RU71372U1 - DRILL RIG UNIT AND SUPPORT DEVICE FOR MOUNTING AND DISASSEMBLY OF A derrick - Google Patents

Abstract

The objects of the utility model relates to oil and gas equipment designed for drilling oil and gas wells. The rig block of the drilling rig, according to the first object, includes a tower with a crown block, a ramp frame, a folding sub-base. The tower is telescopic, equipped with a telescoping device for the tower sections, the crown block is equipped with a device for mounting the tower on the vehicle. During transportation, the tower is mounted on a trolley and truck tractor, equipped with a support device for mounting and dismounting the tower and telescopic hydraulic cylinders for lifting and lowering the tower from a horizontal position to a working one, fixed to the elements of the tower. The lower section of the tower contains a U-shaped section pivotally connected to it with hinged supports for fixing it on the ramp frame. On the ramp frame, respectively, nests are made for installing elements of the supporting device, telescopic hydraulic cylinders of the tower raising and lowering mechanism, and articulated supports of the U-shaped section. The tower telescoping device is made in the form of a hydraulic winch mounted on the lower section of the tower, pulleys located on the lower and upper sections of the tower, a lifting rope interacting with the pulleys. The fixed end of the hoisting rope is fixed to the lower section of the tower.

The supporting device for mounting and disassembling the tower for the second object is made in the form of two telescopic racks interconnected by braces, each of which contains a housing, and at least one link made with elements for fixing the length of the telescopic rack. On one side of the casing a support platform is fixed. On the other side of the housing, a screw support is mounted on a link spring-loaded relative to the housing. On the side surface of the housing on both sides are mounted with the possibility of rotation relative to the axis of attachment adjustable along the length of the rod, provided at the ends with elements for their fixation. The execution of the tower block with a telescopic tower and a U-shaped element, on the elements of which during transportation hydraulic cylinders of the tower lifting mechanism are installed in the working position, a support device for mounting and dismounting the tower is fixed, it allowed to reduce the complexity of mounting and dismounting, increase the mounting ability and transportability. 2 n.p., 1 z.p. f-ly, 5 ill.

Description

The objects of the utility model relates to oil and gas equipment designed for drilling oil and gas wells, namely, to the rig blocks of drilling rigs with separately transported drilling rigs and to devices for mounting and dismounting the rig.

Depending on the mounting base and the mounting scheme, the design of the tower block of drilling rigs of various classes should include transportation, in particular, on a self-propelled vehicle, on trailers with tractors, truck tractors with wheel-mounted carts, or on tracked carts with tractors.

From generation to generation, the characteristics of the mounting ability and transportability of drilling rigs are enhanced by new design solutions, equipment layout in blocks, sections, modules (mobile drilling rigs).

Known mobile drilling rig (see certificate for utility model RU No. 28721, "Drilling complex. Drilling rig" MPK Е21В 7/02, Е21В 15/00), made with the possibility of placement on a self-propelled vehicle mounted on a ramp. The drilling rig contains a telescopic two-section mast (tower) equipped with a crown block, a tackle system, a sub-base, a lifting mechanism — lowering the mast from a horizontal transport position to the working position, placed on a self-propelled chassis. The lower part of the mast is equipped with two pairs of legs, with one pair of legs made with the possibility of fixing on the chassis, and the other pair is equipped with corresponding screw supports.

In the transport position, the tower rests on the appropriate rack located behind the driver’s cab of the self-propelled vehicle.

Placing the tower block on a self-propelled vehicle, where power and hydraulic systems, a drawworks are additionally installed, allows for high transportability and mounting ability only for towers with a limited height and load capacity.

With an increase in carrying capacity - the main parameter of the tower, the height and other dimensions of the rig’s tower increase accordingly, transportation of which on a self-propelled vehicle becomes impossible.

In addition, due to the high center of gravity, it is not allowed to transport the rig on a self-propelled vehicle on roads with a slope of more than 10 °.

The well-known drilling rig BU-2900/200 EPK-BM, including the base of the tower block, the tower, which in assembled form is an A-shaped structure, consisting of six tetrahedral sections (modules) and one tetrahedral upper section (module) (Kolcherin V.G. ., Kolesnikov I.V., Kopylov VS, Barenboim Yu.L. A new generation of drilling rigs of the Volgograd plant in Western Siberia, GUL Khanty-Mansi Autonomous Okrug Surgut Printing House, 2000, pp. 98-100, fig. 9.19a on pp. 122). The tower sections at the ends have flanges and are assembled using half-clamps. During installation, the upper section of the tower is connected to the sections articulated using axles. The lower sections of the tower end with eyes, with which the tower is installed in the adjustable supports of the tower block and secured with fingers. The mechanism for lifting the tower from a horizontal position to a working position is made in the form of lifting ropes connected to a winch. To raise the tower to the working position during installation, a mounting support made in the form of a goat is pre-installed using a crane at a certain distance from the axis of the tower leg supports.

Transportation of the tower block is carried out by several caterpillar heavy trucks or heavy trucks on a pneumatic wheel.

The disadvantage of this tower block during installation and dismantling of the tower is the need to prepare a large installation site and the time required for the installation of six sections of the tower. Installing the mounting support with a crane under the tower before lifting it to its working position also requires a certain amount of time and laborious.

The closest analogue to the first object of the utility model in terms of the essential features is the tower block of the mobile drilling rig BU 2500/160 DPBM, which includes modules of sections of the UM 31/160-OGR tower of full factory readiness installed on vehicles during transportation, a ramp with it has a tower under it, telescopic hydraulic cylinders for lifting the towers mounted on the rotor transmission module, a folding sub-base. (Drilling complexes. Modern technologies and equipment / Collective of authors; Under the general editorship of A.M. Gusman and KPPorozhsky: Scientific publication. Yekaterinburg, UGGGA, 2002 pp. 378-379, 455-461). The rig tower consists of three sections: upper, lower, and middle. The upper section module contains a tackle system with crown block, the middle module

sections - the platform of the upper worker. Three modules of the tower during installation are connected by fingers and mounted on a rack under the tower.

The transportation of section modules from the well to a new installation site is carried out on a two-link conveyor or on a heavy truck semi-trailer. The modules of the lower and upper sections are transported on one vehicle, while one section is nested in another. The middle section module is transported with a folded platform in a separate vehicle.

As a supporting device during installation and dismantling, separate metal supports made in the form of a goat are used, onto which a tower is mounted using a crane.

The disadvantage of this tower block is the complexity of the installation, due to the docking of the three sections of the tower. In addition, the installation of such a tower requires a crane to install a metal support under the tower and an additional crane for lifting and installing the tower on a metal support, which requires a certain amount of time and is a laborious operation. The tower block of a mobile installation equipped with such a tower creates problems with placing the tower horizontally at the installation, since the designated area for drilling wells is limited. At the same time, two unit transports are required to transport the tower sections.

The closest analogue to the second object in terms of essential features is a device (device) for mounting the tower from a horizontal position into a working one, which is a goat. The tower assembled from sections with the help of an arrow is raised to the required height and installed under the upper section of the goat tower (Denisov PG Construction of drilling rigs. M. "Nedra", 1974, p. 103, 104 fig. 38, p. 121). When assembling a mast tower of an A-shape, goats are also used.

The technical result of this utility model is to increase the mounting ability and transportability, by reducing the time of installation work and transport units during transportation of the tower block, reducing the complexity of installation and dismantling.

The problem is solved, and the technical result is achieved according to the first object of the utility model by the fact that in the rig block of the rig, including a tower with a crown block, made with the possibility of transportation by vehicle, containing modules of tower sections, a mechanism for raising and lowering the tower from a horizontal transport position to a working one , ramp frame, folding sub-base, according to the utility model, the tower is telescopic, equipped with a telescoping device for the tower sections, the crown block is equipped with n

a device for mounting the tower on a vehicle, while during transportation the tower is mounted on a trolley and truck tractor, equipped with a support device for mounting and dismounting the tower and telescopic hydraulic cylinders for raising and lowering the tower from a horizontal position to the working one, mounted on the tower elements, the lower section the tower contains a U-shaped section pivotally connected to it with hinged supports for fixing it on the ramp frame, and on the ramp frame, respectively, the sockets for installation of elements of the support device, telescopic hydraulic cylinders of the mechanism for raising and lowering the tower, articulated supports of the U-shaped section.

In a particular case, the tower telescoping device is made in the form of a hydraulic winch mounted on the lower section of the tower, pulleys located on the lower and upper sections of the tower, a lifting rope interacting with pulleys, the fixed end of which is fixed to the lower section of the tower.

The implementation of the tower block with a telescopic tower and equipping the tower with a telescoping section device made it possible to transport the tower with one transport unit, ensure installation on small sites, increase installation capacity by eliminating labor-intensive operations associated with the assembly of tower sections.

Providing the crown block with a device for mounting the tower on the vehicle, providing the tower with a support device for mounting and dismounting, fixed during transportation to the elements of the tower, ensured the quick release of the truck tractor, eliminating the installation of mounting supports by a crane under the tower and lifting the tower to the supports during installation, which led to reduce time during installation and dismantling of the tower block, to reduce the complexity and increase installation capacity.

Fastening during transportation on the lower section of the tower of telescopic hydraulic cylinders a mechanism for raising and lowering the tower from the horizontal transport position to the working one eliminated the laborious operation of securing them with a crane on the tower, replacing the ends of the telescopic hydraulic cylinders on the ramp, which is most convenient for installation work.

The supply of the lower section of the tower with the U-shaped section articulated to it with hinged supports for fixing it on the ramp frame, reduced the time for mounting and dismounting the tower, by eliminating the installation of the rack under the tower on four supports, facilitating centering of the tower during operation.

The implementation of the telescoping device of the tower in the form of a hydraulic winch mounted on the lower section of the tower, pulleys located on the lower and upper

sections of the tower, the rope interacting with the pulleys, the fixed end of which is fixed on the lower section, made it possible to provide telescoping sections of the tower in the working position.

Perhaps a different design of a telescoping device, for example, using hydraulic cylinders.

The problem is solved, and the technical result is achieved by the second object of the utility model in that the support device for mounting and dismounting the tower, according to the utility model, is made in the form of two telescopic racks connected by braces, each of which contains a housing, and at least , one link made with elements for fixing the length of the telescopic rack, with a support platform fixed on one side of the casing, a screw mounted on a link spring-loaded relative to the casing new support, while on the side surface of the housing on both sides are mounted with the possibility of rotation relative to the axis of attachment adjustable along the length of the rod, provided at the ends with elements for their fixation.

The implementation of the support device for mounting and dismounting the tower in the form of two telescopic racks connected by braces, each of which contains a housing and at least one link made with elements for fixing the length of the telescopic rack, made it possible to adjust the height of the telescopic rack when installing the tower in horizontal position on the support device when mounting the tower before lifting it to its working position.

The implementation of the lower element of the telescopic rack spring-loaded relative to the upper element and supplying it with a screw support mounted on one end of the rack, when installing the rack on the ramp, compensated for the weight of the link with the screw support, thereby facilitating the installation and adjustment of the position of the telescopic rack relative to the supporting surface, which ensured a decrease in labor intensity during installation work.

The fastening on one side of the base platform body, which serves as a lodgement for the tower elements, made it possible to position the tower elements on the base platform.

The installation on the side surface of the housing on both sides with the possibility of rotation relative to the axis of attachment of length-adjustable rods equipped at the ends with elements of their fixation made it possible to secure the support device during transportation on the tower elements and its stable position on the ramp when mounting the tower, which led to increase the mounting ability.

No technical solutions coinciding with the set of essential features of each of the claimed objects of the utility model have been identified, which allows us to conclude that the objects of the utility model match the patentability condition of “novelty”.

The essence of the objects according to the utility model is illustrated by drawings, where

figure 1 is a General view of the tower block of a mobile drilling rig with a telescopic tower located on the ramp before mounting the tower;

figure 2 - supporting device for mounting-dismantling the tower, the position when securing it with rods on the elements of the tower;

figure 3 is a view along arrow a in figure 2;

figure 4 - supporting device for mounting-dismantling the tower, the position when installing it on the frame-ramp;

figure 5 is a General view of the tower block of a mobile drilling rig in various stages of installation of the tower.

The rig unit of the mobile drilling rig for the first object includes a collapsible parallelogram base 1, a telescopic tower 2, transported using a trolley 3 and a tractor unit 4, a ramp 5, a mechanism for raising and lowering the tower from a horizontal position to a working one, made in the form of two telescopic hydraulic cylinders 6.

The ramp 5 is designed to accommodate on it a derrick 2 and a drawworks module (not shown in the drawings). To install the tower 2 on the frame-ramp 5, when mounting and dismounting the tower, a support device 7 is provided.

The telescopic tower 2 includes two sections: the upper 8 and the lower 9, equipped with a telescoping device 10 and supplied to the drilling rig in the form of a complete factory readiness module, it contains all the necessary equipment (not shown in the drawings).

The upper section includes a crown block 11 provided with a base plate 12 and a transport pin (not shown in the drawings).

The lower section 9 of the telescopic tower 2 comprises a U-shaped section 13 pivotally connected to it with two hinged supports 14 for mounting the U-shaped section 13 on the ramp 5.

The telescoping device 10 includes a winch 15 with pulleys 16 mounted on the lower 9 and upper 8 sections of the tower 2, a lifting rope 17 that interacts with the pulleys 16. The fixed end of the lifting cable 17 is fixed to the lower section 9 of the tower 2. In addition, to the lower section 9 mounted rotary stops of the locking mechanism (not shown in the drawings) sections 8, 9, eyes 18 are made

for fastening during transportation of the supporting device 7 and telescopic hydraulic cylinders 6.

On the frame-ramp 5, respectively, in the place of attachment of the telescopic hydraulic cylinders 6, the hinged supports of the U-shaped section 13, the supporting device 7, eyelets 19 are made.

The supporting device 7 (FIGS. 2, 3, 4) for mounting and disassembling the tower 2 for the second object is made in the form of two telescopic racks 21 interconnected by braces 20 (FIG. 2). Each of the telescopic racks 21 contains a housing 22 (FIG. 3) and a retractable link 23 installed in the housing 22. The link 23 is spring-loaded relative to the housing 22 by the springs 24. In the housing 22 and the link 23 for adjusting and fixing the length of the telescopic rack there are sockets 25 in which the fingers 26 are installed. In addition, each of the telescopic racks 21 equipped with a fork-shaped support platform th 27. In the link 23 installed screw support 28.

On the side surfaces of the housing 22 of each telescopic rack 21, eyes 29 are made symmetrically with respect to the longitudinal axis, in which four length-adjustable screw rods 30 are pivotally fixed at one end. The eyes 31 are made on the other end of the screw rods 30.

The tower 2 contains the platform of the upper working 32 (figure 5), which is transported separately.

The device operates as follows.

When transporting the telescopic tower 2 of the tower block, the upper section 8 is pushed into the lower section 9, while the tower 2 is mounted on a trolley 3 and through the base plate 12 and the pin is mounted on the truck tractor 4.

Installation of the tower block is as follows. The tractor 4 rolls the tower 2 on the trolley 3 onto the ramp 5. To install the tower 2 on the support device 7, the fingers 26 are removed from the sockets 25, while the spring 24 balances the mass of the link 23. The link 23 of the support device 7 extends under its weight to the contact of the screw support 28 with the frame-ramp 5. The position of the link 23 is fixed in the housing 22 with the fingers 26. Using the screw supports 28, the telescopic racks 21 of the supporting device 7 are adjusted until a stable position is established on the frame-ramp 5. The lower row of rods 30 is disconnected from the ele entomki towers 2, and are fixed on the frame-ramp 5, and then from the tower 2 the upper row of rods 30 is disconnected. Elements of the tower 2 are freely lying on the supporting platform 27 of the supporting device 7. After installing the supporting device 7 on the frame-ramp 5, the tractor 4 is released from tower 2.

Using a crane, the upper hinge of the lower section of the tower 9 with the U-shaped section 13 is unfastened, the U-shaped section 13 is rotated relative to the lower hinge of the section of the tower 9, two hinges 14 of the U-shaped section 13 are mounted on the ramp 5 with the specified tower angle. To increase the stability of the tower 2 in the transverse direction, the U-shaped section 13 is connected using screw rods (not shown in the drawings) to the side brackets on the ramp 5. The platform of the upper worker 32 is mounted on the tower 2. The ends of the telescopic hydraulic cylinders 6 freed by a crane 6 fixed on the ramp 5. The telescopic hydraulic cylinders 6 are connected to a separate hydraulic system (not shown in the drawings) and the telescopic tower 2 is raised to its working position until the lower section is fully installed and 9 onto the U-shaped section 13. During the lifting of the tower, the collapsible sub-base 1 connected to the ramp 5 serves as a counterweight. Fix the lower section 9 with the U-shaped section 13, unfasten the upper 8 and lower 9 sections of the tower 2, after which the telescoping device 10 of the telescoping device 10 carries out the telescoping of the upper section 8 to the working mark.

The collapsible parallelogram base 1 is raised to its working position after lifting the tower 2 using a separate lifting device (not shown in the drawings).

When mounting the tower 2, the installation of the U-shaped section 13 on the ramp 5 can be used separately from the tower at a predetermined angle of inclination of the tower 2. Then, using the crane, the tower 2 in horizontal position is connected to the upper hinges of the U-shaped section 13 with the support of the opposite end of the lower section 9 to the support device 7, after which the support device 7 is detached from the tower 2.

When dismantling the drilling unit, the parallelogram base 1 is lowered, and then the upper section 8 of the tower 2 is telescoped back to the lower section 9. After the sections 8, 9 are fastened, the trolley 3 is rolled onto the ramp frame, the support device 7 is mounted on the ramp frame 5, disconnect the tower 2 from the U-shaped rack on one side and lower the tower 2 into a horizontal position by telescopic hydraulic cylinders 6.

With the help of a crane, the U-shaped section 13 is disconnected from the ramp 5, rotated to a horizontal position and fixed on the lower section 9. The ends of the telescopic hydraulic cylinders 6 are disconnected from the ramp 5 and fixed to the towers 2 The tower 2 is mounted and fixed on the trolley 3 .

In a horizontal position, the tower 2 rests on the support device 7 and the trolley 3. The tractor 4 is rolled up, the upper end of the tower 2 is installed,

equipped with a base plate with a transport pin, to the tractor 4. The rods 30 are disconnected from the ramp 5 and fixed to the elements of the tower 2. The fingers 26 are removed from the sockets 25, the spring-loaded link 23 is installed in the housing 22 of the supporting device 7 and fixed in the transport position by the fingers 26 The supporting device 7, the hydraulic cylinders 6 are ready for transportation together with the tower 2.

The execution of the rig block of the drilling rig with a telescopic tower equipped with a device for telescoping sections of the tower, a support device for mounting and dismounting the tower and telescopic hydraulic cylinders for lifting and lowering the tower from a horizontal position to a working one, fixed during transportation of the tower on its elements, supplying the lower section of the tower shaped section, pivotally connected to it and equipped with hinged supports for installation on a ramp frame, increased mounting ability and transportability This is due to the reduction of both transport units during the transportation of the tower and the time for installation and dismantling of the tower block.

The implementation of the supporting device for mounting and dismounting the tower in the form of two telescopic racks connected by braces attached during transportation to the tower elements and mounted on the ramp during installation allowed to reduce the complexity and reduce the time for mounting and dismounting the tower.

Claims (3)

1. The rig unit of the rig, including a tower with a crown block, made with the possibility of transportation by vehicle, containing modules of the tower sections, a mechanism for raising and lowering the tower from the horizontal transport position to the working, ramp, folding towering base, characterized in that the tower is made telescopic, equipped with a device for telescoping sections of the tower, the crown block is equipped with a device for mounting the tower on the vehicle, while during transportation the tower is installed on a draw-in truck and a tractor unit, equipped with a support device for mounting and dismounting the tower and telescopic hydraulic cylinders for raising and lowering the tower from a horizontal position to the working one, mounted on tower elements, the lower section of the tower contains a U-section hinged to it with hinged supports for fixing it on the ramp frame, and on the ramp frame, respectively, nests are made for mounting the elements of the supporting device, telescopic hydraulic cylinders of the tower raising and lowering mechanism, sha Nirni supports U-shaped section. 2. The tower block according to claim 1, characterized in that the tower telescoping device is made in the form of a hydraulic winch mounted on the lower section of the tower, pulleys located on the lower and upper sections of the tower, a lifting rope interacting with pulleys, the fixed end of which is fixed to the lower section of the tower. 3. A support device for mounting-dismantling the tower, characterized in that it is made in the form of two telescopic racks connected by braces, each of which contains a housing, and at least one link made with elements for fixing the length of the telescopic rack, moreover a support platform is fixed on one side of the casing; on the other side of the casing, a screw support is mounted on a link spring-loaded relative to the casing, while on the side surface of the casing, both sides The axes of attachment are adjustable along the length of the rod, provided at the ends with elements for their fixation.