RU2259453C2 - Erection method for forming reservoir with dome-like roof in top-down construction manner and device for erection method implementation - Google Patents

Abstract

FIELD: building, particularly for construction of bulk storage reservoirs with dome-like roofs.

SUBSTANCE: dome-like roof assemblage is performed on reservoir bottom. Method involves temporary welding suspension members to stiffening ring of the dome; engaging suspension members with load-handling consoles of hoisting units; lifting the roof by hoisting units through height of one belt along marking catchers; mounting the first belt from top thereof; lifting roof with the first belt through height of one belt; mounting the second belt and performing erection of all wall belts in accordance with above succession of operations; welding the last belt to bottom. Device for reservoir building comprises hoisting units, posts with braces and load-handling members. Hoisting unit is formed as worm-and-worm pair with reducer and electric drive. Power worm is vertically arranged on thrust bearing and journal bearing inside the post, wherein lower part of power worm with worm-wheel of the reducer has spline joint. Post is made as a tube with longitudinal slot to displace load-handling console fixedly connected with force nut. The nut is moved upwards and downwards by power warm in the post, wherein lower post side is fixed to frame of the device.

EFFECT: increased reservoir stability during assemblage.

7 cl, 15 dwg

Description

The invention relates to reservoir engineering, can be used for the construction of tanks with a fixed roof, in particular with a domed roof.

The known technology of constructing a tank with a fixed roof by the method of growing, including preparing the base, installing the bottom, installing the first from the top of the belt, installing roof structures in the first belt, installing lifting devices and sheets of the second belt, lifting the roof with the first belt, installing and lifting subsequent belts and roof (BCKornienko, B.V. Popovsky "Construction of tanks". M: Publishing house of literature on construction, 1971, pp. 72-75).

The known technology is not applicable for the construction of a tank with a domed roof, since for the installation of a domed roof in the first zone, it would have been necessary to carry out a large amount of work on marking the bottom, installing many supporting posts and scaffolding. In addition, it is difficult to ensure the correct shape (concentricity) of the first belt, since the shell, what the first belt is, is a non-rigid structure. Known technology is associated with significant material, labor and construction time. The issue of ensuring the stability of the reservoir during its installation and protection from the effects of atmospheric precipitation and wind loads has not been resolved.

The objective of the invention is to provide a method of constructing reservoirs with a domed roof by growing method with less time, material, labor costs, increasing the stability of the tank during installation, protection against atmospheric precipitation and wind loads, improving the technical safety of work.

The problem is solved by the fact that the installation of the dome roof is carried out on the bottom of the tank until it is ready, including the assembly of a stiffening ring, frame, flooring, equipment; cargo suspensions are temporarily welded to the stiffness ring of the dome and engaged with the load gripping consoles of the lifting units located around the perimeter of the tank at a predetermined interval; with the help of lifting units, the finished dome roof is raised to the height of one belt; on center catchers, temporarily welded under the stiffening ring and on the bottom, mount the first belt on top of it, opposite each lifting unit - at the level of the load grips, temporarily weld the load brackets, the dome roof with the first belt, raise it to the height of one belt, mount the second belt , in this sequence, all the wall belts are mounted, and the last belt is welded to the bottom. After lifting the dome roof and lifting it with the first and subsequent belts, the dome roof and the belt located on the mounted belt are fixed to the bottom of the tank with additional struts. After lifting the domed roof with the first belt, the roller stop of the device rack is moved to the working position.

Installation of a domed roof on the bottom of the tank, including the assembly of a stiffening ring, frame, flooring, breathing valves, light windows and other equipment and its gradual raising together with the wall belts to the design mark significantly reduces the tank construction time, material, labor costs. In addition, it ensures the exact shape (concentricity) of the tank wall, because the first belt is welded by marking catchers on the bottom and the stiffening ring of the dome - a rigid base structure.

Fixing the domed roof and belts (alternately) located on the mounted belt to the bottom of the tank, provides protection of the tank from external weather influences, technical safety of work.

The transfer of the roller stop of the lifting unit to the working position also helps to increase the stability of the tank during installation.

A device is known for constructing a tank by the method of growing, containing a lifting unit, racks, struts, "climbing" jacks (BCKornilenko, B.V. Popovsky "Construction of tanks", M .: Publishing house of construction literature, 1971, pp. 73-75 )

The known device has the disadvantages of:

- does not provide sufficient stability of the tank during its installation, because only the racks located on the side of the wind attack perceive wind loads, and the racks located on the leeward side do not work due to the lack of constructive connection between the wall and racks; this drawback is strongly manifested in the construction of large-capacity tanks;

- “climbing” jacks connected in series to the common hydraulic pump system do not provide synchronous operation of the lifting units, but a small pitch (100 mm), i.e. multi-stage operation of the jacks, forcing to repeatedly switch the controls of each jack, in addition, the multi-link hydraulic system is capricious and unreliable;

- the location of the racks and lifting units in the tank excludes the possibility of using it for the construction of tanks with a domed roof.

For information: the construction of reservoirs by means of growing because of the unresolved issue of ensuring the stability of reservoirs during the installation process is not widespread.

The objective of the invention is:

- ensuring the stability of the tank during installation, protecting it from the effects of atmospheric precipitation and wind loads;

- simplification of design, maintenance, improving the reliability of the lifting unit.

The problem is solved by a device containing a lifting unit, struts with struts, the lifting unit of which is made in the form of a worm pair with a gear and an electric drive, the power worm of which is located vertically on the thrust and radial bearings inside the rack, and the lower part of the power worm with the gear worm wheel has a spline connection , and the rack is made in the form of a pipe with a longitudinal slot for the stroke of the load gripping console, motionlessly connected to a power nut, moved by a power worm in the rack, while the lower part l racks fixedly attached to the frame of the device. The device has additional struts, the upper part of which when mounting the first wall belt is pivotally connected to the stiffening ring, when mounting the second and subsequent belts - with the belt located on the mounted belt, and their lower part is pivotally connected to the shoe with the gear rack, with the possibility of horizontal moving toward the side of the tank wall along a tray having a gear rack, temporarily welded to the bottom of the tank, and the shoe does not have the possibility of a reverse stroke when lifting the roof, roof with a belt or belts after lifting the shoe is fixed to the tray. The racks of the lifting unit are equipped with a roller stop, including a ring made in the form of a shell, a plate welded to the ring, a fork with a stop roller connected to the plate with the possibility of limited horizontal movement, a belt spring mounted between the plate and the partition of the fork, and the roller stop has the ability installing it in a non-working and working position by turning it in a horizontal plane. The working part of the load-gripping consoles of the lifting units, cargo suspensions, temporarily welded to the mounted belts, has a L-shape, and plates forming a lock are welded to their head on both sides.

The implementation of the lifting unit in the form of a worm pair with a gearbox and an electric drive simplifies the design of the device, provides stepless operation, increases reliability and performance.

The vertical arrangement of the power worm with the power nut in the tubular rack makes the design of the lifting unit compact, reliable, multi-functional.

The landing of the power worm on radial and thrust bearings and its spline connection with the gearbox facilitates the assembly of the lifting unit and increases the reliability of its operation.

The presence of a gearbox with an electric drive makes it possible to design and assemble a lifting unit using equipment manufactured by the industry. In addition, electric mechanisms are simpler and more reliable in operation.

The presence of additional struts fixing the tank during its installation to the bottom from the inside of the tank, and roller stops on the rack of the lifting device ensures the stability of the tank during its installation, protection from external influences, including the moments of lifting the tank and lowering the load-lifting consoles.

Fixing the bottom of the additional racks with the bottom of the tank by means of a shoe having a gear rack, and the tray provides stability (insurance) of the tank at the time of its rise.

The installation of the thrust roller on the lifting unit in the inoperative position ensures the passage of the stiffening ring when lifting the domed roof with the first mounted belt.

The plates welded to the working part of the load-gripping elements, forming a lock, ensure the reliability of holding the tank during installation and create a functional connection with the racks.

Figure 1 schematically shows a domed roof mounted on the bottom, prepared for lifting; figure 2 - the same, the domed roof is raised to the height of one belt h, mount the first belt; figure 3 is the same, the roof with the first belt is raised to the height of another belt h, mount the second belt; figure 4 is a schematic illustration of a device for constructing a tank by the method of growing, vertical section; figure 5 is a plan of the foundation; figure 6 - roller focus, side view; Fig.7 is the same, a top view; in Fig.8 - node I in Fig.2, a section; Fig.9 is the same, a top view; figure 10 - cargo console lifting unit; figure 11 is the same side view; on Fig - suspension for lifting the dome, side view; Fig.13 is the same end view; on Fig - load-lifting bracket, side view; on Fig is the same end view.

The construction of the tank with a domed roof by the method of growing using the proposed device is as follows.

On the basis of 1, containing a gravel-sand layer 2, a reinforced concrete ring 3, with beam-shaped foundations 4 for installing the lifting units, the asphalt concrete layer 5, is mounted on the bottom 6. On the foundations 4, the lifting units 7 of the device are installed. The stiffening ring 8 of the dome is mounted on the bottom 6, according to the known technology described in application No. 2002118191, the domed roof 9 is mounted until complete readiness, including the assembly of the stiffening ring 8, the lower belt 10 of the frame with the flooring 11, which, according to the known technology, are performed after lifting the dome design position. To the stiffening ring 8, cargo suspensions 12 are temporarily welded, hooked to the load-lifting consoles 13 of the lifting unit 7. Using the lifting units 7, the fully assembled domed roof 9 is raised to the height of one belt h. According to the marking catchers welded to the stiffening ring of the dome and the bottom of the tank, they mount the first belt from the top from the sheets pre-rolled along the radius of the tank wall, coated with an anticorrosive composition (except for the welding zone). To the bottom of the first belt, opposite each lifting unit 7, load-bearing brackets are welded 14. The roof 9 with the first belt 15 is raised to the height of one belt h, the second belt 16 is mounted, the roof 9 with two belts 15 and 16 is raised to the height of one belt h, mount the third belt. In this sequence, all the belts of the tank wall are mounted, the last belt is welded to the bottom 6.

To ensure the stability of the tank during its installation (protection from wind loads) and the technical safety of work after lifting the dome roof 9 to the height of one belt, the stiffening ring 8 is fixed to the bottom 6 by additional struts 17. After lifting the dome roof 9 with the first belt 15 on top with subsequent belts, the belt located on the mounted belt is also temporarily fixed to the bottom by struts 17.

A device for constructing a tank with a domed roof by growing method contains:

- a lifting unit 7, made in the form of a worm pair with a gearbox 18 and an electric drive 19, a power worm 20, which is located vertically on the thrust 21 and radial 22 bearings inside the rack 23; the lower part of the power worm 20 with the worm wheel 24 of the gearbox 18 is connected to the slots 25; the power nut 26 moves inside the rack 23 under the action of the power worm 20, the load gripping console 26 is welded to it; a gearbox 18 with an electric drive 19 is attached to the frame 27 of the device;

- a rack 23, made in the form of a pipe with a longitudinal slot 28 for the movement of the load gripping console 13, motionlessly connected to a power nut 26, moving inside the rack under the action of the power worm 20; the bottom of the rack 23 is attached to the frame 27 of the device; on the top of the rack is a bearing cup 29, which is also the cover of the rack; the upper part of the rack 23 with the frame 27 is connected by a strut 30;

- roller emphasis 31 mounted on the upper part of the rack, containing a ring 32 made in the form of a shell, a plate 33 welded to the ring 32, a fork 34 with a roller 35; on the plate 33 there is a longitudinal slot 36, and on the body of the fork 34, at least two holes 37 with bolts 38 for limited movement of the fork 34 on the plate 33 and fixing them together after each lifting of the roof with a belt or belts;

- roller emphasis 31 is an additional element to ensure the stability of the tank with a roof during installation, in the working position to the rack 23 is fixed by means of pins 39 and recesses 40;

- additional struts 17, the upper part of which is pivotally connected to the stiffening ring 8 of the dome or with the belts of the tank wall, and their lower part is pivotally connected to the shoe 41 having a gear rack, made in the form of a channel, the shoe 41 is installed (with the possibility of horizontal movement) in a tray 42 having a gear rack, also made in the form of a channel and welded to the bottom of the tank; the shelf of the tray 42 has a longitudinal slot 43, and the shelf of the shoe 41 has holes for fixing them to each other by means of bolts 44, and the width of the slot 43 is not less than 1.5 "a", where "a" is the height of the tooth of the shoe and the tray; this is to enable the shoe 41 to be retracted during rearrangements of the lower part of the additional struts 17;

- load gripping elements: load gripping arms 13, cargo suspensions 12, cargo brackets 14, the working part of which is L-shaped, to the heads of which plates 45 are welded, which form a lock.

A device for constructing a tank with a domed roof by the way of growing works as follows.

The electric drive 19 of the gearbox 18 is started. In this case, the worm wheel 24 rotates the power worm 20, which moves (up or down) the power nut 26, to which the load-lifting console 13, which carries out lifting operations, is fixedly connected (for example, welded).

Claims (7)

1. The method of constructing a tank with a domed roof by the method of growing, including preparing the base, installing the bottom, roof, walls of sheets rolled along the radius of the tank, installing lifting devices, lifting the mounted belts with a roof and welding the last belt to the bottom, characterized in that the installation is stationary Roofs are carried out on the bottom of the tank until ready, including the assembly of a stiffening ring, carcass, flooring, equipment, cargo suspensions are temporarily welded to the roof stiffness ring and hooked to the load With the help of lifting consoles of the lifting units located around the perimeter of the tank at a predetermined interval, using the lifting units, the domed roof is raised to the height of one belt, and the center belt is mounted on top of the alignment catchers located under the stiffening ring and on the bottom, opposite each load-lifting console knots are welded to temporary cargo brackets, the roof with the first belt is raised to the height of one belt, the second belt is mounted, oriented along the catchers on the bottom, in this sequence installation of all wall belts. 2. The method of constructing a tank according to claim 1, characterized in that after lifting the roof and lifting it with the first and subsequent belts, the roof and the belt located on the mounted belt are fixed to the bottom of the tank with additional struts. 3. The method of construction of the tank according to claim 1, characterized in that after lifting the roof with the first belt, the roller stop of the lifting unit is transferred to the working position. 4. A device for constructing a tank with a stationary roof by the method of growing, containing a lifting unit, struts with struts, load-gripping elements, characterized in that the lifting unit is made in the form of a worm pair with a gearbox and electric drive, the power worm of which is located vertically on thrust and radial bearings inside racks, and the lower part of the power worm with the worm gear wheel has a spline connection, and the rack is made in the form of a pipe with a longitudinal slot for the stroke of the load-lifting console, movably connected to a power nut, moved by a power worm in the rack, while the lower part of the rack is fixedly attached to the frame of the device. 5. The device according to claim 4, characterized in that it is equipped with additional struts, the upper part of which, when mounting the first wall belt, is pivotally connected to the roof stiffness ring, and when mounting the second and subsequent belts, with a belt located on the mounted belt; the lower part is pivotally connected to a shoe having a gear rack with the possibility of horizontal movement along the tray, also having a gear rack temporarily welded to the bottom, and when the roof is raised with the first belt and subsequent belts, it is not possible to return, and at the end of each lift the shoe is fixed with a tray by means of bolts. 6. The device according to claim 4, characterized in that the racks are equipped with roller stops, including a ring made in the form of a shell, a plate welded to the ring, a fork with a thrust roller connected to the plate with the possibility of limited horizontal movement, a belt spring installed between the end face of the plate and the partition of the fork, and the roller stop has the ability to install it in idle and working position by turning it in a horizontal plane. 7. The device according to claim 4, characterized in that the working part of the load-lifting consoles of the lifting units, cargo suspensions, temporarily welded to the roof stiffness ring, cargo brackets temporarily welded to the belts, have a L-shape obtained by welding on both sides of the plates, which form a castle.

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