RU2037611C1 - Method for erecting outer walls of constructions - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: method for erecting outer wall of constructions includes installation of reused internal concrete forms, tier-by-tier installation of outer concrete form of lining plates that is stayed in the structure forever. Fastening the plates and casting concrete between the forms. Screens of height equal that of the lining plates are used as internal concrete form. The screens enable to be installed so to be positioned within a tire between piles and corner members with height being equal to that of a storey. Rods with temporal plate holders put on them are installed in vertical position to fix lining plates in interform space. Then tier plates installed on the holders are connected by their tops with former screen by temporal tie rods and concrete is cast between the forms. Then after concrete strengthened the temporal tie rods, rods and holders are removed. The last tier is formed beginning from positioning concrete form screen and deepening rods in consolidated concrete of previous tier. EFFECT: simplified technology at the expense of excluding cranes and sliding formwork. 3 dwg

Description

 The invention relates to the field of construction, and in particular to methods of erecting the outer walls of structures of cast concrete, in particular aerated concrete, using combined formwork.

A known method of erecting the outer walls of structures, including the installation of reusable inner formwork, the installation of the outer formwork from the cladding remaining in the structure, their fixation and pouring concrete between the formwork [1]
The disadvantage of this method is the large consumption of internal and external formwork and the need to use crane mechanization, which greatly complicates the technology. In addition, this method cannot be used for the construction of walls made of light concrete, such as aerated concrete, which serves as a supporting material and insulation, because the technology provides for pouring concrete to the entire height of the wall, which will not ensure expansion of aerated concrete and its setting in this state. In this regard, at present, the manufacture of panels from aerated concrete is carried out in the factory horizontally by laying it at a height equal to the thickness of the panel, and then the finished panels are installed on the construction site vertically. The disadvantage is the need for additional decoration of the inner surface of the wall.

There is also known a method of erecting the outer walls of structures, including the installation of internal formwork reusable, tiered installation of the remaining external formwork of cladding plates, their fixation and pouring concrete between formwork [2]
The advantage of this method is the possibility of using small-sized facing plates and their tiered laying, which reduces the utilization of crane mechanization and simplifies the technology in the construction of low-rise buildings.

 The disadvantage of this method is the use of sliding formwork for fixing the cladding plates, which increases the material consumption, complicates installation, not excluding crane technology for installing internal and sliding formwork. In addition, this method is not applicable for the construction of walls made of light concrete, because it provides for a continuous supply of concrete as the sliding formwork moves, which does not provide conditions for standing and swelling of aerated concrete.

 The objective of the invention is the simplification of technology by eliminating crane mechanization and sliding formwork and the possibility of erecting walls of light concrete at the construction site with their simultaneous lining.

 The essence of the invention lies in the fact that in the method of erecting the outer walls of structures, including the installation of reusable internal formwork, tiling installation of the outer formwork remaining in the construction of the cladding plates, their fixation and pouring concrete between the formwork, formwork boards with a height corresponding to that are used the height of the facing plates, which are mounted with the possibility of tiered interchange between the uprights and corner elements having the height of the floor, while fixing facing plates in the interdeck space are carried out by installing vertical rods on which temporary plate holders are put on, then the tiers installed on the plate holders are connected to the top with the formwork panel with temporary screeds and concrete is poured between the formwork, and after it is set, temporary screeds, rods and holders are removed and the formation of the subsequent tier begins with the rearrangement of the formwork shield and the deepening of the rods in the frozen concrete of the previous tier.

 As the internal formwork, formwork boards with the height of the facing slabs are used, which are mounted with the possibility of tiered interchange between the posts and the corner elements having the floor height for fixing the facing plates of the outer formwork and tiled concrete to them. In the interdeck space, rods are vertically mounted for attaching the holders of the facing plates to them. Temporary holders put on the rods for fixing with their help facing plates from the bottom during the formation of the next tier of the outer formwork. Plates of the entire tier are connected along the top with the formwork panel with temporary ties to fix the facing plates from above. Temporary ties, rods and holders are removed for use in the formation of the subsequent tier of the outer formwork.

 Thus, the proposed differences inform the invention of a new technical effect of tiered wall construction with simultaneous cladding without the use of sliding formwork and crane mechanization due to the fixation of the tiling slabs.

 In FIG. 1 shows a fragment of the inner formwork, view from the room; figure 2 section aa in figure 1; figure 3 a fragment of the fastening of the facing plate.

 The method is as follows.

 On the prepared base, angular elements 1 and intermediate racks 2, fastened with turnbuckles 3, and shuttering panels 4, mounted with the possibility of vertical tiered rearrangement between racks 1 and elements 2, are installed on the height of the floor. The shields 4 have a height equal to the height of the facing plates 5, which are the outer formwork remaining in the structure. The plate 5 is multilayer, with a textured layer based on fiber cement, in which the fastener in the form of a loop 6 is anchored for connection with the bearing layer of concrete 7. To deform the next tier of the wall, the rods 8 are deepened into which the temporary holders 9 of the cladding plates are worn 5, having an opening 10 for this. Slabs 5 of the next tier are mounted on the holders 9 and fixed on the top to the shield 4 with temporary screeds 11. Then concrete is poured between the formwork. After the concrete has set, the temporary screeds 11 are removed, the rods 8 are removed from the holes 10 and the holders 9 are pulled out. To form the next wall tier, the panel 4 is vertically rearranged and the rods 8 are again buried in the frozen concrete 6 of the previous wall tier.

 The proposed technology reduces the material consumption of the external and internal formwork, eliminates crane technology and sliding formwork, which is especially significant during the construction of low-rise buildings, and also allows the erection of light concrete walls with their simultaneous facing directly on the construction site.

Claims (1)

 METHOD FOR ESTABLISHING EXTERNAL WALLS OF STRUCTURES, including installation of reusable internal formwork, tier installation of external formwork remaining in the construction of cladding plates, their fixation and concrete pouring between formwork, characterized in that the formwork is used as internal formwork, corresponding to the height of the cladding which are mounted with the possibility of a tiered rearrangement between the uprights and corner elements having a floor height, while fixing the tiles in the inter deck space is carried out by installing vertical rods on which temporary plate holders are worn, then the tiers installed on the plate holders are connected to the top with the formwork panel with temporary screeds and concrete is poured between the formwork, and after it is set, temporary screeds, rods and holders are removed and the subsequent tier is formed start with the rearrangement of the shuttering board and the deepening of the rods in the frozen concrete of the previous tier.

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