DE2364025C3 - Fiber mat for the dry production of pressed molded bodies from lignocellulose fibers and method for producing the mat - Google Patents

Description

The invention relates to a fiber mat for the dry production of pressed moldings, Consists of pre-consolidated Lignozellu loose fiber layers with a deformable carrier layer connected is. The invention also relates to a method for producing the mat.

For the production of pressed moldings from lignocellulosic fibers, it is already known (DT-AS 12 24 919), with small amounts of Bindemh means staggered fibers loosely sprinkled on an endless conveyor, the height of the applied fiber layer with the help of a peeling roller and equalize to solidify the fiber layer, optionally after damping between several pairs of rollers. This creates a plate-shaped, endless strand, which is then cut into individual plates by a suitable cutting device. After intermediate transport and renewed steaming, molded parts are cut from these plates, placed individually and by hand in a mold and pressed into the final molded bodies in the press while the synthetic resin content in the binder hardens.

This method has significant operational disadvantages. The cut individual panels have im pre-pressed state has a very low deformability and only a low breaking strength. After the steaming necessary to increase the deformability, they no longer have cohesion and must therefore be handled and transported extremely carefully. During the pressing process, when pressing z. B. hollow bodies, certain areas of the molded parts are subjected to train and the Individual fibers in these areas shifted relative to each other, which leads to weaknesses and cracks in the finished molded body leads. To avoid such flaws, in practice, after driving up the punch additional fiber material on the endangered zones of the already pressed The molding is placed and the pressing process is repeated. Due to the standardized sizes of the individual panels there is also an extremely high proportion of waste due to the cutting out of the molded parts, which can be up to 30%.

A process for the production of molded articles from lignocellulose fiber material is also already known (DT-OS 14 53 416), in which the pre-compressed fiber mats are steamed and a reinforcing fabric on the steam-treated Fiberboard is placed, which then under a certain pressure and at a certain Temperature is firmly pressed into the fiber mat. The reinforcement fabric can be made of coarse linen or Paper fabrics are made. Another method described there is that on the endlessly manufactured Fiber mat, a fabric is placed on top and this is inserted into the fiber mat by means of two rollers arranged one above the other is pushed in. The fabric can be coated with a thermoplastic or thermosetting plastic before it is placed on top

to be loaned. The particular disadvantage of this method is that the mats optionally continuously produced ?? EJM rolling pass and fixing of the fabric lose due to their uniform thickness' their deformability largely _W ojtjei additionally by the required attenuation of the fiber materials before compaction UEU moldings of prepressed composite is largely repealed. As a result, the actual pressing process in the manufacture of hollow bodies leads to considerable relative movements of the individual filaments, which are thereby pulled out of their original composite. Weakness zones and cracks in the molding are the result.

The object of the invention is to provide a fiber mat of To create the type mentioned at the beginning, without impairing the uniform fiber distribution can be deformed comparatively strong.

According to the invention, this object is achieved in that the carrier layer is sandwiched between two lignocelidlosis is firmly arranged and that the pre-pressed fiber mat a plurality of regularly distributed Has zones of reduced cross-section.

The firmly adhering support layer arranged between the two fiber layers and the zone _1S reduced cross-section results in a significantly higher deformability compared to the known fiber mat with the advantage that the mat z. B. can be wound on drums without the risk of breaks or tears. In addition, due to the combination of the two fiber layers through the carrier layer, a uniform material distribution is achieved during deformation. The relative movements of the individual fibers that occur during the pressing process for the production of shaped bodies are less than in the known mat, so that zones of weakness and cracks do not occur in the shaped bodies.

A particularly intimate adhesion of the fiber materials can be achieved in an advantageous development of the invention in a technically extremely simple manner in that the carrier layer consists of an elastomer applied in liquid form to the surface of one fiber layer and evenly distributed, or of an elastic, self-adhesive film on both sides. ^ ₅

The characteristic of molded bodies made of lignocellulose of largely residue-free weathering is fully retained if, according to another advantageous development of the invention, the elastic Carrier layer made of weatherable material, such as. B. made of a natural elastomer such as natural rubber or recycled cellulose. The elastic carrier layer can, however, also consist of weatherproof material.

A further improvement is possible if the elastic carrier layer is gas-tight and water-tight, because This results in significantly improved insulation effects and increased resistance to climatic influences result. Also the dimensional stability of the mat on the one hand and that made from it Moldings, on the other hand, can be increased as a result.

It is advantageous if there are the same average number of fibers in the zones of smaller cross-section is located, as in the parts with a thicker cross-section.

To improve their flexibility, the zones with a smaller cross-section or the profiles can be used have the form of waffle embossing on both sides, with then in the zones of smaller cross-section the same average number of fibers as in the parts with thicker cross-sections.

Although the fiber mat according to the invention already by the elastic carrier layer one for the Passing through the various processing stages has sufficient strength, their handling, the transport and possibly also the throughput speeds are significantly improved, if tensile reinforcements are provided on both of their longitudinal edges. The tensile reinforcements are preferred firmly connected to the elastic middle layer, pulling or feeding devices can be used on these attack that wind up the endlessly produced mat either on drums and / or through the other Draw treatment stages for the production of moldings.

The composite mat according to the invention should be manufactured continuously. This is done with a low Lignocellulose fiber material mixed with binding agents is loosely sprinkled onto an endless conveyor and the upper portion of the formed layer peeled off, whereafter according to the invention on the surface the elastic carrier layer is firmly adhered to the fiber layer, then onto the carrier layer another layer of fiber is trickled down firmly and its upper area is peeled off and so on resulting layer composite between roller pairs precompacted in a known manner and then through Profile rolling to form an endless mat with a large number of regularly distributed zones of smaller cross-section is shaped.

Depending on the requirements placed on the mat to be produced or on the shaped bodies produced from it are made, the elastic carrier layer can be sprayed or sprayed onto the surface of the first fiber layer be poured evenly, depending on the strength of the layer application and the specific Properties of the layer a water- and gas-tight seal between the two outer fiber layers can be achieved. Preferably, after the peeling of the first fiber layer, drawstrings are used placed on the edges of the fiber layer, which is firmly connected to this when the carrier layer is applied so that an intimate and solid bond is created. This composite effect of the fiber layers with the carrier layer can optionally or combined a high sound insulation, a high elasticity and achieve a high breaking strength of the finished moldings.

The continuous production of the molded bodies by pressing molded parts is achieved when using the Mat according to the invention significantly simplified and accelerated when the finished mat on drums is wound up.

In the following a plant for the production of the fiber mat according to the invention and for the production the shaped body is described in detail. It shows

F i g. 1 a schematic representation of the plant for the production of the fiber mat according to the invention,

F i g. 2 shows a plan view of an embodiment of the fiber mat according to the invention,

F i g. 3 shows a longitudinal section through the fiber mat along the section line HI-IH in FIG. 2.

The in F i g. 1 system shown contains a bunker 1 for receiving the already with corresponding quantities fibers mixed with binders. A first application 2 with a slide 3 causes the fibers to open a revolving endless conveyor 4 and form a

first fiber layer 5. The layer 5 is evened out by a peeling roller 6 with suction hood 7 and adjusted their height. The peeling roller 6 is a spraying or pouring device 8 immediately downstream, above a flowable elastomer is sprayed or poured onto the pre-compressed surface of the fiber layer 5 which results in an elastic, gas- and water-impermeable, coherent carrier layer, the z. B. allows a vacuum drawing of the fiber mat during the production of the molded body.

Before the task of the fiber layer 5, two bobbins are provided on the longitudinal edges of the mat, from which continuously a drawstring 11 with the speed of the conveyor 4 is unwound. This drawstring 11 is located in the area of the middle elastic Layer and is tightly enclosed by this when spraying or pouring on.

Immediately behind the spray tube 8, another application chute 12 with a slide 13 is provided, trickles through the further loose fiber material onto the still adhesive elastic layer 9. A downstream Peeling roller 14 with a suction hood 15 ensures a uniform thickness of the applied second layer 16, the layer thicknesses of the fiber layers 5 and 16 being the same. The one made from the two fiber layers 5 and 16 as well as the middle, with each fiber layer firmly connected elastic layer 9 formed fiber composite passes through pairs of press rolls 17a, 176, of which only one is shown in FIG. 1, and after these between a pair of Profilwalzcnpaar 18a, 186, between which the pre-pressed composite plate 19 a two-sided Embossing profile receives. The mat 20 completed in this way in a continuous run is wound up on a drum 21 and is ready for dispatch.

In order to keep the tensile loads acting on the mat itself within limits, the mat is attached to its two drawstrings 11 pulled continuously through the system.

As can be seen from Fig. 2, the two drawstrings U are located at the respective outermost longitudinal edges the mat so that it generates an extremely small amount of waste. In Fig.3 is an enlarged Excerpt from the profiled mat is shown. The middle elastomeric layer 9 is in its liquid state Application or with the immediately following trickling of the layer 16 into the adjacent fiber layer areas penetrated, so that an intimate, firmly adhering connection between the elastomer and the fiber layers consists. In the zones 25 of smaller cross-section, the fibers are located in a much denser manner Packing than in the adjacent areas 26 of larger cross-section. The average number of fibers is approximately the same in both areas, so when you cancel the stronger compression in the Areas 25 a paint of uniform strength is created.

To produce the mat, the spraying of the elastomer through the spray nozzles 8 is not essential necessary. Rather, the elastomer can also be applied to the surface of the in liquid or flowable form Layer 5 is poured on. Furthermore, it is also possible, instead of the in FIG. 3 shown waffle pro · files to emboss other profiles in the mat and, if necessary, to offset both ropes against each other.

1 sheet of drawings

Claims (13)

. , ■ Patent claims: 1. Fiber mat for the dry production of pressed moldings, consisting of a pre-consolidated lignocellulose fiber layer connected to a deformable carrier layer, characterized in that the carrier layer (9) is between two lignocellulose fiber layers (5,16) is arranged firmly and that the pre-pressed fiber mat (19) a plurality of has regularly distributed zones (25) of reduced cross-section. 2. Fiber mat according to claim 1, characterized in that the carrier layer (9) consists of one on the Surface of the one fiber layer (5) applied in liquid form and evenly distributed elastomer or consists of an elastic, self-adhesive film on both sides. 3. Fiber mat according to claim 2, characterized in that the elastic carrier layer (9) optionally made of weatherable or weatherproof material. 4. Fiber mat according to one of claims 1 to 3, characterized in that the elastic carrier layer (9) is gastight and watertight. 5. Fiber mat according to one of claims 1 to 3, characterized in that in the zones (25) smaller cross-section the same average number of fibers is located as in parts (26) with stronger cross-section. 6. Fiber mat according to one of claims 1 to 5, characterized by waffle embossing on both sides (22.25.26). 7. Fiber mat according to one of claims 1 to 6, characterized in that in both of them Longitudinal reinforcements (II) are provided. 8. fiber mat according to claim 7, characterized in that the tensile reinforcements (11) with the elastic carrier layer (9) are firmly connected. 9. Dry method for producing a fiber mat according to one of the preceding claims, in which a lignocellulose fiber material mixed with small amounts of binding agents loosely an endless conveyor is sprinkled on and the upper area of the layer formed is peeled off, characterized in that the elastic carrier layer is applied to the surface of the peeled fiber layer is applied firmly adhering that then a further fiber layer adheres firmly to the carrier layer sprinkled on and their upper area is peeled so that the resulting layer composite between Pairs of rollers are compressed in a known manner and then by profile rollers to form an endless mat is formed with a plurality of regularly distributed zones of smaller cross-section. 10. Drying method according to claim 9, characterized in that the elastic carrier layer on the surface of the first fiber layer is sprayed on in liquid form. 11. Drying method according to claim 9, characterized in that the elastic carrier layer on the surface of the first fiber layer is evenly poured over the entire width of the layer will. 12. Drying method according to one of claims 10 or 11, characterized in that according to the Peeling the first fiber layer Drawstrings are placed on the edges of the fiber layer, which are used during Applying the carrier layer to be firmly connected to this. 13. Drying method according to one of claims 10 to 12, characterized in that the finished Mat is wound on drums.