RU89142U1 - REINFORCED CONCRETE PLATE SUPPORT ASSEMBLY - Google Patents

Abstract

The support node of the reinforced concrete floor slab of the structure, containing the floor slab and the shuttering formwork table (girder), characterized in that the end side of the floor slab is equipped with a stepped support zone, embedded parts connected with the crossbar reinforcement are fixed on the upper plane of the support zone, and the lower surface of the floor slab installed in the same plane with the lower surface of the formwork crossbar table (crossbar).

Description

The utility model relates to the field of construction, namely, to the junction of the construction of the floor and the crossbar, and can be used in the construction of residential and public buildings.

Known reference node of a building structure (RU 2212498 C2, E02D 27/00, E02D 27/01, publ. 09/20/2003). The unit is made in the form of a monolithic reinforced concrete structure, forming a volumetric strapping, and includes a reinforced membrane, a box-shaped basement fence and a beam cross with a base plate convex downward. The technical result of the invention is to increase the reliability functionality of the foundation structure on soft soils. The disadvantage of this design is its application only to the shallow foundations.

Known is the support node of a reinforced concrete floor slab (Series 1.020-1 / 87. Crossbars for supporting multi-hollow floor slabs. Working drawings.), Containing a floor slab, which rests on a protruding shelf of the crossbar. However, with such a support unit there is a significant drawback - the lower crossbar protrudes from the surface of a clean ceiling by 20-30 cm. The disadvantages include the relative complexity of mounting and alignment of the mounted assembly, as well as increased material consumption. Also, with the release of this series, the product range is limited in size.

The utility model solves the problem of simplifying the installation of the support unit of the floor slab on the crossbar by changing the zone of support of the floor slab on the crossbar. This solution also helps to reduce the material consumption of the structure and reduce the installation time of the building frame. As a result of the application of this model, the disadvantage of the prototype is eliminated - the complexity of installation and the need to reconcile the mounted assembly. Also, when using this unit, the product range is not limited in size.

The indicated technical problem is solved by the fact that in the supporting unit of the reinforced concrete floor slab of the structure containing the floor slab and the shuttering formwork table (bolt), according to the proposal, the end side of the floor slab is equipped with a stepped support zone, embedded parts connected to the reinforcement are fixed on the upper plane of the support zone crossbar, and the lower surface of the slab is installed in the same plane with the lower surface of the formwork crossbar table (crossbar).

The drawing shows a diagram of the inventive support node of a reinforced concrete slab overlapping structures.

The support unit consists of a floor slab 1 with an upper bearing area 2 and a shuttering formwork table (crossbar) 3. Floor slab 1 rests on a shelf of the crossbar 3, and the outlets of the reinforcement 4 of the crossbar are fixed with embedded parts 5 of the floor slab mounted on its upper surface A.

The device operates as follows. Formwork crossbar table (crossbar) 3 is mounted on the protruding embedded parts of the column (not shown). Floor slab 1 is laid by the upper bearing area 2 on the shelf of the formwork beam table 3. On the upper plane of floor slab A fixed parts 5 are welded with reinforcement 4 of the crossbar 3. The lower surface of the floor slab B is installed in the same plane as the lower surface of the crossbar B.

Example. A prototype of the support unit was made according to the claimed solution. The dimensions of the sample are presented in the drawing. To solve the indicated technical problem, the crossbar is made stepwise, with the height of the formwork table shelf 110 mm. The upper part of the crossbar is made 110 mm high. The total height of the crossbar is 220 mm. These bolt sizes are determined by the height of the floor slab, which is 220 mm. Crossbar width 500 mm. The amount of support of the floor slab on the crossbar is 100 mm. The end of the floor slab is located at a distance of 150 mm from the axis of symmetry of the crossbar O. This sample demonstrates the advantages of the proposed design. With this constructive solution of the device of the support unit of the reinforced concrete floor slab, the volume of the room increases due to the fact that the ceiling is at the same level over the entire area of the room. The design of the crossbar allows for any step of the columns, since the length of the product can vary in size. The presence of stepped zones of bearing support of the crossbar and floor slab allows to reduce material consumption by 17% compared to the prototype, and increase the assembly speed of the assembly by 14%.

The proposed design of the support node allows you to optimize the volume of premises, provides options for various layouts. The presence of stepped zones of support of the crossbar and the floor slab, in contrast to the known model, allows to reduce concrete consumption, as well as to increase the productivity of building frame installation.

Also, when using this node, the product range is unlimited in size.

Claims (1)

The support node of the reinforced concrete floor slab of the structure, containing the floor slab and the shuttering formwork table (girder), characterized in that the end side of the floor slab is equipped with a stepped support zone, embedded parts connected with the crossbar reinforcement are fixed on the upper plane of the support zone, and the lower surface of the floor slab installed in the same plane with the lower surface of the formwork crossbar table (crossbar).