shaft 31, located on the left half 6, the manual control handle 34, the lever 35 and the console 36 with the rocker 37 are rigidly fixed, and the lever 35 and the console 36 with the rocker 37 are rigidly fixed on the outer shaft 31, located on the right. On the inner shaft 32, located On the left side 6, a similar manual control handle 38, a lever 39 and a console 40 with a rocker 41 are rigidly fixed, and a lever 39 and a console 40 with a rocker 41 are rigidly fixed on the inner shaft 32, located on the right, and both pairs of front parts 30 the wedge dies 28 are pairwise pivotally connected to the levers 39 of the inner shafts 32, and both pairs of parts 30 of the rear wedge dice 29 are pairwise pivotally connected to the levers 35 of the outer shafts 31.

With the rocker arms 37 (FIGS. 1, 7 and 8) of the outer shafts 31 of the rear gripper 27, a detachable rod 42 is articulated, and with the rocker arms 41 of the inner shafts 32 of the front gripper 26, a detachable rod 43 is pivotally connected. Both rods 42 and 43 consist of two links 44 and 45 connected by interacting toothed rails 46 made on each link, while fixing the links 44 and 45 in the connected position is carried out by a lock in the form of a sleeve 47, pressed by a spring 48.

Holding the wedge dies 28 and 29 in the open position (FIGS. 5 and 6), in which they are extended upward from the conical holes 23 and 24 and do not interact with the pipes 8 and 9, are carried out by the latches 49, pivotally mounted on the brackets 33 and made in the form rotary plates with manual control handles and curly grooves 50, interacting with the protrusions 51, rigidly connected to the levers 35 and 39.

The inventive two-column spider operates as follows.

To carry out tripping operations with two columns of pipes, the spider must be prepared for work and installed at the wellhead. In this case, depending on the situation at the wellhead, two options for preparing the spider for work are possible.

The first option is carried out in the case when there are no deflated pipe columns in the well (Fig. 1) and it is necessary to run two pipe columns 8 and 9 (in Fig. 4), the layouts of which are equipped with downhole equipment, the maximum outer diameter of which does not exceed the diameter of the smaller base through conical holes 23 and 24. In this case, the inventive spider, assembled in the position shown in figures 1, 2, 3, 5 and 7, is installed base 1 on the upper flange of the wellhead equipment (not shown), roughly aligning the centers of the holes based I 1 and the upper flange of the wellhead.

Moreover, in the design of the spider:

- halves 6 and 7 of the housing 5 are fixed in the "Closed" position by the fingers 10, for which they are manually moved through the holes 12 down into the holes 15 of the base 1 with arms 11 installed with the possibility of vertical movement in the grooves 13 (figure 2);

- a rigid connection of the halves 6 and 7 of the housing 5 in the closed position (FIGS. 1 and 3) is carried out by the stopper 16, interacting with the holes 17 made in each of the halves 6 and 7 of the housing from the front side and coaxial in the position of the housing 5 "Closed";

- the wedge dies 28 and 29 are in the open position (FIGS. 1, 2 and 5), in which they are extended up and away from the conical holes 23 and 24 and cannot interact with the pipes 8 and 9. To translate the dies 28 and 29 in this position, the operator acts on the manual control handles 34 and 38, rigidly connected to the shafts 31 and 32, turning the levers 35 and 39 connected to the shafts 31 and 32 into a vertical position, which, each being connected to two parts 30 of the wedge dies 28 and 29 , lift the last of the conical holes 23 and 24 and take them to the sides, providing vaya unobstructed passage of pipes 8 and 9 with the equipment into the well. The synchronization of rotation of the shafts 31 and 32, and therefore the rotation of the levers 35 and 39 and the lifting of the parts 30 of the wedge dies 28 and 29, is due to the fact that the shafts 31 are connected by a rod 42 and the shafts 32 are connected by a rod 43. Each of the rods 42 or 43 Being pivotally connected to the rocker arms 37 or 41 located on the consoles 36 and 40 of the shafts 31 and 32, they form a kinematically connected double-link articulated four-link link and thereby provide simultaneous rotation of the rocker arms 37 or 41, and therefore the shafts 31 and 32, at the same time and related levers 35 and 39;

- the wedge dies 28 and 29 are held open by the latches 49, pivotally mounted on the brackets 33 and made in the form of rotary plates with manual control handles and shaped grooves 50, interacting with the protrusions 51. For this, after turning the levers 35 and 39 into the vertical position, the operator rotates the latches 49 (Fig. 6) to the working position (Fig. 5), turning the curly grooves 50 onto the protrusions 51, which holds the levers 35 and 39 in a vertical position and prevents their reverse rotation to a horizontal position, and therefore lowering portions 30 slips 28 and 29 in the tapped holes 23 and 24.

The second option of preparing the inventive spider for work is carried out in the case when there are no deflated pipe columns in the well (Fig. 1) and it is necessary to run two pipe columns 8 and 9 (in Fig. 4), the layouts of which are equipped with downhole equipment whose outer diameter exceeds the diameter of the smaller base of the through cone holes 23 and 24 and, therefore, this downhole equipment cannot pass through the holes 23 and 24 if the body 5 is in the closed position shown in figure 1. In addition, this option of preparing the spider for work is also carried out in the case when there are lowered columns of pipes 8 and 9 in the wellbore and it is necessary to carry out their further descent with the extension of pipes 8 and 9.

Therefore, when preparing the inventive spider to work before installing it on the mouth, first you need to part the halves 6 and 7 of the housing 5 together with the halves 20 and 21 of the cover 18 in the "Open" position, shown in figure 4. To do this, carry out the following operations:

- the wedge dies 28 and 29 are moved to the open position (FIGS. 1, 2 and 5), in which they are extended up and away from the conical holes 23 and 24 and cannot interact with the pipes 8 and 9, and fix them in this position (figure 5). The procedure for performing these operations is described above in the description of the first option for preparing a spider for work;

- disconnect the halves 6 and 7 of the housing 5, removing the stopper 16 from the holes 17;

- open the split rods 42 and 43 (Fig. 7), for which manually overcoming the resistance of the spring 48, the bushings 47 are displaced along the links 44, unlocking the connection of the gear racks 46 of the links 44 and 45, after which the links 44 and 45 are pivotally connected to the rocker arms 37 and 41, under the action of their own weight, they are turned into a vertical position (Fig. 8) and the rods 42 and 43 will be disconnected;

- the front side of the halves 6 and 7 of the housing 5 is bred together with the halves 20 and 21 of the cover 18 to the “Open” position shown in FIG. 4, turning them on the surface of the base plate 1 due to the articulation by the axis 4, aligning the axes of the holes 12 made with the back side of the halves 6 and 7 of the housing 5, with the axes of the holes 14 made in the base plate 1;

- fix the halves 6 and 7 of the housing 5 in the "Open" position with the fingers 10, for which they are manually moved through the holes 12 down into the holes 14 of the base 1 with arms 11 installed with the possibility of vertical movement in the grooves 13.

The transfer of the housing 5 with the lid 18 to the "Open" position provides:

a) in the case when there are deflated pipe strings 8 and 9 in the wellbore - installing the spider with base 1 on the edge of the upper flange of the wellhead equipment (not shown) and the possibility of subsequent horizontal movement on the deflated pipes 8 and 9. Thanks to the groove 3, the base 1 with the housing 5 and the cover 18 pulled apart, it will freely move to the pipes 8 and 9, lowered into the well bore, which, after an approximate alignment of the centers of the holes 2 of the base 1 and the holes of the upper flange of the wellhead equipment (not shown), mut need for further work in the opening position of the spider 2 of the base 1 (Figure 4);

b) in the case when two columns of pipes 8 and 9 are run, the assemblies of which are equipped with downhole equipment, the outer diameter of which exceeds the diameter of the smaller base of the through conical holes 23 and 24, install the spider with base 1 on the upper flange of the wellhead equipment (not shown) with an approximate the combination of the centers of the hole 2 of the base 1 and the hole of the upper flange of the wellhead equipment and the subsequent unhindered descent through the hole 2 of the base 1 of the downhole equipment, the maximum outer diameter of which of greater than the smaller base diameters d of tapered apertures 23 and 24.

The final process of work on the second option for preparing the inventive spider for work includes the following operations:

- move the housing 5 with the lid 18 to the "Closed" position (Fig. 1) for which, first, halves 6 and 7 are unlocked from the "Open" position (Fig. 4) by manually removing the fingers 10 with the handles 11 from the holes 14 of the base 1. Then by turning the halves 6 and 7 of the housing 5 translate them into an closed position and the stopper 16 inserted into the coaxial holes 17, carry out a rigid connection of the halves 6 and 7 of the housing 5 (figure 3);

- connect the split rods 42 and 43 (Figs. 7 and 8), for which, manually overcoming the resistance of the spring 48, the bushings 47 are shifted along the links 44, opening the gear racks 46 on them to interact with similar gear racks 46 of the links 45, and then turn links 44 and 45 pivotally connected to the rocker arms 37 and 41, connect the gear racks 46 and release the sleeve 47, which will shift due to the action of the spring 48, closing the connection of the rails 46.

Thus, as a result of preparatory work, the inventive spider will be located on the upper flange of the wellhead equipment (not shown) in the position shown in Fig. 1 with pipes 8 and 9 passing through the through conical holes 23 and 24, and the couplings of these pipes located over the lid 18 and suspended on an elevator for lowering and lifting two pipe columns (not shown). In this case, the wedge dies 28 and 29 are in the open position (Figs. 1, 2 and 5), in which they are extended up and away from the conical holes 23 and 24, cannot interact with the pipes 8 and 9 and are held in this position by the latches 49.

The further procedure for working with the spider after the preparatory work will depend on what operations are supposed to be carried out with the columns of pipes 8 and 9 (Fig. 4) - descent or ascent.

In the case when it is necessary to lower the columns of pipes 8 and 9 with building them up with pipes 8 and 9, the following operations are carried out:

1. Pipes 8 and 9 are lowered into the well by moving down the elevator to lower two columns of pipes to a position where the pipe coupling 8 is located above the spider cover 18 in an area, the elevation of which is convenient for the operator to make the next stacked pipe 8 with this coupling .

2. The stopper 51 of the inner shaft 32 is released from the retainers 49 and by turning the handle 38 the wedge die 28 is put into the working position (Fig.6), in which it is inserted into the conical hole 23 and interacts with the pipe 8.

3. With further descent, the pipe 8 will be stationary, because the wedge die 28 will immediately grasp and hold it, and the pipe 9 is lowered further, to the position of its sleeve below the sleeve of the pipe 8 at a certain distance, after which the descent is suspended.

4. The stopper 51 of the outer shaft 31 is released from the retainers 49 and by turning the handle 34 the wedge die 29 is put into the working position (Fig.6), in which it is inserted into the conical hole 24 and interacts with the pipe 9.

5. With further descent, the pipe 9 will be stationary, because the wedge die 29 will immediately grasp and hold it.

6. After capturing and holding the pipes 8 and 9 by the spider, the elevator is disconnected with them to lift the next batch of two pipes 8 and 9, necessary for building (lengthening) the descent columns.

7. The pipes 8 and 9 again raised by the elevator for lowering and raising the two columns are screwed up with the couplings of the pipes 8 and 9 held by the claimed spider, while the position of the couplings spaced in height ensures the operator’s convenience.

8. After building up the pipes 8 and 9 are lifted by the elevator to disconnect them with the wedge dies 28 and 29, while the pipe 9 and then the pipe 8 will be lifted first, being lower, then the wedge dies 28 and 29 are moved to the open position (Fig. .5) and fix. The procedure for performing this operation is described above in the description of the first option for preparing a spider for work.

9. Then the cycle repeats - again the pipes 8 and 9 are lowered into the well by the length of the screwed-on pipe, after which they are further expanded until the required depth of descent is reached.

In the case when it is necessary to lift the columns of pipes 8 and 9 from the wellbore, operations are carried out in the reverse order of the descent, for which:

1. Pipes 8 and 9 are lifted from the well by an elevator for lowering and raising two columns of pipes before lifting 18 couplings of downstream pipes 8 and 9 above the cover 18. In this case, the downstream pipe coupling 8 is located above the spider cover 18 in an area, the elevation of which is convenient for the operator to operate by unscrewing the upstream pipe 8 from this coupling.

2. The stopper 51 of the inner shaft 32 is released from the retainers 49 and by turning the handle 38 the wedge die 28 is put into the working position (Fig.6), in which it is inserted into the conical hole 23 and interacts with the pipe 8.

3. Pipes 8 and 9 are lowered, while the downstream pipe 8 will be stationary, because the wedge die 28 will immediately grasp and hold it, and the pipe 9 is lowered further to the position of the sleeve of the downstream pipe 9 below the sleeve of the downstream pipe 8 for some distance, after which the descent is suspended.

5. The stopper 51 of the outer shaft 31 is released from the retainers 49 and by turning the handle 34 the wedge die 29 is moved to the working position (Fig.6), in which it is inserted into the conical hole 24 and interacts with the pipe 9.

6. With further descent, the downstream pipe 9 will be stationary, because the wedge die 29 will immediately grasp and hold it.

7. After the flap of pipes 8 and 9 suspended on the elevator, they are taken to the side and lowered to the walkways.

8. On the pipes 8 and 9 held by the inventive spider, install an elevator for lowering and raising two columns of pipes and raise them to disconnect with the wedge dies 28 and 29, while first the pipe 9 will be lifted, being lower, and then the pipe 8, after which the wedge the dies 28 and 29 are moved to the open position (FIG. 5) and fixed. The procedure for performing this operation is described above in the description of the first option for preparing a spider for work.

9. Then the cycle repeats - again the pipes 8 and 9 are lifted from the well by the length of the screwed-on pipes, after which they are disconnected from the pipe columns 8 and 9.

Thus, thanks to the design features of the inventive spider is provided:

- minimization of time and material costs during installation and commissioning in comparison with the prototype. This is due to the fact that the inventive spider uses a manual drive for controlling gripping mechanisms, which does not require the installation of communications and control lines to actuate the hydraulic or pneumatic mechanized drives of gripping mechanisms available for the prototype, as well as for their maintenance during operation;

- improving the reliability of its operation due to the presence of a manual drive compared to the prototype, which, for example, due to a rupture of the pipeline to the hydraulic or pneumatic cylinders or due to failure of the hydraulic station or compressor, for example, when the power is cut off, the gripper mechanisms will fail, which will lead to interruptions in work during the repair and restoration of working capacity;

- the expansion of its operational capabilities due to the presence of a manual drive compared to the prototype, the hydro- or pneumomechanized drives of the gripping mechanisms of which have reduced reliability at low temperatures;

- improving the safety of work on the well using the inventive spider due to the speed of its installation and dismantling from the wellhead in comparison with the prototype due to the fact that the conical holes 23 and 24 are located on the connector line of the housing 5, and the wedge dies 28 and 29 consist of four parts, therefore, to disconnect the inventive spider with pipes 8 and 9, it is sufficient to remove the stopper 16 connecting the halves 6 and 7 of the housing 5. The same operation of the prototype requires much more time for preliminary removal of the centering rod th and bolt with a nut connecting the housing halves;

- protection of linkage mechanisms and wedge dies thanks to a cover that covers them from possible damage caused by shock of lifting equipment during loading and unloading, transportation and operation, which increases the reliability of its operation compared to the prototype.

The combination of these circumstances provides ease of operation and maintenance, improving the reliability and safety of work, as well as expanding the operational capabilities of the inventive spider in comparison with the analogue and prototype.

Claims (1)

A two-column spider, comprising a housing with two vertical through-hole conical holes, consisting of two halves rotatable in the horizontal plane, mirror symmetrical with respect to the connector line, rigidly connected in the closed position on the front side and articulated by a vertical axis on the rear side, two gripping mechanisms, including wedge dies interacting with pipes and installed with the possibility of movement in through conical openings of the housing, and lever mechanisms, articulated interaction wedge dies, while wedge dies consist of several identical parts interacting with each other, and a drive for each gripping mechanism interacting with the lever mechanism, the center of the housing being located on the connector line in the middle between the conical holes, which are made in the form of truncated cones with a smaller base down, according to the invention is additionally provided with a base located under the housing in the form of a plate with a central hole, on the upper plane of which from the back side a vertical axis is simply fixed that articulates the halves of the body, and a through groove is made in the plate from the front to the central hole in the plate, and a cover in the form of a plate with a central hole, consisting of two rotary halves mirror-symmetric with respect to the connector line and articulated with the rear side of the vertical axis of the halves of the housing, each half of the cover is rigidly connected by the uprights to the lower half of the housing, and the diameters of the holes of the base and cover are larger than the sum m of the centered distance L between the through conical openings of the body and the diameter d of their smaller base, as well as the latches of the positions of the halves of the body “Open” or “Closed”, made in the form of fingers installed with the possibility of vertical movement in the holes made in each of the halves of the body from the back sides, and interacting with holes made in the base, the axes of which are aligned with the fingers in the positions of the halves of the housing "Open" or "Closed", while the rigid connection of the halves of the body in the closed position and it is carried out by a stopper made in the form of a rod interacting with vertical holes made in each of the body halves on the front side and coaxial in their closed position, the center of the case coincides with the centers of the holes of the base and the cover, and the centers of the conical holes are located on the line of the connector of the case, which the cone holes are divided into half-holes, while the front cone hole is offset from the center of the housing to its front side, and the rear cone hole is offset from the center of the housing to its rear On the other hand, the gripping mechanism drives are combined with lever mechanisms and contain coaxial external and internal shafts with manual control handles rigidly mounted on them, levers and consoles with rocker arms located opposite to each other on the side surfaces of the housing halves and mounted for rotation in brackets connected to lateral surfaces of the halves of the body, detachable rods pivotally connected to the rocker arms, consisting of two links connected by gearing interacting with each other and rails made on each link, while fixing the links in the connected position is carried out by a lock in the form of a spring-loaded sleeve, the thrust of the front gripper being connected to the rocker arms of the outer shafts, and the thrust of the rear gripping gear connected to the rocker arms of the inner shafts, and the latches of the open position of the wedge dies in which they are extended upward from the conical holes, made in the form of plates with handles and grooves pivotally mounted on the housing and interacting with the protrusions on the shafts, each The fourth wedge die consists of four parts that are located mirror symmetrically with respect to the housing connector line and pairwise interact with one of the half-openings of the through-conical openings of the housing, while both pairs of parts of the front wedge-shaped die of the front gripper interact with the half-openings of the front conical openings of the housing, and both pairs parts of the rear wedge plate of the rear gripping mechanism interacts with the half-holes of the rear conical opening of the housing, both pairs of parts in front of s wedge plates in pairs are connected with levers inner shaft and both of the pair of rear wedge plates are pairwise connected with levers outer shafts.

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