DE19859038C2 - Wood fiber board - Google Patents

Description

The invention relates to a board made of wood fiber material a changing bulk density across their cross-section, in particular MDF board, with one attached to one of the side edges th spring and one in the opposite side edge brought groove, the tongue and groove to each other in their Geometry are matched to make two identical panels together make connectable, the groove in cross section in essence Chen triangular and approximately around the central axis the plate is mirrored, and the spring is off the plate top to its front end with the angle unchanged bevelled and on the underside of the plate in an as Stop serving paragraph ends.

Such a plate is for example from DE 44 38 331 A1 known. The groove is tapered so that the groove in the groove base is very likely to break if the tongue another plate penetrates too deep into the groove. in principle are tongue and groove injuries in tongue and groove connections cannot be excluded during assembly or transport. So far one assumed that an injury to the feather up to one to a certain extent no or only one on the later connection  has subcritical influence because of its conical spring Design can engage self-repairing in the groove. Un Studies have shown that this assumption is only partially true is. With external loads, the groove acts in particular special on the transition point of the groove legs in the full Material has a notch tension, the greater the shorter the effective tongue length inserted into the groove. notch stresses in the groove bottom lead to breaks in wood fiber materials, because the Plate has the lowest strength in its middle layer. Such breaks are typical transverse tears, which leads to a sudden and sudden loss of the carrying capacity ability of the plate. If the plate is turned into a roof plate occupational safety is high on the roof endangered.

From DE 42 42 530 C2 or from US 5,349,796 are components known for walls, ceilings or roofs of buildings, the do not consist of a wood fiber material, but a groove and Have spring connection. With such designed plates is disadvantageous that especially when used as a roof panel due to manufacturing tolerances in the joint between two composite panels can penetrate moisture. Is too the joint is not windproof, so that they are taped got to. If the spring is damaged during transport, it is easy It is often no longer possible to assemble the panels. The Plate must either be thrown away or the spring must be by means of a Saw are cut off laboriously. The blunt bump becomes in the building practice then taped with a sealing tape. In order to the risk of moisture penetration increases as a result processing errors in the application of the adhesive tapes and from warping of the plate edges at the plate joint, which leads to detachment sen the bond can lead, so that the usable construction is endangered considerably.

MDF materials in particular react particularly strongly to cross tensile stress perpendicular to the plate level. Especially in The transition area of the top layer and the middle layer are the  Panels are particularly vulnerable to breakage, as they are very common in this area a disproportionate drop in bulk density below bulk density the middle class leads to predetermined breaking points.

Based on this problem, a wooden panel should fiber material can be improved.

The generic plate is known for solving the problem indicates that the shape of the groove in cross section corresponds to the bulk density is adapted to the plate.

The invention is based on the finding that to increase not the strength of a tongue and groove plate the stability of the tongue, but the stability of the groove change must be changed, and that the groove stability remains the same the plate thickness is increased if its cross-section follows the course of the bulk density profile is adjusted. The formation of the groove must So to the plate intended for the respective application be different accordingly. Due to the special characteristics of the can form according to the density profile of the groove base cross cracks only occur with very high loads th.

In particular through the triangular shape of the groove and Spring in connection with the low middle layer bulk density a fiberboard, the spring repairs itself when inserted into the groove itself if injured during assembly or transport tongues of the spring have occurred. So it comes through one wedge-shaped training always to a precise fit of the Tongue in the groove. The bevel on the top of the plate with unchanged angle secures when used as a roof panel with a pitched roof always the water drainage and penetration of moisture in the joint between two composite This excludes plates.

In particular, if an MDF board the Nut / Fe of training can be an absolutely windproof connection  of the panel joints can be achieved because MDF is a material ner thickness expansion to changes in relative humidity speed reacts. It has surprisingly been found that in the middle class these changes in thickness are irreversible. in this follows the geometry of the tongue and groove profile Profile in atmospheric contact (for example, after the Mon days on the roof) automatically and there will be an absolute wind tight connection achieved. A time-consuming masking of the ver there are no connection joints with sealing tapes.

By mirroring the groove approximately around the central axis of the The spring must also be mirrored accordingly. By the paragraph serving as a stop ensures that the Installation personnel recognize when two panels are properly connected they are. If the heel is located further to the side as the beginning of the bevel on the top of the plate is si made that the tongue is not inserted too deep into the groove can be ben and the wedge-shaped design of the groove blasts.

In order to be able to compensate for manufacturing tolerances, the front one is End of the spring is preferably blunt. Between the Groove base and the tongue end is then in the proper mon there is a sufficient gap.

The ends of the legs forming the groove are preferred blunt to avoid damage during transport avoid. In addition, the ends are related to the side edge parallel to each other, so that the groove in cross section is completely sym is metric.

With the help of a drawing, the invention is intended below are explained in more detail. It shows:

Figure 1 shows the one side edge of the plate with the spring.

Figure 2 shows the other side edge of the plate with the groove.

Figure 3 two plates connected to one another.

Fig. 3a, the bulk density profile of the plate.

As shown in FIGS. 1 and 2, the tongue 1 and the groove 2 are essentially triangular in cross-section and are complementary to one another. From the upper side 3 a of the plate 3 , the spring 1 extends to its front end 3 c with a constant angle α. The bevel 6 of the spring 1 on the underside 3 b of the plate 3 runs if at a constant angle, but it ends in egg nem serving as a stop paragraph 4 , which is perpendicular to the underside of the plate 3 b. The groove 2 is approximately mirrored about the central axis M of the plate 3 , so that there is also a symmetrical design with respect to the plate 3 .

Fig. 3a shows the course of the bulk density over the cross section of an MDF board 3rd As can be seen, the highest density is on the outside of the plate. The plate 3 also has its highest strength there. The density inside the panel is significantly lower, and so is the strength. The clearly recognizable drop in the bulk density at the point before the curve transitions into the region of the middle layer bulk density represents a critical predetermined breaking point. As a comparison of FIG. 3a with FIG. 2 reveals, the plate 3 shows on the side II the groove 2 is formed, in cross-section a shape that corresponds essentially to the raw density profile 9 . The shape of the groove 2 is in cross section so adapted to the bulk density profile 9 . The groove 2 is milled only at the points where the load capacity is reduced anyway. If two plates 3 , 3 'are joined together, the lower leg of one plate 3 strikes with its end 8 against the stop 4 of the other plate 3 '. This prevents the front end 3 c of the spring 1 from striking the groove base or the spring 1 being pushed too far into the groove 2 , so that it would explode. The blunt design of the front end 3 c of the spring 1 ensures that manufacturing problems in the groove depth or the arrangement of the paragraph 4 do not lead to the spring 1 abutting the groove base.

As shown in FIG. 3, the bevel 6 of the spring 1 ensures that the water drain in the sloping roof is always secured by the groove 10 that is formed, transverse to the eaves (not shown). Due to the wedge-shaped shape of the spring 1 , the load in two plates 3 , 3 'put together is bridged at the point at which the critical breaking point is present and thereby the transverse force is distributed over a larger plate cross-section, whereby the strength of a plate composite is significantly increased.

For geometric reasons, the profile base in the groove 2 is also a place where stress singularities occur. The plasticizable middle layer of an MDF panel prevents the occurrence of breakage-causing stress peaks.

LIST OF REFERENCE NUMBERS

1

feather

2

groove

3

plate

3

'Plate

3

a top

3

b bottom

3

c front end

4

Sales / stop

5

Beginning of the bevel

6

bevel

7

The End

8th

The End

9

ply construction

10

groove
I side edge
II side edge
M center axis
α angle

Claims (5)

1. panel made of wood fiber material with a changing over its cross-section bulk density, in particular MDF board, with a tongue ( 1 ) attached to one of the side edges (I) and a groove ( 2 ) introduced in the opposite side edge (II), the Tongue ( 1 ) and the groove ( 2 ) are adapted to one another in terms of their geometry in order to make two slidable plates ( 3 , 3 ') connectable to one another, the groove ( 2 ) being essentially triangular in cross section and approximately around the Center axis (M) of the plate ( 3 ) is mirrored, and wherein the spring ( 1 ) from the plat tenoberseite ( 3 a) to its front end ( 3 c) with an unchanged angle (α) is chamfered, and on the underside of the plate ( 3 b) ends in a stop ( 4 ) serving as a stop, characterized in that the shape of the groove ( 2 ) in cross section is adapted to the bulk density profile ( 9 ) of the plate ( 3 ). 2. Plate according to claim 1, characterized in that the set ( 4 ) is arranged laterally further outside than the start ( 5 ) of the bevel ( 6 ) on the top of the plate ( 3 a). 3. Plate according to claim 1 or 2, characterized in that the front end ( 3 c) of the spring ( 1 ) is blunt. 4. Plate according to one or more of the preceding claims, characterized in that the ends ( 7 , 8 ) of the leg ( 2 ) forming legs are blunt. 5. Plate according to one or more of the preceding claims, characterized in that the ends ( 7 , 8 ) are at a parallel distance.