RU2039174C1 - Single-layer wall panel of building - Google Patents

Abstract

FIELD: construction industry. SUBSTANCE: single-layer wall panel has constructional layer and insert made from increased-efficiency warming material. Insert is placed in constructional layer along its perimeter so that insert extends onto panel faces to be mated. EFFECT: increased efficiency, wider operational capabilities and simplified construction. 7 dwg

Description

 The invention relates to construction and can be used for the structural implementation of supporting and self-supporting external building envelopes in the construction of civil and industrial buildings.

Known concrete panel, including the outer and inner concrete layers and an intermediate effective heat-insulating layer, combined by flexible elements [1]
These panels and their joints have high heat-shielding qualities, however, the disadvantages of the panels are the low rigidity of the bonds, which negatively affects the manufacture, transportation and installation of panels. In addition, scarce, low alloy stainless steel is required to make flexible connections. The disadvantages of these panels include the complexity of their manufacture.

The closest technical solution is a single-layer wall panel made of lightweight concrete, such as expanded clay concrete, including structurally-insulating lightweight concrete and a protective and finishing layer [2]
A disadvantage of the known panel is the insufficient thermal protection of the walls in the area of the butt faces, especially with an increase in the volumetric mass of the panel material, which leads to condensation wetting of the inner surface of the fence and to freezing of the joints.

 The problem to which the invention is directed is to increase the heat-shielding qualities of the joints of single-layer panels and, accordingly, of the entire external building envelope, since up to 50% of heat loss occurs at the joints.

 The task is achieved by the fact that in a single-layer wall panel, including structural and protective-finishing layers, an insert of effective insulation is installed around the perimeter of the structural layer, which extends to the abutting faces of the panel, and the insertion depth of the insert in the panel body is not less than the thickness of the overlap panel or the inner wall.

 Figure 1 shows a single-layer wall panel, axonometric projection; figure 2 section aa in figure 1; figure 3 horizontal junction of the wall panel with the slab; figure 4 is a vertical junction of the panel with the inner wall; 5 a cornice assembly; Fig.6 basement node; Fig.7 corner joint of the ordinary and end wall panels.

 The single-layer wall panel 1 is equipped with an insert 2 of effective insulation installed around the perimeter of the structural layer of the panel and facing the abutting faces of panel 1. In this case, the design of the horizontal butt joint with the floor slab 3 and the vertical butt joint with the inner wall 4 is easily and reliably solved. the connection of the panel 1 with the parapet panel 5, the base panel 6 and the end panel 7. It should only be noted that in connection with the parapet panel 5, bulk attic insulation is used, in of the connections to the inner wall 4 and front panel 7 is used thermofiller 9 and the butt joints in the hollow cavities in the panel 1 are filled with concrete 10 embedment.

 The parapet 5, the base 6 and the end 7 of the panel can be performed by analogy with the ordinary panel 1. In the parapet panel 5, the insert 2 is installed only in the lower abutting face, in the socle panel 6 only in the upper abutting face, and in the end panel 7 so that the insert overlaps concrete casting 10.

 The manufacture of the wall panel is as follows.

 In the process of forming the panel 1, the insert 2 of the effective insulation is laid after vibration compaction of the concrete mixture of the lower layer of the panel. To exclude the possibility of shifting the liner 2 during laying of the concrete mixture of the remaining layer of the molded panel, the liner is fixed with the simplest needle clamps installed on all sides of the metal mold at the level of the middle of the thickness of the liner. Before laying the liner, transverse blind cuts are made in it with a pitch of the location of the rods of the distribution reinforcement of the metal frames along the perimeter of the panel. The cuts include rods of distribution valves of these frames. In order to protect the liner from moisture or its possible loss during storage, transportation and installation of finished panels, their ends can be glued with plastic wrap. The liner is preferably made from an effective insulation such as polyurethane foam and polystyrene foam, which during operation do not accumulate moisture and do not require coating with a vapor-tight material. The specified materials of the liner are well machined and have sufficient strength. The optimum insertion depth of the insert into the panel body is not less than the thickness of the floor slab (horizontal joint) or the inner wall (vertical joint), and the insert thickness is calculated.

 Panel mounting is carried out in the traditional way.

 Using the proposed design of a single-layer wall panel allows you to save the positive properties of panels with flexible connections in the joint area and the positive properties of single-layer panels in the interface zone of the light opening with the window plug. Thus, the proposed panel provides a reduction in heat loss by increasing the thermal resistance to heat transfer of the joints due to the maximum overlap of the cold bridges in the joints.

 The application of the proposed panel design allows not to use thermal liners in the cavity of horizontal joints, but to seal the cavity with one cement-sand mortar, and also not to use a thermal liner around the perimeter of the building in the attic, just one expanded clay or other filling. The magnitude of the overall reduction in heat loss in the building depends on the thickness of the liner and the effectiveness of the insulation.

Claims (1)

 A SINGLE-WALL WALL PANEL OF THE BUILDING, including a layer of structural and heat-insulating concrete and a protective and finishing layer, characterized in that the panel along the perimeter is made with an insert of effective insulation installed in the layer of structural and heat-insulating concrete and facing the joined edges of the panel, and the depth of the insert in the body of the panel is not less than the thickness of the floor panel or the inner wall of the building.

Images