RU51051U1 - WALL PROTECTION (OPTIONS) - Google Patents

Abstract

The utility model relates to the field of construction and can be used in the construction of building envelopes of buildings and structures. The objective of the claimed utility model is to increase the rigidity of a building wall and its adaptability. The problem is solved due to the fact that the inner bearing layer of the wall is made of reinforced concrete thin-layer elements reinforced with spatial or flat frames, monolithic in them with their bases, giving stiffness to the elements, and open parts located in the insulating layer and connected to the outer finishing layer by means of remote and guide fasteners, forming a ventilation gap. Another solution to this problem is a wall enclosure in which the carrier layer is made of reinforced concrete thin-layer elements reinforced with spatial or flat frames, monolithic in them with their bases, which add rigidity to the elements, and with open parts located in the heat-insulating layer, on top of which the outer decorative layer is applied plaster.

Description

The utility model relates to the field of construction and can be used in the construction of building envelopes of buildings and structures.

Known ventilated external fencing of the building (USSR AS No. 1491985, E 04 B 2/42, 1/70, 06/17/86), including the outer, inner and thermal insulation layers, as well as the air gap, while granules of polystyrene foam are used as filler of the thermal insulation layer bound by latex and cement.

This solution does not provide increased rigidity.

The closest technical solution to the claimed utility model is the wall enclosure of the building (RF Patent No. 2144117, E 04 B 2/42, 07/30/97), including the outer and inner layers between which the insulation is attached, attached to the inner layer by mounting ties made in the form perforated profiles with bends.

The disadvantages of this technical solution are the lack of manufacturability and rigidity of the wall fence.

The objective of the claimed utility model is to increase the rigidity of a building wall and its adaptability.

The problem is solved due to the fact that the inner bearing layer of the wall is made of reinforced concrete thin-layer elements reinforced with spatial or flat frames, monolithic in them with their bases, giving stiffness to the elements, and open parts located in the insulating layer and connected to the outer finishing layer by means of remote and guide fasteners, forming a ventilation gap.

Another solution to this problem is a wall enclosure in which the carrier layer is made of reinforced concrete thin-layer elements reinforced with spatial or flat frames, monolithic in them with their bases, which add rigidity to the elements, and with open parts located in the heat-insulating layer, on top of which the outer decorative layer is applied plaster.

The heat-insulating layer, both in that and in other variants, can be fixed together with concrete of thin-layer elements or be made of piece, pouring or combined material with fastening with expansion bolt shields or glued-dowel connection. And for additional structural rigidity, the open parts of the frames can be monolithic in the concrete of the inner bearing layer with the formation of stiffeners.

As the material of thin-layer reinforced concrete elements, structural and heat-insulating material, for example, reinforced expanded clay concrete, is used.

Figure 1 shows a wall fence, figure 2 shows a sectional wall fence, figure 3 shows a wall fence (option), and figure 4 shows a sectional wall fence (option).

The wall enclosure contains an inner supporting layer of thin-layer reinforced concrete elements 1 reinforced with spatial or flat frames 2, monolithic in them with their bases, and with open parts located in the heat-insulating layer 3, which, if necessary, can be permanently bonded to reinforced concrete of the thin-layer element 1 or be made from piece, pouring or combination material with fastening with dowels 4 or glued-dowel connection, including with anchoring in frame 2, and connection nnym with an outer finishing layer 5 by means of distance 6 and 7 guiding fasteners, forming a ventilation gap 8. In the zones skeletons of compounds 2 with remote fastening elements 6 may be arranged sound insulation spacers 9. Above the heat insulating layer coating 10 is installed windshield.

In another embodiment of the claimed technical solution, the inner carrier layer 1 of reinforced concrete thin-layer elements is reinforced with spatial or flat frames 2, monolithic in them with their bases, and with open parts located in the heat-insulating layer 3, on top of which the outer finishing layer 11 of decorative plaster is applied. The heat-insulating layer 3, if necessary, can be permanently bonded to reinforced concrete of the thin-layer element 1 or made of piece, casting or combined material with fastening with dowels 4 or glued-dowel connection, including with anchoring in the frame 2.

In both cases, the open parts of the frames 2 can be monolithic in the concrete of the inner carrier layer 1, if necessary, with the formation of stiffeners.

Also, in both cases, thin-layer reinforced concrete reinforced elements in the areas of the window and door blocks may have tides of reinforced concrete (not shown in the figures).

The use of ties in the form of frames connected on the one hand in one piece with concrete of the inner supporting layer, and on the other hand with the outer layer provides increased operational reliability and rigidity of the wall structure, and the use of materials with low thermal conductivity and, if necessary, heat and sound insulation gaskets for remote fasteners located at the junction of the frames with the remote elements, will eliminate the "cold bridges" and provide increased heat resistance with shadows.

The use of a variant with a coating of decorative plaster allows to increase the degree of manufacturability by reducing operations during the construction of a wall fence while maintaining the rigidity of the wall.

Claims (11)

1. Wall fencing, including an internal supporting, external finishing and heat-insulating layers placed between them, characterized in that the internal supporting layer is made of reinforced concrete thin-layer elements reinforced with spatial or flat frames, monolithic in them with their bases, and open parts located in the heat-insulating layer and connected to the outer finishing layer by means of distance and guide fasteners, forming a ventilation gap. 2. Wall fencing according to claim 1, characterized in that the heat-insulating layer can be bonded inseparably with the material of a thin-layer reinforced concrete element or be made of piece, casting or combined material with fastening with dowels or glued joint. 3. The wall fence according to claim 1, characterized in that the thin-layer reinforced concrete reinforced elements have tides of reinforced concrete in the areas of the window and door blocks. 4. Wall fencing according to claim 1, characterized in that the reinforced concrete thin-layer elements are made of structural heat-insulating material. 5. Wall fencing according to claim 1, characterized in that the exposed parts of the frames can be monolithic in concrete with the formation of stiffeners. 6. Wall fencing according to claim 1, characterized in that heat and sound insulating gaskets are located in the zones of the joints of the frames with the remote fasteners. 7. Wall fencing, including an internal supporting, heat-insulating and external finishing layers, characterized in that the internal supporting layer is made of reinforced concrete thin-layer elements reinforced with spatial or flat frames, monolithic in them with their bases, and open parts located in a heat-insulating layer, on top of which applied the outer finishing layer of decorative plaster. 8. Wall fencing according to claim 7, characterized in that the heat-insulating layer can be bonded inseparably with the material of a thin-layer reinforced concrete element or be made of piece, pouring or combined material with fastening with dowels or glued-dowel connection. 9. The wall fence according to claim 7, characterized in that the thin-layer reinforced concrete reinforced elements have tides of reinforced concrete in the areas of the window and door blocks. 10. Wall fencing according to claim 7, characterized in that the reinforced concrete thin-layer elements are made of structural heat-insulating material. 11. Wall fencing according to claim 7, characterized in that the exposed parts of the frames can be monolithic in concrete with the formation of stiffeners.