DE10056829C2 - Process for producing an insulation board or mat made of wood fibers and insulation board or mat produced according to this process - Google Patents

Description

The invention relates to a method for producing an insulation board or - mat made of wood fibers and one made by this process Insulation board or mat.

It is already well known that insulation boards or mats made of wood fibers manufactured using the wet process. Disadvantage of these manufactured in the wet process It is wood fiber boards that only comparatively thin layer thicknesses are realized here are cash. Such insulation panels or mats are found in particular in the Construction industry as insulation or insulating material.

It is already known to use automobile mats or wood mats also use of flax fibers, here the wood fibers or flax fibers Plastic fibers are added. In this known method, the Sheets are made on so-called carding machines, and here too not allow very large layer thicknesses to be achieved in one machining run. Larger layer thicknesses are achieved here by layering the layers plate from the carding machine.  

Also from a number of publications, such. B. from DE 196 35 410 A1, DE 36 41 466 A1, DE 35 45 001 A1, EP 0 330 671 B1 and WO 99/22084, are already processes for the production of insulation boards from Holzfa known.

The object of the invention is to provide a dry process for to create an insulation board or mat made of wood fibers with which in one Comparatively thick sheets can be produced in one operation.

This object is achieved by a method with the method steps according to claim 1. This procedure includes the following steps:

• - production of dry wood fibers,
• - Direct surcharge of the loose wood fibers with fire retardants and alternatively for addition in the mixer, direct addition of adhesive particles, resins, Waxing, biodegradable plastic binding fibers and natural or made of conventional or biodegradable plastics Support fibers in the drying process,
• - Mixing the fire-retardant wood fibers with thermo-activatable art fabric fibers, adhesive particles, resins, waxes, biodegradable Plastic binding fibers and natural or from conventional or biolo synthetically degradable plastics existing support fibers.
• - Scatter the fiber mixture in a single layer on a first endlo this sieve belt,
• - Compressing or calibrating the loosely scattered fiber mixture between the first endless screen belt and an opposite two endless filter belt with a thickness of at least 20 mm,
• - Crosslink the thermo-activated plastic fibers or adhesive particles a matrix penetrating the wood fibers in a downstream Hot air drying tunnel or flow dryer and  
• - If necessary, formatting the continuously produced insulation board or Insulation mat in the desired size.

As a fire retardant, for example, PM40 or PM60 from BHF-Chemie GmbH, Interpark, D-76877 Offenbach / Queich can be used. Essential The process is that the thermo-activatable plastic fibers, adhesive parts cels, resins, waxes, biodegradable plastic binding fibers and natural Chen or consist of conventional or biodegradable plastics the support fibers are mixed so homogeneously that the plastic fibers, adhesive particles, resins, waxes, biodegradable plastic binding fibers and na best or from conventional or biodegradable plastics supporting fibers are distributed as evenly as possible over the entire fiber mixture. After the appropriate mixture, it is therefore important that the fiber mixture sprinkled as pressure-free as possible on the first endless screen belt so that it is here there is no separation process. In the case of pressure promotion, for example wise pneumatic conveyance, an undesired segregation of the Fiber components threaten, which later become not uniformly cross-linked Would lead insulation board or insulation mat.

With the method according to the invention, plate thicknesses of at least 20 mm and more can be produced in one operation.

The sub-claims 2 to 12 contain preferred embodiments of the inventions method according to the invention.

The dry wood fibers can contain other vegetable and / or animal Na door fibers and / or from conventional or biodegradable plastics existing support fibers are added. It can be, for example around hemp fibers, flax fibers, straw fibers, hay fibers, jute fibers, sisal fibers, Wool fibers or horsehair fibers are conventional plastic fibers such as PE or PP, or to biodegradable plastic fibers such. B. Bioceta, Mater-Bi, Biopar, Bioplast or CA fiber.  

The thermo-activatable plastic fibers or adhesive particles are thermoplastic coated plastic fibers with a core or filament from a higher tem Temperature-resistant plastic can be used compared to the casing. The Plastic, from which the jacket is made, has a lower melting point point to crosslink the fibers by melting the sheath to reach. For example, the polypropylene core and the sheath made of polyethylene. Here with a corresponding warm air 150 ° C and more, the polyethylene coating is melted, while the polypropylene core has a higher temperature resistance than the Po has polyethylene sheathing. This allows a very well networked and achieve a stable matrix system. This matrix is also flexible so that this results in a new material property for a wood insulation board. Instead of Polypropylene and polyethylene can also use polymers or copolymers be applied.

Alternatively, the fibers can also be crosslinked via resins, waxes, biolo reach biodegradable plastic binding fibers. Examples of biodegradation Bare plastic binding fibers are Bionolle, Eastar, Lacea, Ecoflex, Sconacell.

According to a further preferred embodiment, the fiber mixture is on a air-permeable lamination placed on the first endless screen belt placed. Before compressing or calibrating the loosely sprinkled fiber Mixing on the sprinkled mixture can create an air-permeable lamination be put on continuously.

Alternatively, the already networked insulation boards or mats can be on the underside and / or on the top with an air-impermeable lamination or coating be provided.

As far as the insulation board or insulation mat is manufactured endlessly, it can by cutting saws, band knife devices or high-pressure water jet cutting  Devices that run transversely to the longitudinal orientation of the endless belt are cut become.

The wood fibers advantageously have a length of 1.5 mm to 20 mm and a thickness from 0.05 mm to 1 mm.

The mixture of the wood fibers with the thermo-activatable plastic fibers or Adhesive particles can, if necessary, provide a protective impregnation against insect pests, Fungus and / or microbial infestation can be added. According to the invention Fire retardants are already being applied to the wood fiber, as previously described. Nevertheless, the mixture can have an additional fire retardant beige be added to the legal regulations regarding flammability of the material to the extent that the material is used as insulation or insulating material becomes.

The method can be configured particularly advantageously in that the endless sieve belts are provided in sections, in which the fiber mixture is sprinkled in. These molded parts have side walls, which determine the external dimensions of the interspersed fiber mixture. Within the Molded parts can be profiled for the walls of the insulation material to be formed plates are provided so that during the molding process to the respective shape fitted insulation boards with a possibly profiled surface. The Corresponding molded parts can be on the lower belt as well as on the Upper sieve belt can be provided, here for example the molded part on the Upper sieve belt can also be designed as a molded lid, which in the Molded part of the lower sieve belt for compressing the loosely sprinkled company mixture can be impressed. Of course, the molded parts are on the sieve tapes also permeable to air, so that in the hot air drying tunnel or through flow dryer the hot air through the sieve belts and molded parts for activation the thermo-activatable plastic fibers or adhesive particles flow through can.  

The invention further relates to an insulation board or mat according to claim 13. This insulation board or mat consists of a mixture of fibers in essential wood fibers with a length of 1.5 mm to 20 mm and a thickness from 0.05 mm to 1 mm, these wood fibers with thermo-activatable plastic fibers or adhesive particles are mixed.

Further advantages of the insulation board or mat result from one of the subclaims 14 to 18 .

Accordingly, the proportion of thermo-activatable plastic fibers or glue particles up to approx. 25 percent by weight. This already ensures that a flexible structure is created.

The insulation board or mat can be ausgebil det as a comparatively light plate. The density can be from 20 kg / m ³ to 170 kg / m ³ .

The corresponding insulation board or mat with fabrics can be advantageous and / or nonwovens made of natural, synthetic and / or inorganic fibers and / or Pa paper and / or foils made of metals and / or plastics.

The over and / or underside of the insulation board or mat can be structured and / or be perforated. This in particular can reduce the sound absorption capacity and the stability of the insulation board or mat can be influenced.

Finally, the insulation board or mat with mineral substances be stratified. The plates produced in this way are particularly suitable for Acoustic construction and for the production of dry screed elements.

Further details and advantages of the invention result from one in the Drawing shown embodiment.  

In Fig. 1, a plant for performing a method for producing an insulation board from wood fibers is shown in a schematic side view.

In system 10 , an insulation board is produced as an endless board, the production process running in the direction of arrow a. In the station 12 , an air-permeable lamination running onto an endless wire belt is unwound. A premixed fiber mixture of wood fibers with thermoplastic coated plastic fibers, which have a polypropylene core and a polyethylene sheath, is sprinkled onto these in the scattering station 14 . The fiber mixture is mixed as ideally as possible and is sprinkled on without pressure to prevent the fibers, which have different densities, from segregating.

The loose fiber mixture is sprinkled to a comparatively large height in one operation and moved in the direction of arrow a. The loose mixture is compressed in a compression or calibration station 18 , an air-permeable lamination being applied from the top of the station 16 . This air-permeable lamination runs on an endless screen belt, which runs onto the scattered fiber mixture from above. A steady compression of the fiber mixture is achieved in the station 18 by means of sieve belts converging in the direction of movement a. The calibration mixture pair 20 then sets the fiber mixture to the desired final thickness of at least 20 mm. The thermo-activatable plastic fibers, which are evenly distributed in the fiber mixture, are then activated in a hot air drying tunnel 22 at a temperature of ≧ 150 ° C. This means that the temperature of the hot air is sufficient to melt the polyethylene coating. This creates a uniform and well-networked plastic matrix in which the wood fibers are embedded.

The resulting insulation board is not shown in more detail here posed way by means of a band knife device, which transversely to the conveyor device a is arranged in the desired length of the final molded parts ge cut.

Claims (18)

1. Method for producing an insulation board or mat from wood fibers with the following steps:

• - production of dry wood fibers,
• - direct assessment of the loose wood fibers with fire retardants and, alternatively, for addition in the mixer, direct addition with adhesive particles, resins, waxes, biodegradable plastic binding fibers and natural or conventional or made of biodegradable synthetic support fibers in the drying process,
• - Mixing the fire-retardant wood fibers with thermo-activatable plastic fibers or adhesive particles, resins, waxes, biodegradable plastic binding fibers and natural or from conventional or biodegradable plastics support fibers,
• - scattering the fiber mixture in a single layer on a first endless screen belt,
• Compressing or calibrating the loosely scattered fiber mixture between the first endless screen belt and an opposite second endless screen belt to a thickness of at least 20 mm,
• - Crosslinking the thermo-activatable plastic fibers or adhesive particles to form a matrix penetrating the wood fibers in a downstream hot air drying tunnel or through-flow dryer and
• - If necessary, formatting the continuously produced insulation board or insulation mat in the desired size.

2. The method according to claim 1, characterized in that the dry Wood fibers other vegetable and / or animal natural fibers and / or from conventional or biodegradable plastics existing support fibers are added. 3. The method according to claim 2, characterized in that the vegetable and / or animal natural fibers from hemp fibers, flax fibers, straw fibers, Hay fibers, jute fibers, sisal fibers, wool fibers or horsehair fibers are choosing. 4. The method according to any one of claims 1 to 3, characterized in that as thermo-activatable plastic fibers or adhesive particles thermoplastic coated plastic fibers with a core or filament and a um sheathing are used, the sheathing made of plastic, the can be biodegradable, resin or wax with a low Melting point for crosslinking the fibers by melting the umman Telung consists and the core or the supporting filament with a plastic higher temperature resistance, and / or thermoplastic art  fabric fibers, thermoplastics, condensation resins, polymerization resins, starch be used. 5. The method according to any one of claims 1 to 4, characterized in that the fiber mixture on a laid on the first endless belt air-permeable lamination is deposited. 6. The method according to any one of claims 1 to 5, characterized in that before compressing or calibrating the loosely sprinkled fiber gemi Air-permeable lamination on the sprinkled mixture is hung up. 7. The method according to any one of claims 1 to 4, characterized in that the already networked insulation boards or mats on the underside and / or Ver with an airtight lamination or coating on the top will see. 8. The method according to any one of claims 1 to 7, characterized in that the formatting of the continuously produced insulation board or insulation material mat in the desired size using cutting saws, band knife devices or high pressure water jet cutters. 9. The method according to any one of claims 1 to 8, characterized in that the wood fibers used have a length of 1.5 mm to 20 mm and a dic ke from 0.05 to 1 mm. 10. The method according to any one of claims 1 to 9, characterized in that the mixture of the wood fibers with the thermo-activatable plastic fibers or adhesive particles a protective impregnation against harmful insects, fungus infestation and / or microbial infestation is added.   11. The method according to any one of claims 1 to 10, characterized in that the mixture of wood fibers and thermo-activatable plastic fibers or adhesive particles are added to fire retardant substances. 12. The method according to any one of claims 1 to 11, characterized in that at least one of the endless sieve belts has molded parts in sections, in which the fiber mixture is sprinkled, so that the respective shape is suitable insulation boards with a possibly profiled surface. 13. Insulation board or mat, produced with a method according to one of the Claims 1 to 12, characterized in that they consist of a fiber mix of essentially wood fibers with a length of 1.5 mm to 20 mm and a thickness of 0.05 mm to 1 mm with thermo-activatable plastics or adhesive particles. 14. Insulation board or mat according to claim 13, characterized in that the proportion of thermally activated plastic fibers or adhesive particles up to approx. 25 percent by weight. 15. Insulation board or mat according to claim 13 or 14, characterized in that it has a density of 20 kg / m ³ to 170 kg / m ³ . 16. Insulation board or mat according to one of claims 13 to 15, characterized characterized in that they are woven with fabrics and / or nonwovens from natural, synthetic and / or inorganic fibers and / or papers and / or foils made of Me tallen and / or plastics is laminated. 17. Insulation board or mat according to one of claims 13 to 16, characterized characterized in that the top and / or bottom of the insulation board or -matt is structured and / or perforated.   18. Insulation board or mat according to one of claims 13 to 17, characterized characterized in that it is coated with mineral substances.