RU119366U1 - OVERLAP PANEL - Google Patents

Abstract

A floor panel comprising a concrete slab with an upper surface and a lower surface located on the opposite side of the concrete slab, concrete beams attached to the concrete slab from the lower surface side parallel to each other, and an insulating material located on the concrete slab and concrete beams from the lower surface side, reinforcing rods are located in concrete beams, oriented parallel to the concrete beams, characterized in that the insulating material is made in the form of insulating plates and the first U-shaped elements, while two crossbars are additionally introduced into the device, the second U-shaped elements and a reinforcing element, the crossbars are located parallel to each other and connected to a concrete slab, while the crossbars are placed along the edges of the lower surface perpendicular to the concrete beams and are made of concrete, the first U-shaped elements are placed on concrete beams and contact their inner surface with the outer surface of the corresponding concrete the second U-shaped element is placed on the first U-shaped element from the side of the outer surface of the first U-shaped element and contacts its inner surface with the outer surface of the first U-shaped element, the insulating plates adjoin the lower surface between the concrete beams, and the edges of each insulation board facing the concrete beams are located between the first U-shaped element and the bottom surface, while the second U-shaped elements are made of metal.

Description

The utility model relates to building structures, in particular to the structures of floors.

State of the art

A device is known - monolithic overlapping (RF patent No. 2165501, priority date 06/23/2000, publication date 04/20/2001). Monolithic overlapping contains fixed formwork from profiled flooring, a concrete layer, reinforcing cages and a layer of polystyrene concrete. A layer of polystyrene concrete is laid between the profiled flooring and the concrete layer. Reinforcing frames made of three rods. In this case, the upper rods are located in the concrete layer, and the lower ones in the polystyrene concrete layer.

A disadvantage of the known technical solution is its low strength.

The closest technical solution (prototype) is the floor panel (RF patent No. 71131, priority date 11/08/2007, publication date 02/27/2008). The overlapping or coating panel contains a concrete body with longitudinal reinforcement of prestressed rods. The concrete body consists of two layers with a wavy mating surface in the form of alternating protrusions and depressions. In this case, the upper layer is made of reinforced concrete, in the protrusions of which are rods of longitudinal reinforcement. The lower layer is made of polystyrene concrete with a density of 150 ÷ 350 kg / m 3, including polystyrene foam granules from 2 to 3 mm in size.

The disadvantage of the prototype is low strength.

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

This goal is achieved due to the fact that in the floor panel containing a concrete slab with an upper surface and a lower surface located on the opposite side of the concrete slab, concrete beams connected to the concrete slab on the lower surface side are parallel to each other, and an insulating material located on the concrete slab and concrete beams from the bottom surface side, reinforcing rods are located in concrete beams, oriented parallel to concrete beams, the insulating material is made in the form of the slabs and the first U-shaped elements, while two cross members are additionally introduced into the device, the second U-shaped elements and the reinforcing element, the cross members are parallel to each other and connected to the concrete slab, while the cross members are placed along the edges of the lower surface perpendicular to the concrete beams and made of concrete, the first U-shaped elements are placed on concrete beams and contact their inner surface with the outer surface of the corresponding concrete beam, the second U-shaped element is placed on the first U-shaped element on the side of the outer surface of the first U-shaped element and is in contact with its inner surface with the outer surface of the first U-shaped element, the insulating plates are adjacent to the lower surface between the concrete beams, and the edges of each insulating plate facing the concrete beams are between the first U-shaped element and the lower surface, while the second U-shaped elements are made of metal.

Brief Description of the Drawings

The utility model is illustrated by drawings (Fig.1-3), where Fig.1 shows the concrete part of the device, Fig.2 shows the appearance of the device, Fig.3 shows a device with a partial section.

Utility Model Disclosure

The figure shows: cross member 1, concrete beam 2, lower surface 3, upper surface 4, concrete slab 5, communication hole 6, rib 7, second U-shaped element 8, first U-shaped element 9, insulation plate 10, reinforcing element 11, holder 12, reinforcing rod 13.

The main elements of the device are concrete slab 5, insulating slabs 10, cross members 1 and ribs 7 with concrete beams 2, the first U-shaped elements 9 and the second U-shaped elements 8.

Concrete slab 5 is a flat object with an upper surface 4, a lower surface 3 side surfaces. In this case, the upper surface 4 and the lower surface 3 are located opposite each other and have larger areas than the remaining surfaces of the concrete slab 5. The lower surface 3 of the concrete slab 5 faces the inside of the device, i.e. towards the insulating plates 10, ribs 7 and cross members 1. During operation, the lower surface 3 faces the lower tier (floor) of the building. The upper surface 4 faces the outside of the device, i.e. away from the insulation boards 10, ribs 7 and cross members 1. During operation, the upper surface 4 of the concrete slab 3 faces the upper tier (floor) of the building. Concrete slab 5 is made of concrete. Concrete slab 5 is made reinforced by means of a reinforcing element 11 and / or reinforcing rods 13. Concrete slab 5 is connected on the side of the lower surface 3 with ribs 7, insulating slabs 10 and cross members 1.

The reinforcing element 11 is a means for increasing the load-bearing capacity of the structure of the concrete slab 5, having increased strength properties relative to the material of the concrete slab 5. The reinforcing element 11 is made of metal. In the particular case of the reinforcing element 11 is made in the form of a grid, i.e. intertwined crosshair between each other metal rods or wire.

The rib 7 is an elongated object in the form of a bar of a quadrangular cross section, formed by a concrete beam 2, the first U-shaped element 9 and the second U-shaped element 8. The ribs 7 are attached to the concrete slab 5 parallel to its two opposite lateral surfaces. The rib 7 is attached to the concrete slab 5 from the side of the lower surface 3 of the concrete slab 5. The connection of the ribs 7 with the concrete slab 5 is made at least by connecting the concrete slab 5 with the concrete beam 2.

Concrete beam 2 is an elongated object with a quadrangular cross section. Concrete beam 2 is made of concrete reinforced with reinforcing rods 123. Concrete beam 2 is connected to one of the large sides with concrete slab 5. In this case, concrete slab 5 and concrete beams 2 are in particular made at the same time. The first U-shaped element 9 is located on the side opposite to the connection with the concrete slab 5 on the concrete beam 2. On the first U-shaped element 9, the second U-shaped element 8 is located on the side of the opposite concrete slab 5.

The first U-shaped element 9 is an elongated object in the form of a bar of a U-shaped section. The first U-shaped element 9 may be made of heat insulating and / or sound insulating material, for example expanded polystyrene, foam glass, glass wool, mineral wool based on basalt rocks, extruded polystyrene foam and various other insulating materials. The first U-shaped element 9 is located on the concrete beam 2 from the side of the concrete beam 2, not connected to the concrete slab 5. The first U-shaped element 9 is connected to two insulating plates 10, between which it is located. On the first U-shaped element 9, from the side opposite the concrete beam 2, a second U-shaped element 8 is located.

The second U-shaped element 8 is an elongated object in the form of a bar of a U-shaped section. The second U-shaped element 8 is made of metal. The second U-shaped element 8 is located on the first U-shaped element 9 similar to the first U-shaped element 9. In this case, partial cutouts can be made in the middle of the second U-shaped element 8, bent towards the concrete beam 2 and partially located in the concrete beam 2 and the first U-shaped element 9. These partial cut-outs are holders for reinforcing rods 13. The second U-shaped elements 8 can be located on the first U-shaped elements 9 over the first U-shaped elements 9 or in the particular case of the side my parts of the second U-shaped elements 8 are located in the material of the first U-shaped elements 9.

In the ribs 7 can be made communication holes 6 located perpendicular to the ribs 7 and parallel to the concrete slab 5.

Cross member 1 is an elongated object in the form of a bar with a quadrangular cross section. The cross member 1 is located on the side of the lower surface 3 of the concrete slab 5 near the opposite side surfaces of the concrete slab 3. The cross members 1 are located perpendicular to the ribs 7 and connected to the end surfaces of the ribs 7. Moreover, one of the surfaces of the cross member 1 is a continuation of the corresponding lateral surface of the concrete slab 5. Cross members 1 made of concrete. The cross members 1 can be faced with insulating material on the side of the surfaces that are not connected to the concrete slab 5 and ribs 7. At the cross members 1, communication holes 6 can be made perpendicular to the cross members 1 and parallel to the concrete slab 5.

The insulation plate 10 is a flat object made of heat insulating and / or sound insulating material, for example expanded polystyrene, foamed glass, glass wool, mineral wool based on basalt rocks, extruded polystyrene foam and various other insulating materials. Insulating plates 10 are attached to the lower surface 3 of the concrete slab 5 and are located between the corresponding ribs 7 and the cross members 1.

Reinforcing rods 13 are means for increasing the structural bearing capacity of concrete pillars 2, cross members 1 and concrete slab 5. Reinforcing bars 13 are made of a material having enhanced strength properties with respect to the material of concrete pillars 2, cross beams 1 and concrete slab 5. Reinforcing bars 13 are located along the perimeter of the concrete slab 5, as well as along the entire length of the ribs 7 and cross members 1. The fixing of the reinforcing rods 13 is made using various holders 12, for example wire holders made of spring steel, or standard fasteners "asterisk", or "chair", or "stand" or any other holders 12 for reinforcing rods 13. In the particular case, the fixing of the reinforcing rods 13 in the ribs 7 is made using partially cut elements of the second U-shaped element 8 as well as by means of wire holders 12 made of spring steel.

The wire holders 12 made of spring steel are made possible to restore their original position after exposure to any force, such as the weight of the mortar used to form the concrete slab 5, ribs 7 and cross members 1. The ends of the wire holders 12 are placed in insulating plates 10, the first U-shaped elements 9 and the insulating material of the cross members 1. The reinforcing rods 13 located perpendicular to each other can be connected to each other, can be supported by each other or can be located independently of each other in the manufacturing process.

Utility Model Implementation

The utility model is implemented as follows.

Set the mold for the manufacture of the floor panel. The second U-shaped elements are placed in the form 8. In the second U-shaped elements 8, the first U-shaped elements 9 are placed. In this case, partial cutouts pass through the material of the first U-shaped elements 9 and partially extend from the side of the formation of concrete columns 2. Between the first U-shaped elements 9 are provided with insulating plates 10. The insulating material of the cross members 1 is located at the place of the formation of the cross members 1. Reinforcing rods 13 are placed on the curved parts of the partial cut-outs. Install wire holders 12 made of spring steel, in toryh also have reinforcing rods 13.'ll cut a communication opening 6 in the side portions of the first U-shaped elements 9 and the insulating material 1 crosspieces, through which pipes are passed, for example a foam of polyvinyl chloride (PVC) or plastic, the required diameter.

Mortar is poured into the mold. In this case, the wire holders 12 bend under the action of the mass of the mortar, and then restore their original position, due to the force of elasticity. When the level of the mortar in the mold is raised to approximately the middle of the thickness of the concrete slab 5 (the middle between the upper surface 4 and the lower surface 3), the flow of the solution is stopped. The reinforcing element 11 is placed in the form of a metal mesh. Pour the solution to the upper level of the form. After the mortar has hardened, ribs 7, a concrete slab 5 and a cross-beam 1 are formed. The device is removed from the mold. Pipes designed to form communication holes 6 are removed.

The crane is raised above the installation site and lowered precisely between the wall panels, resting its edges on the upper edges of the wall panels. In this case, the ribs 7 and the cross-member 1 are turned towards the lower tier (floor) of the building, and the upper surface 4 of the concrete slab 5 to the upper tier (floor) of the building.

The next important step is the laying of communications inside the floor panel. Communication holes 6 allow engineering communications in any horizontal direction to install the appropriate engineering and plumbing equipment.

After laying all the engineering communication lines, they are tested for leaks, breaks, etc.

If the floor panel is installed between the first floor and the technical basement, then it does not need additional hemming from the bottom. At the same time, due to the use of the second U-shaped elements, the fastening of finishing materials, for example, drywall sheets or plywood sheets, is facilitated, and thereby the usability of the device is increased. When installing a floor slab between residential floors from the bottom, i.e. from the side of the ribs 7 and cross members 1, it is hemmed with ceiling sheets, followed by sealing joints and a primer with painting.

Thus, the implementation of the device from a concrete slab reinforced with a reinforcing element, and crossbars located on the bottom surface of the concrete slab reinforced with reinforcing rods, insulation slabs and ribs containing concrete beams reinforced with reinforcing rods, the first U-shaped elements and the second U-shaped elements, provides increased strength, due to the reinforcement of the concrete slab reinforcing element, as well as through the use of the second U-shaped elements.

Claims (1)

An overlapping panel comprising a concrete slab with an upper surface and a lower surface located on the opposite side of the concrete slab, concrete beams connected to the concrete slab from the lower surface side parallel to each other, and an insulating material located on the concrete slab and concrete beams from the lower surface side, in concrete beams are reinforcing rods oriented parallel to concrete beams, characterized in that the insulating material is made in the form of insulating plates and the first P-about different elements, while two cross members are additionally introduced into the device, the second U-shaped elements and a reinforcing element, the cross members are parallel to each other and connected to the concrete slab, while the cross members are placed along the edges of the lower surface perpendicular to the concrete beams and are made of concrete, the first P -shaped elements are placed on concrete beams and in contact with their inner surface with the outer surface of the corresponding concrete beam, the second U-shaped element is placed on the first U-shaped element on the side of the outer surface of the first U-shaped element and is in contact with its inner surface with the outer surface of the first U-shaped element, the insulation boards are adjacent to the lower surface between the concrete beams, with the edges of each insulation board facing the concrete beams located between the first U-shaped element and the lower surface, while the second U-shaped elements are made of metal.