RU135671U1 - REINFORCED CONCRETE WALL-FREE WALL FORMWORK - Google Patents

Abstract

Fixed reinforced concrete wall formwork, consisting of two thin-walled flat reinforced concrete slabs connected by a spatial reinforcing cage, the lower and upper belts of which are located in the concrete of the slabs, while the outer surface of each slab is smooth and the inner surface is rough, characterized in that each slab is made a series of through channels located obliquely to its outer and inner surfaces, with the outlet of each channel on the outer surface located above its outlet on the inner surface tee.

Description

The utility model relates to the field of construction, namely to fixed wall formwork and can be used for the construction of prefabricated monolithic walls of industrial and civil buildings.

Known reinforced concrete fixed wall formwork for the construction of prefabricated monolithic walls [1] in the form of a thin-walled reinforced concrete slab with a smooth outer and rough inner surfaces containing a spatial reinforcing frame in which one of the belts is located in the concrete slab.

Signs of an analogue that coincide with the essential features of the claimed utility model - the formwork is made in the form of a flat reinforced concrete slab with a smooth and rough surface with a spatial reinforcing cage.

The disadvantages of the design of this formwork should be considered its low functionality, due to the work only as a wall fencing (the design of the formwork is designed for mounting and transport loads and the pressure of the hardening concrete mixture), as well as the lack of a structural connection between the outer and inner formwork of the wall.

The closest in technical essence to the claimed design is the constructive solution of reinforced concrete fixed wall formwork (reinforced concrete element of fixed formwork with a supporting reinforcing frame "Filigran" for prefabricated monolithic walls) [2], selected as a prototype, containing two thin-walled flat reinforced concrete slabs connected by spatial reinforcing cage, the lower and upper zones of which are located in the concrete of the slabs, while the outer surface of each slab is smooth, and the inner hovatoy.

Signs of the prototype, which coincides with the essential features of the claimed utility model, is a formwork containing two thin-walled flat reinforced concrete slabs connected by a spatial reinforcing cage, the lower and upper belts of which are located in the concrete of the slabs, while the outer surface of each slab is made smooth and the inner one is rough.

The disadvantage of the prototype should be considered the lack of design solutions that provide a consistently high load-bearing capacity of a precast-monolithic wall formed by a fixed formwork due to a decrease in the volume of air voids in the monolithic part.

The objective of the utility model is to provide a consistently high load-bearing capacity of a precast-monolithic wall formed by a fixed reinforced concrete formwork.

This problem is achieved due to the fact that in the formwork, which consists of two thin-walled flat reinforced concrete slabs connected by a spatial reinforcing cage, the lower and upper zones of which are located in the concrete of the slabs, while the outer surface of each slab is smooth and the inner surface is rough, in each the plate has a series of through channels located obliquely to its outer and inner surfaces. The outlet of each channel on the outer surface of the plate is located above its outlet on the inner surface.

The utility model is illustrated by drawings 1 and 2. Figure 1 shows an axonometric image of the formwork; figure 2 is a fragment of a cross-section of the formwork with channels.

Fixed reinforced concrete wall formwork consists of two thin-walled flat reinforced concrete slabs 1 connected by a spatial reinforcing frame 2, the lower and upper zones of which are located in the concrete of the slabs, while the outer surface of each slab is smooth 3 and the inner surface is rough 4. In each slab 1 is made a series of through channels 5 located obliquely to its outer and inner surfaces. The output of each channel on the outer surface 6 is located above its exit on the inner surface 7.

When laying concrete mixture in fixed formwork, the process of compaction is a difficult and crucial task due to the presence of a spatial reinforcing cage and the small distance between the slabs (see the appendix, Fig. A). The use of deep vibrators in this case does not provide sufficient compaction of the mixture, as a result of which air voids are formed in it, often at the border of the monolithic part with prefabricated plates, which reduce the bearing capacity of the precast monolithic wall. In addition, the increase in the volume of voids in the monolithic part also occurs due to the small area of the open surface of the mixture, due to the distance (100-120 mm) between the prefabricated plates.

The rows of through channels located in the plates increase the area of the open surface of the mixture, provide an additional air outlet from the monolithic part during its compaction, and reduce the volume of voids. The orientation of the channels relative to the surfaces of the slabs provides an air outlet, but does not allow the concrete mixture to flow out of the formwork.

Thus, the constructive solution of fixed wall reinforced concrete formwork reduces the volume of air voids in the monolithic part and provides high bearing capacity of the precast-monolithic wall, which is the technical result.

List of references:

1. Matskevich A.F. Fixed formwork of monolithic reinforced concrete structures. - M: Stroyizdat, 1986. - 96 p.

2. STO NOSTROY 2.6.15-2011 “Prefabricated monolithic reinforced concrete structures. Elements are prefabricated reinforced concrete walls and floors with spatial reinforcing cage. Technical conditions. " - M.: NIIZHB, Publishing House "BST", 2011. - 42 p.

Claims (1)

Fixed reinforced concrete wall formwork, consisting of two thin-walled flat reinforced concrete slabs connected by a spatial reinforcing cage, the lower and upper belts of which are located in the concrete of the slabs, while the outer surface of each slab is smooth and the inner surface is rough, characterized in that each slab is made a series of through channels located obliquely to its outer and inner surfaces, wherein the outlet of each channel on the outer surface is located above its outlet on the inner surface tee.

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