RU2082861C1 - Mobile building complex - Google Patents

Abstract

FIELD: civil engineering, concerns the floating method of erection of water- development works. SUBSTANCE: complex has base and a number of longitudinal and lateral cofferdams fencing off the water area in zone of construction, as well as means for changing water level of water area fenced off by these cofferdams; longitudinal and lateral cofferdams are made as pontoon dock-gates, each of them has casing with tank installed inside it for vertical movement relative the casing; pontoon dock-gates have means for conjugation to one another and to mechanisms for attachment and conjugation to complex base. EFFECT: enhanced capacity. 8 cl, 16 dwg

Description

 The invention relates to the construction and the application of the floating method of erecting hydraulic structures.

 A well-known mobile construction complex containing the base and a set of longitudinal and transverse bridges that enclose a section of the water area in the construction zone, as well as means for changing the water level of the section of the water enclosed by these bridges (SU, auth. St. N 1528861, class E 04 H 5 / 02, 1982).

 However, the mobile construction complex has a narrowed range of operation.

 The technical result of the implementation of the invention is to expand the range of operation of the mobile construction complex.

 This is achieved by the fact that the mobile construction complex contains a base and a set of longitudinal and transverse bridges that enclose a section of the water area in the construction zone, as well as means for changing the water level of the section of the water enclosed by these bridges, longitudinal and transverse bridges are made in the form of traction ports, each of which is made with a housing having a container mounted inside it with the possibility of vertical movement relative to the housing, while the traction ports are made with means for pairing Nia with each other and with the mechanisms for attachment and interfacing with the base of the complex.

 In addition, at least one of the batoports is equipped with a means for quick disconnect with its base.

 In addition, each mechanism for attaching and interfacing with the base of the complex is made up of a set of mines separated from each other, made in the walls of the body of each butt port, with pile loaders installed in a number of mines, and material for filling the prisms of the base of the complex, which is equipped with a system, in the cavities of other mines hydraulic flushing of jumpers in the bases of the bath ports, containing at least one pumping unit, located in the cavity of the internal capacity of the hull of one of the bath ports and communicated with all other atoports with hydraulic flushing pipelines, while the batoport, having a pumping unit, is made with a receiving hopper for soil antifiltration material.

 In addition, the body of each bath port is equipped with hydraulic lifts to move the internal capacity of the body.

 In addition, the means for quick disconnect connection with the base is made in the form of a combination of locking elements, mounted in the lower part of the hull of one of the batoports.

 In addition, the walls of the body of the bath port, which mates the complex with the building under construction, are made of several sections connected mainly by hinges.

 In addition, in the lower part of the cavity of the body of the butt port connecting the complex with the building under construction, there is a pumping unit for draining the construction pit between the jumpers of the complex, and this room is communicated with the internal capacity of the body of this butt port through the transition shaft.

 In addition, construction technological and material handling equipment is located in the internal cavities of the tank port body containers.

 The invention is illustrated by drawings.

 In FIG. 1 presents the inventive complex in plan in the initial position near the river bank in the alignment of a hydraulic construction under construction; in FIG. 2 the same in the process of work; in FIG. 3 is a section AA of FIG. 2 along the longitudinal butt port at the location of the pile loaders; in FIG. 4 a section BB in FIG. 2 along the longitudinal batoport at the location of the loading shafts; in FIG. 5 is a section AA of FIG. 2 along the longitudinal traction port when it is afloat; in FIG. 6 is a section AA of FIG. 2 on the longitudinal batoport at the time of its attachment to the base; in FIG. 7 section AA along the longitudinal butt port at the time of attachment to the base; in FIG. 8 section B-B along the longitudinal butt port at the time of dumping of persistent prisms; in FIG. 9 section AA along the longitudinal butt port at the time of dumping of persistent prisms; in Fig. 10 a section BB of Fig. 2 at the time of installation of the internal tank in the design position and hydraulic washing of soil in the body of the jumper; in FIG. 11 is a section AA of FIG. 2 at the time of installation of the internal tank in the design position and hydraulic washing of soil in the body of the jumper; in FIG. 12 section BB of FIG. 2 along the longitudinal batoport connecting the complex with the air structure; in FIG. 13 section BB of FIG. 2 along the longitudinal mating batoport at the moment of its bringing to the place of installation; in FIG. 14 a section BB of FIG. 2 along the longitudinal mating batoport at the time of its installation in the design position; in FIG. 15 section GG of FIG. 2 along the transverse batoport, equipped with means for quick disconnect connection with the base; in FIG. 16 section GG of FIG. 2 along the transverse batoport at the time of its disconnection with its base.

 The mobile construction complex contains longitudinal batoports 1, transverse batoports 2, batoport 3, the mating complex with the construction being built, batoport 4 equipped with means for quick disconnect with the base, batoportust 5.

 Each traction port consists of a housing 6 and an inner container 7, which is mounted with the possibility of vertical movement relative to the housing 6 by means of hydraulic lifts 8. All the traction ports are equipped with means 9 for connecting to each other and sealing joints, as well as mechanisms for their attachment to the base 10. In the walls case 6 made several mines. In the shafts 11, pile loaders 12 are placed, and in the shafts 13 material for dumping the resistant prisms 14.

 The complex is equipped with a hydraulic flushing system of jumpers at the base of the bath ports, which includes a pumping unit 15, hydraulic flushing pipelines (not shown), and receiving hoppers 16 of a ground antifiltration material. On one of the batoports in the lower part of its body, lock elements 17 are fixed for its quick disconnect connection with the base 10. The body of the batoport 3, which combines the complex with the structure being built, has several sections 18 connected by hinges 19. In the lower part of the cavity of the body of the batoport 3 there are pumping room 20 for draining the pit, the room of which is communicated with an internal tank 7 of this bath port through the transition shaft 21.

 In the cavities of the inner containers 7 of the bagoports, various technological equipment 22 is located. On the deck of the inner containers 7, hoisting-and-transport equipment 23 can be installed.

 The complex is operated as follows.

 The complex is assembled from a combination of traction ports: longitudinal 1, transverse 2, mating traction ports 3, traction ports 4 equipped with means for quick disconnect connection with the base 10, and traction ports 5.

 Each of the batoports afloat moves to the place of its installation, then it is flooded and fixed in the design position with the help of pile loaders 12. Then from the shafts 13 in the body 6 of the batoport the material is formed, which forms the resistant prisms 14, and then into the contact zone of the bottoms of the buildings 6 between thrust prisms 14 impregnate the anti-filtration material from the hopper 16. The hydrowash is carried out by one pumping unit 15, which is connected by a piping system to all the pressure ports.

 Adjoining bath ports are interconnected, seals 9 are installed in the joints between them.

After performing the above operations, the device is a mobile construction complex, which allows you to perform a large volume of various construction and installation works in a limited design volume, for example:
dry excavation of the pit and preparation of the foundation of a hydraulic structure;
accumulation in the enclosed volume of surfaced elements made with a maximum degree of pre-installation readiness for the subsequent installation of modules into which the entire structure of the erected structure, in this case the building of a hydroelectric power station, is conditionally divided;
installation of modules, dry sealing of construction joints, filling cementation, laying of cast concrete in the construction of modules;
installation and overlay of technological equipment;
reusable construction and installation work in the above sequence in different design volumes.

 Accumulation in the volume of the complex of surfacing elements is carried out using the batoport 4, which has lock elements 17 in the lower part of its body 6 that interact with mates installed on the base 10. Using the lock elements 17, the batoport 4 can be quickly disconnected from the base 10 for passing floating elements into the complex through the gates formed in this way.

 The three pressure ports 3, which interface the complex with the erected structure, are constantly at the lowest elevations, so their hulls 6 must have a height greater than the hulls of all the other batoports, for which they are made of several sections 18 connected by hinges 19. Nothing is afloat on the batoport 3 do not differ from the rest, since the sections 18 are placed parallel to each other. After bringing the meat ports 3 to the place of their installation, the outer sections 18 are lowered into the water and then flooded to a vertical position, after which the meat ports 3 are attached to the base 10 as described above.

 Inside the cavity of the body 6 of the bath port 3, at the lowest possible elevations, there is a room for the pumping unit 20, which can completely dry the internal volume of the complex, or change the water level in it over a wide range. To communicate the premises of the pumping unit 20 with the internal capacity 7 is a transition shaft 21.

 Various technological equipment 22 is installed in the cavity of the inner tanks 7 of the bath ports, which ensures the implementation of a wide range of construction works. Handling equipment works from the decks of tanks 7.

The claimed technical solution has the following advantages in comparison with known objects of similar purpose:
wide functionality that ensures the performance of multidisciplinary and repeatedly repeated construction and installation works in the enclosed space of the complex from preparing the base dry to installing floating elements of the main structures at any elevations by pumping water and raising its level inside the complex;
improving the quality of construction work, industrialization of construction production.

 The claimed construction complex, equipped with high-performance technological and construction equipment, is a mobile construction base that solves the problems of erecting hydraulic structures from positions that are fundamentally different from traditional methods of work, allowing the installation of building structures in large blocks of elements made in advance at specialized factories.

 It opens up wide opportunities for the maximum industrialization of construction, typification and unification of structures of structures under construction with a significant reduction in the volume of work performed directly on the site and helps reduce environmental stress in the area of work.

Claims (8)

 1. A mobile construction complex containing a base and a set of longitudinal and transverse bridges that enclose a section of the water area in the construction zone, as well as means for changing the water level of the section of the water that is fenced off by these bridges, characterized in that the longitudinal and transverse bridges are made in the form of batops, each of which are made with a housing having a container mounted inside it with the possibility of vertical movement relative to the housing, while the traction ports are made with means for mating living with each other and with mechanisms for attaching and interfacing with the base of the complex.  2. The complex according to claim 1, characterized in that at least one of the bath ports is equipped with a means for quick disconnect connection with its base.  3. The complex according to claim 1, characterized in that each mechanism for attaching and interfacing with the base of the complex is made up of a combination of mines, interconnected, made in the walls of the body of each butt port, with pile loaders installed in a number of mines and placed in the cavities of the remaining mines material for dumping the prisms of the base of the complex, which is equipped with a hydraulic jetting system of jumpers in the bases of the bath ports, containing at least one pumping unit located in the cavity of the internal capacity of the body of one of the batopo comrade and messages with all other pipelines gidronamyva caisson, the caisson having a pumping unit, configured with a receiving hopper for precoat impervious material.  4. The complex according to claim 1, characterized in that the hull of each bath port is equipped with hydraulic lifts to move the internal capacity of the hull.  5. The complex according to claim 2, characterized in that the means for quick disconnect connection with the base is made in the form of a combination of locking elements, mounted in the lower part of the hull of one of the bath ports.  6. The complex according to claim 1, characterized in that the walls of the body of the bath port, which mates the complex with the building under construction, are made of several sections, connected mainly by hinges.  7. The complex according to claim 6, characterized in that in the lower part of the cavity of the body of the bath port, which mates the complex with the building under construction, there is a pumping unit for draining the construction pit between the jumpers of the complex, and this room is communicated with the internal capacity of the body of this bath port through the transition shaft .  8. The complex according to claim 1, characterized in that in the internal cavities of the containers of the body of the bathtub ports there is a construction process and lifting equipment.

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