SU1423704A1 - Covering for expansion joint - Google Patents

Abstract

The invention relates to construction and can be used for arranging overlaps of temperature-deformation and seismic seams between sections of civil and industrial buildings. The aim of the invention is to reduce material consumption and simplify installation. The overlap of the seam includes the legs of heat insulating material 41, for example, of lightweight concrete, placed on opposite sides of the gap 2 between the building sections placed in the gap between the sections of the flexible cable 3 and the bottom load to it. The intersection I, having the longitudinal axial ridge 8 entering the gap 2, and the front wall panels 5, contains sealing seals 6, under which longitudinal grooves 7 are located in the structure. The deformation seam overlap design due to the performance of the heat sinks at the same time. , sealing and sealing and pulling it with a constant force allows to reduce material consumption and simplify installation and, besides, to reduce the material consumption of building sections by replacing trilayers. of end panels on single layer of heavy concrete. 3 hp f-ly, 2 ill. & (L

Description

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The invention relates to the construction, in particular, to temperature-deformation and seismic seams of civil and industrial buildings.

The aim of the invention is to reduce material consumption and simplify installation.

FIG. 1 shows the cross section of the building along the expansion joint; in fig. 2 is a view A of FIG. one.

The overlap of the expansion joint includes spikes 1, made of thermal insulation material, located on opposite sides of the gap 2 between the sections of the panel building, placed in the gap between the sections, the joint bar 3, flexible with 3 bars suspended from it 4. Between the lath 1 and the wall panels of the 5 sections are placed I-seals 6, and longitudinal grooves 7 are made in the lining for their placement.

The splash can be made of lightweight concrete and, for ease of installation, have a ridge 8 entering the gap 2.

The latches 1 due to the combination of their hard 3 with the weight 4 attached to it, are constantly and reliably pressed against the façade panels of the 5 sections, simultaneously providing thermal insulation, sealing and sealing of the joint, which reduces the consumption of materials and simplifies installation.

The proposed construction makes it possible at the same time to reduce the material consumption of the building by replacing the two-layer end panels of sections (350–400 mm thick) with single-layer ones made of heavy concrete (160 mm thick).

The installation of large-panel buildings is carried out in the following sequence.

The installation of the lugs is carried out every day after the installation of the basement panel of the second section of the building. In this case, the first section can be mounted completely.

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VNIIPIZakaz 4616/36 Circulation Y88 Subscription

Production and printing company, Uzhgorod, st. Project, 4

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The base panel and the subsequent panels are mounted at a distance from the adjacent panel according to the pattern “stop. This is necessary for self-locking the splat in a vertical position. Splash 1 set in the groove on the foundation. The top of the plate 1 is temporarily attached to the outer wall panel by an easily detachable conductor. After the second splash is installed on the other side of the seam, they are joined by a flexible pull 3 (made, for example, from round reinforcing steel), in the center of which a weight 4 is hung, which creates a hard pressure that constantly presses the strips to the wall panels 5 of the building. .

In order to ensure the density of the flange of the skirt to the outer wall panels between the laths and the panels 5, the gaskets 6 are installed during installation. The gables are connected between each other (in height) on the solution.

Claims (4)

1. Overlapping the expansion joint, including interlocks located on opposite sides of the gap between the sections of the panel building, fasteners and sealing gaskets, characterized in that, in order to reduce material consumption and ease of installation, the splines are made of thermal insulating material, and fasteners are in the form of combining strips and placed in the gap between the sections of the flexible rod with a weight suspended from it. 2. The overlap of claim. 1, characterized in that the strips are made of lightweight concrete. 3. Overlap on PP. 1 and 2, characterized in that longitudinal grooves are made in the strips for fixing the gaskets. 4. Overlap on PP. 1-3, characterized in that the strips are made with longitudinal axial ridges included in the gap between the building sections.