RU2607562C1 - Wall panel - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, in particular to wall panels for constructing buildings, houses and similar structures. Wall panel contains a concrete plate, two crossbars, two ribs, the first heat-insulating plate, two second heat-insulating plates, two third heat-insulating plates, two U-shaped elements. Concrete plate is equipped with the outer surface, the inner surface, two side surfaces, the upper and the lower surfaces. Outer surface and the inner surface are made in the form of rectangles and have larger square if compared to the other surfaces of the concrete plate. Side surfaces are located on opposite sides, the upper surface is located on opposite side from the lower surface. One crossbar is located on the outer surface along its upper edge from one side surface to the other one, the other crossbar is located on the outer surface along its lower edge from one side surface to the other one. Ribs are arranged on the outer surface parallel to the side surfaces from the upper surface to the lower surface. Herewith the ribs are spaced from an appropriate to each of them side surface. Surface of each of the ribs opposite to the outer surface is located from the outer surface at a larger distance than surfaces of the crossbars opposite to the outer surface. First heat-insulating plate is arranged between the ribs flush with the ribs surfaces opposite to the outer surface. Second heat-insulating plates are located along corresponding to each of them ribs and with overlap onto the first heat-insulating plates. Each U-shaped element is arranged vertically so, that it covers the relevant second heat-insulating plate on the side opposite to the outer surface. Third heat-insulating plates are located on the side of ribs facing towards the appropriate side surface, between crossbars, from the outer surface to the surface of large rib opposite to the outer surface.

EFFECT: technical result is improvement of heat-insulating properties of joints of adjacent wall panels and arranging the concrete plate in the zone of positive temperatures in case if there is heating of the building.

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Description

Technical field

The invention relates to the field of construction, in particular to wall panels for the construction of buildings, houses and similar structures.

State of the art

A device is known as a wall panel (see patent for utility model of the Russian Federation No. 104212, publication date 05/10/2011). The wall panel consists of concrete pillars, concrete slabs and concrete cross members, made at the same time. The concrete slab on the side of the concrete racks and the concrete racks are lined with insulating material. The position of the heat-insulating slabs and the fixation of their relative position with the concrete slab is ensured by pressing the heat-insulating slabs to the concrete slab by the lateral parts of the first U-shaped elements.

The closest technical solution (prototype) is a wall panel (see patent for utility model of the Russian Federation No. 104580, publication date 05/20/2011). The wall panel consists of concrete ribs, concrete slabs and concrete cross members, made at the same time. Moreover, during installation, the wall panel is positioned so that the ribs face the inside of the building. The concrete slab on the side of the concrete ribs and concrete ribs are lined with insulating material. The position of the heat-insulating slabs and the fixation of their relative position with the concrete slab are ensured by pressing the heat-insulating slabs to the concrete slab by the lateral parts of the first U-shaped elements.

The disadvantages of the known technical solutions are the insufficient thermal insulation properties of the joints of adjacent wall panels and the location of the concrete part of the concrete slab in the zone of possible temperature changes from negative to positive zones and vice versa.

The technical result of the invention is to increase the insulating properties of the joints of adjacent wall panels and the location of the concrete slab in the zone of positive temperatures in case heating of the building is provided.

The technical result is achieved due to the fact that in the wall panel containing the concrete slab, two crossbars, two ribs, the first heat-insulating slab, two second heat-insulating slabs, two third heat-insulating slabs, two U-shaped elements, and the concrete slab is provided with an external surface, inner surface, two side surfaces, upper surface and lower surface; the outer surface and the inner surface are made in the form of rectangles and have a larger area compared to other surfaces of the concrete slab, the side surfaces are located on opposite sides, the upper surface is located on the opposite side of the lower surface, one cross member is located on the outer surface along its upper edge from one side surface to the other, and the other cross member is located on the outer surface along its lower edge from one side surface to the other, the ribs are placed on the outer surface parallel to the lateral surfaces from the upper surface to the lower surface, while the ribs are indented from the corresponding lateral surface for each of them, in addition, the surface of each of the ribs, opposite the outer surface, is located from the outer surface at a greater distance than the surface of the cross members opposite the outer surface, the first heat-insulating plate is located between the ribs flush with the surfaces of the ribs opposite the outer surface, the second is warm insulation boards are located along the edges of each of them and overlapping the first insulation boards, and each U-shaped element is placed vertically so that it covers the corresponding second insulation board from the side opposite to the outer surface, the third insulation boards are located on the sides of the ribs facing the corresponding lateral surface, between the cross members, from the outer surface to the surface of the large rib opposite the outer surface.

Brief Description of the Drawings

The invention is illustrated by drawings (FIGS. 1-4), where in FIG. 1 shows the construction of a concrete layer of a reinforced concrete block panel; FIG. 2 shows a horizontal section through a reinforced concrete block panel; FIG. 3 shows a vertical section through a reinforced concrete block panel; FIG. 4 shows a general view of a reinforced concrete block panel.

Disclosure of invention

The drawing indicates: upper surface 1, inner surface 2, side surface 3, cross member 4, lower surface 5, rib 6, protruding part 7, niche 8, concrete slab 9, first heat-insulating slab 10, second heat-insulating slab 11, U-shaped element 12, the central part 13, the side part 14, the outer surface 15, the third heat-insulating plate 16, the protrusion 17.

The main elements of the device are a concrete slab 9, two crossbars 4 and two ribs 6. Typically, a concrete slab 9, crossbars 4 and two ribs 6 are performed at the same time.

The concrete slab 9 is made in the shape of a rectangular parallelepiped and has two large surface areas — the inner surface 2 and the outer surface 15. After installation, the inner surface 2 is facing the inside of the building, and the outer surface 15 is facing out. The position of the product, despite the fact that it is a reinforced concrete block panel, in space during its standard use is such that the inner surface 2 and the outer surface 15 are arranged vertically. The side surfaces 3 are located between the outer surface 15 and the inner surface 2 and also occupy a vertical position. The upper surface 1 and the lower surface 7 are located according to the standard position of the product when it is used.

The cross members 4 are made in the form of a bar with a rectangular cross section or a trapezoidal cross section. The dimensions of the cross member 4 in the cross section are smaller than the rest of its dimensions. Thus, the cross members 4 have two end sides, two large lateral sides and two small lateral sides. The cross members 4 are adjacent to the outer surface 15 of the concrete slab 9 of one of its small lateral sides. One cross member 4 is located along the upper edge of the outer surface 15 (upper cross member), the other along the lower edge of the outer surface 15 (lower cross member). The size of the cross member 4 in the horizontal direction usually coincides with the corresponding size of the concrete slab 9 (also the sizes may vary).

The ribs 6 are made in the form of a bar with a rectangular cross section or a trapezoidal cross section. The dimensions of the ribs 6 in the cross section are smaller than the rest of its dimensions. The ribs 6 are adjacent to the outer surface 15 of the concrete slab 9 of the smaller of its larger sides. The ribs 6 are arranged generally vertically, while being perpendicular to the cross members 4. The ribs 6 are located near two side surfaces 3. The ribs 6 are not flush with the side surface 3. Thus, the side of the rib 6 facing toward the side surface 3 is offset from the side surface 3 at a distance. The distance between the outer surface 15 and the opposite side of the rib 6 is greater than the distance between the outer surface 15 and the opposite side of the cross member 4. Thus, the rib 6 has a protruding (above the cross) part 7. The protruding part 7 is located between the side of the rib 6 and the side cross members 4 opposite the outer surface 15. Cross members 4 and ribs 6 on the concrete slab 9 form a kind of niche 8.

Between the ribs 6 and the cross members 4 (in the recess 8), a first heat-insulating plate 10 is arranged. The first heat-insulating plate 10 usually completely occupies the space between the ribs 6 and the cross-members 4. The first heat-insulating plate 10 is in shape an object whose two sides have larger areas than other sides, and these large sides are usually parallel to each other. The first heat-insulating slab 10 of one of its large sides is adjacent to a part of the outer surface 15 of the concrete slab 9, bounded by ribs 6 and cross members 4. The second large side is located at the same distance above the outer surface 15 of the concrete slab 9, as the most remote from the outer surface 15 the concrete slab 9 is the side of the rib 6. On the side of the first heat-insulating slab 10, which is adjacent to the upper cross member 4, a protrusion 17 is made. The protrusion 17 is parallel to the upper cross member 4 and is flush with the big side the first heat-insulating layer 10 of the opposite outer surface 15. The protrusion 17 is adjacent to the side of the cross member 4, opposite the outer surface 15 of the concrete slab 9, and occupies the space between the protruding parts 7 of adjacent ribs 6. Similarly, on the first heat-insulating plate 10, a second protrusion 17 is made adjacent to the lower the cross member 4. Thus, the product element formed by two ribs 6, parts of the cross members 4, limited by the ribs 6, a concrete slab 9 and the first heat-insulating slab 10, forms an object in shape corresponding to stvuyuschy rectangular parallelepiped.

The second heat-insulating plate 11 in shape corresponds to a rectangular parallelepiped, one of the linear dimensions of which significantly exceeds the other two. The second heat-insulating plate 11 is adjacent with its one big side to the side of the rib 6 opposite the outer surface 15 of the concrete slab 9. The second heat-insulating plate 11 is placed along the edge 6, that is, the direction of the largest linear dimension of the second heat-insulating plate 11 is parallel to the rib 6. The size of the large side of the second heat-insulating slab 11 exceeds the size of the side of the ribs 6, opposite the outer surface 15 of the concrete slab 9, in the horizontal direction. Thus, the middle of the large side of the second heat-insulating plate 11 is aligned (in the center) with the side of the rib 6 opposite the outer surface 15 of the concrete slab 9, and the other two parts of the area on both sides of the middle lie respectively on the first heat-insulating plate 10 and the third heat-insulating plate 16 .

The third heat-insulating plate 16 in shape usually corresponds to a rectangular parallelepiped. The third heat-insulating plate 16 is adjacent to the side of the rib 6, which is facing the side of the side surface 3. The third heat-insulating plate 16 is located between the part of the outer surface 15 of the concrete slab 9, limited by the edge 6, the side surface 3 and the cross members 4, and the second heat-insulating plate 11, adjacent to this extreme edge 6. Typically, the third heat-insulating plate 16 is made so that its side opposite the edge 6 is flush with the side surface 3 of the concrete slab 9. In the same way, another th third insulating plate 16, which is adjacent to another edge 6.

The U-shaped element 12 is made of sheet material (e.g., metal). The U-shaped element 12 consists of a central portion 13 and side portions 14. A central portion 13 is located between the side portions 14 to form a U-shape in cross section. The U-shaped element 12 is arranged in such a way that its central part 13 is adjacent to the second heat-insulating plate 11 on its large side remote from the rib 6, and the side parts 14 surround the second heat-insulating plate 11 along its two lateral (smaller of the larger) sides.

The implementation of the invention

In the case of using the above elements and means, the invention is implemented as follows.

Concrete slab 9, the cross member 4 and the ribs 6 perform at the same time. In the prepared form, which is placed horizontally, reinforcing and other embedded elements are laid, then mortar is poured. The hardened mortar forms a single structure from a concrete slab 9, cross members 4 and ribs 6.

The first heat-insulating plate 10, the second heat-insulating plate 11 and the third heat-insulating plate 16 can be made of heat-insulating material, for example: polystyrene foam, foamed glass, glass wool, mineral wool based on basalt rocks, extruded polystyrene foam and various other heat-insulating materials.

The U-shaped element 12 is made of sheet steel, usually by rolling immediately to the desired U-shaped profile or flexible laminated sheet to the U-shaped profile. On the U-shaped element 12 make the necessary fasteners.

A first heat-insulating plate 10 is laid in a niche 8 between the ribs 6 and the cross-members 4 so that its protrusions 17 lie against the side of the cross-member 4 opposite the outer surface 15 of the concrete slab 9. Third heat-insulating slabs 16 are applied to the ribs 6 from the side of the corresponding side surfaces 3. the heat-insulating plates 11 are placed in separate U-shaped elements 12. Thus, the U-shaped element 12 covers the second heat-insulating plate 11. The second heat-insulating plate 11 together with its covering U-shaped element 12 aspolagayut along the rib 6. The U-shaped member 12 is connected to the rib 6 by a special anchors. Due to this, the U-shaped element 12 presses the second heat-insulating plate 11 against the rib 6, and the second heat-insulating plate 11 with its edges extending beyond the edge 6 holds the first heat-insulating plate 10 and the third heat-insulating plate 16. Similarly, another second heat-insulating plate 11, located on the other rib 6, holds the first heat-insulating plate 10 and the other third heat-insulating plate 16 located at the other rib 6.

The wall panel design realized in this way can be used in construction. The wall panel can serve as a supporting structure. The wall panel is positioned relative to the future building so that its inner surface 2 will face the inside of the building, and the outer surface 15 will face outward. Thus, the first heat-insulating plate 10, the second heat-insulating plate 11, the third heat-insulating plate 16, the ribs 6 and the U-shaped elements 12 are facing the outside of the building.

In the case of year-round heating of the building, part of the wall panel - concrete slabs 9 - will be in the zone of positive temperatures year-round, due to the fact that the insulation is made outside of the concrete slab 9.

Typically, a wall panel is made to the full height of the floor. Wall panels can be used to form both blind walls and walls with window or doorways. In the case when a wall is formed with a window or doorway, wall panels are used as two panels located on two sides of the aperture. In this case, wall panels are made to the full height of the floor and play the role of a supporting structure. On two wall panels located on both sides of the aperture, other panels are located located above and below the aperture.

The wall panels made in this way have a high factory readiness: the wall panels are insulated, the inner side 2 of the concrete slab 9 is prepared for painting, on the U-shaped elements 12 it is possible to fasten the facing slabs, for example, a ventilated facade.

Thus, the implementation of the wall panel in the manner presented above provides an increase in the thermal insulation properties of the joints of adjacent reinforced concrete block panels and the location of the concrete slab 9 in the zone of positive temperatures in case heating is provided for the building.

Claims (1)

A wall panel comprising a concrete slab, two cross members, two ribs, a first heat-insulating slab, two second heat-insulating slabs, two third heat-insulating slabs, two U-shaped elements, wherein the concrete slab is provided with an outer surface, an inner surface, two side surfaces, an upper surface and bottom surface; the outer surface and the inner surface are made in the form of rectangles and have a larger area compared to other surfaces of the concrete slab, the side surfaces are located on opposite sides, the upper surface is located on the opposite side of the lower surface, one cross member is located on the outer surface along its upper edge from one side surface to the other, another cross member is located on the outer surface along its lower edge from one side surface to the other, the ribs are placed on and the outer surface parallel to the side surfaces from the upper surface to the lower surface, while the ribs are indented from the corresponding lateral surface for each of them, in addition, the surface of each of the ribs, opposite the outer surface, is located from the outer surface at a greater distance than the surface of the cross members opposite the outer surface, the first heat-insulating plate is located between the ribs flush with the surfaces of the ribs opposite the outer surface, the second heat the insulating boards are located along the respective edges of them and overlapping the first heat-insulating plates, and each U-shaped element is placed vertically so that it covers the corresponding second heat-insulating plate from the side opposite to the outer surface, the third heat-insulating plates are located on the sides of the ribs facing the corresponding lateral surface, between the cross members, from the outer surface to the surface of the large rib opposite the outer surface.

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