RU122686U1 - MOBILE DRILLING RIG FOR A MOBILE DRILLING RIG FOR WELL DRILLING OF WELLS - Google Patents

Abstract

1. The tower-winch block of a mobile drilling rig for cluster drilling of wells, including a drilling base, an oil derrick, a mobile module of a drawworks, a supporting structure made of series-connected frames containing longitudinal beams, a lower frame and a ramp frame, while the lower frame made in the form of an element of the drilling base and connected to its support legs, the mobile module of the drawworks is mounted on the ramp frame, the drilling tower is obliquely mounted on the end section of the ramp between the drilling base and the mobile module of the drawworks, or on the mobile module of the drawworks, or directly installed on the drilling base, the derrick-winch unit is equipped with a movement system containing parallel guides, each of which is made with at least one sliding surface, and a movement mechanism made in the form of hydraulic cylinders, each of which is connected to a hydraulic drive and installed along the corresponding guide with maybe fixation and movement, while the longitudinal beams of the lower frame and the ramp frame of the supporting structure are installed on the guides and have reciprocal sliding surfaces, characterized in that the longitudinal beams of the lower frame and the ramp frame of the supporting structure are installed along two guides on their sliding surfaces and are made with mating sliding surfaces, with each hydraulic cylinder being connected to the end surface of the lower frame. 2. The tower-winch unit according to claim 1, characterized in that each guide is made with two sliding surfaces.

Description

The derrick-winch block relates to drilling equipment, namely, to mobile drilling rigs intended for cluster drilling of exploratory and production wells.

A well-known mobile modular drilling rig (see RU 2420646 C2, E21B 7/02, 06/10/2011), the derrick-winch block of which includes a derrick with an open front face, a folding base, as well as a movement mechanism of the derrick winch block of the rig the zone of the wellbore with the help of electric drive of freight carts moving along the rail track.

However, supplying the base of the drilling rig with freight trolleys moving along the rail and eight wheels resting on the rails to move the mast winch block of the mobile drilling rig in the well cluster area does not allow for uniform distribution of the load on the metal structure, and also requires additional time for installation procedures / dismantling the base of the drilling rig, since the product with the carts does not fit into the transport envelope.

The closest analogue adopted for the prototype is a mobile drilling rig for cluster drilling of wells (see RU 81516 U1, E21B 15/00, 03/20/2009). The well-known mobile drilling rig contains a tower-hoist block made in the form of modules, including a module with a drilling platform (drilling base), a drilling tower, a mobile module of a drill hoist, as well as a supporting structure made of series-connected frames containing longitudinal beams - supporting ( bottom) frames and ramps. The lower frame is an element of the drilling base and is connected to its support posts. The mobile drawworks module is mounted on a ramp frame. The derrick is mounted obliquely at the end portion of the ramp between the drill base and the mobile drawworks module or on the mobile drawworks module or is directly mounted on the drill base. The mast winch block is equipped with a movement system containing three parallel guides, each of which is made with at least one sliding surface, and a movement mechanism made in the form of hydraulic cylinders, each of which is connected with a hydraulic actuator and mounted along the corresponding guide with the possibility of fixing and moving . Moreover, each guide can be made with two sliding surfaces. At the same time, the winch block is mounted on the rails so that the longitudinal beams of the lower frame and the ramp of the supporting structure are located across the guides, the sliding surfaces of which are located under the end sections of the lower frame and under the end sections of the ramp. Thus, the end sections of the lower frame and the ramp have reciprocal sliding surfaces. Moreover, each hydraulic cylinder is connected to the side of the supporting structure.

The well-known mobile drilling rig requires a lot of labor for the installation / dismantling of the winch block, in addition, the metal-moving mobile drilling rig moving system is characterized by a complex structure and a complex synchronization system for hydraulic cylinders, as it requires the installation of three parallel guides, each of which is equipped with hydraulic cylinders. In addition, such an installation of the tower block on guides, namely, the location of the longitudinal beams of the lower frame and the ramp of the supporting structure across the guides, the sliding surface of which is located under the end sections of the lower frame and under the end sections of the ramp, does not provide uniform distribution load on the metal structure.

The problem to be solved when using the utility model is to create a tower platform for a mobile drilling rig with the possibility of moving it within a cluster site, the design of which allows to reduce labor costs for installation / removal of the tower block, reduce metal consumption, evenly distribute the load, and also to increase the reliability of the movement of the tower machine.

The problem is solved in that in the derrick and winch block of a mobile drilling rig for cluster drilling of wells, including a drilling base, a derrick, a mobile module of a drill hoist, supporting structure made of series-connected frames containing longitudinal beams - the lower frame and the frame - ramps, while the lower frame is made in the form of an element of the drilling base and is connected to its support columns, the mobile winch module is mounted on the ramp frame, the drilling tower is inclined at the ends section of the ramp between the drill base and the mobile drawworks module or on the mobile drawworks module or is directly mounted on the drill base, the winch block is equipped with a movement system containing parallel guides, each of which is made with at least one sliding surface, and a movement mechanism made in the form of hydraulic cylinders, each of which is connected with a hydraulic actuator and installed along the corresponding guide with the possibility of fixation and movement, while longitudinal beams of the lower frame and the ramp-frame of the supporting structure are mounted on the rails and have mating sliding surfaces, according to the utility model, the longitudinal beams of the lower frame and the ramp-frame of the supporting structure are installed along two rails on their sliding surfaces and are made with mating sliding surfaces, while each hydraulic cylinder is connected to the end surface of the lower frame.

In the particular case of the implementation of the utility model, each guide is made with two sliding surfaces.

Providing two guides for moving the mast winch block of the mobile drilling rig, as well as connecting each hydraulic cylinder to the end surface of the lower frame of the drilling base, can significantly reduce the labor costs of mounting / dismounting the mast winch by reducing the number of guides and, accordingly, hydraulic cylinders, significantly reduce metal consumption, simplify the construction of the winch block, as well as simplify the synchronization system of hydraulic cylinders, i.e. Sit reliability of the system for moving derrick-winch unit of the mobile rig in wells within a bush.

The installation of longitudinal beams of the lower frame and the ramp frame of the supporting structure along two guides on their sliding surface, as well as their implementation with mating sliding surfaces, in addition to providing movement of the winch block within the cluster pad, make it possible to evenly distribute the load on the metal structure, to exclude the possibility of bending the supporting structure during the operation of the drilling rig and in the process of moving the tower block within the well cluster. This is due to the increase in the area of interaction of the sliding surfaces of the guides and the reciprocal sliding surfaces of the longitudinal beams of the lower frame and the ramp of the supporting structure of the winch block.

In addition, the implementation of each guide with two sliding surfaces can further reduce the metal consumption of the system for moving a mobile drilling rig.

No technical solutions matching the totality of essential features of the utility model have been identified, which allows us to conclude that the utility model meets the patentability condition of “novelty”.

The patentability condition “industrial applicability” is confirmed by the example of a specific embodiment of the tower block of a mobile drilling rig for cluster drilling of wells.

The essence of the utility model is illustrated by the example of an elevator-winch block of a mobile drilling rig for cluster drilling of wells with a derrick, obliquely mounted on the final section of the ramp between the drilling base and the mobile module of the drawworks, the guides for moving which are made with two sliding surfaces.

The essence of the utility model is illustrated by drawings, where:

- figure 1 shows a side view of the tower platform of a mobile drilling rig for cluster drilling of wells;

- figure 2 shows a top view of the mast winch unit of a mobile drilling rig for cluster drilling of wells;

- figure 3 is a view a in figure 2.

The derrick and winch block of a mobile drilling rig for cluster drilling of wells is made in the form of modules and includes a drilling base 1, a derrick 2 and a mobile module of a drawworks 3 (see Figs. 1, 2).

The mast winch block also contains a supporting structure made of series-connected frames containing longitudinal beams, a lower frame 4 and a ramp 5.

The mobile module of the drawworks 3 is made in the form of a semitrailer frame with an integrated transport device and technological equipment and is mounted on the ramp frame 5.

Drill tower 2 is mounted obliquely at the end portion of the ramp 5 between the drill base 1 and the mobile module of the drawworks 3. It is possible to install the drill tower 2 on the drawworks module 3 or on the drill base 1 in an inclined or upright position, respectively.

The lower frame 4 is made in the form of an element of the drilling base 1 and is connected to its support legs 6. The longitudinal beams of the lower frame 4 of the drilling base 1 are fixed in parallel to each other by rods 7 (see figure 3).

The ramp 5 is an integral welded metal structure.

An element of the movement system of the tower platform of a mobile drilling rig is guides 8 made in the form of two frames mounted, if necessary, on foundation plates parallel to each other. Each guide 8 is made with two sliding surfaces 9 (see figure 3). In this case, it is possible to perform a guide with one sliding surface (not shown in the figures). Beams 10, designed to connect the guides 8 to each other, ensure their parallelism.

The longitudinal beams of the lower frame 4 and the ramp 5 of the supporting structure of the winch block are mounted along two guides 8 on their sliding surfaces 9 and are made with mating sliding surfaces.

The guides 8, together with the movement mechanism, form the movement system of the derrick and winch block of the mobile drilling rig.

The movement mechanism of the winch block is made in the form of two hydraulic cylinders 11, each of which is installed along the corresponding guide 8, made with two sliding surfaces 9 with the possibility of fixing on it using a detachable connection and with the possibility of movement. It is possible to install each of the hydraulic cylinders 11 along the corresponding guide 8 made with one sliding surface.

The hydraulic cylinders 11 are connected with a hydraulic actuator (not shown in the drawing), which provides a supply of working fluid in the cavity of the hydraulic cylinders 11. The rod 12 of the hydraulic cylinder 11 is connected to a gripper 13 located on two sliding surfaces 9 of the corresponding guide 8, and the housing of each hydraulic cylinder 11 is connected to the lower end surface frame 4 of the drilling base 1.

In the case of execution of the guide 8 with one sliding surface, the gripper 13 is placed on the sliding surface of the corresponding guide 8.

The operation of the device is as follows.

Two guides 8 are laid parallel to each other on the foundation slabs (with low soil bearing capacity), while for guiding vehicles, the guides 8 are provided with a ramp 14 from one end, along which a compactly folded drilling base is brought into the guides 8 using a tractor and its own wheels parallelogram type 1. Using a removable element, the wheels of the drilling base 1 are uncoupled by installing the longitudinal beams of the lower frame 4 of the drilling base 1 along two guides 8 on their surface 9, wherein each guide 8 is made with two sliding surfaces 9, which cooperate with the mating surfaces of the longitudinal beams of the lower frame 4, to enable movement.

Then, crane equipment along two guides 8 on their sliding surface 9 install the longitudinal beams of the frame-ramp 5, made with mating surfaces of the slide.

When each guide 8 is made with one sliding surface, the sliding of the guide sliding surface with the mating surfaces of the longitudinal beams of the lower frame 4 and the ramp 5 made with sliding surfaces is provided to enable movement.

The lower frame 4 of the drilling base 1 and the ramp 5 are connected in series, forming the supporting structure of the towing block. The other end of the ramp frame 5 is provided with a ramp 15, according to which, using a truck tractor and a transportation device, for example, a trolley, the derrick 2 is rolled onto the ramp frame 5, after which it is brought into working position, inclinedly mounted on the supporting surfaces of the ramp frame 5 Then, using the tractor, the mobile module of the drawworks 3 is imported onto the ramp 5.

The next stage of installation of the tower block is to raise the drilling base 1 to its working position using the tackle system.

Then, a receiving bridge 16, made in the form of a semitrailer frame with an integrated transport device, is brought to the drilling base 1 with a tractor, an inclined groove 17 and pipe racks 18 are installed. The receiving bridge 16 and the inclined groove 17 are placed at an angle of 90 ° to the supporting structure the winch block, for which the drilling base 1 is provided with a technological opening for installing an inclined trough 17 therein.

The installation of the receiving bridge 16 and the inclined trough 17 at an angle of 90 ° to the supporting structure of the mast winch block allows you to develop the well immediately after drilling and moving the mast winch block, and then the receiving bridge 16 with the inclined groove 17, to another point, since does not require dismantling of the equipment of the drilled well.

To carry out the movement of the winch block along the guides 8, the ramp 15 is disconnected from the ramp 5, and a command is sent from the remote control, as a result of which the hydraulic fluid acts on the piston of the rod 12 of each of the hydraulic cylinders 11 installed along the corresponding guide 8, made with two sliding surfaces 9, providing simultaneous extension of the rods 12 to a full step. The force from the extension of the rods 12 through the bodies of the hydraulic cylinders 11 is transmitted to the end surface of the lower frame 4 of the drilling base 1 to slide the mating surfaces of the lower frame 4 and the ramp 5 of the supporting structure of the winch block along the guides 8.

Thus, the winch block moves one step corresponding to the extension length of the rods 12 of the hydraulic cylinders 11. Then, using a detachable connection, the grippers 13 are released from the corresponding guides 8 from the sliding surfaces 9 and reinstalled along the guides along with the hydraulic cylinders 11 for moving the winch block along the guides 8 to the next step.

When performing each guide 8 with one sliding surface, each hydraulic cylinder 11 is installed along the corresponding guide 8, and the grippers 13 on the sliding surface of the corresponding guide 8.

The movement of the derrick-winch block of the mobile drilling rig within the wellbore in cases when the derrick 2 is slanted mounted on the mobile module of the hoist 3 or directly mounted on the drilling base, is carried out in the same way.

Thus, the claimed utility model ensures the achievement of a technical result, which consists in reducing labor costs for the installation / dismantling of the mast winch block, which leads to a reduction in the cycle of moving the mast winch block to a new well within the well cluster; as well as in reducing the metal consumption, ensuring uniform distribution of the load on the metal structure, increasing the reliability of the movement system of the winch block while simplifying the design of the winch block.

Claims (2)

1. The derrick and winch block of a mobile drilling rig for cluster drilling of wells, including a drilling base, a derrick, a mobile module of a drawworks bearing a structure made of series-connected frames containing longitudinal beams, a lower frame and a ramp, the lower frame made in the form of an element of the drilling base and connected to its support legs, the mobile module of the drawworks is mounted on the ramp frame, the derrick is inclined mounted on the end section of the ramp frame between the drill shaft the base and the mobile module of the drawworks, or on the mobile module of the drawworks, or directly mounted on the drilling base, the mast winch block is equipped with a movement system comprising parallel guides, each of which is made with at least one sliding surface, and a movement mechanism made in the form of hydraulic cylinders, each of which is connected with a hydraulic actuator and installed along the corresponding guide with the possibility of fixation and movement, while the longitudinal beams of the lower frame and the appar frame whether the supporting structure is mounted on rails and having mating sliding surfaces, characterized in that the longitudinal beams of the lower frame and the ramp of the supporting structure are installed along two rails on their sliding surfaces and are made with mating sliding surfaces, with each hydraulic cylinder connected to the bottom end surface frames. 2. The mast winch block according to claim 1, characterized in that each guide is made with two sliding surfaces.