RU104212U1 - 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, the inner surface and the outer surface are made in the form of a rectangle and a larger area relative to other surfaces of the concrete slab, connected to the concrete on the side of the inner surface slabs concrete racks located parallel to each other, and two crossbars connected to the concrete slab, perpendicular to the concrete racks Am, while the extreme concrete pillars and crossbars are placed along the edges of the inner surface and are made of concrete, the concrete slab on the side of the inner surface is lined with heat-insulating plates, the concrete pillars on the side of the inner surface are lined with the first U-shaped elements made of heat-insulating material, and the cross-pieces with the sides of the inner surface are lined with heat-insulating material, from the side of the first U-shaped elements opposite the concrete stand, on the first U-shaped element A second U-shaped element made of steel is similar to it, in the second U-shaped element there are made at least two partially cut-out connecting elements with a recess, inserted with their part inside the concrete pillar until the concrete hardens the concrete concrete, so that the recess facing the concrete slab, holders are inserted into the device, and these holders are made of spring steel wire, wave-like curved in the middle part with the formation of depressions, the holders are fixed with

Description

Technical field

The utility model relates to the field of construction, in particular to strengthening, reinforcing wall panels.

State of the art

A device is known - a reinforced wall panel (http://www.novincom.ru/photo/?t=tblhot&iid=9&foto=1206098445.JPG). The reinforced wall panel consists of a concrete slab, inside of which reinforcing elements in the form of metal rods are located around the entire perimeter. Reinforcing rods are arranged in a grid, i.e. in two directions perpendicular to each other. In this case, the reinforcing rods located in different directions are interconnected.

A disadvantage of the known technical solution is the lack of strength, due to inaccurate positioning of the reinforcing elements in the manufacture of wall panels.

The purpose of the proposed utility model is to increase the strength of the device.

This goal is achieved due to the fact that the wall panel contains 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 a larger area relative to other surfaces of the concrete slab, on the side of the inner surface on the concrete slab are concrete racks connected to the concrete slab, located parallel to each other, and two cross members connected to the concrete slab, p perpendicular to concrete racks, the extreme concrete racks and crossbars are placed on the edges of the inner surface and are made of concrete, the concrete slab on the inner surface is lined with heat-insulating plates, the concrete racks on the inner surface are lined with the first U-shaped elements made of heat-insulating material, and the cross-pieces on the side of the inner surface are lined with heat-insulating material, on the side of the first U-shaped elements, opposite the concrete the second U-shaped element, a second U-shaped element made of steel similar to it is placed, the second U-shaped element is made of at least two partially cut-out connecting elements with a recess, inserted with their part inside the concrete rack until the concrete hardening process is completed concrete racks so that the recess is directed towards the concrete slab, holders are inserted into the device, said holders made of spring steel wire, curved in the middle part with a waveform By calling cavities, the holders are fixed with their ends in heat-insulating plates and / or the first U-shaped elements, reinforcing rods are placed in concrete racks and / or concrete slabs, which contact at least two holders located in their hollows and oriented parallel to concrete racks, a reinforcing rod is also placed in the concrete strut, which is in contact with the recesses of the connecting elements and oriented parallel to the concrete struts, reinforcing rods oriented parallel to crossbars.

Brief Description of the Drawings

The utility model is illustrated in the drawing, which shows the device in section.

Utility Model Disclosure

The drawing shows: concrete slab 1, first holder 2, reinforcing rod 3, connecting element 4, heat-insulating plate 5, second holder 6, convex part 7, depression 8, first U-shaped element 9, second U-shaped element 10, concrete rack 11, rib 12, recess 13, the first peak 14.

The main elements of the device are concrete slab 1, heat-insulating slab 5, ribs 12, crossbars and reinforcing rods 3.

The concrete slab 1 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 large surfaces is called the outer surface, and the other is the inner surface. The outer surface and the inner surface are made in the form of rectangles. From the side of the inner surface, the concrete slab 1 is connected to the heat-insulating slabs 5, concrete racks 11 and cross members. Concrete slab 1 is made of concrete.

The heat-insulating plate 5 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 boards 5 of one of the sides with a larger area are connected to concrete slab 1. Heat-insulating board 5 is made of heat-insulating material, for example expanded polystyrene, foam glass, glass wool, mineral wool based on basalt rocks, extruded polystyrene foam and various other heat-insulating materials. The heat-insulating plate 5 is located between two corresponding ribs 12 and the cross members.

Concrete stand (performing the function of stiffeners) 11 is made in the form of a bar with a cross section in the form of a rectangle. A concrete pillar 11 of one of the larger sides is connected to the concrete slab 1. In this case, the concrete pillar 11 is reinforced. The reinforcement of the concrete strut 11 is made using reinforcing rods 3 located along the entire length of the concrete strut 11. Moreover, for the location of the reinforcing rods 3, various holders can be used, for example, the first holders 2 and / or the second holders 6 and / or connecting elements 4 and / or any other holders. Concrete racks 11 are the main part of the ribs 12.

The rib 12 is made in the form of a bar with a rectangular cross section. The ribs 12 are parallel to each other. Each rib 12 is attached to the concrete slab 1 of one of its large sides. The rib 12 consists of a concrete pillar 11, the first U-shaped element 9 and the second U-shaped element 10.

The first U-shaped element 9 is made of heat-insulating material, for example expanded polystyrene, foam glass, glass wool, mineral wool based on basalt rocks, extruded polystyrene foam and various other heat-insulating materials. The first U-shaped element 9 is connected to the concrete pillar 11 on the sides of the concrete pillar 11, not connected to the concrete slab 1. The first U-shaped element 9 is connected to two heat-insulating plates 5, between which it is located.

The second U-shaped element 10 may be made of steel, aluminum, some other metals or any other material that will keep it in the desired shape, for example, a certain type of plastic. The second U-shaped element 10 is connected to the concrete column 11 and the first U-shaped element 9 by means of a connecting element.

The connecting element 4 is configured to attach to the concrete column 11 of the first U-shaped element 9 and the second U-shaped element 10. In the particular case, the connecting element is made as a partial cutout in the central part of the second U-shaped element 10, bent towards the concrete column 11 and partially located in the central part of the first U-shaped element 9 and partially located in the concrete column 11. In the particular case, this connecting element acts as a holder.

The connecting elements 4 are designed to hold the reinforcing rods 3 in a certain position inside the concrete pillar 11 during the manufacturing process of the device, i.e. when the device is mounted with ribs 11 on a horizontal surface. Each connecting element 4 is made as a partial cutout in the central part of the second U-shaped element 10, partially connected to the specified central part, and curved along the line of transition of this cutout to the specified central part. The connecting element 4 is bent inward of the second U-shaped element 10. At the end of the connecting element 4, a recess 13 is made, between the two sides of which a reinforcing rod 3 is placed. The connecting element 4 is located perpendicular to the length of the rib 12. Each second U-shaped element 10 is provided with at least at least two connecting elements 4, to ensure retention of the reinforcing rod 3.

The first holder 2 is made in the form of a piece of wire. The material of the first holder 2 and its thickness are made so that the reinforcing rods 3 can be held in the required position and this position can be restored after the reinforcing rods 3 and the first holder 2 of the mortar used to make concrete slab 1 and concrete stand 11 are exposed. The edges of the first holder 2 are bent in one direction and are parallel to each other. In this case, the central part of the first holder 2 is made wave-curved. In a particular case, the first holder 2 has two bulges facing the ends of the first holder 2, and three bulges facing the opposite side. The first holders 2 are located parallel to each other and perpendicular to the ribs 12. In this case, the first holders 2 are located at some distance from each other along the length of the ribs 12. The ends of the first holders 2 are placed on opposite sides of the corresponding ribs 12 in the heat-insulating material of the respective heat-insulating plates 5 or corresponding the first U-shaped element 9 near the junction of the corresponding heat-insulating plate 5 with the corresponding first U-shaped element 9. The length of each rib 12 is located at the extreme th least two first bracket 2 to ensure retention of the reinforcing bar 3 in the device production process, i.e., when the device is mounted with ribs 12 on a horizontal surface. The reinforcing rods 3 are located on the side of the concrete slab 1 in the bulges facing the ends of the first holder 2, i.e. towards the concrete pillar 11, the first U-shaped element 9 and the second U-shaped element 10.

The second holder 6 is made of a piece of wire, bent in a certain way. The second holder 6 is made with the possibility of holding the reinforcing rods 3 in the required position, and restoring this position after exposure to the reinforcing rods 3 and the second holder 6 of the mortar used for the manufacture of concrete slab 1 and concrete stand 11. One end of the second holder 6 is fixed in heat-insulating material of the heat-insulating plate 5 or the first U-shaped element 9 near the junction of the heat-insulating plate 5 with the first U-shaped element 9. The other end of the second holder I 6 is secured near the crossing of the central portion of the first U-shaped member 9 in its side portion. Moreover, the central part of the second holder 6 is made serpentine-curved, i.e. with successively convex parts 7 and depressions 8. In this case, the convex parts 7 are directed toward the center of the concrete pillar 11, and the depressions 8 are convex towards the surface of the concrete pillar 11, perpendicular to the concrete slab 1.

The reinforcing rods 3 are located in the depressions 8, while the convex parts prevent the reinforcing rods 3 from falling out of the second holder 6 during the manufacturing process of the device, i.e. when the device is mounted with ribs 12 on a horizontal surface. At least two second holders 6 are fixed along the length of one rib 12 near each of its side walls to ensure that the reinforcing rods 3 are held.

In the ribs 12 there are holes designed to accommodate various communication systems, such as pipes or wires. The holes are perpendicular to the ribs 12 and parallel to the concrete slab 1 and the heat-insulating slabs 5. The holes are made through, passing through the side parts of the first U-shaped element 9 and the concrete rack 11.

The arrangement of the reinforcing rods 3 and the holes is made with the possibility of preventing mutual obstacles of the reinforcing rods 3 and the holes.

The crossbar is made in the form of a bar with a quadrangular cross section. The cross-member is located perpendicular to the ribs 12. In this case, the cross-members and two extreme ribs 12 are located around the perimeter of the device, the cross-members are made of concrete, and from the sides not connected to the concrete slab 1, the cross-members can be lined with heat-insulating material. At the same time, openings are made in the cross members perpendicular to the cross members and parallel to the concrete slab 1 and heat-insulating slabs 5.

Crossbars are made reinforced. The reinforcement of the cross-beams is carried out by reinforcing rods 3. In this case, various holders can be used to arrange the reinforcing rods 3, for example, the first holders 2 and / or the second holders 6, or the standard “star” or “chair”, or “rack” or any other holders. In the particular case, the reinforcement of the cross members is made at the base of the cross members, i.e. at the junction of the concrete part of the cross members with concrete slab 1, and at the top of the cross members, i.e. near the side of the concrete part of the cross members opposite to the connection of the concrete part of the cross members with the concrete slab 1.

In the particular case, the fixation of the reinforcing rods 3 near the vertices of the crossbars is made using the "star" locks. At the junction of the concrete parts of the cross-members with the concrete slab 1, the fixing of the reinforcing rods 3 in the required position was made using wire clips.

The device may have door or window openings. To ensure sufficient strength in the place of the aperture above the door or window opening, an additional rib 12 or an additional cross member is made, which is perpendicular to the previously indicated ribs 12. In the case of a window opening, an additional rib 12 or an additional cross member is also performed under the window opening.

The reinforcing rods 3 are located around the perimeter of the device, as well as along the entire length of the ribs 12. Additional ribs 12 or additional cross members located along the perimeter of the openings are also reinforced with reinforcing rods 3. The reinforcing rods 3 are fixed using various holders, for example, the first holders 2 and / or second holders 6, or standard locks "asterisk", or "high chair", or "stand". The first holders 2, the second holders 6 or other wire holders are made of spring steel wire. Spring steel wire refers to a wire made of spring steel, restoring its original position after exposure to any force, such as the weight of the mortar used to form the concrete slab 1, concrete racks 11 and concrete parts of the cross members. The ends of the holders, placed in the heat-insulating plates 1, the first U-shaped elements 9 and the heat-insulating material of the cross members, are perpendicular to the surfaces in which they are placed. Reinforcing rods 3 located perpendicular to each other can be connected to each other, can be supported by each other or can be located independently from each other during the production process.

Utility Model Implementation

The utility model is implemented as follows.

The user places the first U-shaped elements in the second U-shaped elements 10. In this case, the connecting elements pierce the central part of the first U-shaped elements.

The user places on the horizontal surface, for example on a table, the second U-shaped elements 10 with the first U-shaped elements 9 parallel to each other at the same distance from each other, selected to allow placement on the sides of two adjacent first U-shaped elements 9 of the corresponding insulation boards 5.

The user places the heat-insulating plates 5 on the first side parts of the corresponding first U-shaped elements 9 and connects them. Next, the user forms the thermal insulation of the cross members.

The user has on the perimeter a shape made of rectangular metal platinum, designed to form the edge of the concrete slab 1.

Further, the user places reinforcing rods 3 inside the first U-shaped elements 9 and the heat insulation of the cross members, as well as around the perimeter of the window and door openings.

In the case of fixing the reinforcing rods 3 in the ribs 12 using the first holders 2 and the connecting elements 4, the user performs the connecting element 4 with a recess 13 at the end. The user places reinforcing rods 3 on the connecting elements 4.

The user installs "star" locks along the entire length of the crossbars and fixes the reinforcing rods 3 in them.

To form holes, the user makes holes in the lateral parts of the first U-shaped elements 9 and thermal insulation of the cross members through which pipes of the required diameter are passed.

The user installs the first holders 2 in the necessary places along the ribs 12, as well as the corresponding wire holders along the crossbars, and lays reinforcing rods 3 on them.

In the case of fixing the reinforcing rods 3 in the ribs 12 using the second holders 6, the user first installs the second holders 6, then lays the reinforcing rods 3 in the depressions of the second holders 6, located below the position of the holes. Next, the user forms holes, i.e. makes holes in the lateral parts of the first U-shaped elements 9 and thermal insulation of the cross members through which the corresponding pipes are passed. Next, the user places the reinforcing rods 3 in the remaining depressions 8.

The user pours the mortar into the mold. In this case, the first holders 2, or the second holders 6, or any other wire holders bend under the action of the mass of the mortar, and then restore their original position, due to the force of elasticity. After the mortar hardens, concrete racks 11, concrete slab 1 and concrete parts of the cross members are formed. The user removes the device from the mold. Next, the user retrieves the pipes intended for forming holes. Moreover, by fixing part of the connecting elements in concrete racks 11, the second U-shaped elements 10 and the first U-shaped elements 9 are fixed to the device. In this case, the second U-shaped elements 10 press the first U-shaped elements 9 to the concrete uprights 11 and the concrete slab 1 and hold their mutual position. The position of the heat-insulating plates 5 and the fixation of their relative position with the concrete slab 1 is ensured by pressing the heat-insulating slabs 5 to the concrete slab 1 with the lateral parts of the first U-shaped elements 9.

The device is installed one of the crossbars on a prepared foundation for the construction of the building and fix it as necessary. The ribs 12 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 12. Thus, the user forms a closed loop of their devices, which perform the function of the walls of the building. Next, the user on the cross members opposite the connection of the devices with the foundation fixes the floor. Thus, the room is formed.

Thus, the implementation of the device from a concrete slab 1, a heat-insulating slab 5, ribs 12, crossbars and reinforcing rods 3 provides an increase in the strength of the device by improving the accuracy of positioning of the reinforcing rods 3. Improving the accuracy of positioning of the reinforcing rods 3 provides the use of the first holders 2 and / or second holders 6 of connecting elements 4 or other holders holding the reinforcing rods 3 in a certain position, as well as by performing the first holders 2, the second holders 6 or other spring steel holders.

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, the inner surface and the outer surface are made in the form of a rectangle and a larger area in relation to other surfaces of the concrete slab, connected to the concrete on the side of the inner surface slabs concrete racks located parallel to each other, and two crossbars connected to the concrete slab, perpendicular to the concrete racks Am, while the extreme concrete racks and crossbars are placed on the edges of the inner surface and are made of concrete, the concrete slab on the side of the inner surface is lined with heat-insulating plates, the concrete racks on the side of the inner surface are lined with the first U-shaped elements made of heat-insulating material, and the cross the sides of the inner surface are lined with heat-insulating material, from the side of the first U-shaped elements opposite the concrete stand, on the first U-shaped element A second U-shaped element made of steel is similar to it, in the second U-shaped element there are made at least two partially cut-out connecting elements with a recess, inserted with their part inside the concrete pillar until the concrete hardening process of the concrete pillar is completed so that the recess facing the concrete slab, holders are inserted into the device, and these holders are made of spring steel wire, wave-like curved in the middle part with the formation of depressions, the holders are fixed to In heat-insulating boards and / or first U-shaped elements, in concrete racks and / or concrete slabs, reinforcing rods are placed in contact with at least two holders located in their troughs and oriented parallel to the concrete racks, and the concrete racks are also placed a reinforcing rod in contact with the recesses of the connecting elements and oriented parallel to the concrete struts, reinforcing rods oriented parallel to the crossbars are placed in the cross members.