RU2360826C1 - Method for erection of objects - Google Patents

Abstract

FIELD: construction. ^ SUBSTANCE: method for erection of objects includes preparation of construction site, object construction, separation of erected object from construction site together with part of construction site and final installation of erected object with completion of construction works. Construction site used is frozen surface of water reservoir. Preparation of construction site is carried out by erection of heat insulating temporary volume coat above construction site or its part in the form of structure. At that construction of erected object or its components is carried out inside specified structure. After object erection temporary volume coat is dismantled. Invention makes it possible to use seasonal (winter) time for performance of the main, most laborious works in erection of construction objects. ^ EFFECT: simplification of objects assembly and lower costs of their erection. ^ 15 cl

Description

The invention relates to the construction, installation or reconstruction of objects using the ice cover of surface water bodies. These facilities include buildings, structures, structures and structures, such as fixed and / or floating platforms, offices, hotels, recreation complexes, casinos, game clubs, moorings, docks, floating workshops, steel, reinforced concrete and composite pontoons, landing stages, firewalls, floating power plants, artificial islands, hydraulic structures, bridges, underwater and underground passages, pipelines, underwater communication lines, other linear objects, underwater communications, ships of all classes and other artificial objects .

A known method of construction of objects according to copyright certificate SU 1245649, providing for the construction of a stationary drilling platform. The known method includes the manufacture in a dry dock of the elements of the object in the form of separate blocks. For this, on parallel slipway lines using slipway trolleys, a part of the object elements is made with their preliminary fitting along transverse joints. After that, part of these manufactured elements is moved to an additional slipway line located perpendicular to parallel slipway lines, and they are preliminarily adjusted along the longitudinal joints, after which they are transferred to a transport vessel. Then, similar operations are carried out with the rest of the elements of the facility and they are also transported to barges and then transported to their destination, where they are mounted on a support block with a floating crane, after which they are interconnected. This method is time consuming, requires preliminary adjustment, because in this way it is impossible to manufacture the entire object as a whole in one place. It can not be used for transportation in the winter, when the water area and / or the place of delivery are covered with ice. The construction of facilities in this way eliminates the use of the specified dry dock for other purposes and involves the use of volumetric transportation for its implementation, which increases the cost of building the facility.

A known method of construction of objects, in particular the construction of large-sized structures on floating tanks according to patent RU 2032586. This method involves a preparatory stage, including selecting the location of a construction site that meets the requirements of the project being constructed, in the form of dry docks located parallel to each other. Then, a construction site is prepared at this place, placing the supports of floating tanks on the bottoms of these dry docks, which overlap with a single slipway deck located above these docks, overlapping fully or partially each dry dock in width and the gap between these docks. Then they build the object in the form of a floating structure. Upon completion of construction, the constructed facility is separated from the site of the construction site and, together with part of the construction site, is taken out of the docks to the water area, where, by melting floating containers, the constructed facility is lowered into the water and transported to the delivery site. In this way, it is possible to manufacture the entire object. However, this method is applicable only to floating constructed facilities and is not adapted to the use of climatic conditions for the construction of facilities. Moreover, it can not be used in winter, when it is impossible to use buoyancy. The construction of objects in this way eliminates the use of dry docks for other purposes and involves the use of additional volumetric structural elements, which leads to an increase in the cost of the construction process. Launching and transportation to the place of delivery must be carried out under appropriate weather conditions.

The problem to which the invention is directed is to use seasonal time to carry out the basic, most labor-intensive work in the construction of construction projects, which will simplify the installation of facilities and reduce costs in their construction.

This problem is solved in that in the method of erecting objects, including preparing the construction site, building the object, separating the erected object from the construction site together with part of the construction site and the final installation of the erected object with completion of construction work, according to the invention, a frozen water surface is used as a construction site space, and the preparation of the construction site is carried out by erecting a heat insulation over the construction site or its part iruyuschego surround temporary coating in the form of construction, the building being erected object or its elements carried within said structure, and after the construction of the object temporary volumetric coating dismantled.

At the same time, before the final installation of the erected object, it, together with part of the construction site, is either lowered at the construction site or transported to the installation site, if it does not coincide with the construction site.

It is advisable to clear the surface of the construction site and form a separation layer before erecting a heat-insulating temporary volumetric coating.

Preferably, before the formation of the separation layer, the ice cover is reinforced either by freezing ice on its upper or lower surface, or reinforced, for example, with wood chips or shavings. In the case of ice freezing, gas is supplied under the ice to the bottom surface of the ice cover and the formed gas cavities are filled with supercooled light, finely dispersed material with good adhesion to ice and thermal insulation properties.

In addition, it is preferable to apply a heat-insulating layer before the formation of the separation layer on the upper and / or lower surface of the ice sheet, which also helps to increase the strength of the ice and its load-carrying ability due to a decrease in the temperature gradient across the thickness of the ice and a decrease in its average temperature.

It is also desirable that the separation layer is insulating, which will further reduce the temperature gradient across the thickness of the ice and lower its average temperature.

The method is as follows.

First, determine the installation location of the object depending on its specific type, purpose and the area occupied by it. Then, depending on the location of communications and the possibility of creating access roads in the winter period of time, the place of construction of the object and the possibility of transporting this object in the spring-summer period to the destination or installation of this object at the construction site are determined.

When a cold period of time occurs with the formation of ice at a selected place of construction of an object, for example, a recreation center with water transportation of visitors in the summer, the possibility of using the ice cover of a surface water object taking into account the thickness of the ice and the terrain is determined.

The surface of the selected frozen construction site is cleared and the surface of the ice cover for the construction of the object is created. At the same time, the thickness and area of the ice cover should be sufficient to erect and place an object on it. To increase the strength of the ice and its load-carrying ability, it is possible to use the application of a heat-insulating layer both on top of the ice sheet and below. This will lead to a decrease in the temperature gradient over the thickness and to a decrease in the average ice temperature, which in turn will increase the ice strength and the strength of the frozen construction site. If the strength of ice for the construction of a specific object is not enough, then before placing the insulating layer on top of the ice cover, it is strengthened, for example, reinforcing the ice cover of the construction site with wood chips, shavings or any other material. To build up the ice cover from below, for example, gas can be injected under the lower edge of the ice, and then the gas cavities formed under the ice can be filled with supercooled light and finely dispersed material with good adhesion to ice and heat-insulating properties, such as sawdust, as described in RU 2193620. A compressor is used to supply sawdust under the ice, pumping them together with cold (t <0 ° C) atmospheric air. After filling the cavity with material, the compressor is turned off. Water, mixing with the material, will fill the cavity and freeze. The finely dispersed structure of the material, its good adhesion to ice will lead to the build-up of a strong layer of composite ice under the ice, which will generally increase the thickness of the ice cover, and its heat-insulating properties will decrease the temperature gradient across the thickness of the ice. In addition, the positive buoyancy of the frozen layer will lead to the appearance of an additional force to maintain the ice cover. As a result, its carrying capacity will increase.

The ice cover of surface water bodies can also be expanded by freezing ice with the help of refrigeration units or by placing refrigerants on ice or in water.

Then, on the frozen construction site, a separation heat-insulating layer is formed. For these purposes, you can use any heat-insulating and waterproofing roofing or film material, for example, polymer-degterezin-bitumen film (PRDB), stable at temperatures from -50 ° C to + 60 ° C, or aluminum-polyethylene film (Al / PE). Thus, the construction site is prepared for use, and on it it will be possible to produce or install formwork or form-forming structures of the proposed facility. This object can be a structure, building or structure of any design, for example, stationary or floating platforms, offices, hotels, recreation complexes, casinos, game clubs, moorings, docks, floating workshops, steel, reinforced concrete and composite pontoons, landing stages, firewalls, floating power plants, artificial islands, hydraulic structures, bridges, underwater and underground passages, pipelines, underwater communication lines, other linear objects, underwater communications, ships of all classes and other artificial objects.

A heat-insulating temporary volumetric coating in the form of a structure is being erected above the construction site. For these purposes, for example, a frame-tent construction of the enterprise Neatehstroy LLC (http://www.neatehstroy.ru/files/photo/stroy.html), or an ASATI Company air-supported quick-erect structure (http: //www.asati .ru). Inside this temporary structure, conditions are created that limit the impact of adverse weather conditions. Then, the formwork is filled with composite materials or the formwork structures of the selected object are sheathed according to the usual accepted technological processes, which allows to form a fragment or a completely surface, underwater or displacement part of the constructed object. After completion of the planned volume of construction, temporary temporary coverage is dismantled and either displaced to form the next fragment of the object. If the place of installation of the object coincides with the place of the construction site, then launching or installation at the bottom of the erected object is carried out either by natural melting of the ice cover, or by thermal or mechanical (for example, using an explosion) elimination of the ice cover. If it is necessary to transfer the erected object to another place in any way, separate part of the construction site together with the erected object from the natural ice cover, and transport the erected object together with part of the construction site to the destination. Subsequently, launching or installation at the bottom of the erected object is carried out in the same way as when the destination coincides with the site of the construction site. After launching or installation at the bottom of the constructed facility at the destination, the full construction of the proposed facility is completed.

If an object that does not have buoyancy, for example, a metal truss, is selected as the construction object, then it can be delivered to its destination using pontoons or in another way, allowing to keep the object afloat.

Thus, the method in accordance with the present invention allows the construction of objects of huge sizes, limited only in area to the parameters of a surface water body, which, as a rule, are not used in the winter period of time. The construction of many large-scale facilities is impossible without this method on existing shipyards, and the construction on land of docks of such sizes makes their construction unprofitable. It becomes possible to conduct construction in the winter period, such construction is especially relevant for regions with a long winter period, as well as the construction of an object near the destination using natural ice drift for transportation to the destination. This method contributes to the preservation of existing natural landscapes and has a low cost compared to existing technologies of permanent docks due to the use of "natural dry dock" and allows not to occupy coastal zones for a long time.

Claims (15)

1. The method of erection of objects, including the preparation of a construction site, construction and installation of an erected object, characterized in that a frozen surface of the water space is used as a construction site, and the preparation of a construction site is carried out by erecting a heat-insulating temporary volumetric coating over the construction site or its part in the form structures, while the construction of the facility under construction or its elements is carried out inside the specified structure. 2. The method of construction of objects according to claim 1, characterized in that before the construction of a building site or part of a heat-insulating temporary volumetric coating, the surface of the construction site is cleaned and a separation layer is formed. 3. The method of erecting objects according to claim 2, characterized in that before the formation of the separation layer, an insulating layer is applied to the ice cover. 4. The method of erecting objects according to any one of claims 2 or 3, characterized in that before forming the separation layer under the ice cover, a heat-insulating layer is formed. 5. The method of construction of objects according to claim 2, characterized in that the separation layer is heat insulating. 6. The method of erecting objects according to claim 1, characterized in that before the erection above the construction site or part of a heat-insulating temporary volumetric coating, the ice cover is reinforced. 7. The method of erecting objects according to claim 6, characterized in that the ice cover is enhanced by freezing ice. 8. The method of erecting objects according to claim 7, characterized in that the ice is frozen on the upper surface of the ice sheet. 9. The method of erecting objects according to any one of paragraphs.7 or 8, characterized in that the ice is frozen on the lower surface of the ice sheet. 10. The method of erecting objects according to claim 9, characterized in that the ice is frozen by supplying gas under the ice and filling the formed gas cavities with a supercooled light, finely dispersed material having good adhesion to ice and heat-insulating properties. 11. The method of construction of objects according to claim 6, characterized in that the ice cover is strengthened by reinforcing it. 12. The method of construction of objects according to claim 11, characterized in that the ice cover is reinforced with wood chips or shavings. 13. The method of construction of objects according to claim 1, characterized in that after the construction of the object or its elements, a temporary volumetric coating is dismantled. 14. The method of erecting objects according to claim 1, characterized in that before installing the erected object, it, together with part of the construction site, is transported to the installation site. 15. The method of erecting objects according to any one of claims 1 or 14, characterized in that the installation of the erected object includes lowering it together with part of the construction site.