NO149008B - COMPRESSED PLATE COVERING A BODY OF A POROEST ELASTIC MATERIAL. - Google Patents

Description

The present invention is based on a compressed

plate comprising a body of a porous elastic material,

where almost the entire body is impregnated with a substance that has a specific softening temperature. The plate is designed to an-

is preferably turned for sound insulation and cavity filling.

It is previously known to use foam plastic material

in the form of plates or strips to produce sealing of joints or filling of cavities, e.g. between two outer plates in a building element. In order for the foam plastic material to fulfill its task satisfactorily, the foam plastic sheet or

-the strip is inserted in a compressed state, so that the material can expand to a certain extent after insertion and thereby fill

leave the entire available space and at the same time lean against the boundary walls that form the cavity with a certain force. This embedment is difficult to carry out, as the foam plastic, due to its inherent elasticity, immediately regains its original volume after compression when the compressive force ceases to act.

To remove this difficulty it is earlier

been proposed, e.g. in the Swedish interpretation document no.

382 609, to impregnate the foam plastic with a binder, which slows the material's elastic return to its original volume, and to pack the material in a compressed state. This method has the advantage that the material can be compressed during production and that a certain amount of time is available after the material has been removed from the packaging to place the material in a designated space at another workplace, in which the material can later expand, so that the space is completely filled . The disadvantage of the method is that the material must be packed in special packaging during manufacture, which must be designed so that it can resist the material's tendency to expand, and that the packing must be removed before the material is placed in the specific room.

The main purpose of the invention is to provide a compressed plate of an elastic material, which is such that it is kept in the compressed state without external means, whereby the above-mentioned disadvantage is avoided. This purpose is achieved according to the invention by giving the plate the characteristic features specified in claim 1.

The invention is thus based on the idea that the elastic material included in the plate should be impregnated so strongly with a suitable substance that the elastic expansion is completely prevented until a temperature increase takes place, so that the impregnation substance

fat softens and the material can expand.

An advantage of the plate according to the invention is that the point in time for the plate's expansion can be determined by supplying heat, so that the temperature is increased to a predetermined limit value. A further advantage of the invention is that by choosing the impregnation material, the temperature required for the board's expansion can be varied within wide limits, which gives great opportunities to adapt the board for different areas of application.

According to the invention, the plate consists entirely or for the most part of a body of a porous, elastic material, e.g. foam plastic or similar. From the outset, the material must be flexible and able to withstand compression to a volume that is significantly smaller than the original volume, as well as having such a structure that the impregnating substance can penetrate and impregnate essentially the entire volume of the body. If the material is made up of cells or pores, these cells or pores must be connected to each other. The body of elastic material can be provided with a surface layer on one or both sides, and optionally with one or two self-adhesive surfaces, which are covered by a removable paper or foil.

For the impregnation, a large number of 11. substances can be used. It is essential that the impregnation substance can be introduced into and distributed

essentially evenly over the whole body and that the material is able to keep the body in the compressed state at the temperatures that normally occur during transport and storage of building and construction materials.' Furthermore, the impregnation material must have a softening temperature that is not higher than the elastic material can be heated to this temperature without being damaged. Particularly suitable impregnation material or agents are bitumen plaster,

which exist in large numbers with different properties and softening temperatures. The impregnating substance can advantageously consist of

a mixture of two or possibly more bitumen plasters with different softening temperatures, during which the advantage is achieved that the softening temperature of the impregnation material, which determines the temperature at which the elastic material can be made to expand, can be varied within wide limits by varying the quantity ratio between those in the impregnation material included bitumen plaster with different softening temperatures. The impregnating substance can naturally also contain additives for different purposes. Instead of bitumen plastic, any plastic can be used, which has the property that it softens at a certain temperature.

In an application of the invention, an impregnation substance is used in the form of a mixture of two different bitumen plasters, one of which had a softening temperature of 85°C and the other had a softening temperature of around 200°C. The first-mentioned bitumen plastic made up 97% and the latter bitumen plastic made up 3% of the impregnation material. With this impregnating substance, an expansion of the elastic material was achieved with a temperature increase to approximately 100°C.

During the impregnation, it is important that the impregnating substance penetrates the entire elastic body and that a sufficient amount of impregnating substance is added so that the impregnation really keeps the elastic body in the compressed state for an unlimited time, if the temperature is not increased to the softening temperature of the impregnating substance certain limit value. The quantity of impregnating substance that must be added to achieve this purpose depends on many factors, e.g. the stiffness and volume-weight of the foam. As an example, however, it can be mentioned that when impregnating a foam plastic sheet with a thickness of 7 mm with the above-mentioned impregnating substance, it has been shown that an amount of 1 kg/m 2 was sufficient.

The impregnating substance can, as indicated above, last

of a single bitumen plastic, and this should then have a softening temperature in the range of 70-200°C or higher so that there is no risk of the temperature being inadvertently increased to the softening temperature for the impregnating substance. If the impregnation material consists of a mixture of two bitumen plasters or the like, one can suitably have a softening temperature in the range 70-100°C and the other a softening temperature in the range 150-200°C. In that the two bitumen plasters included in the impregnation material

or similar have softening temperatures at either end of the actual range 70-200°C, the softening temperature of the impregnating substance,^ which is usually the temperature at which the elastic body can be made to expand due to the inherent elastic forces, can be chosen over the entire interval by varying the quantity ratios between the two bitumen plasters.

The plate according to the invention is intended to be impregnated

in a hot state and to be compressed during cooling or at room temperature. It is primarily intended to be used in manufacturing processes where heat is applied in one or some of the manufacturing steps, so that the plate underneath expands to a predetermined thickness. An area of application is e.g. in doors or elements made of metal. In the production of such products, the metal floats must be washed before the final treatment, which often consists of a coating. During this washing, washing liquid penetrates the door or the element and is absorbed by the elastic body embedded in the door or the element, if this is in an expanded state. If, however, the body is in a compressed state, no absorption of liquid takes place in the body. When the body is later caused to expand, further expansion of the body facilitates the expulsion of liquid from the washed die or element. As the washing process usually takes place at a temperature of a maximum of 70°C, it is necessary that the impregnation material's softening temperature is higher than 70°C. Preferably, the softening temperature should be at 100°C or somewhat higher, as any remaining water at this temperature has been boiled away.

The compressed plate can, as mentioned at the outset, be used for sound insulation and/or for filling cavities or optionally designed as an elongated strip and used as a sealing strip.

Claims (5)

1. Compressed plate comprising a body of a porous, elastic material, where almost the entire body is impregnated with a subject that has a specific softening temperature, characterized in that the body is impregnated to such an extent that it is kept in the compressed state as long as the temperature does not exceed the softening temperature of the impregnation item used. 2. Plate as specified in claim 1, in which the elastic material is made up of a foam plastic and the impregnating substance contains at least a bitumen plastic, characterized in that the bitumen plastic has a softening temperature above 70°C. 3. Plate as specified in claim 2, characterized in that the bitumen plastic has a softening temperature in the range 70 - 200°C. 4. Plate as stated in claim 1, characterized in that the body of elastic material is impregnated with a substance containing a mixture of two different bitumen plasters with different softening temperatures. 5. Plate as specified in claim 4, characterized in that one bitumen plastic has a softening temperature in the range 70 - 100°C and the other bitumen plastic has a softening temperature in the range 150 - 200°C.