DE19747189A1 - Process for the production of pressure-resistant and breathable lightweight building materials - Google Patents

Description

The invention relates to a method for producing pressure-resistant and breathable Lightweight building materials, the lightweight building material itself and its use.

It is known in the prior art to use a binder such as polyurethane a filler, such as cork granules or cork flour, as loose Fill the fill into a mold and form the molded part by curing. Resulting from it molded parts, for example for medical purposes as a shoe insert or similar can be used. Above all, such molded parts must be elastic in order to to meet the requirements for comfort when wearing.

It is also known to produce molded parts in the manner mentioned as dampers in the area mechanical engineering. Here, too, there are elastic properties of the molded part Foreground.

DE 195 47 156 A1 also describes the production of soft-elastic molded parts len from a polyurethane / cork granulate mixture known for inserting flowers and other decorative items.  

EP 0 411 598 B1 also describes a process for the production of polyurethane Han / cork granule compositions in which the polyurethane and the cork granule as Batch filled in a mold and the desired shape by heating and compression parts are formed. Moldings formed in this way are suitable for example for the production of soles for footwear.

DE 30 04 840 C2 describes a process for the production of cork granules under Use of a thermoplastic binder, in which the plates by repeated Presses are made. The cork granulate panels produced in this way are lightweight usable. However, they are not breathable, which when used, for. B. to a damp accumulation of activity or heat.

Starting from this prior art, the object of the present invention was to achieve reasons to provide a lightweight material that is pressure-resistant and breathable and the same can be produced inexpensively in time.

This object is achieved by a method in which a binder with a filler blended, filled into a mold as a loose fill and the molded part formed by curing becomes. The binder is preferably a plastic and this is particularly preferred Plastic a polyurethane. When carrying out the method according to the invention then the components of the polyurethane are mixed, then mixed with the filler and filled into the mold as a loose fill, where the molded part is then formed by curing becomes. The polyurethane preferably cures at room temperature in a pot life of approximately 30 min off.

In a preferred embodiment, the components of the polyurethane consist of mo Distinguished vegetable oil as a polyol component and an isocyanate. These become too equal parts mixed together. In particular, come as a modified vegetable oil re sunflower seed, rapeseed, castor and soybean oil in question. However, the invention is not limited to the use of such vegetable oils. Basically, all polyols be used as the polyol component, which in the polymerization reaction to form the Do not or only slightly foam polyurethane and have a pot life of about 30 minutes. exhibit.  

If it is further preferably provided, as filler cork granulate, expanded clay, ge to use puffed pearlite or vegetable fibers, there is the particular advantage that such a Lightweight building material is made, which essentially consists of natural mate rialien exists and can be used in the field of ecological building.

It is also possible to shake the mold while it is curing. This will make one intimate mixing between the binder and the filler is achieved without the pores in to close the formed lightweight material and thus to prevent breathability.

In a further embodiment of the method according to the invention it is provided that the shape after filling in the binder / filler mixture on its open side in essentially full surface with a breathable cover in the form of a coherent layer of vegetable or artificial fibers or fabrics. This Measure may be required to keep the lightweight building material smooth on this side To give surface. This effect can be improved by the fact that the Abdec is pressed onto the binder / filler mixture. There is only so much pressure practiced as required to cover the entire surface with the surface of the binder / filler mixture filled in the mold. The one so practiced Essentially, pressure should not serve to compress the batch itself.

The invention also relates to a pressure-resistant and breathable lightweight building material is obtainable by the process according to the invention.

The invention further relates to the use of such a lightweight building material as insulation tion, in the form of a floor slab, as a wall element and as a roof slab.

When using the lightweight material as an insulating element, its breathability is particularly important activity to wear. In the isolation of z. B. house walls acts according to the invention Insulating element against moisture and heat build-up. The use is egg nes very high proportion of natural raw materials possible, whereby the lightweight building material also suitable for ecological building.  

If the lightweight building material is used in the form of floor panels, the special one exists Advantage that it can be used in conjunction with underfloor heating. This is due to the fact that the breathability of the lightweight building material does not cause heat build-up can hen. Rather, the heat given off by the underfloor heating becomes even the room, which is provided with the floor tiles according to the invention, given.

The use according to the invention as a roof tile enables the replacement of roof tiles. This has significant advantages in terms of the statics of the house, since roof tiles are a significant one Weight and thus put a great burden on the statics of a house. For this In this case, however, it is necessary to face the roof panel in the form of the lightweight building material to be provided with a waterproof layer. This use is advantageous further that the lightweight building material can also be formed in roof tile form, what is easily accessible by appropriate design of the form and what the usual Appearance of a house roof can be preserved.

Although preferred fillers in connection with the method according to the invention have been mentioned, it is obvious to those skilled in the art that the invention not limited to these fillers. Rather, any known fillers can be used.

If it doesn't matter, a lightweight material with the most natural materials possible plastic fibers can also be used instead of the vegetable fibers.

In the following the invention will be tert tert using examples and the accompanying drawing. The shows
single figure: a schematic representation of a device for producing lightweight materials according to the invention.

Examples 1a) Production of a lightweight building material in the form of a floor slab

Modified rapeseed oil as the polyol component and isocyanate are mixed in a ratio of 1: 1 and mixed with cork granules.

Diphenylmethane diisocyanate (MDI) is used as the isocyanate. The resulting quantity 1 consists of approximately two thirds of the filler and approximately one third of the binder. This composition varies depending on the filler used. Therefore, the respective shares are determined on site according to the following principles:

• - Only as much binder is used as is necessary to fill the surface wetting fabric components;
• - The amount of binder used is optimized so that as little as possible binder is used.

Such compositions of batch 1 according to the invention are easily put together on site by a person skilled in the art.

This batch 1 is filled as a loose fill in a total in the single figure with 3 be marked plate shape. The pot life for curing the polyurethane is about 30 minutes, the temperature of the surroundings being about 20 ° C.

The polyrethane component thus formed of the lightweight building material according to the invention consists of about 40% by weight of vegetable oil, which in turn consists of 90% by weight of the polyol component makes. By increasing the ambient temperature, the pot life required for curing can be increased be significantly reduced. This was the case with a variation in the production of flooring The ambient temperature was set to around 130 ° C, which results in a pot life of about 1 min. revealed.

The binder / filler mixture 1 forms within the boundaries 5 , 5 ', 5 ''of the shape and, due to this, forms smooth and uniform surfaces. In order to achieve a smooth surface with a substantially uniform Ge quantity distribution on the open side of the mold, an approximately full-area cover 7 in the form of a thin paper layer is applied here. Paper is also breathable and light, so that the advantages of the lightweight floor panel according to the invention are not diminished by the application of this layer.

In order to achieve an intimate connection of the cover 7 in the form of the paper layer with the surface of the binder / filler mixture 1 , a stamp 9 is shown which is not fully shown in the figure, the stamp surface 11 of which is approximately the opening of the mold 3 and thus its open one Side corresponds. The pressure exerted by this stamp 9 is chosen so large that the paper layer is pressed onto the surface of the batch 1 in the whole area. At the same time, this compensates for the surface in such a way that unevenness and uneven filling of the batch 1 into the mold 3 are compensated for. The stamp 9 is then removed again.

After the cover 7 has been applied in this way , the mold 3 is shaken with a vibration device, not shown in the drawing and known per se, during the entire pot life indicated above. The shaking favors the wetting of the filler with the binder. At the same time, it brings about a slight consolidation of the lightweight building material, which, however, is not sufficient, as in the pressing processes known in the prior art, to reduce or destroy the breathability of the lightweight building material. The floor slab produced in this way shows a capillary effect, via which moisture and air can be exchanged with the surroundings. This floor panel according to the invention is therefore particularly suitable as a covering where there is underfloor heating. The floor slab produced in this way is also pressure-resistant. Tests have shown that the compressive strength is sufficient even for heavy pieces of furniture, such as cupboards.

Example 1a) was modified so that the polyol component instead of modified rapeseed oil because modified sunflower seed, castor and soybean oil was used.  

1b) Production of another floor slab

The floor plate of this embodiment is manufactured in exactly the same way as described under 1a). As a cover 7 , however, no paper, but a jute fabric is applied to the upper surface of the binder / filler mixture 1 . All of the polyol components specified in Example 1a) were also used successfully here.

2a) Production of a lightweight building material in the form of an insulation element

Modified rapeseed oil as the polyol component and MDI as the isocyanate are mixed in a ratio of 1: 1 and mixed with expanded clay as the filler. Furthermore, the procedure is as described in example 1a). A paper layer is used as cover 7 . The other polyol components specified in Example 1a) were also used successfully.

2b) Production of a further insulation element

Modified rapeseed oil as the polyol component and MDI as the isocyanate are mixed in a ratio of 1: 1 and mixed with expanded pearlite. Otherwise, the procedure is the same as that given in the exemplary embodiment under 2a). The cover 7 also consists of a paper layer.

3a) Production of a lightweight building material in the form of a house wall element

Modified rapeseed oil as the polyol component and MDI as the isocyanate are mixed in a ratio of 1: 1 and mixed with hemp fibers. Otherwise, the procedure is the same as that described in exemplary embodiment 1 a). The cover 7 also consists of a paper layer.

A house wall element produced in this way can be used, for example, for the expansion of a Attic are used.

3b) Production of a further house wall element

This house wall element is also manufactured as described under 3a). Instead of Hemp fibers, however, are flax fibers.  

4) Production of a lightweight building material in the form of a roof panel

Such a lightweight building material roof panel is manufactured essentially like the floor plate in Example 1a). However, in order to be able to use it as an umbrella system, this is Ver roof plate on the outward-facing side with a waterproof layer see. Such a water-impermeable layer can be in the form of a polyurethane, for example Han layer are applied in a manner known per se.

By choosing a suitably trained shape, not shown in the drawing, it is also possible to train the roof tiles according to the invention as lightweight building material roof tiles the. In this case, the lightweight roof tiles have the shape of a roof tile apply. However, due to the lightweight construction, they advantageously lack the roof tiles own weight, so that there are considerable advantages for the statics of the Result in roof tiles provided house. In doing so, these lightweight building material roof tiles have to be fixed with the surface on which they are attached.

The exemplary embodiments shown here represent exemplary possible combinations of binder and filler as well as cover. It is of course also possible Manufacture floorboards using hemp or flax fibers or in one other way for insulation, roof panels and / or house wall elements another one large number of possible fillers and / or covers to use. Also as a binder Not only is polyurethane considered, but many other plastics can also be considered Binders can be used.

Claims (19)

1. A process for the production of pressure-resistant and breathable lightweight building materials, in which a binder is mixed with a filler, filled as a loose fill in a mold ( 3 ) and the molded part is formed by curing. 2. The method according to claim 1, characterized in that the binder is a plastic is. 3. The method according to claim 2, characterized in that as a plastic is a polyurethane is used. 4. The method according to claim 3, characterized in that the components of the polyurethane mixed, then mixed with the filler and filled as a loose fill in the mold ( 3 ) and the molded part is formed by curing. 5. The method according to claim 4, characterized in that the polyurethane at room temperature temperature in a pot life of about 30 min. hardens. 6. The method according to any one of claims 2 to 5, characterized in that components the polyurethane consists of rapeseed oil as a polyol component and isocyanate. 7. The method according to claim 6, characterized in that the polyol and the isocyanate mixed in equal parts. 8. The method according to any one of claims 1 to 7, characterized in that as a filler Cork granulate is used. 9. The method according to any one of claims 1 to 7, characterized in that as a filler Expanded clay is used.   10. The method according to any one of claims 1 to 7, characterized in that as a filler expanded perlite is used. 11. The method according to any one of claims 1 to 7, characterized in that as a filler vegetable fibers are used. 12. The method according to any one of claims 1 to 11, characterized in that the mold ( 3 ) is additionally shaken during curing. 13. The method according to any one of claims 1 to 12, characterized in that the mold ( 3 ) after filling the binder / filler mixture ( 1 ) on its open side substantially all over with a breathable cover ( 7 ) in the form of a hanging layer of vegetable or artificial fibers or fabrics is provided. 14. The method according to claim 13, characterized in that the cover ( 7 ) is pressed to form a substantially flat surface on the binder / filler mixture ( 1 ). 15. Pressure-resistant and breathable lightweight building material, available after the process one of claims 1 to 14. 16. Use of the lightweight building material according to claim 15 as an insulating element. 17. Use of the lightweight building material according to claim 15 as a floor slab. 18. Use of the lightweight building material according to claim 15 as a house wall element. 19. Use of the lightweight building material according to claim 15 as a roof panel.