RU136832U1 - SANDWICH PANEL (OPTIONS) - Google Patents

Abstract

1. A sandwich panel comprising at least one layer of insulation, mainly foam, and a reinforcing layer of fiberglass, located at least on one outer side of the insulation, while the insulation and reinforcing layer are interconnected by means of an adhesive connection, characterized in that it further comprises at least one protective layer made mainly of epoxy resin with a thickness of mainly 0.5-1.5 mm, and an additional reinforcing layer in the form of a layer of glass mat located between the protective th layer and the reinforcing layer of fiberglass, with a protective layer, an additional reinforcing layer in the form of a mat layer, a reinforcing layer of fiberglass insulation and interconnected by means of a self-expanding polyurethane adhesive with mikrosferami.2. A sandwich panel according to claim 1, characterized in that on the inner side of the insulation there are alternately a reinforcing layer in the form of a layer of glass mat, a reinforcing layer of fiberglass and a protective layer interconnected by means of self-expanding polyurethane adhesive with microspheres. A sandwich panel comprising at least one layer of insulation, mainly foam, and a reinforcing layer of fiberglass, located on at least one outer side of the insulation, while the insulation and reinforcing layer are interconnected by adhesive bonding, characterized in that it further comprises at least one protective layer made mainly of epoxy resin with a thickness of mainly 0.5-1.5 mm, and an additional reinforcing layer in the form of a layer of glass mat located between the protective

Description

The utility model relates to the field of automotive and construction, in particular to sandwich panels used as sound insulation and heat insulation of a truck body or trailer, as well as in the manufacture of building structures to protect them from unwanted heat exchange with the environment.

Known heat-insulating and sound-insulating sandwich panels, including interconnected by means of an adhesive layer on an acrylic or silicone base, insulation in the form of a layer of polystyrene foam, its outer and / or inner sheathing, in the form of an isolon layer made of foamed polymeric material based on polyethylene . [Patent No. 93834, E04B 1/84, E04C 2/292, 01/11/2010].

A disadvantage of the known sandwich panels are low strength characteristics.

A building panel is known comprising a frame and a filler made of a heat-insulating material in the form of a rectangular parallelepiped, the frame is made of a mixture of expanded perlite sand and polymer resin, the long side faces of the panel are equipped with metal clasps, and slopes are made along the perimeter of the side surface of the panel to prevent moisture and fixing the panels together. As a heater, basalt fiber or mineral wool boards, various polystyrene foams (polystyrene, polyethylene, urea, etc.) can be used. [Patent No. 1033372, E04F 13/00, 11/13/2010].

A disadvantage of the known building panel is its relatively high specific gravity, which makes it difficult to use as sound insulation and heat insulation of a truck body or trailer.

Closest to the proposed is a building panel containing at least one layer of insulation made of foamed polymers (for example, polystyrene foam or polyurethane foam) and a fiberglass coating connected by adhesive bonding. [Patent No. 78729, B32B 13/08, 05/06/2008].

A disadvantage of the known building panel is its low strength characteristics due to the use of foamed polymers without creating an additional protective layer as a heat-insulating layer, which are destroyed under the influence of temperature differences, mechanical damage, which reduces the strength and reliability of the panel, its heat and noise insulation properties, and reduces operational capabilities. In addition, the described panel has an unpresentable appearance and requires additional coating, which is used as: paper, cloth, faux leather, thin plywood, foil (for example, aluminum), wallpaper, etc.

The utility model is aimed at solving the problem of increasing the insulating and strength characteristics of sandwich panels, while improving their appearance and expanding functionality.

The essence of the utility model according to the first embodiment is that a sandwich panel comprising at least one layer of insulation, mainly foam, and a reinforcing layer of fiberglass, located on at least one outer side of the insulation, and bonded to it by means of an adhesive joint, it is proposed to additionally provide at least one protective layer made mainly of epoxy resin with a thickness of mainly 0.5-1.5 mm, and an additional reinforcing layer in the form of a layer of glass mat, spacing married between the protective layer and the reinforcing layer of fiberglass, while the protective layer, an additional reinforcing layer in the form of a layer of glass mat, the reinforcing layer of fiberglass and insulation are made interconnected by means of self-expanding polyurethane adhesive with microspheres. A reinforcing layer in the form of a layer of glass mat, a reinforcing layer of fiberglass and a protective layer interconnected by means of self-expanding polyurethane adhesive with microspheres can be arranged alternately on the inner side of the insulation.

The essence of the utility model according to the second embodiment is that a sandwich panel comprising at least one layer of insulation, mainly foam, and a reinforcing layer of fiberglass, located on at least one outer side of the insulation, and bonded to it by means of an adhesive joint, it is proposed to additionally provide at least one protective layer made mainly of epoxy resin with a thickness of mainly 0.5-1.5 mm, and an additional reinforcing layer in the form of a layer of glass mat, spacing reinforced between the protective layer and the reinforcing layer of fiberglass, and the protective layer, an additional reinforcing layer in the form of a layer of glass mat, the reinforcing layer of fiberglass is made interconnected and with the outer side of the insulation using self-expanding polyurethane adhesive with microspheres, while alternately positioning on the inner side of the insulation a layer of glass mat, a layer of fiberglass and a layer of additional insulation, interconnected and with the inner side of the additional insulation by means of self-expanding adhesive polyurethane adhesive with microspheres. On the outside of the additional insulation, a reinforcing layer in the form of a glass mat layer, a reinforcing layer of fiberglass and a protective layer connected to each other and to the insulation by means of self-expanding polyurethane adhesive with microspheres can be arranged alternately.

Providing the proposed utility model with a protective layer made mainly of epoxy resin with a thickness of mainly 0.5-1.5 mm, it is possible to form a high-quality external protective coating, which helps to increase the strength characteristics of the resulting sandwich panels and improve their appearance.

The supply of the proposed utility model with an additional reinforcing layer in the form of a layer of glass mat provides high bending strength of the obtained sandwich panels, which also helps to increase the strength characteristics of the obtained sandwich panels.

The use of self-expanding polyurethane adhesive with microspheres provides a reliable connection of the materials used. In addition, the use of microspheres helps to increase the penetration of the adhesive during expansion, thereby improving adhesion. The use of microspheres also improves the isothermal properties of the panel, as they reduce the effect of radiant heat transfer.

The supply of the proposed utility model according to the second variant of the method with a second layer of insulation helps to expand the functionality of the resulting sandwich panels by providing the ability to obtain sandwich panels with enhanced heat-insulating properties.

In FIG. 1 shows a cross section of a sandwich panel with a single layer of insulation.

Sandwich panels can be made as follows.

The matrix forms (not shown in the figures) are preliminarily prepared, the working surface of which is treated with a release agent for resins. Then, the working surface of the matrix forms is filled with a layer of 1 epoxy resin, mainly 0.5-1.5 mm thick, and left to dry on the stick. After that, layer 2 of glass mat and layer 3 of fiberglass are alternately laid on the resin layer, then layers 2 and 3 are impregnated with a self-expanding polyurethane adhesive with microspheres and insulation 4 is laid on top of layer 3 of the fiberglass fabric. Then, the materials to be joined are compressed and dried, using a vacuum table under a pressure of 1500 kg per m ² , and after complete drying, the matrix form is removed. Before drying, on the outside of the insulation 4, a fiberglass fabric layer 5 and a glass mat layer 6 can be stacked alternately, which are impregnated with a self-expanding polyurethane adhesive with microspheres and a second matrix form is placed on top of the glass mat layer 6. Before applying to the working surface, the resin can be tinted.

If it is necessary to obtain sandwich panels with improved heat-insulating properties, then a heater 4 is laid on layer 3 of the fiberglass fabric; a layer of glass mat (alternately not shown in the figures) and a layer of fiberglass (not shown in the figures) are laid alternately on its outer layer, impregnated with self-expanding polyurethane adhesive with microspheres and lay on the layer of fiberglass a second insulation (not shown in the figures), after which the materials to be joined are compressed and dried, using a vacuum table under a pressure of 1500 kg per m ² , and after full The drying matrix form is removed. Before drying, a layer of fiberglass (not shown in the figures) and a layer of glass mat (not shown in the figures), which are impregnated with a self-expanding polyurethane adhesive with microspheres and are placed on top of the layer of glass mat, can be laid alternately on the outside of the second insulation material, and a second matrix form is placed on top of the glass insulation layer.

Thus, the proposed sandwich panel has high thermal insulation and strength characteristics, has an aesthetic appearance and wide functionality.

Claims (4)

1. A sandwich panel comprising at least one layer of insulation, mainly foam, and a reinforcing layer of fiberglass, located at least on one outer side of the insulation, while the insulation and reinforcing layer are interconnected by means of an adhesive connection, characterized in that it further comprises at least one protective layer made mainly of epoxy resin with a thickness of mainly 0.5-1.5 mm, and an additional reinforcing layer in the form of a layer of glass mat located between the protective th layer and the reinforcing layer of fiberglass, with a protective layer, an additional reinforcing layer in the form of a mat layer, a reinforcing layer of fiberglass insulation and interconnected by means of a self-expanding polyurethane adhesive microspheres. 2. The sandwich panel according to claim 1, characterized in that on the inner side of the insulation there are alternately a reinforcing layer in the form of a layer of glass mat, a reinforcing layer of fiberglass and a protective layer interconnected by means of self-expanding polyurethane adhesive with microspheres. 3. A sandwich panel comprising at least one layer of insulation, mainly foam, and a reinforcing layer of fiberglass, located at least on one, outer, side of the insulation, while the insulation and reinforcing layer are interconnected by means of an adhesive connection, characterized in that it further comprises at least one protective layer made mainly of epoxy resin with a thickness of mainly 0.5-1.5 mm, and an additional reinforcing layer in the form of a layer of glass mat located between the protective m layer and a reinforcing layer of fiberglass, a protective layer, an additional reinforcing layer in the form of a layer of glass mat, a reinforcing layer of fiberglass are interconnected and with the outer side of the insulation using self-expanding polyurethane adhesive with microspheres, while the layer of glass mat is alternately located on the inside of the insulation, layer fiberglass and a layer of additional insulation, interconnected and with the inner side of the additional insulation by means of self-expanding polyurethane adhesive with micro ferami. 4. The sandwich panel according to claim 3, characterized in that on the outside of the additional insulation there are alternately a reinforcing layer in the form of a layer of glass mat, a reinforcing layer of fiberglass and a protective layer connected to each other and to the insulation by means of self-expanding polyurethane adhesive with microspheres.

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