RU145678U1 - REINFORCED CONCRETE WALL-FREE WALL FORMWORK - Google Patents

Abstract

1. Reinforced concrete fixed wall formwork, consisting 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 made smooth and the inner surface is rough, characterized in that in one through holes are made of plates, each of which is filled with a cork of porous material. 2. The formwork according to claim 1, characterized in that the area of each hole is not less than 100 cm, and the border of any of them is removed from the edge of the plate by at least 5 cm. 3. The formwork according to claim 1, characterized in that the plugs are made of extruded polystyrene foam.

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 in the quality of the 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 constructive connection between the external and internal formwork of the wall.

The closest in technical essence to the claimed design is the structural solution of the reinforced concrete fixed wall formwork (reinforced concrete element of the fixed formwork with the supporting reinforcing frame "Filigran" for prefabricated monolithic walls) selected as a prototype [2], 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 surface is rough.

The disadvantage of the prototype should be considered the lack of design solutions that provide high technological reliability for assessing the strength of concrete of a monolithic core of the wall with non-destructive testing.

The objective of the utility model is to provide high technological reliability for assessing the strength of concrete of a monolithic core of a precast wall using non-destructive testing.

This task 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 made smooth and the inner surface is rough, in one through holes are made of plates, each of which is filled with a cork of porous material. The plugs are made of extruded polystyrene foam. The area of each hole is not less than 100 cm ² , and the border of any of them is at least 5 cm from the edge of the plate.

The utility model is illustrated by drawings 1 and 2. Figure 1 shows an axonometric image of the formwork; in FIG. 2 is a fragment of a section with a hole in a plate filled with cork.

Fixed reinforced concrete wall formwork consists of two thin-walled flat reinforced concrete slabs 1 connected by a spatial reinforcing cage 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 one of the slabs, through holes 5, each of which is filled with a plug 6 of porous material. The porous cork material is extruded polystyrene foam. The area of each hole is not less than 100 cm ² , and the border of any of them is at least 5 cm from the edge of the plate.

When installing a prefabricated monolithic wall in a fixed reinforced concrete formwork, determining the strength of concrete of a monolithic core is a responsible process, which determines in many respects the quality of predicting the bearing capacity and the service life of the structure. The current technological standards for the construction of precast-monolithic structures using non-removable reinforced concrete formwork [3] provide for the ultrasonic method of non-destructive testing, which involves measuring the speed of ultrasound passing through the wall structure before concreting (through prefabricated slabs) and after it (prefabricated slabs and monolithic core). Thus, before the concrete work is carried out, the construction laboratory must perform ultrasonic testing of prefabricated structures of fixed formwork accepted for production, which is quite difficult to carry out when installing “from the wheels”, because of the need for a permanent presence of a construction laboratory employee. Ultrasonic testing also requires accurate measurement of the thickness of the prefabricated formwork and monolithic core. The identified requirements for the implementation of ultrasonic testing, thus, reduce its technological reliability and make it poorly suitable for practical implementation.

The proposed formwork design has high technological reliability of assessing the strength of concrete of a monolithic core due to the possibility of using the widespread mechanical methods of non-destructive testing of concrete, for example, the shock pulse method. The holes in the prefabricated plate provide access for examining the monolithic core, for example, using a striker. The porous cork material (extruded polystyrene foam), with its external additional compression through the plywood sheet for the period of concreting and hardening of the monolithic core, has sufficient rigidity to form a smooth surface of the portion of the monolithic core in contact with the inner surface of the cork. The required compression can be provided with telescopic inventory racks of the shuttering formwork, when installing them in a spacer between two walls. After the concrete has set strength, the cork is easily removed from the slab with a construction tool (ax, trowel, etc.), and the surface area of the monolithic core becomes open for non-destructive testing. The indicated restrictions on the size of the holes and their placement relative to the edge of the plate are determined by the requirements for the implementation of mechanical non-destructive testing methods (GOST 22690). The constructive solution of the formwork does not require additional measurements of the geometry of the formwork and the monolithic core, as well as the mandatory presence of a laboratory employee before concreting. In addition, the proposed control tool is affordable and widely used in monolithic housing construction. All this makes it possible to implement non-destructive testing of the strength of concrete of a monolithic core of a precast-monolithic wall with high adaptability in practice.

Thus, the constructive solution of fixed wall formwork provides high technological reliability for assessing the strength of concrete of a monolithic core of a precast-monolithic wall using non-destructive testing, which is a technical result.

List of references:

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

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.

3. STO NOSTROY 2.7.16-2011 “Prefabricated monolithic reinforced concrete structures. Walls and ceilings with spatial reinforcing cage. Rules for the implementation, acceptance and control of installation, reinforcement and concrete work. Technical conditions. " - M.: NIIZHB, Publishing House "BST", 2011. - 66 p.

Claims (3)

1. Reinforced concrete fixed wall formwork, consisting 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, characterized in that in one through holes are made of plates, each of which is filled with a cork of porous material. 2. The formwork according to claim 1, characterized in that the area of each hole is not less than 100 cm ² , and the border of any of them is not less than 5 cm from the edge of the plate. 3. The formwork according to claim 1, characterized in that the plugs are made of extruded polystyrene foam.