DE4344349A1 - Constructional and packaging panel with paper honeycomb layers - Google Patents

Abstract

Each paper honeycomb layer is extended in a longitudinal direction, orthogonal to its extension direction of the adjacent honeycombs, in a desired rate. Each panel (1,1') in polygon with at least one oblique side edge (14,14') in a plane orthogonal to the extension direction. Two abutting oblique side edges serve for displacement of two panels such that width and/or height of the structure, made of the two panels, is variable. Pref. one panel is triangular of trapezoidal in cross-section, orthogonally to the extension direction.

Description

The invention relates to plate elements for construction and ver packaging purposes include paper honeycomb layers, each Paper honeycomb layer in a longitudinal direction perpendicular to the off width direction of the honeycombs arranged side by side in pulled apart to a desired extent.

Such plate elements are well known and are known from Cut continuous honeycomb paper into standardized rectangular shapes cut, before opening the honeycomb structure a desired dimension has been removed. One or more laminated on one side, these plates are rectangular against paper honeycomb layers, especially as reinforcement layers, those when building parts of the building, furniture or packaging conditions are used. A handyman who conventional Lichen plate elements want to process, must be the same cut into the desired shape. There However, the right tool is often not available for  Available. It has also been shown that such Cuts are difficult and time consuming can be placed and often not to the desired Target, such as, for example, a straight edge, to lead.

One is from the German utility model G 82 02 778.1 Board made of insulating materials, in particular mineral fibers, which for heat and / or sound insulation of buildings and Attach to straps, especially for insertion between Rafters, it is determined, are known to have one or more has oblique continuous cuts such that the plate parts thus formed along the cutting edges are mutually displaceable. For example, Plate parts made that have the shape of have isosceles, right-angled triangles, whose catheter lengths are essentially the distance between two rafters correspond, the space between them with insulation substances to be filled in, so-called intermediate Space filled up from bottom to top as follows:

The bottom panel is placed between the roof rafters inserted that the oblique cut edge of the same pointing upwards and one of the two other side edges of the same to one of the two roofs rafters hugs. The next step is the second Panel part with its sloping cutting edge inserted downwards so that the two are inclined running cutting edges of the two panel parts others come into contact. The second plate part is then pushed down so far that a clamping effect between the two plate parts on the one hand and the roof  on the other hand rafters arises. Small variations of the Ab stand between the rafters due to the De formability of insulation materials can be compensated by the two plate parts are moved against each other, so that different widths can be achieved. If, for example, the catheter lengths are slightly larger than the distance between the two rafters are protruding adjacent to the cut edges Corners avoided by areas of the plate parts compressed and by giving in the materials of the adjacent plate part can be included what the clamping effect is further improved. The compliance of the Insulation is therefore an essential prerequisite for that desired processing of the plate parts.

The invention is based, plate elements to deliver the type mentioned above, which he above mentioned disadvantages of conventional plate elements the one, so that the panel elements are easy, from a home workers, without the use of expensive tools and with ge ring waste can be processed.

To solve this problem, the plate elements are after of the invention, characterized in that each plate element a polygon with at least one at least in egg ner plane that is perpendicular to said direction of propagation is arranged, is inclined side edge, and two mutually sloping side edges moving the two corresponding plate elements serve against each other so that the width and / or height of the construction made from the two plate elements is variable.  

It can be provided that a plate element in Cross section, perpendicular to said direction of propagation, has the shape of a triangle or a trapezoid.

It is also proposed according to the invention that an oblique running side edge also with respect to said spread direction is chamfered.

A preferred embodiment of the invention is thereby characterized in that a paper honeycomb layer for reinforcement and / or stabilize the corresponding plate element one or both perpendicular to said direction of propagation is laminated on both sides.

It can be provided that at least one side can te of a plate element, preferably obliquely fender side edge to facilitate the opposing Ver sliding of two plate elements, is laminated.

It can be provided that the lamination a Pa pier, plastic and / or aluminum foil, preferably a sheet of paper.

The invention also proposes that the cavities be internal half of a paper honeycomb layer, at least partially, preferably wise completely, with an insulating material like natural insulation wool from waste paper or the like.

The invention is based on the surprising finding that the geometric known for deformable insulation materials Design of plate parts such as, for example, with  a triangular cross-section that increases the clamping effect and adaptability of the same between two in the we significant non-compliant components, also for im essential non-deformable reinforcement layers for Reduction of waste when processing the same can be set. For example, two triangles, whose sloping side edges touch, lengthways these side edges are shifted so that the distance between two parallel, opposite one another the side edges can be varied. To get a right corners then only have to protrude triangular corners be cut.

Further features and advantages of the invention result from the description below, in which an exec Example of the invention based on the schematic Drawings will be explained in detail. It shows:

Fig. 1 shows a cross section through an inventive SLI plate member;

Fig. 2 is a longitudinal section through the plate element shown in Fig. 1; and

FIGS. 3 and 4 each show a plan view of two panels elements of the type presented in FIGS. 1 and 2 Darge which are arranged between two beams.

A paper honeycomb triangle 10 , shown in FIG . The triangle 10 consists of a plurality of hexagons 12 formed from paper and has an oblique side edge 14 and two side edges 16 and 18 of the same length touching the same; triangle 10 is a right angled isosceles triangle.

From the continuous honeycomb paper, other paper triangles are analogous, such as. B. the paper honeycomb triangle 10 ', see Figs. 3 and 4, cut out. The paper honeycomb triangles 10 , 10 'are conveniently made in standardized sizes, so that a handyman can choose between different sizes. However, it is assumed that the paper honeycomb triangles 10 , 10 'have the same dimensions.

To stabilize the degree of undressing the end a layer of the same can, however, for example, before cutting, z. B. with cardboard to be concealed.

As can be seen in FIG. 2, which shows a longitudinal section through a plate element 1 according to the invention, the layer sequence of the same after two-sided lamination of the paper honeycomb layer 10 is given by three layers, namely a lower lamination 20 , the paper honeycomb layer 10 and an upper layer 22 .

So that two paper honeycomb triangles 10 , 10 'comprising plate elements 1 , 1 ' along their side edges 14, 14 'are well movable against each other, it is useful to also conceal the side edges 14 , 14 ' with, for example, a cardboard plate.

In FIGS. 3 and 4 by solid lines per weils top views of two processed into a rectangle th plate members 1, 1 'parallel ver between two current bars 30, 32 are arranged, shown, where in the distance between the two beams 30 , 32 in Fig. 3 slightly smaller and in Fig. 4 slightly larger than the length of the cathets of the isosceles triangles 10 , 10 'comprising side edges 16 , 16 ', 18 , 18 '. In both cases, the two plate elements 1 , 1 'are arranged so that their side edges 14 , 14 ' touch.

To obtain the geometry shown in Fig. 3, the upper plate element 1 'along the side edges 14 , 14 ' is pushed upwards relative to the lower plate element 1 until the distance between the two opposite, parallel side edges 16 , 16 'on the desired width has been reduced. Then protrude two triangles shown in dashed lines over the desired width, namely the upper, adjacent to the oblique side edge 14 'arranged corner of the upper plate element 1 ' and the lower, adjacent to the oblique side edge 14 arranged corner of the lower plate element 1 '. In the next step, these triangles have to be cut off.

If you had chosen a square plate element with the length and width of the side edges 16 , 16 'and 18 , 18 ' instead of the triangular plate elements 1 , 1 ', you would have the width of the desired rectangle only by cutting off a strip, over the complete Length of the square, which is considerably more labor-intensive and difficult to carry out. The cutting of the small, dashed triangles shown in Fig. 3 thus represents a significant reduction in the cut. Fer ner these triangles must be cut off with less precision, since the straight side edges 16 , 16 'for the exact, flush mounting of additional plates elements or other components, such as bars 30 , 32 , see Fig. 3, are available.

To obtain the geometry shown in Fig. 4, however, the upper plate element 1 'along the Seitenenkan th 14 , 14 ' until the lower plate element 1 is pushed down until the distance between the two side edges 16 , 16 'increases to the desired width has been. The then protruding up or down three corner, which are also shown in dashed lines in Fig. 4, namely the top corner of the lower Plattenelemen tes 1 and the bottom corner of the upper plate element 1 ', are again cut off.

The hollow hexagons 12 of the honeycomb structure can also be filled with insulating materials. With regard to the recyclability of the panel elements, which in this case would also serve as a carrier material for insulating materials, it is expedient to use insulating materials made from waste paper. If the paper honeycombs are, if necessary, laminated on one or more sides with cardboard sheets and / or filled with cellulose insulation wool, a plate element according to the invention consists entirely of paper materials and can be disposed of in one.

The in the above description, in the drawing  as well as features of the invention disclosed in the claims can be used individually or in any combination for the realization of the invention in its various NEN embodiments may be essential.

Reference list

1 , 1 ' plate element
10 , 10 ′ paper honeycomb triangle
12 hexagon
14 , 14 ′ side edge
16 , 16 ′ side edge
18 , 18 ′ side edge
20 lamination
22 lamination
30 , 32 bars.

Claims (7)

1. plate elements for construction and packaging purposes, comprising paper honeycomb layers, each paper honeycomb layer being pulled apart to a desired extent in a longitudinal direction perpendicular to the direction of propagation of the honeycombs arranged next to one another, characterized in that each plate element ( 1 , 1 ') is a polygon with at least one at least in one plane, which is arranged perpendicular to said direction of propagation, is inclined side edge ( 14 , 14 '), and two mutually meeting inclined side edges ( 14 , 14 ') the displacement of the two corresponding plate elements ( 1 , 1 ') against each other so serve that the width and / or height of the construction made of the two plate elements ( 1 , 1 ') can be varied. 2. Plate elements according to claim 1, characterized in that a plate element ( 1 , 1 ') in cross section, perpendicular to said direction of propagation, has the shape of a triangle or a trapezoid. 3. Plate elements according to claim 1 or 2, characterized in that an oblique side edge ( 14 , 14 ') is also beveled with respect to said direction of propagation. 4. Plate elements according to one of the preceding claims, characterized in that a paper honeycomb layer ( 10 , 10 ') for reinforcing and / or stabilizing the corresponding plate element ( 1 , 1 ') is laminated on one or both sides perpendicular to said direction of propagation. 5. Plate elements according to one of the preceding claims, characterized in that at least one side edge ( 14 , 14 ', 16 , 16 ', 18 , 18 ') of a plate element ( 1 , 1 '), preferably the oblique side edge ( 14 , 14th ') To facilitate the mutual displacement of two plate elements ( 1 , 1 '), is laminated. 6. Plate elements according to claim 4 or 5, characterized characterized in that the lamination of a paper, plastic and / or Aluminum foil, preferably a paper foil. 7. Panel elements according to one of claims 4 to 6, characterized in that the cavities within a paper honeycomb layer ( 10 , 10 ') are at least partially, preferably completely, filled with an insulating material such as natural wool from waste paper or the like.