RU2261313C2 - Method and device for cylindrical reservoir erection by top-down construction method - Google Patents

Abstract

FIELD: building, particularly liquid and gas reservoir building.

SUBSTANCE: method involves forming building site at reservoir base, wherein building site is provided with fixed rotary jib crane and unloading racks and is adapted for stacking sheet and other blanks; building foundation by outer gantries of lifting means near reservoir foundation; moving sheets for reservoir wall belts by means of hoists displaced along monorails suspended by consoles of lifting means gantries along reservoir perimeter, wherein sheets are conveyed to hoist areas by narrow-track trolley; mounting reservoir wall belts, wherein all belts besides lower one are mounted on main boom of lifting means with the use of checkpoints and cross-arms which direct the belts along inner reservoir radius, lower belt is mounted on reservoir bottom; mounting plates on the first upper reservoir wall belt after lifting two belts having fixed roof, inventory scaffolds installed on consoles of outer and inner lifting means gantries along reservoir perimeter with the use of hoists. Lifting means gantries are arranged in pairs on common frame inside and outside the reservoirs. Each gantry includes pusher and two posts formed as paired ratchet bars and coupled one to another by upper tie. Upper pusher end extends through upper tie and is fixed by guiding finger to prevent rotation thereof around vertical axis. Each gantry is provided with slider. Main booms are suspended to sliders of inner and outer gantries so that main boom positions may be adjusted in vertical plane. Cross-arms having curvature radius equal to inner radius of reservoir wall are installed on main booms so that cross-arm positions may be adjusted in horizontal plane. Length -adjustable consoles are connected to upper tie and provided with bearing rollers, monorails for hoist movement along reservoir perimeter are suspended to central part.

EFFECT: increased reservoir stability during erection thereof.

7 cl, 18 dwg

Description

The invention relates to reservoir engineering, can be used for the construction of reservoirs by growing.

There is a method of constructing cylindrical tanks by the method of growing, including preparing the base, foundation, installing the bottom, installing lifting devices around the perimeter of the tank at a predetermined interval, installing the first from the top of the tank wall belt from sheets rolled along the inner radius of the tank wall, installing a stationary roof in the first from the top from the top , lifting the first on top of the belt with a stationary roof to the height of one belt, installing the second on top of the belt, lifting the mounted two belts from the hospital Second roof at the height of the belt, in the following montage of all belts, welding of the bottom chord to the bottom. The known method is carried out by a device containing lifts with "climbing" jacks, struts with struts, load gripping elements (BCKornienko, B.V. Popovsky. Construction of tanks. Publishing house of construction literature. M., 1971, p. 72- 75).

The disadvantages of the known method and device:

- lack of inventory of mechanization for transporting sheets and other blanks to the installation site of belts and other elements of the tank. Therefore, there is a need to use self-propelled hoisting mechanisms (cranes, loaders, etc.), which clutters the construction site, increases the cost of construction, reduces labor productivity;

- the issue of ensuring the stability of the tank during installation from wind loads has not been resolved;

- the issue of protecting jobs from atmospheric precipitation, low temperatures has not been resolved, which leads to a decrease in the technical safety of work, working conditions, and prevents the continuous production of welding and other works, and the combination of technological operations.

The objective of the invention is:

- development of a flow-line method of mounting the tank by the growing method with maximum mechanization of work by inventory means, without the use of self-propelled lifting mechanisms;

- ensure the stability of the tank during its construction, i.e. protection against wind loads;

- protection of workplaces and workers from atmospheric precipitation, temperature influences, which will ensure technical safety of work, normal working conditions, improving the quality of welding joints, the ability to conduct construction and installation work strictly on schedule, regardless of weather conditions, time of day or year;

- cost reduction and reduction in the construction of tanks.

The problem is solved by the fact that near the base of the tank equip a site with a stationary rotary jib crane and racks for unloading and storage of sheet and other blanks; foundations for the installation of external elevator portals are attached to the foundation of the tank; sheets for mounting belts of the tank wall are transported by hoists moving along monorails suspended to the console of the elevator portals around the perimeter of the tank, and transported to the hoist action area on a narrow gauge trolley; the installation of the tank wall belts, except for the lower one, is carried out on the cargo beams of the hoists using benchmarks and traverses orienting the belts along the inner radius of the tank, and the lower belt on the bottom of the tank; installation of platforms on the first from the top of the tank wall belt is carried out after lifting two belts with a fixed roof, from inventory scaffolds installed on the consoles of the external and internal elevator portals around the tank perimeter, using hoists. To access workers in the tank during its construction, a temporary underground passage is made in the form of a trench with stairs.

The elevator portals of the device for implementing the method of constructing cylindrical tanks by the growing method are installed in pairs on a common frame outside and inside the tank, each of which includes two racks made in the form of a twin ratchet rail and interconnected by an upper link forming a portal, a pusher made in the form twin ratchet rails, on the upper end of which there is a rod with a longitudinal slot, and on the lower - a heel that freely contacts the rod of the hydraulic jack installed in the frame a puller, and the upper end of the pusher passes through the upper connection of the portal and is fixed with a guide finger, excluding its rotation along the vertical axis; each elevator portal is equipped with a slider made in the form of a horizontal beam, which has thrust dogs in contact with the ratchet racks of the racks and pusher; in addition, cargo beams are suspended from the sliders of the external and internal elevator portals with the possibility of adjusting their position in the vertical vertical plane; traverses are installed on cargo beams with the possibility of regulating their position in the horizontal plane at the rate of at least two on each sheet of a belt with a radius of curvature corresponding to the inner radius of the tank wall, which are equipped with fixing bolts; perpendicular to the upper connection of the portals, length-adjustable consoles are attached, at the ends of which, support rollers are installed to the side of the tank wall, and monorails are suspended on the middle part to move the hoists around the perimeter of the tank, forming a closed ring. The device for implementing the method includes external and internal cables made in the form of a rope, the upper end of which is attached to the mounted part of the tank wall, and the lower one is wound on a drum with a fixed tension force, equipped with a stopper, pivotally connected to the frame of the elevator. The device for implementing the method has a protecting tent made of insulated waterproof canvas, which is equipped with canopies, light windows, flanges for connecting the sleeves from the heat generator, exhaust openings, electric shades. On top of the consoles of the external and internal portals of the lifts, scaffolds with rails are installed, forming a closed ring around the perimeter of the tank wall, and hoists. The racks of the elevator portals are pivotally connected to their frame.,

The equipment of the site with a stationary jib crane and racks provides unloading, folding sheet and other blanks for mounting the tank without the use of self-propelled hoisting mechanisms (cranes, loaders, etc.) reduces costs, improves the culture of work organization.

Transportation of sheets and other blanks to the installation site of the tank wall belts with hoists moving along monorails around the tank perimeter eliminates the need for self-propelled load-lifting mechanisms for this purpose, which are inefficient, expensive, and clutter up the construction site. In addition, the use of mobile hoists allows the installation of the belt of the tank wall at the same time with several links and combine installation and welding.

The transportation of sheets and other workpieces into the hoisting range with the help of a narrow-gauge trolley simplifies the scheme of moving materials, increases labor productivity.

The installation of the tank wall belts on the cargo beams of the hoists using traverses and benchmarks ensures the correct shape (concentricity) of the tank wall, the stability of the tank during installation.

The installation of an annular platform on the first from the top belt of the tank with inventory scaffolds installed on the consoles of the elevator portals along the perimeter of the tank eliminates the need for scaffolding around the tank, the use of self-propelled cranes with a boom length of at least 20 m.

The implementation of a temporary underground passage provides workers with access to the tank during the construction process.

The location of the elevator portals inside and outside the tank along its perimeter on a common frame, the connection of them with cargo beams, a monorail, scaffolds installed on the elevator portal consoles forming a closed ring, the presence of support rollers on the elevator consoles, and the external and internal cables create a reliable system that ensures stability reservoir during construction - protecting it from wind loads.

The presence of two racks at each lift, connected by a top link, forming a portal, and fixing the latter by two struts provides rigidity and reliability of the structure. The swivel connection of the racks with the frame allows you to adjust their position in the vertical plane, mounting, dismounting them by articulating raising and lowering.

The implementation of the racks of the elevator portals in the form of a twin ratchet rail - of two gutter-shaped profiles, for example, channels with horizontal fingers located after a certain step - simplifies the design of the elevators, combines the rack with the rail. This also applies to the pusher.

The presence of a slider equipped with support dogs allows it to be “scrambled” along racks to a predetermined height, for example, to the height of one belt of the tank wall, moving stepwise under the action of a pusher and a hydraulic jack, carrying cargo beams along with it. Thanks to the ratchet system, the reciprocating small stroke of the hydraulic jack and pusher rod ensures that the slider rises to a predetermined height.

The presence of benchmarks and traverses ensures the correct shape (concentricity) of the tank wall during installation. The presence of the enclosing tent provides protection for workers from atmospheric influences (precipitation, wind, cold, heat, etc.), creating optimal conditions, especially for welding, the ability to perform work in any weather, at any time of the day or year.

The presence of a drum with a fixed force of tension of the rope (cable-stay) and a stop-latch ensures the lifting of the mounted belts of the tank wall without loosening the cable-staying and reliable fixation after lifting.

The analysis of technical solutions known from the patent and technical literature allows us to conclude that the claimed distinguishing features of the proposed method for constructing cylindrical tanks by the growing method and devices for its implementation have novelty and, when used, lead to a positive technical result.

Figure 1 schematically shows a General view of the device for implementing the method, in section of the wall of the tank; figure 2 is the same side view (from the portal); figure 3 - internal and external portals of the elevator in the context of the tank; figure 4 - shows the stretch between adjacent lifts, scan; figure 5 - the annular foundation of the tank and the foundations for the external portals of the lifts, plan; figure 6 is a platform for unloading and warehousing sheet and other blanks; Fig.7 - transportation of sheets for mounting the first from above the belt wall of the tank, a scan; on Fig - the same, the first belt on top is mounted and prepared for lifting; figure 9 is the same, the first belt from above is raised to the height of one belt, sheets for the second belt are transported; figure 10 is the same, the second belt is mounted on top; figure 11 - the first belt is mounted on top, ready to rise, in the context of the tank wall; Fig.12 is the same, the first belt from above is raised to the height of one belt; in Fig.13 - the same, serves the sheets of the second belt; on Fig - the same, the second belt is mounted on top; on Fig - the same, the first and second from the top of the belt raised; in Fig.16 - the same mounted stationary roof of the tank; on Fig - shows the reference dog slider, diagram; on Fig - schematically depicts a frame and traverse, a fragment of the mounting sheet of the first belt.

First, we describe a device for implementing the method, then a method.

A device for implementing the method of constructing cylindrical tanks by the method of growing includes lifts 1 installed around the perimeter of the tank, the number of which corresponds to the number of sheets 4 in the belt. Each lift consists of two portals ″ P ″ installed on a common frame 2 outside and inside the tank 3. The portal ″ P ″ of the lift 1 consists of two racks 5, made in the form of paired ratchet rails, for example of a channel, with persistent fingers 6, which (racks 5) are connected by the upper connection 7 and form a portal П П портал from one pusher 8, for example, from a channel made in the form of a twin ratchet rail with thrust fingers 9, the upper end of which (pusher 8) has a rod 10 with a longitudinal slot 11, and lower end - heel 12, freely contacting under the action of its mass with a hydraulic jack 13, installed in the frame 2 of the lift 1, and the upper end of the pusher 8 passes through the upper connection 7 of the portal "P" and is fixed with a guide pin 15, preventing its rotation along the vertical axis; each portal ″ P ″ of the lifts 1 is equipped with a slider 16, made in the form of a beam, for example, of rectangular cross section, which has stop dogs 17 in contact with the ratchet racks of the racks 5, and a pusher 8, in addition, to the sliders 16 of the external and internal portals ″ П ″ Lifts 1 articulated suspended cargo beams 18 with the possibility of regulating their position in the vertical plane (height); traverses 19 with a radius of curvature corresponding to the inner radius of the tank wall, which are equipped with fixing bolts 20, are installed on the cargo beams 18 with the possibility of adjusting their position in the horizontal plane; perpendicular to the upper connection of the 7 ″ П ″ portals, consoles 21, adjustable in length, are attached at the ends of which support rollers 22 are mounted, fixing the position of the tank 3 wall, and monorails 23 are suspended on the middle part of the consoles 21 to move the hoists 24 around the perimeter of the tank 3, forming a closed a ring that creates an additional rigid connection between the lifts 1. The device includes outer 25 and inner 26 cables, made in the form of a rope, the upper end of which is attached to the mounted part of the tank wall 3, and the lower one is wound on a drum 27 with a fixed tension force, with a stop-latch 28 pivotally connected to the frame 2 of the elevators 1. The device has a protecting tent 29 made of insulated waterproof canvas, which is equipped with canopies, light windows 30, flanges 31 for connecting to the sleeves from the heat generator , exhaust openings 32 and shades 33 of electric lighting. On top of the consoles 21 of the external and internal portals ″ P ″ of the lifts 1, scaffolds 34 with rails 35 are installed, forming a closed ring around the perimeter of the tank wall 3, and the console 36 with hoists 37. For ease of installation and dismantling, the ″ П ″ portals of the lifts 1 with the frame 2 are connected pivotally and fixed by struts 38. To increase the stability of the device elements, diagonal extensions 39 are made between the lifts 1.

The proposed method for the construction of cylindrical tanks by the growing method is as follows.

Near the base of the tank 3, a platform 40 is equipped with a stationary slewing crane 41, for example, of the Pioneer type, racks 42, a narrow-gauge trolley 43 for unloading, storing sheet and other workpieces and transporting them to the hoist range 24. They are attached to the ring foundation 44 of the tank 3 foundations 45 for the installation of external portals ″ P ″ lifts 1; they mount the bottom 46, at a specified interval (a multiple of the number of sheets in the belt), hoists 1 are installed around the perimeter of the tank 3, the external portals ″ P ″ are installed on the attached foundations 45, the internal portals are installed on the bottom 46 of the tank 3. The lifts 1 are tied with monorails 23, and mobile hoists are installed 24. Sheets 4 to the mounting points of the tank wall belts are transported by hoists 24 moving along the monorails 23, suspended from the consoles 21 of the “П ″ portals of the elevators 1 along the perimeter of the tank 3 in one or two directions. The installation of the wall belts of the tank 3, except for the lower one, is carried out on the load beams 18 of the elevators 1 using benchmarks 49 and traverses 19, adjusted according to the inner diameter of the tank, and the lower belt is mounted on the bottom of the tank 46.

The order of construction of the tank: assembly, welding of the first from the top of the belt wall of the tank on the cargo beams 18, installation of a stationary roof 47 on the first from the top belt, quality control of welds, lifting the first belt with a stationary roof 47 to the height of one belt, installation of the second belt, quality control of welded seams, lifting mounted on top of two belts with a stationary roof 47 to the height of one belt; installation of inventory scaffolds 34 with railings 35, consoles 36 and hoists 37; the installation of the annular platform 48 in the first belt; assembly and welding of a third belt from above, quality control of welds, lifting of three belts with a roof to the height of one belt; assembly and welding of the fourth from the top of the belt wall of the tank, quality control of welds; the rise of four belts with a roof to the height of one belt, fastening the upper ends of the cables 25 and 26 to the third belt from above; assembly and welding of the fifth belt, in this sequence, installation of all belts, welding of the lower belt to the bottom 46. To protect workers from precipitation, wind, low and high temperatures, stretch the canvas of the tent 29 around the perimeter of the tank, connect it to the heat generator (in winter), to the network electric lighting. The benchmark 49 for orienting sheets 4 along the inner diameter of the tank contains a rack 50 with a scarf 51, welded to the bottom 46, a movable sleeve 52 with a catcher 53 and a screw 24.

The proposed method of constructing a tank by growing allows you to carry out construction and installation work at the bottom of the tank without the use of self-propelled lifting devices, scaffolding around the perimeter of the tank in any weather conditions, at any time of the day or year.

Claims (7)

1. A method of constructing a cylindrical tank by the method of cultivation, including preparing the base, making the foundation, installing the bottom, installing lifting devices around the perimeter of the tank at a predetermined interval, installing the first from the top of the tank wall belt from sheets rolled along the inner radius of the tank wall, installing the stationary roof on the first from the top belt, lifting the first from the top of the belt with a stationary roof to the height of one belt, installing the second from the top of the belt, lifting the mounted two belts from the stationary roof it to the height of one belt, in this sequence, the installation of all the belts of the tank wall, welding of the lower belt to the bottom, characterized in that near the base of the tank a platform with a stationary jib crane and racks for unloading and storage of sheet and other blanks is equipped; foundations for the installation of external elevator portals are attached to the foundation of the tank; sheets for mounting the belts of the tank wall are transported by hoists moving along monorails suspended to the console of the elevator portals around the perimeter of the tank, and transported to the hoist action area by truck; installation of the tank wall belts, except for the lower one, is carried out on the cargo beams of the hoists with the help of rappers attached to the bottom and a traverse orienting the belts along the inner radius of the tank, and the lower belt on the bottom of the tank; installation of the site on the first from the top of the tank wall belt is carried out after lifting two belts with a fixed roof - from the inventory scaffolds installed on the consoles of the internal and external portals of the lifts, around the perimeter of the tank. 2. The method according to claim 1, characterized in that for access to the reservoir during the construction process, a temporary underground passage is made in the form of a trench with stairs. 3. A device for implementing the method of constructing a cylindrical tank by the method of growing, containing hoists with struts and struts, load-gripping elements, characterized in that the portals of the hoists of the device are installed in pairs on a common frame outside and inside the tank, each of which includes two racks made in the form paired ratchet rails and interconnected by an upper connection, a pusher made in the form of a twin ratchet rails, on the upper end of which there is a rod with a longitudinal slot, and and lower - heel freely in contact with the rod hydraulic jack mounted in the frame lifts the upper end of the pusher passes through the upper communication portal and a fixed guide pin to prevent it from rotation along a vertical axis; each portal of the lifts is equipped with a slider made in the form of a horizontal beam, which has thrust dogs in contact with the ratchet racks of the racks and the pusher, in addition, cargo beams are pivotally suspended from the sliders of the external and internal portals of the elevators with the possibility of adjusting their position in the vertical plane (height ); traverses are installed on cargo beams with the possibility of regulating their position in the horizontal plane at the rate of at least two on each sheet of a belt with a radius of curvature corresponding to the inner radius of the tank, which are equipped with fixing bolts; perpendicular to the upper connection of the portals, length-adjustable consoles are attached, at the ends of which towards the tank wall, support rollers are installed, and monorails are suspended on the middle part to move the hoists around the perimeter of the tank, forming a closed ring. 4. The device according to claim 3, characterized in that it is equipped with outer and inner shafts made in the form of a rope, the upper end of which is attached to the mounted part of the tank wall, and the lower one is wound on a drum with a fixed tension force, equipped with a stopper, pivotally connected to the lift frame. 5. The device according to claim 3, characterized in that it has a protective tent made of insulated waterproof canvas, which is equipped with canopies, light windows, flanges for connecting the sleeves from the heat generator, exhaust openings and shades of electric lighting. 6. The device according to claim 3, characterized in that on top of the consoles of the external and internal elevator portals, scaffolds with rails are installed, forming a closed ring around the perimeter of the tank wall and equipped with hoists. 7. The device according to claim 3, characterized in that the racks of the elevator portals to their frame are hinged, fixed by struts.

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