DE7437814U - LIGHTWEIGHT PANEL, IN PARTICULAR BUILDING MATERIAL PANEL - Google Patents

Description

PATENT LAWYERS

PROF. DR. DR. J- REITSTÖTTER

DR.-ING. WOUFRAM BUNTE DR. WERNER KINZEBACH

BAUERSTRASSE 22. O-βΟΟΟ MÜNCHEN AO ■ FERNBUF (Ο891 37 65 83 · TELEX 52IS2OB ISAB D POSTAL ADDRESS: PO Box 7βΟ. D-8000 MUNICH 43

Munich, November 25th, 1977 M / 15 564

Re: utility model registration G 74 37 814.4 ISOVOLTA ...

Lightweight board, especially building material board

The innovation concerns one, especially as a building material panel suitable Leichcplatte, which is largely incombustible and has good thermal insulation properties.

Non-combustible building material panels consist of general a: s inorganic materials. For example, one obtains by mixing expansion materials, such as expanded mica, with plaster of paris or cement, and a corresponding shaping after hardening, e.g. panels, which could be used as lightweight construction elements Find. The one for a sufficient binding of the expansion materials necessary, relatively high use of binding agents or cementing agents usually leads to relatively long curing times, or to panels that have only a low thermal insulation capacity. In addition, building material panels are of this type mostly difficult or only with heavy material wear to edit.

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There are now building material panels have been proposed to their Manufacture of expanded mica with an at least partially organic binder, e.g. a phenol or has a urea resin component, is glued, a bed of the expanded mica glued in this way to form a press cake pre-compressed and this is then pressed in a heated press to form a lightweight panel. You come with me from a relatively low use of binders and, despite the use of these organic binders, receives a incombustible lightweight board with a density of around 350 - 450 kg / m and very good thermal insulation properties. The However, the strength of these lightweight panels is insufficient for many cases.

The innovation is now based on the task as building panels usable lightweight panels that contain inorganic expansion materials and binders, a density of less than 600 kg / m as well as good thermal insulation properties, but also a much higher strength own, than the said proposed panels of this type to create.

This object is achieved by a lightweight plate, which is characterized in that it has at least three consecutive Has layers, of which the two outer layers at least predominantly in addition to the binder Expanded mica and the inner layer contain at least predominantly perlite or pumice stone. The binder can advantageously contain a thermosetting synthetic resin and / or an inorganic binder, in particular water glass.

Such a lightweight plate can be produced by adding expanded mica granules and pearlite or pumice stone granules each glued with a binder, produces a bed in three successive layers, one of which the two ^ outer ^ sc'nTcRTen ^ zluniniiest ^ overlap from "the

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Glued expanded mica granules and the inner layer at least predominantly from the glued pearlite or pumice stone granules are formed, the bed optionally then precompressed to form a press cake and then in a heated one Press pressed into a plate. The pressing takes place here

2 advantageous at a pressure of at least 5 kp / cm, preferably

2
but at least 8 kp / cm.

It is advantageous to apply glue to the expandable material granules by spraying them with the binder while stirring. When The binder can advantageously be a thermosetting, water-soluble synthetic resin or an inorganic binder, in particular Water glass, can be used.

! Because the three layers of the bed together for ^; Plate are pressed, a quasi-continuous transition between the plate layers is achieved on the one hand, which completely eliminates the risk of the layers separating under load, and on the other hand, because the mica has a significantly higher compressibility than pearlite or pumice stone at the same pressure Outer layers of the plate during pressing advantageously have a significantly higher density than the plate core.

A lightweight panel according to the innovation, such as in the Drawing shown in section has the following advantages, among others:

The plate core (1), which is made of compressed pearlite - or 'Made up of pumice stones is essentially for that j achieved strength of the lightweight board is decisive. He only has a low weight of e.g. 400 kg / m. The one to both Pages of the plate core from subsequent layers (2)

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Compressed and glued together mica grains (vermiculite) give the panel a non-dusty and easy to sand surface, which can be glued well.

example

100 parts by weight of perlite are used to produce glued perlite granules and glued expanded mica granules an average grain size of 4 mm and a bulk weight of 120 g / ltr. or 100 parts by weight of expanded mica (vermiculite) an average grain size of 2 mm and a bulk weight of 120 g / ltr. separately each with 60 parts by weight Water glass (specific weight 1.5 g / cm, solids content 50%) intimately mixed in a mixer for 10 minutes.

In a steel mold suitable for pressing plates, a bed of about 1 cm thick of the glued expanded mica granulate is first introduced; then a bed of approx. 4 cm thick glued perlite granulate and finally an approx. 1 cm thick top layer of glued mica granulate. This multilayer bed is in a heated press at a temperature of 150 ⁰ C for a pressing time of 15 minutes to a plate thickness of

pressed a total of 2 cm, the plate removed from the mold while hot and then

2 cooled. The required pressing pressure was 9 kp / cm.

The plate produced in this way had a density of 0.35 g / cm,

a flexural strength of 15-20 kp / cm and a screw pull-out resistance from 90 - 100 N.

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Example 2

Perlite granules or expanded mica granules produced in the same way as in Example 1 were used. In a mold as in Example 1, an approximately 1.4 cm thick bed of the glued expanded mica granules is then introduced, followed by a bed of about 5.2 cm thick of the glued perlite granules and finally a 1.4 cm thick top bed of the glued expanded mica granules. This multi-layer bulk is now in a heated press at a temperature of 150 ⁰ C for a pressing time of 15 minutes on a plate thickness of 2 cm, including a press

pressure of 17 kp / cm was required, pressed, molded hot and then cooled.

The plate produced in this way had a density of 0.50 g / cm, a flexural strength of 25-30 kp / cm and a screw withdrawal resistance of 150 - 160 N.

Example 3

In this example, a glued perlite granulate prepared as in Example 1 was used, while for ! Production of the glued expanded mica granulate now 100 parts by weight Expanded mica (vermiculite) - of a quality as in Example 1 - with 50 parts by weight of an aqueous phenolic resin with a solids content of 50% (e.g. the resin "Hilamin" of the Austrian HIAG-Werke AG, Vienna) for 10 minutes be intimately mixed.

In a mold as in Examples 1 and 2, an approximately 1 cm thick bulk of the phenolic resin is now glued Expanded mica granulate, then a bed of approx. 4 cm

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Strength of the introduced with wasserglasbeleimten Perlitgranulats and finally a 1 cm thick bed deck ^ s phenolharzbeleimtenBlähglimmergranulats, compressing the multi-layer bed thus prepared in a heated press at a temperature of 150 ⁰ C at a plate thickness of 2 cm, formed hot and

2 cooled. The required pressure was 9 kp / cm

The plate produced in this way had a spec. weight of

3 2

0.35 g / cm, a flexural strength of 15 kp / cm and egg; Screw withdrawal resistance of 80 - 90 N.

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Claims (1)

M / 15 564 - 7 - claims for protection 1. Lightweight board, in particular building board, which contains an inorganic expansion material and a binder, thereby characterized in that it has at least three successive layers, each of which is adjacent to the Binder the two outer layers at least predominantly expanded mica and at least the inner layer mainly contains perlite or pumice stone. 2 »Lightweight panel according to claim 1, characterized in that the binder is a thermosetting synthetic resin and / or contains an inorganic binder, in particular water glass. 7437814 04/27/78