RU78503U1 - HEATED FRAME PANEL - Google Patents

Abstract

The inventive utility model relates to the field of building materials, in particular, concerns multilayer heat-frame panels containing oriented particle boards (OSB), which can be used for cladding external and internal walls of cottages, attics, for the manufacture of rough floors, roof cladding.

The problem solved by the utility model is to increase heat, moisture and sound insulation at the junction of building panels.

The essence of this utility model consists in the fact that in a heat-frame panel consisting of two external oriented particle boards and an inner layer of porous polymeric material fastened together by an adhesive composition and having a groove around the panel perimeter for connecting elements, it is proposed to perform the groove axisymmetrically on the ends of the inner layer with a width and depth of 0.25 ÷ 0.50 of the thickness of the layer. In addition, it is proposed that the inner layer be made of expanded polystyrene or polyurethane foam.

Description

The inventive utility model relates to the field of building materials, in particular, concerns multilayer heat-frame panels containing oriented particle boards (OSB), which can be used for cladding external and internal walls of cottages, attics, for the manufacture of rough floors, roof cladding.

OSB boards are a new high-tech material used in wooden frame house building. Oriented particle boards are a dense pressed three-layer wood board made from large oriented wood chips, preferably softwood, and are a substitute for plywood and particleboard. The appearance of the oriented chipboard clearly explains its name. The plate easily differs in elongated chips. Oriented particle boards consist of three layers. In the outer layers of wood chips is located longitudinally, and in the inner transversely. Each layer is glued with waterproof resins and pressed under the influence of high pressure and temperature. As a result, OSB acquires water resistance, elasticity and resistance to stretching and building loads. In the prior art, multilayer building panels are known, in a number of publications they are referred to as heat-frame panels (TKP). Heat-frame panels have increased strength and durability with relative lightness. Known TKP, consisting of two outer layers of a continuous sheet material, such as OSB, and placed between them a porous filler and an adhesive layer between the porous filler and the sheet material (US Patent No. 4759964, CL B32B 3/12, 1988). Panels are known in which the inner layer is formed from a mixture of dry and activated

peat and fiber. Such plates have increased environmental friendliness (Application for utility model No. 94008319, CL EV 1/28, 1995). A useful model is also known in which a rectangular groove is made for the connecting element along the perimeter of the inner layer (Application No. 20022100292, Е04С 2/10, 2002)

The closest analogue of the claimed utility model is a multilayer panel (MSP) (RF Patent No. 63827, CL EV 2/00, 2006). ICP contains external rectangular oriented particle boards, an inner layer of porous polymeric material, connected by an adhesive composition between the porous material and each of the plates, and a groove for the connecting element is made along the perimeter of the panel.

The disadvantage of the closest analogue is the lack of heat, moisture and sound insulation at the junction of building panels.

The problem solved by the utility model is to increase heat, moisture and sound insulation at the junction of building panels.

The essence of this utility model consists in the fact that in a heat-frame panel consisting of two external oriented particle boards and an inner layer of porous polymeric material fastened together by an adhesive composition and having a groove around the panel perimeter for connecting elements, it is proposed to perform the groove axisymmetrically on the ends of the inner layer with a width and depth of 0.25 ÷ 0.50 of the thickness of the layer. In addition, it is proposed that the inner layer be made of expanded polystyrene or polyurethane foam.

Thanks to the groove for the connecting elements directly in the internal porous polymer material with the specified geometric dimensions, it is possible to solve the problem of sound, moisture and heat insulation at the junction of the panels. Without the use of additional sealing material, direct contact between the hard surfaces of the heat-frame panel can be eliminated. Thanks

Using the claimed panel design also increases the frost resistance of the building. Houses made from such panels can be operated at temperatures from -50 ° С to + 40 ° С and provide comfortable living even in severe climatic conditions.

Figure 1, 2, 3 presents in projections the design of the heat-frame panel (figure 2, 3 in section). Figure 4 - assembly of several panels. TCH consists of two outer oriented particle boards 1 and an inner layer 2 of a porous polymeric material. Both layers 1 are bonded to the middle layer 2 by the adhesive composition 3. In the inner layer 2, a groove 4 is made. Figure 4 shows a fragment of the joints of several plates in a wall panel (top view), fastened together by a beam 5, fixed in grooves 4 of the inner layer 2.

Claims (2)

1. A heat-frame panel consisting of two external oriented particle boards and an inner layer of porous polymeric material bonded together by an adhesive composition, along the perimeter of the panel there is a groove for connecting elements, characterized in that the groove is made axisymmetrically at the ends of the inner layer, the width and the depth of the groove is 0.25 ÷ 0.50 of the thickness of the layer. 2. The heat-frame panel according to claim 1, characterized in that the inner layer is made of polystyrene foam or polyurethane foam.