RU104580U1 - WALL PANEL - Google Patents

Abstract

 A wall panel containing a concrete slab with an outer surface and an inner surface located on the opposite side of the concrete slab, an inner surface and an outer surface are made in the form of a rectangle, on the side of the inner surface on the concrete slab are ribs connected to the concrete slab located parallel to each other and connected with a concrete slab, two crossbars located perpendicular to the ribs, while the extreme ribs and crossbars are placed along the edges of the inner surface and non-concrete, on the ribs are placed the first U-shaped elements in contact with their inner surface with the outer surface of the corresponding rib, on the side of the outer surface of the first U-shaped element there is a second U-shaped element in contact with its inner surface with the outer surface of the first P -shaped element, in the second U-shaped element, a partially cut-out connecting element is made, inserted with its part inside the rib until the solidification process of the concrete of the rib is completed, between heat insulation boards are adjacent to the inner surface by sconces, moreover, the edges of the insulation plate facing the ribs are located between the first U-shaped element and the inner surface, in addition, the first U-shaped elements are made of heat-insulating material, the second U-shaped elements and a partially cut out connecting element made of metal, and insulating elements are attached to the surfaces of the cross members facing the ribs and facing in the opposite direction from the concrete slab.

Description

Technical field

The utility model 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 - wall sandwich panels (). The wall sandwich panel consists of two layers of galvanized sheet steel with a multilayer finish and a polymer coating, between which are located structural lamellas of mineral wool based on basalt fiber. In this case, the layers are interconnected using a two-component synthetic adhesive on a polyurethane basis. The wall sandwich panel is equipped with labyrinth locking joints. The known device is used in the construction of buildings, houses and similar structures.

The disadvantages of the known technical solutions are the lack of reliability and manufacturability.

The closest technical solution (prototype) is a three-layer wall panel (). The wall panel is made of three layers. Moreover, the structure of wall panels includes: concrete-insulation-concrete. Polystyrene with an additional layer of a special heat-saving film was used as a heater. The known device is used in the construction of buildings, houses and similar structures.

The disadvantages of the known technical solutions are the lack of reliability and manufacturability.

The purpose of the proposed utility model is to increase the reliability and manufacturability of the application.

This goal is achieved due to the fact that in a wall panel containing a concrete slab with an outer surface and an inner surface located on the opposite side of the concrete slab, the inner surface and the outer surface are made in the form of a rectangle, and connected to the concrete slab on the side of the inner surface ribs located parallel to each other, and two cross members connected to the concrete slab, perpendicular to the ribs, with the extreme ribs and cross members located on the edges of the inner surface and made of concrete, the first U-shaped elements are placed on the ribs in contact with their inner surface with the outer surface of the corresponding rib, on the side of the outer surface of the first U-shaped element there is a second U-shaped element in contact with its inner the surface with the outer surface of the first U-shaped element, in the second U-shaped element a partially cut out connecting element is inserted, which is inserted with its part inside the rib to the end hardening process of concrete, ribs, heat-insulating plates adjoin the ribs between the ribs, and the edges of the heat-insulating plate facing the ribs are located between the first U-shaped element and the inner surface, in addition, the first U-shaped elements are made of heat-insulating material, the second U-shaped the elements and the partially cut-out connecting element are made of metal, and to the surfaces of the cross members facing the ribs and facing in the opposite direction from the concrete slab insulation elements are connected.

Brief Description of the Drawings

The utility model is illustrated by the drawing (Fig.1, 2), where Fig.1 shows the appearance of the device, Fig.2 shows its cross section.

Utility Model Disclosure

The drawing shows: cross member 1, rib 2, outer surface 3, inner surface 4, hole 5, heat-insulating plate 6, holder 7, reinforcing bar 8, concrete slab 9, fixing element 10, first side part 11, second side part 12, the second Central part 13, the first Central part 14, the first U-shaped element 15, the reinforcement 16 in the body of the ribs 2, the connecting element 17, the second U-shaped element 18.

The main elements of the device are concrete slab 9, ribs 2 and cross members 1.

The concrete slab 9 in shape is an object whose two sides have larger areas than the other sides, and these large sides are parallel to each other. In this case, one of the sides of the concrete slab with a larger area is further called the outer surface 3 of the device. On the other side with a larger area, the concrete slab 9 is connected (in particular, made at the same time) with the ribs 2 and cross members 1, as well as heat-insulating slabs 6 and insulation elements. Concrete slab 9 is made of concrete of the corresponding brand, if necessary with additional components that adjust its hardening speed, ductility, strength, etc. Concrete slab 9 is reinforced. Reinforcement of the concrete slab 9 can be performed using a reinforcing metal mesh or using reinforcing rods 8 located inside the concrete slab 9. At the same time, various holders can be used to arrange the reinforcing rods 8, for example, an asterisk or a highchair ", Or" stand ", or a wire bent in a certain way, or any other clamps.

The heat-insulating plate 6 in shape is an object whose two sides have larger areas than the other sides, and these large sides are parallel to each other. Heat-insulating plates 6 of one of the sides with a larger area are attached (adjoining) to the concrete slab 9. Moreover, the opposite sides of the heat-insulating plates 6 with a larger area form part of the inside of the device. The inner side of the device refers to the surface of the heat-insulating plates 6, which after the construction of the building will relate to its internal part, forming the interior of the constructed object. The heat-insulating plate 6 can be made of heat-insulating material, for example expanded polystyrene, foamed glass, glass wool, mineral wool based on basalt rocks, extruded polystyrene foam and various other heat-insulating materials. Each heat-insulating plate 6 is located between two corresponding ribs 2 and cross members 1.

The rib 2 is made in the form of a bar with a rectangular or similar or close cross section, i.e. the dimensions of the rib 2 in the cross section are smaller than the rest of its dimensions. The ribs 2 are located parallel to each other, usually at the same distance from each other. Each rib 2 is connected (or made integral with the concrete slab 9) of one of its large sides to the concrete slab 9 from the side of the inner surface 4 of the concrete slab 9, which is opposite to the outer surface 3. The rib 2 protrudes above the inner surface 4, rib 2 and cross member 1 form among themselves the likeness of niches.

The first U-shaped element 15 consists of two first side parts 11 and a first central part 14. The first central part 14 and the first side parts 11 are made in the form of rectangular stripes or plates. The first central part 14 and the first side parts 11 are made of insulating material. The first central part 14 is located between the first side parts 11 perpendicular to the first side parts, with the formation in the cross section of the figure of a U-shaped shape. Moreover, the connection of the first Central part 14 and the first side parts 11 is made along their length, in the particular case they can be made at the same time.

The first U-shaped element 15 is attached to the rib 2. In this case, the first central part 14 is connected to the side of the rib 2 opposite to the connection of the rib 2 with the concrete slab 9, and the first side parts 11 are connected to two other (adjacent to the indicated) sides of the rib 2. Along the edge of the first side parts 11, facing the concrete slab 9, the first side parts 11 are provided with fixing elements for connecting the first U-shaped element 15 with the corresponding heat-insulating plates 6 (or for holding said heat-insulating Lit. 6).

The locking element in a particular case is made as a cutout along the edge of the first side parts 11, on which the edges of the heat-insulating plates 6 rest. It is also possible to make corresponding cutouts on the heat-insulating plates 6, while the edges of the first side parts 11 are at least partially located in these cut-outs .

The second U-shaped element 18 consists of two second side parts 12 and a second central part 13. The second central part 13 and the second side parts 12 are made in the form of rectangular stripes. The second central part 13 and the second side parts 12 are made of metal. The second central part 13 is located between the second side parts 12 perpendicular to the second side parts 12, with the formation in cross section of a figure of a U-shaped shape. Moreover, the connection of the second Central part 13 and the second side parts 12 is made along their length. In general, the second U-shaped element 18 is made like a groove of a rectangular, trapezoidal or close to them section.

The second U-shaped element 18 is attached (adjacent) to the first U-shaped element 15 by means of a connecting element 17. In this case, the second central part 13 is adjacent to the first central part 14, and the second side parts 12 are adjacent to the first side parts 11.

The connecting element 17 is configured to attach to the rib 2 of the first U-shaped element 15 and the second U-shaped element 18. In the particular case, the connecting element 17 is made as a partial cutout in the second central part 13, bent towards the rib 2 and passing through the first the central part 14 and partially located in the rib 2.

In the ribs 2, holes 5 are made, designed to accommodate various communication systems, such as pipes or wires. The holes 5 are located perpendicular to the ribs 2 and parallel to the concrete slab 9 and the heat-insulating slabs 6. The holes 5 are made through, passing through the rib 2. In each rib 2 can be made several holes 5. At the same time, holes 5 made in different ribs 2 can be located in one straight line for the convenience of laying the necessary communications.

The cross member 1 is made in the form of a beam (or a similar or close object) with a quadrangular cross section. The cross member 1 is perpendicular to the ribs 2. In this case, the cross members 1 and two extreme ribs 2 are located around the device from the side of the inner surface 4 of the concrete slab 9, opposite the outer surface 3. The structure of the cross members 1 is made similar to the structure of the ribs 2. The cross member 1 can be reinforced. At the same time, special openings are made in the cross members 1, perpendicular to the cross members 1 and parallel to the concrete slab 9 and heat-insulating slabs 6. Special openings are intended for connecting wall panels located on different floors, and also for attaching window sills.

The device may have door or window openings. To ensure sufficient strength at the location of the opening, it is possible to perform double ribs 2, i.e. the implementation of two ribs 2, located close to each other, or the implementation of the ribs 2 of a greater width than the remaining ribs 2, for example double width. At the same time, an additional rib 2 or an additional cross member 1 is made above the door or window opening, which is arranged perpendicular to the above-mentioned ribs 2. In the case of a window opening made in the device, an additional rib 2 or additional cross member 1 is also performed under the window opening. At the same time, two ribs 2 and at least one additional rib 2 or additional cross member 1 are located around the perimeter of the door or window opening.

Utility Model Implementation

The utility model is implemented in a particular case as follows.

The worker places on the horizontal surface, for example on the table, the second U-shaped elements (their required number) 18 parallel to each other at the same distance from each other, providing, in the future, the possibility of placing on the first side parts 11 two adjacent first U-shaped elements 15 of the respective heat-insulating boards 6. The second central part 13 is horizontal, and the second side parts 12 are vertical. In this case, the connecting elements 17 are bent up.

Next, the first U-shaped elements 15 are placed in the second U-shaped elements 18. The first central part 14 is adjacent to the second central part 13, the first side part 11 is adjacent to the second side part 12 and is in the gap between the second side parts 12 surrounding hereinafter, one rib 2, and the connecting elements 17 pass through the first central part 14.

After that, heat-insulating plates 6 are placed on the first side parts 11 of the corresponding first U-shaped elements 15 and connects them with the help of the fixing elements 10. In the particular case, the edges of the heat-insulating plates 6 are placed in cutouts made along the edge of the first side parts 11. Next, the cross members are similarly formed 1. Thus, the inner side of the device is formed.

To form holes 5 and special holes in the cross members, holes are made in the first side parts 11 and the insulation elements of the cross members 1 through which the corresponding tubes are passed.

The worker has on the perimeter a shape made of rectangular metal plane trees, designed to form the edges of the concrete slab 9 when pouring concrete.

Next, reinforcing rods 8 are placed inside the first U-shaped elements 15, and reinforcing rods 8 are also placed around the perimeter of the device and on the heat-insulating plates 6.

Mortar is poured into the mold. As a result of the hardening of the mortar, ribs 2 and a concrete slab are formed 9. The user removes the device from the mold. Next, the user removes pipes designed to form holes 5 and special holes in the cross members. At the same time, by fixing part of the connecting elements 17 in the ribs 2, the second U-shaped elements 18 are fixed and fixed in the device. In this case, the second U-shaped elements 18 press the corresponding first U-shaped elements 15 to the ribs 2 and the concrete slab 9 and then hold them. The position of the heat-insulating boards and the fixation of their relative position with the concrete slab 9 is ensured by pressing the heat-insulating boards to the concrete slab with the first side parts.

The device is mounted vertically on one of the crossbars on a previously prepared foundation for the construction of the building and is fixed as necessary. The ribs 2 are arranged vertically, i.e. perpendicular to the surface of the foundation. In this case, the inner surface is turned inside the future room, and the outer surface is turned outside the building. The user locates several devices and connects them together from the side of the extreme ribs 2. Thus, the user forms a closed loop of their devices that perform the function of the walls of the building. Next, the user on the cross members 1, opposite the connection of the devices to the foundation, fixes the floor, and the devices corresponding to the next floor of the building are located on the ends of the device adjacent to the cross member 1. Thus, the building as a whole and the corresponding premises are formed.

Thus, the implementation of the device with the indicated design features provides increased reliability by eliminating damage to the insulation during manufacturing, transportation, storage and installation of the product, as well as improving manufacturability due to the presence of the necessary technological elements that ensure the connection of the interior decoration, installation of the products together during installation long and multi-storey buildings.

Claims (1)

A wall panel containing a concrete slab with an outer surface and an inner surface located on the opposite side of the concrete slab, an inner surface and an outer surface are made in the form of a rectangle, on the side of the inner surface on the concrete slab are ribs connected to the concrete slab located parallel to each other and connected with a concrete slab, two crossbars located perpendicular to the ribs, while the extreme ribs and crossbars are placed along the edges of the inner surface and non-concrete, on the ribs are placed the first U-shaped elements in contact with their inner surface with the outer surface of the corresponding rib, on the side of the outer surface of the first U-shaped element there is a second U-shaped element in contact with its inner surface with the outer surface of the first P -shaped element, in the second U-shaped element, a partially cut-out connecting element is made, inserted with its part inside the rib until the solidification process of the concrete of the rib is completed, between heat insulation boards are adjacent to the inner surface by sconces, moreover, the edges of the insulation plate facing the ribs are located between the first U-shaped element and the inner surface, in addition, the first U-shaped elements are made of heat-insulating material, the second U-shaped elements and a partially cut out connecting element made of metal, and insulating elements are attached to the surfaces of the cross members facing the ribs and facing in the opposite direction from the concrete slab.