RU67615U1 - DRILLING UNIT MBU 125 - Google Patents

Abstract

The utility model relates to drilling equipment, namely to mobile drilling rigs with high cross-country ability, designed for deep drilling, maintenance and repair of wells. The claimed installation includes a lifting unit on a self-propelled chassis frame, a drive motor, a transfer gearbox, winch drive transmissions, a telescopic tower with crown block, a tackle system with a hook block, an emergency drive, according to a utility model, the installation is equipped with a single-drum winch, the silent and high speed transmissions of which contain chain gearboxes mounted on the frame and on the shaft of the winch drum, while the emergency drive gearbox, which is in constant engagement with the hydraulic motors, with a spline shaft end, is articulated it is connected via connecting elements and a power lever to the emergency drive transmission and the winch quiet running transmission, and a pallet is installed on the upper section of the telescopic tower with the possibility of laying a hook block on it. The technical result of the claimed utility model is to simplify the design of the installation while maintaining its functionality through the use of a single-drum winch, which is the most compact and simple in design compared to a double-drum winch with drill and tartar drums used in the prototype. The claimed installation significantly increases the efficiency of maintenance and repair of oil and gas wells, due to the reduction of time for installation and installation of equipment on the installation frame, as well as dismantling and transportation of the installation.

Description

The utility model relates to drilling equipment, namely to mobile drilling rigs with high cross-country ability, designed for deep drilling, maintenance and repair of wells.

The well-known "Mobile oilfield installation" containing a transport base, a tower with a lifting mechanism (Author's certificate No. 1073423, ЕВВ 7/02 of 03/10/83). In a well-known mobile oilfield installation, the height of the tower is limited by the dimensions of the shelter. Installation and dismantling of the installation shelter are time-consuming, which reduces the efficiency of its use, and the limited height of the tower does not allow the installation to be used for deep drilling of wells.

The well-known "Mobile drilling rig" (Patent No. 2190076, ЕВВ 7/02 of 2001.03.26), which contains a multi-axle chassis, a drilling tower, a device for lifting the tower, while the tower is removable, the base of which is equipped with supports fixed for rotation and fixation in working and transport positions. The implementation of the removable tower allows you to use the vehicle to transport several towers of a similar design during the operation of the first tower, which increases the efficiency of use of such a installation. However, the implementation of the tower of a one-piece structure with a certain height limits the possibility of using this installation for deep drilling of wells.

The well-known "Mobile repair and drilling unit" (Patent No. 40372, ЕВВ 3/00 from 2004.04.26). Famous Mobile Repair Drill

the unit contains a self-propelled chassis frame, a lifting block, an engine, a transfer gearbox, a double-drum winch with a drill and tartar drums, winch drive transmissions, operational pneumatic couplings, a telescopic inclined tower with a crown block, a tackle system with a hook block, the unit winch is made without a case, its drums are installed directly on the frame, and the gearbox is located between the drums and connected to them by chain transmissions. In this unit, the disadvantages of the previous analogue were partially eliminated, and the tower is telescopic with the possibility of increasing its height, which allows the unit to be used for deep drilling of wells. However, the use of a double-drum winch complicates the design of the installation, increases the time for installation and installation of the winch on the drilling rig, as well as dismantling and transportation of the installation itself.

The technical task of the utility model is to simplify the design of the installation while maintaining its functionality when used for deep drilling, maintenance and repair of wells.

The technical problem is solved by the well-known installation of a mobile repair and drilling unit, comprising a lifting unit on a self-propelled chassis frame, a drive motor, a transfer gear, winch drive transmissions, a telescopic tower with a crown block, a hoist system with a hook block, an emergency drive, which, according to a utility model, equipped with a single-drum winch with two disc pneumatic friction clutches mounted on the frame, located parallel to the longitudinal axis of the transfer gearbox, shafts otorrhea meshed gear, whose shafts are in engagement, with torque transmission through the coupling

elements on the winch’s quiet and high speed transmission, and the winch’s quiet and fast transmission and emergency drive transmissions contain chain gearboxes that are equipped with oil-welded cases with sight windows, and quiet and fast gearboxes are mounted on the frame with the lower part and the upper part on the drum shaft winches, while the emergency drive gearbox, which is constantly engaged with hydraulic motors, is splined by the spline end of the shaft through the connecting elements and the gear lever with trans issiey emergency drive winch and the transmission of quiet running, and on the upper section of the telescopic tower sump installed with the possibility of stacking hook block it in the transport position.

The essence of the utility model is illustrated by drawings:

Figure 1 shows a General view of the installation.

Figure 2 shows the mast of the installation in the transport position - top view.

Figure 3 shows the installation frame - top view.

Figure 4 shows the layout of nodes on the installation frame - top view.

The claimed utility model "Drilling rig MBU 125" of figure 1 contains a frame 1 of a self-propelled chassis, for example, a BAZ-69099 chassis, having a 12 × 12 wheel arrangement, on which the components and elements of the lifting block are located, including a drive motor equipped with a two-speed gearbox power take-off 2 3.

On the left side of the lifting block is the mounting panel 3 of FIG. 1, from which the telescopic hydraulic cylinder for lifting the tower 4 of FIG. 1, consisting of two sections, and the hydraulic cylinder for extending the upper section of the tower are controlled. The electrical equipment of the lifting unit (24 V) is connected to the electrical equipment of the chassis. Lifting

the unit is equipped with 24 V emergency lighting, parking lights for driving on general roads. The main lighting of the installation (220 V) is made in explosion-proof design.

On the frame 1 of FIGS. 1, 3, in its middle part, a single-drum winch 5 is installed, having quiet transmissions 6, 7 fast speeds and emergency drive transmission 8 of FIGS. 3, 4.

Figure 4 shows the installation diagram of the winch in plan, consisting of a winch drum 9, a transfer gear 10, a hydraulic brake 11, a winch drum brake 12, pneumatic couplings 13, 14, and an emergency drive gear 15. A transfer gear 10 of FIGS. 3, 4 is installed parallel to the longitudinal axis of the winch 5 and contains three shafts that are meshed with the possibility of transmitting torque through the connecting elements to the silent transmission 6 and high speed 7 of the winch 5 and the rotor drive (not shown in Fig.).

The winch drum 9 of FIGS. 3, 4 consists of a welded drum with grooves connected to the shaft by a key connection. The shaft is connected to the supporting elements of the frame through bearings, and brake rims are attached to the ends of the drum (not shown in FIG.).

A large pneumatic disk clutch 13 with an air supply swivel is located at the end of the shaft from the silent transmission side 6 of FIG. 4.

On the side of the high speed transmission 7, a small pneumatic disk clutch 14 with a swivel of FIG. 4 is placed.

All transmissions are worn on hollow spline shafts that are mounted on bearings. The large pneumatic disk clutch 13 consists of a gear connected to the hollow spline shaft of the driving and driven disks and

equipped with liners, pressure sectors, aperture, with the possibility of mutual contact.

The transmission is used to drive the winch with gears. The gear transmission of the winch allows to obtain “quiet” and “fast” speeds on the lifting shaft. "Fast" speed - for raising and lowering the drill string. Silent speed is designed to work with the casing and to eliminate accidents during operation of the installation.

All gearboxes are made of chain with all-welded oil-filled housings and viewing windows.

The silent gear 16 and high speed gear 17 of FIG. 4 are mounted on top through the hollow shaft on the shaft of the winch 9, and from below using support elements on the frame 1, the transmission of the emergency drive 8 is also mounted on the frame using the support elements.

Chain gearboxes have covers for mounting chain sprockets and chain tensioners. The sprockets rotate on ball bearings and are installed in the side covers of the gearbox. In the silent gear reducer there are sprockets with the number of teeth Z = 15, Z = 60, in the high speed gearbox - Z = 36, Z = 39, and in the emergency drive gearbox - Z = 17, Z = 34.

The emergency drive reducer 15 of Fig. 4 is used for emergency winch drive using hydraulic motors (not shown in Fig.), Which are installed in the gearbox cover with the possibility of transmitting torque to the gearbox shaft. Gears are mounted on splined shafts of hydraulic motors (Z = 18), which are in constant engagement with the crown (Z = 120). The crown is fixed with bolts and pins on the drive disk, which, in turn, is seated with the help of spline grooves and bushings on the gearbox shaft. The splined end of the gearbox shaft is connected to the shaft via connecting elements

emergency winch drive and the lever for turning on the emergency drive 18 of Fig.4.

The emergency drive reducer 15 of FIG. 4 has a detachable housing (not shown in FIG.), Consisting of a welded housing with a cover interconnected by bolts through a gasket. Transmission oil is poured into the emergency drive gearbox, for example, in winter TM 5-12 (-40 ° С; + 140 ° С), in the summer TAD-17I (-25 ° С; + 140 ° С) GOST 23656-79 in the amount of 1, 8 liters to the top mark on the dipstick.

Tower 4 of FIGS. 1, 2 serves to carry out hoisting operations during drilling and casing of wells.

Tower 4 of FIGS. 1, 2 consists of two sections: lower and upper, which are welded trusses of a U-shape (with an open front face), welded from pipes of rectangular and square cross-section. The crown block frame 19 is welded to the upper section.

In operation, the tower is a support for drill pipes installed in a vertical position, in addition, a number of devices and devices for various technological purposes are mounted on it during well construction, for example, in the supporting eyes and flanges that are in the lower part of the lower section, the upper balcony is suspended (not shown in FIG.).

On the upper section there is a pallet 20 of figure 2 for laying the hook block in the transport position. The lower and upper sections of the tower are equipped with step ladders (not indicated in Fig.).

The claimed installation for work during deep drilling, maintenance and repair of wells is installed on the working platform, with a bearing capacity of the soil of at least 15 kg / cm ² .

Under the wheels of the chassis set chocks.

To the folding platforms with which the installation is equipped, supports are fixed and stairs with a railing are installed (not shown in Fig.).

Assemble and install in working position devices and appliances with mounts on the tower.

Remove the guy rods from the hooks of the towers, the key suspension rope, the rope of the riding worker insurance device and straighten them. The hook block is fixed.

Before lifting the tower 4 of figure 1, the hinged bolts of the front support of the tower are disconnected 21. The fixation elements of the upper section of the tower relative to the lower are disconnected and voltage is supplied to the control panel.

The rise of the tower begins at a pressure of not more than 180 kgf / cm ² .

Lowering the tower is carried out at a pressure in the range from 40 to 50 kgf / cm ² .

The position of the tower is fixed with the help of hinged bolts on the rear support 22.

Fasten braces: tighten the braces with a force of 10 kN (until there is no sagging), while the tightening torque should be 20 kg.m; wind braces are fixed to the anchors and pulled with a force of 10 kN, while the tightening torque should be 20 kg.m; the stabilizing guy wires of the balcony of the riding worker are fixed to the anchors and pulled with a force of 5 kN, while the tightening torque should be 10 kg.m. Then set the working platform (in Fig. Not shown).

The operation of the installation consists in the operation of the rotor (not considered in this application) and in the operation of the winch.

A single-drum winch 5 of FIGS. 1, 3, 4, intended for raising and lowering the drilling tool, casing and tubing, comprises a winch drum 9 with a shaft, which, by means of pneumatic disk friction clutches 13, 14,

connected directly and mounted coaxially with the main engines located on opposite sides of the drum. To increase traction on the winch drum 9 with a corresponding decrease in lifting speed, work is carried out through chain transmissions.

The winch is controlled using levers and brake levers, as well as from the control panel and is provided with a pneumatic winch system. When you turn on the pneumatic couplings 13, 14 of figure 4, the asterisks of quiet and high speed couplings are connected to the shaft of the winch drum 9. The rotation sets the winch drive from the transfer gear 10 of figure 4, which has two outputs, from one output to the silent gear 16, s another - to the high speed gear 17.

The torque from the transmission to the winch drum is transmitted with air supply through the nozzle of the swivel air supply under the diaphragm located on the outer disk of the large pneumatic clutch 13.

The winch brake has manual pneumatic and mechanical control, which is actuated by the brake lever, which provides smooth braking with a gradual increase in braking force.

The use of a single-drum winch provides a complete stop and hold of the load in a stationary state for some time (up to 30 seconds) until the main brake is applied. When drilling, the engine operates in the mode of the bit feed regulator. The drive control system provides complete controllability of the drive electric motors, even during braking on the rise and acceleration on the descent. The main braking is carried out using an electric motor, emergency braking is done with a mechanical brake, the emergency drive lever 18 of FIG. 4.

The tower 4 of FIG. 1 is installed in the transport position on the front rack 21 of FIG. 1 and the rear rack 22 of frame 1. The tower is installed in the working or transport position, as well as the upper section is extended from the bottom by means of a hydraulic system, which ensures deployment to the working position of the nodes and installation elements.

Control of the installation in operation includes controlling the hydraulic cylinder for lifting the tower and the hydraulic cylinder for extending the upper section of the tower.

The electrical equipment of the lifting unit (24 V) is connected to the electrical equipment of the chassis.

Monitoring engine operation, giving the engine start signal, emergency engine shutdown are carried out from the operator’s control panel.

In the working position, certain guy wires are used: to absorb the load on the installation, the crown block 19 of Fig. 1 and the tower 4 are connected to the frame 1 with two power guy wires; to limit the movement of tower 5 during wind loads, wind braces are used; To limit the movement of the balcony and the perception of wind load, stabilizing guy wires of the balcony are installed (guy wires in Fig. not shown).

The technical result of the claimed utility model is to simplify the design of the installation while maintaining its functionality through the use of a single-drum winch, which is the most compact and simple in design compared to a double-drum winch with drill and tartar drums used in the prototype.

Thus, the claimed installation significantly increases the efficiency of maintenance and repair of oil and gas wells, due to the reduction of time for installation and installation

equipment on the installation frame, as well as dismantling and transportation of the installation itself. The design of the installation is rational, provides convenience, safety and efficiency of work during operation. The functionality of the installation allows its use in deep drilling of oil and gas wells.

The use of simple assemblies, including a winch, and welded structures in the installation allows you to effectively reproduce the claimed utility model in organizing the production of medium series (from 15 units per year) and put it into economic circulation without expensive equipment.

Claims (2)

1. Drilling rig MBU 125, comprising a lifting unit on a self-propelled chassis frame, a drive motor, a transfer gear, winch drive transmissions, a telescopic tower with crown block, a hoist system with a hook block, an emergency drive, characterized in that the installation is equipped with a single-drum winch mounted on the frame with two pneumatic pneumatic friction clutches located parallel to the longitudinal axis of the transfer gearbox, whose shafts are meshed with the possibility of transmitting torque and through the connecting elements on the transmission of the winch’s quiet and high speed, moreover, the winch’s quiet and high speed transmission and emergency drive contain chain gearboxes that are equipped with all-welded oil-filled housings with sight windows, and quiet and fast gearboxes are fixed to the frame with the lower part and the upper part on the shaft of the winch drum, while the emergency drive gearbox, which is in constant engagement with the hydraulic motors, is splined by the spline end of the shaft through the connecting elements and power lever with emergency drive transmission and winch quiet running transmission. 2. Installation according to claim 1, characterized in that a pallet is installed on the upper section of the telescopic tower with the possibility of laying the hook block on it in the transport position.