DE1295180B - Process for the production of chipboard with at least one fine top layer - Google Patents

Description

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The invention relates to a method for the production of the grinding process essentially no larger than the production of chipboard with at least one particle than the lignocellulose-containing particles.
Finest top layer by creating a fleece from When resin and wood shavings and resin binders are ground together with subsequent hard lignocellulose-containing particles, these are intentionally pressed and coated onto the fleece (before 5 siv rubbed into one another that they become different than during or after hardening) with a Mixture of the known mixing during the scattering of non-solid resin and lignocellulosic particles more separate. The joint grinding and mixing and curing of the coated nonwoven under can, for. B. in a ball mill, a Torrence NT print. Mill or a pan mill. When coating with finely ground wood, the process can be regarded as complete; it is known to use liquid resin as a binding agent when the material has the appearance of a powder which, however, has taken on a homogeneous powder . Depending on the degree conditions, which are dependent on the volume ratio of the particles, this can be absorbed in a ball mill. With increasing fineness of the part, lasting 10 to 20 hours or 30 to 90 minutes in chen, the amount of resin absorbed increases, so that the 15 a pan mill. The solid, brittle resin binder will make the process uneconomical. In addition, it is ground into small particles that penetrate the surface of the wood chips or the fibrous material using a liquid resin binder, rig, encasing the lignocellulosic particles.The particles are ground until they become coated in, as the particles do so tend to set up a sieve hole size between liquid resin droplets on the finished mixture. In addition, 20 0.05 and 0.5 mm, preferably 0.07 to 0.15 mm, tends to have such a mixture during scattering. The particle size of the resin binder before matting and lump formation as well as unevenly grinding is of no great importance here,
moderate adhesion, which makes it difficult to use overall as lignocellulosic particles that are colored or difficult. From this we have gained the knowledge that they are in their natural color, and that after a certain fineness has been exceeded, for example: sawdust or the usefulness of the chips increases with wood flour, flax or coconut fibers, bagasse, the degree of fineness decreases. Peanut shells or any other shell material. If a high species, cotton, stalks of grain, grapevine, heather content of liquid resin is added to the lignocellulose-containing particles, herb stalks or papyrus can be added. The lignocellulose-containing particles during the hardening process can also be blistered by a whitening agent or stretched water vapor. medium can be added, ζ. Β. Titanium dioxide, kaolin, It is also known to mix the resin in powder form with permanent white, pearl white in various forms, the chips. The task is there, water silica or cement, as well as a fire-retardant to avoid excess water to avoid during the hot agent, z. B. a boron derivative, asbestos, a phosphate, pressing to reduce the drying times and the 35 antimony oxide or a halogen compound. Prevent others from blistering. According to this method, additives such as dyes, e.g. B. ocher or umber, the wood particles must have a certain inherent moisture - can be added. It can also have a speed, or they must be adjusted to this mixture of these additives or the like, so that the resin ingredients are used during the hot-pressing process,
due to the action of the resulting steam, the resin, which serves as a binding agent, can be heat-cured. be curable resin, e.g. B. a urea or phenol-are thermosetting resins in powder form with the formaldehyde resin or a mixture of such resins. If wood particles are mixed, according to the scattering of the material is generally found on the way to the press up to a certain degree, and according to the present invention, a certain degree of separation, since the urea-formaldehyde resin is used. The resin resin and the commonly used wood particle binder may contain a hardening agent. Others have a different density. On the other hand, the hardening temperature or the acid pressing can then usually have the upper layers of lignocellulosic particles with a lower strength than the lower ones. In addition, the resin and wood particles are not used to cure the resin without adding a special curing agent to achieve a sufficiently intimate contact, which leads to it.

that the curing-assisting acid of the The resins are preferably with a portion

Wood does not come into effect. These disadvantages of at least 15 percent by weight, based on the

are particularly noticeable when the total weight of lignocellulose-containing particles

proportionately large wood shavings with finely ground 55 and resin binders are used. Greater weight loss

Resin powder are mixed. ratios up to 60% or more may apply

The object of the invention is to find a fine deck, with ratios between 25 and 35%

layer for chipboard of the ones mentioned at the beginning are found to be particularly suitable for most cases

known type that the above have proven.

Avoids disadvantages and after pressing below 60 The water resistance of the chipboard can cause heat a dense, smooth, printed, lacquered can be increased by that a smaller amount and coatable surface results. inert wax along with the lignocellulosic dies is achieved according to the invention in that the containing particles and the resin binder are ground the lignocellulosic particle that becomes a sieve hole. A paraffin size is preferably used as the wax of not more than 0.77 mm, with solid wax used in a proportion of 0.1 to 65 Particles of the resin binder mixed and with these 5 weight percent of the total weight of lignozu a homogeneous, powdery mixture of cellulose-containing particles, resin binder and wax grind, in which the resin particles are added at the end. The wax can with the resin

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ground or powdery or atomized added 5.25 kp / cm ² and finally more are added. Maintained under atmospheric pressure for IV «minutes. It can also advantageously be a fleece from a plate produced in this way, after cooling, has a finely ground mixture of fibrous particles and a thickness of 18 mm and has a surface on which the resin binder is sprinkled in a thin layer, 5 for the immediate recording of a print pattern on the then a layer of is suitable as the second layer. The wood fibers or other particles consisting of wood flour and resin and a non-surface layer is approximately 2 mm thick,
cured resin binder is placed. The same result is essentially achieved in turn by a further, from the basic mixture, that the hardening of the chip fleece is covered before the existing layer. io bringing the mixture of wood flour and resin

If the resin component consists of urea, phenol takes place.

or melamine resin, the hardening can at least ought to cover both surfaces of the chipboard

partly by heating the coated composite, so that can be made from the mixture of wood flour

materials to a temperature of 100 to 200 ° C and solid resin existing layer both before and

at a pressure of 7 to 14 kp / cm ² carried out 15 after the application of the fleece made of chips and

will. During the hardening process, the resins known per se are sprinkled onto the drying tray.
Conditions to be met.

The chipboard obtained in this way has at least one example II
essentially smooth surface, which is preferably simultaneously hard, non-porous and suitable for printing a plate from the usual chipboard material, the chipboard being given on one side with the above-described ball mill, also ground in a pattern that is directly printed on Mixture coated that can be provided. To print a pattern is composed as follows:
printing inks can be used that are at parts by weight

for example based on an alkyd or styrene wood flour, sieve hole size 0.124 mm 41.80

alkyd resin or a similar synthetic Cascamite 6-D *) 20.10

Fabric are made. Boric acid 12,28

z. B. offset gravure to indicate a wood powdered paraffin wax with a

structure find application, as well as the invention melting point between 57.22 and

according to procedures the use of screen printing 30 60.0 ° C 0.82

includes. The printed chipboard can be filled with titanium dioxide 25.00

an air-drying or thermosetting _{Cascamke M} ^ _registered trademark. Casca

cash, synthetic varnish or polyester varnish or _m i _te 6_ _{D is a} dried _by sputtering

other types of gloss or matt lacquers - urea-formaldehyde resin in powder form,

be wisely coated. 35

The surface of the plate can with a The composite material is subjected at a temperature coating of resin-impregnated fabric or with 15O ⁰ C pressure to give an initial paper be provided. The fabric can be held at a pressure of 14 kp / cm ^{2 for} 7 minutes, so that a translucent surface and a chipboard panel with a hard, smooth, visualization of the surface uniform on the coated panel and a thickness of unprinted patterns or the surface can be about 3.175 mm.

can also be printed or colored by yourself. In itself it is on the smooth surface of something so produced

known, chipboard with laminates or wood chipboard was then a Bunsen burner flame

to cover veneer. It was found that when directed and observed the behavior of the panel,

the chipboard according to the invention in some cases 45 After 3 minutes, the flame was removed, and the

a coating of only 0.51 mm thick veneer on all panels immediately stopped burning in spite of charring.

Requirements sufficed. For comparison, a chipboard was used without

The method according to the invention is carried out by fol cover layer, but otherwise in every way of the above

Examples are explained. subjected to the same test. To

50 For 3 minutes the board had lit up and was listening

Example I does not come on after removing the Bunsen burner flame

to burn.

From 92 parts of wood shavings, which with 8 parts flow- Example III

sigem urea-formaldehyde resin are glued, ^P

55 A board with smooth, evenly colored

fleece scattered. Surfaces are produced as follows:

Wood flour, the particles of which have sieve hole sizes between 0.07 and 0.15, is a mixture of
of 76.0 percent by weight for 30 minutes in a gate part by weight

rence N.T. mixer with 23.0 percent by weight of powdered wood flour, sieve hole size 0.084 mm 73.80

shaped solid urea-formaldehyde resin and Cascamite 6-D 22.20

1.0 percent by weight of powdered paraffin wax, powdered wax with a melting point

based on the total weight, ground. So between 57.2 and 60.0 ° C 0.82

The mixture produced is uniformly thick on yellow ocher 3.18

the surface of the chip fleece is scattered. The filled 65

Sheets are ground at a temperature of 150 ° C in a ball mill for 16 hours

For 5 minutes under a pressure of 10.5 kgf / cm ² and about half of the powder thus obtained

heated, then for 2V * minutes by pressing a smooth, polished, stainless steel plate into an egg

Thickness of 9.525 mm spread out. A common wood chip resin mix is then placed over the base layer to a thickness of approximately 76.2 mm. Afterward the second half of the colored, finely atomized mixture will spread evenly over the surface the mat and the composite material under the same conditions as in the example II pressed. The chipboard produced in this way has smooth, intrinsically colored surfaces that immediately can be printed. w

Example IV

According to Example III, a plate with smooth, white surfaces is obtained without further treatment can be printed, but the following composition is used as a mixture for the cover chosen:

Parts by weight

Wood flour, sieve hole size 0.124 mm 54.5 ao

Cascamite 6-D 16.4

Powdered wax with a melting point between 57.22 and 60.0 ° C ... 0.6
Titanium dioxide 28.5

Example V

A plate produced according to Example I is coated with an adhesive layer and a 0.79 mm thick, Laminated paper impregnated with melamine resin under heat and pressure. After a standstill after 4 weeks the surface shows no signs of the lower chip pattern emerging through the hard paper, but remains completely flat.

For comparison, a similar hard paper was applied to the surface in the same way in one test a normal chipboard previously coated with sand. After a standing time of 4 weeks the surface clearly showed the chip pattern background, i.e. i.e., it was not perfect flat and showed several shallow depressions indicative of irregular shrinkage and stretching of the substrate were due.

The invention is not limited only to the exemplary embodiments described above. The chipboard can advantageously be continuous or by extrusion compared to a cyclical process getting produced. You can also use the chips that are used in the preparation of the chipboard underlay be, substantially the same size, or in graduated sizes. Additionally can use some or all of the chips depending on the requirements with powder, mineral or dissolved organic substances are colored.

Claims (11)

55 claims: 1. Process for the production of chipboard with at least one fine top layer Creating a fleece from wood chips and resin binder with subsequent hardening under pressure and coating the web (before or after curing) with a mixture of solid resin and lignocellulose-containing particles and hardening of the coated fleece under pressure, thereby characterized in that the lignocellulosic particles having a sieve hole size of not more than 0.77 mm, mixed with solid particles of the resin binder and with these a homogeneous, powdery mixture are ground in which the resin particles upon completion of the grinding process are essentially no larger than the lignocellulosic ones Particle. 2. The method according to claim 1, characterized in that inorganic filler with a sieve hole size of less than 0.77 mm with the lignocellulosic particles and the solid resin binder to be married. 3. The method according to claim 1 and 2, characterized in that the inorganic filler Titanium dioxide is used. 4. The method according to claim 1 to 3, characterized in that the mixture grind for so long until the sieve hole size of the lignocellulose-containing particles is between 0.05 and 0.5 mm, preferably between 0.07 and 0.15 mm. 5. The method according to claim 1 to 4, characterized in that as a solid resin binder for Mixture of a urea or a phenol-formaldehyde resin or a melamine resin is used will. 6. The method according to claim 1 to 5, characterized in that the resin binder in one Share of at least 15 percent by weight, based on the total weight of resin binder, lignocellulosic particles and inorganic filler is used. 7. The method according to claim 1 to 6, characterized in that the wood particles and the Resin binder is mixed with a smaller amount of inert wax. 8. The method according to claim ?, characterized in that the wax is a paraffin wax Is used and in a proportion of 0.1 to 5 percent by weight, based on the total weight of lignocellulosic particles, filler, resin binder and wax is added. 9. The method according to claim 1 to 8, characterized in that the lignocellulosic particles Wood flour or sawdust can be used. 10. The method according to claim 1 to 9, characterized in that on an expanded position Another layer of glued wood chips or wood particles is laid out of lignocellulose-containing particles and these are then hardened will. 11. The method according to claim 1 to 10, characterized in that the curing is carried out at least partially by heating the coated fleece at a temperature of 100 to 200 ° C and a pressure of 7 to 14 kp / cm ² .