DE4435317A1 - Insulating panel with given length and width format and thickness - Google Patents

Abstract

The panel comprises cuts (6,7a,b) which are so deep that the resulting strips (3a,b) are firmly interconnected, as well as forming a flat top and bottom surface. They are individually separable, or can be cut-off w.r.t. an edge of a solid base. The insulating panel (1) is a composite of individual strips of given length, width, and thickness, linked at longitudinal sides. At the butting sides the strip may be glued together such that they can be separated or cut-off w.r.t. the base edge.

Description

The invention relates to an insulation board with certain Longitude / latitude format and certain thickness.

Insulation boards of the known type are diverse in Buildings, plants and machines are used and are made of different materials, e.g. B. made of plastic Fiber materials and paper, including from Waste paper, manufactured. Such insulation boards become Thermal insulation, e.g. B. a loft of a building Internal insulation of a wall or for external insulation of the walls and used under screed as sound and heat insulation. Insulation boards of the type mentioned that Rigid foam insulation materials such as polystyrene rigid foam, Rigid polyurethane foam or rigid phenolic resin foam manufactured must comply with DIN 18164; such that are made from mineral fiber insulation materials that DIN 18165. In addition, depending on the intended use Flammability classes to be observed or such panels DIN 4102 protection class-specific.

The use of such insulation boards in house construction is such. B. for the roof insulation between the rafters and known in the attic. Here are preferred Rigid foam sheets or sheets made of mineral fibers as well mineral insulation materials and foam plastic panels for Inserted into a wooden floor. For the Thermal insulation of flat roofs are cork and Rigid foam sheets used. For external wall insulation it is common to put insulation boards on the inside or on to apply the outside. They are also suitable for this both foam boards and mineral fiber boards. Insulation boards also become core insulation used between masonry. It is also known Plasterboard rigid foam composite panels for the Use external wall insulation. Insulation boards of  generic type can also under blankets Thermal insulation to be attached. The examples show that insulation boards are used in many different ways in house construction. The same applies to industrial buildings and systems, the choice of materials for the insulation boards from is dependent on the respective area of application.

It has also become known that building boards, in particular impact sound boards and thermal insulation boards To produce waste paper. The waste paper becomes this crushed, e.g. B. cut into small stampings, and using binders, adhesives and Additives processed into building boards, which in different sizes are offered. The same thing happens also for all of the aforementioned insulation boards. Under the Category of insulation board also fall heavy Designs, e.g. B. from wood-paper mixtures manufactured plates.

Since the buildings in which such insulation boards individual dimensions and conditions are used have, it is necessary to the insulation boards tailored to local conditions. this will usually accomplished on a construction site. are for example the insulation boards in a slatted frame insert, they must be tailored so that they can be inserted between two adjacent slats. When using rigid foam panels, these have a certain intrinsic elasticity that allows the Make the plate a little wider than the clear distance between two slats - or for roof insulation between the rafters - is so that the plate self-locking can be pressed in. Through the relative low weight ensures that the Clamping forces are sufficient even over years without the plate moves between the slats or off the rafters can fall out. However, it becomes general  felt annoying that although the rafters in Standard distances are attached, or the slatted frames Have standard dimensions, the plates at least in the edge area must be tailored. There are cutting tools for this or saws and other complex and large Auxiliary tools necessary to make straight cuts to be able to.

The invention has for its object an insulation board to design so that with the simplest of means Dimensional adjustment to the installation location is possible without e.g. B. a saw is needed to size the panels the required dimensions at the respective location to be able to adapt.

The invention solves the problem by an embodiment the insulation board, as in claim 1 and secondary claim 2 is specified.

A method for producing the plate is claimed 18 specified.

Advantageous developments of the invention according to the independent claims 1 and 2 are in the claims 3 to 17 and an advantageous development of Method according to claim 18 in claims 19 and 20 specified.

The statements in the claims are self-explanatory.

In addition, it is pointed out that the insulation boards of course from a wide variety of materials can exist that are known for the areas of application are. Due to the given strip shape it is also possible to produce individual strips and these loose join together. So that they form a network, is a cover layer is provided on at least one side,  which holds the strips together in a plate shape. To dissolve such a composite, it is necessary one along the abutting edges of two adjacent strips Make a cut. This is facilitated by the fact that the cutting lines are recorded or on the top layer are printed so that with a knife on this can be driven along the length or Width adjustment depending on the dimensioning of the plate to be able to make. The plate is also out individual partial strips or small blocks composed, so this adjustment can be done both in the longitudinal as well as transverse direction, thereby each to be able to make any room adjustments. At Use of such plates, for example Roof insulation between the rafters, it is recommended Partial fields from the plate with the vertical stripes cut out that are slightly larger than the light Width between two rafters. The intrinsic elasticity of the material used allows, as in conventional plates also that these between the Rafters can be clamped. The grid dimension of the Stripes can be about 30 mm or so be less or more, depending on which standard dimensions must be observed for the respective application. According to the grid width, according to the invention can also be designed differently, e.g. B. by Joining strips of 20-20, 30-30, 20-20 mm, are alternating with the cuts Adjustments possible, for example, always one lateral minimum contact pressure on the rafters or the To ensure slats of the slatted frame.

The use of strip-shaped waste paper for the production of strip-shaped elements for such a plate proven because the long stripe structures are full can be processed so that high strength  the plate, which is assembled from individual strips is, is given. When they are loosely attached, the individual strips through the top and / or bottom Top layer bonded together. The top layer can be designed according to the conditions of use, e.g. B. one side as a vapor barrier made of plastic, the other side, however, made of paper or cardboard. The Cutting options have already been mentioned. The Production is also possible in a large area, these are subsequently cut into strips or only be provided with incisions, so that the Material has not yet been cut, but can break off or shear off. This manufacturing method does not only apply to insulation boards made from waste paper are made, but also for those who made other materials are made, the fibers, e.g. B. mineral fibers or natural fibers, during the cutting process are cut and only the remaining wall Maintains plate stability.

The format of an insulation board used for roof insulation, e.g. B. between the rafters, is to be used preferably about 1 m × 3 m and can be tailored to your needs be cut so that it is approx. 1 m long Result in sections which have such a width that is adjusted to the clear width between the rafters. The There are plates for the roof insulation such. B. from Strips of approx. 50 mm × 80 mm, the width approx. 50 mm and the thickness is approximately 80 mm. Deviations of these are of course depending on the used Material possible. As insulation boards under screed as Sound and heat insulation it is recommended to use panel sizes from approx. 0.5 m × 1 m with a thickness of approx. 25 mm to approx. 50 mm to use, the density of the plates so must be chosen that they are firm and that Can absorb pressure load.  

This is the case for boards laminated with cover layers Windproofing already provided by the lamination. In addition, it can also make it windproof can be achieved that the plates are staggered one above the other are arranged, so several plates are used.

In addition, the invention provides that also transverse sections can be broken off or sheared off if there are corresponding incisions in the strips are provided.

The invention is explained in addition below with reference to the embodiment shown in FIGS. 1 and 2.

In Fig. 1, an insulation board 1 according to the invention is shown in perspective, which consists of a plurality of loose strips 3 a, 3 b joined together, which are rectangular strips of the same size, which have the same length, so that a closed Side edge 8 , front end side 2 and rear end side 4 is given. The closely joined strips 3 , of which only the strips 3 a and 3 b are designated, each form an insertion edge 6 to the adjacent strips. In order to keep the strips joined together, an upper cover layer 4 is applied, on the underside of which the upper sides of the strips are glued. Furthermore, a cover layer 5 is also glued to the underside, so that the plate is stable in itself. The plate dimensions are approximately 1 m × 3 m, so that they are still handy and can be carried into buildings, for example. The strips 3 (a, b and those not designated) have a special feature in the embodiment, which consists in that at least in the upper region, that is to say not continuously, which would also be possible, cross sections 7 a and 7 b are provided are introduced from above and from below into the strips without cutting through the strips, so that there is still a connection approximately in the middle in order to be able to break out individual blocks thus formed. These blocks are referred to a strip, 11 a, 11 b and 11 c. If the cover layer is now applied, breaking out is not possible since, in addition to the central residual wall in the strips, the upper cover layer 4 and the lower cover layer 5 would also have to be separated. In order to make this possible, it is additionally provided that 6 cut lines are drawn congruently above the abutting edges and also congruent to the cuts 7 a and 7 b and 7 c. Thus, it is possible for a person skilled in the art to travel along the printed cutting lines by means of a knife and then to break off the plate along the cutting line or to break out the blocks 11 a, 11 b, 11 c, so that any width adjustment to the desired laying within the framework of the grid Streak is possible. This makes handling during installation much easier, as tolerances can be compensated for by the inherent elasticity of the insulation board material.

As already mentioned at the beginning, the insulation board according to the invention can be made from a wide variety of materials. Due to the streaking, it is also possible to assemble a plate from individual strips, for the production of which waste paper cut into a strip shape can be used. The waste paper cut into strips is mixed with cold-curing or extremely quickly curing resorcinol-PF resin and hardener. In order to achieve a flame retardant class, water glass is added and the strip is shaped in an extrusion press. The manufacturing process is as follows:
The paper cut into strips (approx. 2 mm to approx. 3 mm wide strips) is prepared by spraying with binders and brought into the intended shape on the extruder. In order to be able to carry out the production continuously, the flow of hot air is provided, so that it is cured as soon as the strip leaves the extrusion press. The cooled hot air is drawn off, reheated and returned to the circuit. After leaving the extrusion press, the bars are cut to length and strung together and brought to the final format by the lamination. However, it is also possible to produce the plates in large format endlessly in an extrusion press and to separate the strips by means of a cutting device. The strip-shaped paper used, which extends along the strip of the plate and is thus also introduced, offers increased strength of the respective strip and thus of the plate as a whole. The cover layers 4 and 5 are applied in a separate adhesive passageway, with fast-curing adhesive also being used here, so that the plate already has the desired stability when it leaves the pressure press.

The density of the plates, whether they are made of paper or made of paper other materials are made adapt. When using the insulation boards under screed for sound and thermal insulation is a much higher one Density, e.g. B. to choose a density of about 135 kg / m³. This is due to the manufacturing process or selection suitable materials. While for Thermal insulation, for example, insulation boards made of paper Have thicknesses between approx. 50 mm and approx. 100 mm should be under screed in the order of magnitude approx. 25 mm to approx. 50 mm. Because of the simple Separability of the plate by means of a knife or by  Shear off or break off, it is possible even smaller ones Slabs easily from a larger slab produce, e.g. B. a plate with a size of approx. 0.50 m × 1 m from a plate of 1 m × 3 m to make with it Even with large-scale laying adjustments to the To be able to make rooms.

In Fig. 2, a type of connection between two adjacent strips is shown, which is also industrially producible. For example, recesses 9 can be worked into the strips on one side, offset to the entire length, into which protrusions 10 on the other side engage when they are joined together. If the approaches are head-shaped and the recesses have an undercut, there is a latching connection, which is also not detachable. Since the entire composite can be held by cover layers, simple straight-line joint connections are also possible. The molding of the approaches 10 or the formation of the recesses in the strips 3 b 'and 3 c' are introduced or pressed out or molded during the pressing process. However, it is also possible to connect the strips 3 a and 3 b to one another by dot bonding over the entire length, so that, as in the case according to FIG. 2, a cover layer for lamination is not necessary at all.

Claims (20)

1. Insulation board with a certain length / width format and a certain thickness, characterized in that the insulation board ( 1 ) is pre-cut on one side or on both sides in the longitudinal and / or transverse extension, the cuts ( 6 , 7 a, 7 b) so deep are incorporated in the insulation board (1), that the strips thus formed (3 a, 3 b) are firstly connected firmly to one another and a planar top and bottom surfaces form, on the other hand, however, separately breakable or are sheared against an edge of a firm surface. 2. Insulation board with a certain length / width format and a certain thickness, characterized in that the insulation board ( 1 ) from individual strips ( 3 a, 3 b) certain length, width and thickness is assembled together on the long sides. 3. Insulation board according to claim 2, characterized in that the strips ( 3 a, 3 b) are glued or glued in a punctiform manner on the abutting sides, the adhesive or glue connection being designed such that the strips ( 3 a, 3 b) can be broken off or sheared off against an edge of a solid base. 4. Insulation board according to claim 2, characterized in that the strips ( 3 b ', 3 c') on the mutually abutting sides interlocking locking connections or pin connections from pins inserted into bores or molded lugs ( 10 ) which in molded corresponding recesses ( 9 ) of the adjacent strip ( 3 b ′, 3 c ′). 5. Insulation board according to one of the preceding claims, characterized in that the strips ( 3 a, 3 b) consist of individual sections ( 11 a, 11 b, 11 c) lined up, which are marked by cross sections ( 7 a, 7 b) and by the remaining wall is connected to one another or glued or glued in a punctiform manner or connected to one another by latching or pin elements. 6. Insulation board according to one of the preceding claims, characterized in that at least on the flat top or bottom of the insulation board ( 1 ) a continuous cover layer ( 4 ) of the same or different material is applied to the top or bottom of the individual strips ( 3 a, 3 b) are attached in an adhesive or adhesive manner. 7. Insulation board according to claim 6, characterized in that a cover layer ( 5 ) is also applied to the underside. 8. Insulation board according to claim 6 or 7, characterized in that at least one cover layer ( 4 , 5 ) has pre-drawn cutting lines which are congruent with the intended cutting lines ( 6 ) or the strip joint edges. 9. Insulation board according to one of the preceding claims, characterized in that the insulation board ( 1 ) consists of waste paper cut into strips or chips, which is mixed with cold and hot-curing adhesive, glue or resin and is pressed under pressure with simultaneous curing. 10. Insulation board according to claim 9, characterized in that the strips ( 3 a, 3 b) of the board individually manufactured or separated by cutting during the manufacturing process of a board or marked by pre-cuts ( 6 ). 11. Insulation board according to one of claims 1 to 8, characterized in that the insulation board ( 1 ) made of plastic, preferably foamed plastic, is produced as a continuous plate with pre-cut strips or composed of individual strips of substantially the same length, which are joined together. 12. Insulation board according to claim 1 or 6, characterized characterized that flame retardants are at least introduced into the cover layers. 13. Insulation board according to claim 12 in connection with Claim 5, characterized in that water glass is added as a flame retardant. 14. Insulation board according to one of claims 1 to 3, characterized in that the density of the insulation board ( 1 ) or the strip is adapted to the use. 15. Insulation board according to claim 14, characterized in that the insulation board ( 1 ) has its own elasticity, which allows a slight compression relative to the central axis. 16. Insulation board according to claim 14 or 15, characterized characterized in that the density is designed is that the insulation board is hard-wearing. 17. Insulation board according to claim 13, 14 or 15, characterized in that at Using waste paper the bulk density for the insulation is approximately 100 to 150 kg / m³. 18. A method for producing an insulation board according to one of claims 1, 9, 12 to 17, characterized in that waste paper cut into strips ( 3 a, 3 b) (strips approximately 2 to 3 mm wide) by spraying or impregnating with binder processed and placed on an extruder in the intended shape of the plate or strip. 19. The method according to claim 18, characterized characterized in that the emerging strand a heat and / or air supply is reduced. 20. The method according to claim 18, characterized in that insulation boards ( 1 ) produced by extrusion or pre-cut or cut into strips ( 3 a, 3 b) and these are joined together and connected to one another by the cover layers ( 4 , 5 ).