SU1361271A1 - Enclosure structure of building - Google Patents

Abstract

The invention relates to external enclosing structures of buildings made of multi-layer reinforced concrete panels with flexible connections and allows to simplify the design of flexible connections by improving their working conditions and improve the performance of fencing. The supporting inner layer 4 of the wall panel 1 is insulated with flexible insulation 5 linking 2 with a non-outer outer layer 3. The panels are blocked with 6 protrusions 7 supported on the outer layer. Layer 4 is attached to the overlap panel, for example, by welding the outlets 8 and monolithing them in the openings of the 9 overlaps. In the outer layers of the wall panels from the side adjacent to the heater, ventilation channels 10 are formed. Thermowell II prevents the formation of cold bridges. The ventilation air enters the channels through the external openings 12 or 13 with the valve 14 and goes into the attic 15. 3 sludge. J5 (L from 05 Oe. Fig. 2

Description

The invention relates to external walling structures of buildings made of multi-layer reinforced concrete panels with flexible connections.

The purpose of the invention is to simplify the construction of flexible connections by improving their working conditions and improving the performance of the fence. Figures 1 and 2 depict the enclosing structure, a longitudinal section; on fig.Z - section aa in figure 1.

The enclosing structure includes wall reinforced concrete panels 1, consisting of flexible links 2, outer 3 and inner 4 reinforced concrete layers and a layer of insulation 5 between them, and a ceiling panel 6 with projections 7 supported on reinforced concrete outer layers of wall panels. The internal reinforced concrete layers of the 4 wall panels are non-load bearing and are attached to the floor panels, for example, by welding rebar 8 and monolithing them in the opening x 9 floors. The fastening of the layers 4 to the slabs can be carried out either on the upper and lower edges, or only on the upper edges of the layers. In the outer layers of the wall panels 1, vertical ventilation ducts 10 are formed on the side adjacent to the insulation. The protrusions 7 of the ceilings are protected from forming cold bridges by thermal inserts 11 Air enters the ventilation ducts 10 through the external inlets 12 or through inlet 13 supply side with valve 14 and goes into the attic room 15 or outside.

The panel is made using the known technology of the front surface. Down. ..

The reinforcement of the lower support layer with flexible connections and ventilation ducts, for example, in the form of steel pipes passing at an appropriate height through the holes in the bead of the form, are installed in the form. After that, the concrete is laid lower layer. An insulation is laid on the surface of the molded bottom layer so that the flexible connections are in close contact with its end walls. Then, the reinforcement of the next layer of the panel is laid, connected with flexible connections, and the upper layer of the panel is formed. Extract ducts are removed.

Next, the panel is subjected to heat treatment.

When mounting the floor slab, the protrusions on the corresponding depressions of the outer layer along the thermal insulation layer are protruded. The support lugs of the floor slabs on the sides and on top are lined with thermofillers, and between them in the level of the overlap there are also thermowells.

Due to the location of the non-load-bearing concrete layer of wall panels suspended on flexible connections to the supporting layer 5, from the side of the room, with its attachment to the floor panels, the flexible connections connecting the inner and outer layers perform their functions only during manufacturing, transportation and installation of panels. After the installation of the panel is completed and the inner layer is joined to the overlap, the inner layer ceases to be a load for the outer bearing layer, as a result of which the requirements for flexible connections can be significantly reduced (for example, by anchoring or corrosion protection).

0 The arrangement of ventilation ducts in the outer layers of wall panels on the side adjacent to the insulation allows reducing the humidity of the insulation and eliminating the formation of condensation j. In winter and spring and autumn, this helps to improve the working conditions of the flexible connections of the panels and improves the performance of the fence. 40

During the summer period, the cooler air of the basement can enter the ventilation channels of the panel. The support of the floor slabs through 45 protrusions into the recesses of the carrier layer of the panel allows the ventilation ducts of the lower and upper panels to be combined and made to the entire height of the building or to several floors with their 5Q protrusion into the attic or to the outside.

Claims (1)

Invention Formula The building envelope, gg, includes wall reinforced concrete panels consisting of interconnecting external and internal reinforced concrete layers and a layer of insulation between them, and a floor panel. characterized in that, in order to simplify the construction of flexible connections by improving their working conditions and maintaining the performance of the fence, the panels are supported on the external reinforced concrete layers of the wall panels, and the internal reinforced concrete layers of the wall panels are non-supporting and attached to the ceiling panels, moreover, in the outer layers of wall panels on the side adjacent to the heater, vertical ventilation ducts are formed. -crr 15 FIG. ten Fig.Z