SU842160A1 - Wall panel - Google Patents

Description

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The invention relates to construction and can find practical application in the construction of residential and public frame-panel buildings with hinged wall panels, mainly in seismically active areas with hot, hot-humid and humid climates.

Known designs of multi-layer ventilated hinged wall panels with a protective screen, forming, unclosed ventilated air gap. The outer part of the panel (screen) is made of any material, for example, asbestos cement, plastics, etc., and the interior (heat insulating) is made of lightweight concrete, for example, claydite Ij.

The disadvantages of such a panel are the complexity and the multi-layer nature of its manufacture: a shell-like panel is made, a heater is glued in, and a screen is arranged after that. Different screening options require different fasteners to communicate with the shell of the panel, which leads to a variety of butt joints and complication of manufacturing technology.

Closest to the invention is a wall panel comprising an outer protective and decorative and inner thermal insulation layers; arranged with an air gap, joined by stiffening ribs, having an adjusting ridge on one side, and on the other side a groove 2 corresponding to it.

Claims (2)

However, such joints do not ensure the incompatibility of the outer and inner layers of the panel. Under the conditions of seismic, the layers of the panel must be rigidly fixed in their plane when they move freely in it, which in this case is not observed. In addition, the production of panels in vertical 1x cassette forms at the height of the floor requires special precision in the manufacture of reinforcement ceTOKV and the concrete mixture must be on the consistency, otherwise there will be sinks in the height of the products during concreting. The purpose of the invention is to improve the tep protective properties of butt joints and simplify its mounting in height. This goal is achieved by the fact that in a wall panel, including an outer protective-decorative and internal heat-insulating layers, located with an air-ventilated layer between them, combined with stiffening ribs, having an installation ridge on one side, and a corresponding groove, layers on the other. the panels are combined into paired Z-shaped elements with vent openings in planes that connect the layers of the panel. FIG. 1 shows the facade of a wall of Z-shaped wall panels; in fig. 2 shows section A-A in FIG. one; in fig. 3-- section BB in FIG. one; in fig. 4 shows a section B-B in FIG. 1. The wall panel consists of an outer protective and decorative layer of the screen}, an inner heat insulating layer 2 with an air ventilated interlayer 3 between it # 1 and a connecting plane 4 with ventilation openings 5 and stiffening ribs 6 in which the ridge 7 is provided into the groove. Between the thermal insulation panels in a horizontal seam it is laid, for example, a hernite gasket. The horizontal seam between the outer protective and decorative layers is left open for the through ventilation of both the individual panels and the entire wall in height. A 2-construction building element with vertical connecting ribs can be made of any building materials, such as lightweight concrete, in factory conditions. The panel is formed on two Z-shapes of elements that are scaled by the height of the building. During construction, the panels are mounted from bottom to top, and no additional fixing devices are required to connect them together, since it is enough to fix each panel to the frame at four points with flexible fastenings. The heat insulating layer of the panel is attached to the frame 04 of the panel, to which, if necessary, according to the thermal engineering design, the insulation layer is glued to or embedded in the factory in the form of, for example, mats, phenolic plastics, and other thermal insulation materials. Moreover, the device of the heat insulation layer is produced on the outer surface of the inner heat insulating layer: the panel. The wall panels are interconnected in height by means of vertical connecting ribs, the number of which is determined by calculation. A comb is provided in the lower part of the connecting rib, and in the plane connecting the parallel vertical layers of the panel there is a groove. The perpendicular mounting ridge and groove in the fiix fins of the ribs ensure that the panels are not displaceable from their plane when they are mated in height. The outer layer of the panel is a protective Z-shaped protective element. it is not in any way cracked and works like a console, but in the area between the stiffeners it is like a plate, zaschenpenena on three sides. When mating two Z-shaped elements with a height of one panel, the operation of the structure changes: it includes interconnecting ribs, which provide the structure with non-displaceability from its plane during its free movement / in its plane due to flexible connections to the building frame. The difference in height of the inclined connecting plane between the layers of the heat engineering conditions should be at least 60 cm, and the ventilation holes in it should be no less than, for example, 25x12 cm in size and in steps, for example, 60-80 cm in the areas of the center. ribs. Technical and economic indicators of the proposed wall panel are made up of savings in building materials, improving the performance of butt joints and performance of the panel, while at the same time reducing costs. Invention Form A wall panel including a decorative latch and decorative and internal The heat insulating layers, located with an air-ventilated layer between Ashi, are combined with stiffening ribs and have a mounting flange on the other hand - corresponding to the groove, which differs from the fact that, in order to improve the heat-shielding properties of the butt joints and forgiveness of installation, the panel layers & 421606 Dinenees in paired L-shaped elements with air vents in the planes connecting the layers of the panel ..-. , 5 Sources of information taken into consideration by the expert one; USSR author's certificate I 344086, cl. B 04 C 2/28, 1970. 2. USSR author's certificate 10 No. 590416, CL E 04 C 2/48, 1976.  Bj Vui.r g Zc S yX% / C X V / yXX (pui.if