RU69536U1 - BUILDING PANEL - Google Patents

Abstract

The construction panel can be used as a supporting and enclosing structure of walls and partitions in the construction of buildings and structures for various purposes. The space inside the frame of the frame block is divided by a partition into cavities in which heat-insulating packages are located in the form of blocks from reeds. A groove is made on one of the opposite sides of the frame, and a protrusion corresponding to it is provided on the other, which ensures the joining of two adjacent panels. On the opposite surfaces of the rectangular frame, the outer and inner cladding of a moisture-resistant chipboard are fixed. The frame and the partition are made of combined timber. The cavities inside the frame and the heat insulating layer located in them are filled with polyurethane foam. The panel obtained as a result of this embodiment does not require protection against ultraviolet radiation and has high heat-insulating, sound-insulating and fire-fighting properties. 3 s.p. f-ly, 4 ill.

Description

The utility model relates to construction, in particular to the construction of a building panel, which can be used as a bearing, self-supporting and enclosing structure of walls and partitions, as well as floor panels, in the construction of low-rise buildings and structures for various purposes.

A building panel is known, which is a package of reed stalks laid between transverse reinforcing elements, crimped during continuous rolling (SU 182884 A1, 1966). The known panel has insufficient strength, and therefore its use in modern construction is very limited.

The closest analogue to the claimed panel is a building panel containing a frame formed by longitudinal and transverse ribs, stiffeners and external and internal cladding, mounted on the frame. The stiffeners are located and fixed along or across the frame and form sections, the cavities of which are filled with a reed stem or reed mats and polyurethane foam, forming a heat-insulating layer (RU 54983 U1, 2006). A disadvantage of the known panel is the complexity of its manufacture, which is due to the lengthy process of forming the external and internal cladding, as well as the complexity of installing panels during the construction of buildings and structures, requiring the use of special fastening elements, and the need for additional insulation of joints.

The inventive utility model is aimed at solving the problem of creating a building panel with high operational, including heat-insulating and sound-proofing characteristics.

The technical result provided by using the inventive utility model is to reduce the complexity and increase the productivity of manufacturing a building panel, in reducing its weight and

cost, as well as giving the panel high thermal and sound insulation properties and ease of installation of buildings.

To achieve the indicated technical result, a building wall panel is proposed, which comprises a frame block, an outer skin, an inner skin and a heat insulating layer. The frame block includes a rectangular frame and fixed inside the frame: at least one partition wall of rectangular cross section located along the large (longer) sides of the frame and dividing the space inside it into cavities, vertical bars arranged in rows along the height of the frame, not reaching its opposite surfaces, and the upper and lower enclosing horizontal slats, mounted on vertical bars. The outer skin is made of a moisture-resistant chipboard mounted on one of the opposite surfaces of a rectangular frame. The inner lining is made of a moisture-resistant chipboard, mounted on another opposite surface of the rectangular frame. The heat-insulating layer is formed by blocks of reeds placed in the cavities of the frame. The cavities inside the frame and the heat insulating layer located in them are filled with polyurethane foam. One of the large opposite sides of the frame has a groove on its outer surface along the entire length, and the other side of the frame opposite it has a protrusion on its outer surface along the entire length, which can be joined with the corresponding groove of the adjacent panel to be joined. The rectangular frame and partition is made of a combined beam consisting of outer layers of wood, located between these layers and with a gap with respect to each of them, at least one inner layer of wood, and vertical embedded bars. Vertical embedded bars are arranged between the outer and inner layers of the combined beam, providing spaces between them, filled with a heat-insulating layer, which is used as a reed, filled with polyurethane foam.

Details of the frame block, including the outer and inner layers of the frame and partition, are made of wood or its substitutes.

Thermal insulation bags are located in cavities in one layer and are oriented along or across the cavity.

Heat-insulating bags are located in the cavities in at least two layers, while in each pair of adjacent layers the packets of one layer are oriented along the cavity, and the packets of the other layer are oriented across the cavity.

Due to the implementation of the outer and inner lining of a moisture-resistant chipboard, the proposed building panel does not require protection from ultraviolet radiation, the impact of which can lead to the destruction of polyurethane foam. Due to the use of DPS sheathing, the surfaces of the panels are even and require only finishing. At the same time, chipboard panels can be selected in various thicknesses, due to which they are more constructive in terms of installation of engineering elements: heating, electrical wiring, fastening of mounted elements, etc. Due to the execution on the opposite sides of the frame of the panel of the groove and the corresponding protrusion when connecting the panels, it is not necessary to insulate the joints of the panels and use special fastening elements. Due to the use of the proposed frame block, pouring polyurethane foam does not require the use of casting molds, which can significantly simplify the production process and increase production. Due to the possibility of manufacturing panels of various thicknesses, the panels can be multifunctional: enclosing, as ceilings, as partitions. The use of a combined beam during the execution of the frame and the partition reduces the consumption of wood, and the use of reed blocks in the heat-insulating layer ensures a reduction in the consumption of polyurethane foam.

The essence of the utility model is illustrated by drawings, where:

figure 1 shows a perspective view of the inventive building panel with a cutout showing the features of its implementation;

figure 2 - building panel, top view;

figure 3 is a construction panel, a side view in section;

figure 4 - the structure of the combined beam.

The building panel comprises a frame block 1 and an outer skin 2 and an inner skin 3 that cover it on both sides.

Frame block 1 includes a rectangular frame 4, inside of which are placed: a partition 5 of rectangular cross section, vertical bars 6 and upper and lower horizontal enclosing rails 7.

The partition 5 is located along the larger (longer) sides 9 and 10 of the frame 4 and divides the space inside the frame into two (mostly equal) cavities 11 and 12. In the case of using two partitions 5, the space inside the frame will be divided into three cavities, etc. The upper and lower outer surfaces of the partition 5 are flush with the lower and upper surfaces of the frame 4, respectively.

Vertical bars 6 are arranged in rows along the height of the frame 4. As can be seen from figure 2, one row of bars 6 is fixed on the inner surface of the side 9 of the frame 4, the second row of bars 6 on one of the inner surfaces of the partition 5, the third row of bars 6 on the other the inner surface of the partition 5 and the fourth row of bars 6 are on the inner surface of the side 10 of the frame 4. The height of the bars is selected so that when the bars are fixed on the sides of the frame and the surfaces of the partition, the upper and lower ends of the bars are recessed (recessed) with respect to to the upper and lower surfaces of the frame 4 and the partition 5.

The upper and lower enclosing rails 7 are mounted on vertical bars 6 and in the fixed form are also recessed (recessed) by a small amount in relation to the upper and lower surfaces of the frame 4 and the partition 5.

The side 9 of the frame 4 has a groove 13 on its outer surface along the entire length, and the opposing side 10 of the frame 4 has a protrusion 14 on its outer surface along the entire length. The protrusion 14 is adapted to dock with the corresponding groove 13 of the adjacent attachable panel.

The outer skin 2 is made of moisture resistant chipboard, which is mounted on one of the opposite surfaces of the rectangular frame 4. The inner skin 3 is also made of moisture resistant

chipboard, which is mounted on another opposite surface of the rectangular frame 4.

The panel includes a heat-insulating layer, which is formed by blocks 15 of reeds placed in the cavities 11 and 12. The blocks 15 can be located in the cavities in one layer. Moreover, they can be oriented both along and across the cavity. It is also possible arrangement of the blocks 15 in the cavities and in several layers (at least two layers). In this case, in one layer, the blocks can be oriented along the cavity, and the blocks in the adjacent adjacent layer can be oriented across the cavity. The blocks themselves are formed from the reed flooring tied with a wire fastening it, or from reed bundles wrapped in sheets of perforated paper tape.

The inner part of the wall panel, limited by the frame block 1, and the blocks 15 placed in it from the reed are flooded with polyurethane foam 8.

The frame 4 and the partition 5 are made of a combined beam, the design of which is shown in figure 4. The combined beam consists of the outer layers 16 and 17 and the inner layer 18 located between them with the gaps 19. In each of the gaps 19, vertical embedded bars 20 are arranged in rows, which provide gaps between the layers 16, 17 and 18, filled with a heat-insulating layer 21. The upper and the lower ends of the embedded bars 20 are recessed (recessed) relative to the upper and lower ends of the layers 16, 17 and 18. The embedded bars 20 located between layers 16 and 18 are staggered relative to the embedded bars 20 located between layers 18 and 17. B achestve heat insulating layer 21, cane used. The gaps between the layers 16, 17 and 18, filled with a heat insulating layer 21, are filled with polyurethane foam.

Details of the frame block, including the outer 16, 17 and inner 18 layers of the frame 4 and the partition 5, are made of wood or from its substitutes, made of wood or from its substitutes.

The manufacture of the building panel is as follows.

Pre-form the frame 4, performing it from a combined beam. On the inner surfaces of the sides 9 and 10 of the frame 4, rows are fixed

bars 6, orienting them perpendicular to the upper and lower surfaces of the frame. From the side of the lower surface of the frame 4, at the ends of the bars 6 of the same name, the lower horizontal enclosing rails 7 are fixed. The frame 4 is mounted on the casing 2 of the chipboard with the rails 7 down and fixed on this casing. In the cavity 11 and 12 lay the blocks 15 of the reeds. On the opposite ends of the bars 6 fix the upper horizontal enclosing rails 7. Fill the cavity 11 and 12 of the frame 4 with the blocks of reed foam located in them. Immediately after pouring the polyurethane foam on the upper surface of the frame, a second casing 3 of chipboard is applied and the casing is fixed on the frame.

Claims (4)

1. A construction wall panel, characterized in that it comprises a frame block including a rectangular frame and fixed inside the frame: at least one partition of rectangular cross section located along the large sides of the frame and dividing the space inside it into cavities, vertical bars arranged in rows the height of the frame does not reach its opposite surfaces, and the upper and lower horizontal enclosing rails fixed on vertical bars, and also contains an outer lining made of moisture-resistant chipboard mounted on one of the opposing surfaces of the rectangular frame, the inner lining of a moisture-resistant chipboard mounted on the other opposite surface of the rectangular frame, and a heat-insulating layer formed by blocks of reeds placed in the cavities of the frame, while the cavity inside the frame and placed in them the heat-insulating layer is filled with polyurethane foam, one of the large opposite sides of the frame has a groove on its outer surface along the entire length, and the other opposite the side of the frame has on its outer surface along the entire length of the protrusion, made with the possibility of joining with the corresponding groove of the adjacent joining panel, and the frame and the partition of rectangular section are made of a combined beam consisting of outer layers located between these layers and with a gap with respect to each of them, at least one inner layer, and vertical embedded bars, while vertical embedded bars are arranged between the outer and inner layers of the combination ny timber, providing between them the gaps filled with a heat-insulating layer, which is used as a reed, filled with polyurethane foam. 2. The panel according to claim 1, characterized in that the details of the frame block, including the outer and inner layers of the frame and partitions, are made of wood or from its substitutes. 3. The panel according to claim 1, characterized in that the reed blocks are located in the cavities in one layer and are oriented along or across the cavity. 4. The panel according to claim 1, characterized in that the reed blocks are located in the cavities of at least two layers, while in each pair of adjacent layers, the blocks of one layer are oriented along the cavity, and the blocks of the other layer are transverse to the cavity.