RU2330146C1 - Floor slabs connection of non-brace framework building - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: connection of floor slabs contains between-column, above-column and middle slabs. The slabs at the side ends have keyways forming a niche in conjunction. The niche profile in section is symmetric to the plane of the slabs connection. The slabs have loop outlets situated in the niched in the form of its own counter directed bends of U-shaped staples. The scaples at their side ends are connected by pins through the hole formed by the beds of the staples. The symmetry axis is dislocated relative to the vertical plane of the niche symmetry. The above-column slabs are made with two support areas at each side. The between-columns slabs are made at the side of each column with two support elements, and from the side of the middle slabs with two support areas. The middle slabs are made with two support elements at each side. The support elements are made in the form of an angle. One angle set is situated along the side end of one slab and is connected with the slab reinforcement. The second angle set rests with its inner side at the support area of the other slab. Each pair of staples situated near the support elements and areas is rigidly connected in-between by a plate. The plate is places between the pair of staples.

EFFECT: increase of installation processebility, joint efficiency, cost reduction and simplification of slab manufacturing.

1 cl, 5 dwg

Description

The invention relates to the field of construction, namely the construction of reinforced concrete floors of frameless bezelless building.

Closest to the proposed invention is the connection of the floor slabs of the frame non-beam building containing intercolumn, supercolumn and middle plates with reinforcement inside them, with keyways and loop outlets in the form of U-shaped brackets connected by pins at their ends, and the plates are equipped with supporting elements and supporting platforms (see patent RU No. 2247812).

Its disadvantage is the complexity of manufacturing plates, a large number of forms for each type of plates, the inability to ensure the safety of plates during transportation and installation, associated with chipping fragments of the lower faces of the plate along the edges of the keyways.

The present invention solves the problem of increasing the manufacturability of the installation, increasing the strength of the edges of the plates and the overall connection, simplifying the manufacture of plates, reducing the cost of additional forms for the manufacture of plates.

To achieve this technical result, the connection of the floor slabs of the frameless building contains intercolumn, supercolumn and middle plates with reinforcement inside them, with keyways and loop outlets in the form of U-shaped brackets connected by studs at the ends of the plates, and the plates are equipped with supporting elements and supporting platforms and the keyways of the plates at the ends are made such that a niche is formed in the connection, the profile of which in section is symmetrical with respect to the plane of the connector of the plates and makes it possible to place In this case, there are plate releases made in the form of U-shaped brackets counter-directed by their bends, freely mounted and connected with studs, the supporting elements are made in the form of angles, one shelf of which is located along the end of one plate and connected to the plate reinforcement, and the second inside relies on the supporting platform of another plate, with each pair of counter-directed U-shaped staples located next to the supporting elements and platforms, rigidly interconnected by a plate mounted between them by weld each column column is made with two supporting platforms on each side, each column column is made on the side of each column with two supporting elements, and on the side of each middle plate with two supporting platforms, and the middle plate is made on each side with two supporting elements.

Signs that distinguish the proposed connection of the plates from the known closest to it, characterize the presence of keyways of the plates at the ends made such that a niche is formed in the connection, the profile of which in section is symmetrical with respect to the plane of the connector of the plates and makes it possible to arrange the outlets of plates made in it in the form of U-shaped brackets counterclockwise directed by their bends, free mounting and connection with studs, the supporting elements are made in the form of corners, one shelf of which is located along the end one plate and connected with the reinforcement of the plate, and the second shelf with its inner side resting on the supporting platform of the other plate, with each pair of counter-directed U-shaped brackets located next to the supporting elements and platforms, rigidly interconnected by a plate installed between them by welding connection, and each over-column plate is made with two supporting platforms on each side, each inter-column plate is made on the side of each column with two supporting elements, and on the side of each middle plate you are with two supporting platforms, and the middle plate is made on each side with two supporting elements.

The invention is illustrated by drawings, in which Fig. 1 shows a connection diagram of floor slabs of a frameless building, Fig. 2 shows a longitudinal section through a section of a joint of two floor slabs, Fig. 3 shows a section along A-A of Fig. 1, Fig. 4 - a section along BB of FIG. 1, FIG. 5 is a top view of a section of the connection of two floor slabs.

The connection of the floor slabs of the frameless bezelless building contains intercolumn 1, supercolumn 2 and middle plates 3 with reinforcement inside them, with keyways 4 and loop outlets 5, 6 in the form of U-shaped brackets connected by pins 7 at their ends. The plates are equipped with supporting elements 8 and supporting platforms 9. The keyways 4 of the plates at the ends are stepped with an angle in the connection between the steps of approximately 90 degrees, and such that a niche 10 is formed in the connection, the profile of which in cross section is symmetrical with respect to the plane 11 of the plate connector and provides the possibility of arranging in it the outlets 5, 6 of the plates, made in the form of U-shaped staples opposite to their bends, freely mounted and connected with their pins 7 through the hole 12 formed by the bends of these Cob. Moreover, the distance between the plates in the lower plane of the joined plates is approximately three times less than the distance between the plates in the upper plane of the joined plates. The axis of symmetry 13 of the hole 12 is offset relative to the vertical plane of symmetry 11 of the niche to ensure free installation. This embodiment of the keyways and niches provides sufficient strength of the lower edge of the plate and resistance to chipping. The supporting elements 8 are made in the form of metal corners, one shelf 14 of which is located along the end of one plate and is connected with the reinforcement of the plate, and the second 15 is supported by the inner side on the metal supporting platform 9 of the other plate. Each pair of oppositely directed U-shaped staples located next to the supporting elements 8 and platforms 9, is rigidly connected to each other by a plate 16, installed between them by means of a welding joint. Each column column 2 is made with two supporting platforms 9 on each side, each column column 1 is made on the side of each column with two supporting elements 8, and on the side of each middle plate 3 with two supporting platforms 9, and the middle plate 3 is made on each side with two supporting elements 8.

This connection provides structural strength, allows the entire range of plates to produce in one formwork, which reduces costs.

Slabs are manufactured at the factory using standardized formwork. Installation of the proposed connection on the construction site is carried out in the following sequence. First, the over-column plates 2 are mounted, then the inter-column plates 1, and then the middle plates 3 are mounted. The installation of the over-column plates on the column is carried out using the mounting jig. The column column plate installed at the design elevation is connected to the column by welding the shell of the plate with the working reinforcement of the column. When mounting the plates, the supporting elements 8 with their shelves 15 are combined with the supporting platforms 9 and, after alignment of the position of the plate, are connected for welding. U-shaped brackets 5, 6 at the ends of adjacent plates are aligned so that holes 12 are formed, the clearance of which should be 18-25 mm. After this, the horizontal installation of the plate is checked, studs 7 are inserted into the holes formed by the brackets, connected by welding or twisted with wire. U-shaped brackets adjacent to the supporting platforms and supporting elements are welded through a steel plate 16. All niches between the plates, as well as between the columns and the plates are monolithic with concrete.

Claims (1)

The connection of the floor slabs of the frameless bezelless building, containing intercolumn, supercolumn and middle plates with reinforcement inside them, with keyways and loop outlets in the form of U-shaped brackets connected by pins at their ends, the plates being provided with supporting elements and supporting platforms, characterized in that the keyways of the slabs at the ends are made such that a niche is formed in the connection, the profile of which in section is symmetrical with respect to the plane of the connector of the slabs and makes it possible to arrange the plate outlets made in the form of U-shaped staples opposite to their bends, freely mounted and connected with studs through an opening formed by the bends of these staples, the axis of symmetry of this hole being offset relative to the vertical plane of symmetry of the niche, the supporting elements are made in the form of corners, one shelf of which is located along the end of one plate and connected with the reinforcement of the plate, and the second inner side rests on the supporting platform of the other plate, each pair of counter-directed U-shaped brackets located poison with supporting elements and platforms, is rigidly connected to each other by a plate installed between them, using a welding connection, with each column column made with two supporting platforms on each side, each column column made on the side of each column with two supporting elements, and with side of each middle plate with two supporting platforms, and the middle plate is made on each side with two supporting elements.

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