DE2608027A1 - Mechanically strong ceramic building elements - may be hollow and heat-and sound-insulated with aluminium foil and polyurethane foam - Google Patents

Abstract

Mechanically storng building components comprise ceramic, densely-sintering earthen-ware of porcelain-type material. They are load-bearing, dimensionally accurate and suitable for use in erection of masonry structures especially buildings above ground. They are mfrd. by extrusion in cross-sectional profile as desired e.g. bevelled. They can be hollow in which case the cavity may be lined with Al-foil as thermal insulation, and provided with holes which may be filled with noise-absorbing material. The hollow space(s) may be filled with concrete or a polyurethane foam. The claimed article may be glazed or otherwise decorated, e.g. by applying a screen print or transfer picture. Assembly of the building elements can be effected by longitudinal and/or transverse coupling devices.

Description

description

The invention relates to ceramic hollow block construction elements larger Caliber, which is self-supporting to measure, connected or coupled by monier iron, in the modular principle for the creation of walls and ceilings, especially in building construction Can find application.

The purpose and task is to work with stoneware-like material with the multiple strength of concrete, pumice, bricks, etc. to the exclusion of the particular faster, more weight-saving with mortar, which reduces the properties of bricks and to create a dry building - in compliance of course with the building norms.

So far nothing similar has been found, nothing like it after looking through the Stuttgart patent archive.

The solution to the problem is achieved according to the invention in that a Stoneware-like (i.e. fairly densely sintered) material for production of the elements is used.

This material has approximately the following property data: Compressive strength : 1500-2000 Kp / m2 - flexural strength: approx. 500 Kp / cm2 - tensile strength: approx. 150 Kp / ce - density: approx. 2.2 g / cm - water absorption: <4 <0 - hardness (according to Mohs): 7 - Vt thermal expansion = coefficient cy: - thermal conductivity (Kcal / m hO) : approx. 0.28 - temperature change = resistance: up to 120 0 - resistance to chemical agents: very good - fire resistance: given - frost resistance: Given the compressive strength is about 6 times higher than that of some of bricks. As a result, the print area could theoretically be only 1/6, but that is what cannot be entirely achieved due to the production process. Based on the above

Property data could be the extruded profiles shown in FIGS. 1 and 2 manufacture.

The dimensions of these elements could be about the following: 1x1xO, 175m with a wall thickness of about 10-20 mm and a weight of about 50-100 kg. It could possibly Larger 1x2 or 2.5m elements can also be manufactured. Since it is an extruded profile is, the size of one or two dimensions depends on the press limited, less the length.

The void part is about 70-80% and the bulk density about 0.5-0.6 kg / dm In order to be able to connect the elements to one another, appropriate recesses must be made can be made on the "fresh", i.e. not yet fired, molding, as shown in Fig. 1 and 2 can be seen, i.e. especially when the elements for the ceiling construction be used.

The edge and corner elements then have to have additional cutouts must be provided for the purpose of assembly, as are all the ceiling elements for the cross bracing. Undoubtedly, it should be of considerable advantage to create standard houses in order to thus to be able to create as much as possible in the production company according to the program, because due to the if the material, it is quite laborious and time-consuming to burn afterwards Element to make holes or recesses, nevertheless it is with the hammer drill without further information possible.

There is no doubt that the establishment of a standard house catalog should also have advantages with regard to the installation or assembly of water, electricity, heating, sewage etc. can be brought to the production facility or can be made there. But also like that There should be no major difficulties with the installation on the construction site tion must be given, among other things, not if the necessary corresponding recesses be made in the production facility.

The elements are ground or cut to size in the production facility. sawn. As in Fig. 6, the upper elements of a wall can be made shorter (in production).

For the purpose of insulation and edge protection, the elements are on all sides thin foils made of plastic, asbestos or butyl rubber with the appropriate Glued cutouts.

The surfaces or visible surfaces are smooth (but could also be made rougher) and the elements can optionally be glazed on one or two sides, in addition, a decoration similar to that of wall panels can be achieved by means of screen printing in the production plant, and it should also be be possible to apply pictures (decals) dg ¢ Rkbefi8 To avoid condensation in particular in the Xohnungs = n wee inner, can also plasterboard according to the appropriate Processing guidelines are laid with the help of toggle dowels or a normal interior plaster. In this case, according to FIG. 2, e, the elements can also have a swallow = tail-like profile for better adhesion.

the tin reference to the soundproofing (Fig. 2c) with holes Mistake be whose inner closure by sound absorbing material (installed in the production plant) he follows.

To avoid condensation water, the cavities can also be heated by heating air or exhaust gas are traversed, which is hardly the case with the dense material and the seal Likely to cause difficulties.

To strengthen the thermal insulation or to reduce the negative influence to reduce the webs as cold bridges, the = same according to Fig. 2a - b - c - d and also glued in aluminum foil, because the full thermal insulation is known to be the prerequisite for the economic efficiency of a heating system.

As a result of the roughly half the weight of brickwork, the heat storage (Q = xcxst) is not that high, but the heat storage * Ag comes due to the continuously operated heating systems, they are of less importance nowadays anyway to.

Otherwise, all or some of the cavities could be improved Pouring with concrete, however, then again has the disadvantage that the elements are not more can be dismantled, which is also a not insignificant advantage should.

For better transport is shown in Fig. 1 at the bottom of the middle web and a recess (hole) for crane transport is provided at the top of the element.

In Fig. 3 is the connection of two adjacent elements shown. The angular screw bolt is inserted into the corresponding recess in both elements inserted and screwed. As a result, the connection is form-fitting and non-positive. If only 2 elements are connected, the end is flush, otherwise it is above it, to connect the two elements above it.

In Fig. 4 it is shown how 2 elements arranged one above the other be connected to each other. It is a reinforcement bar with a hook and thread at the bottom and thread at the top, which is inserted into the corresponding opening of the element and is firmly connected to the lower element by means of a screw. this takes place on the construction site.

To bridge the ceiling element, according to FIG. 7a, a shorter one must be used Piece to be used.

Another option for direct assembly in production consists of a plug-in coupling and plug-in nipple (from Walther, Wupperthal), as shown in Fig. to be used together with pipe, sleeve and seal.

In Fig. 6, the assembly of some next to and one above the other = more ordered Elements shown including door and window.

On a prepared substrate (foundation) made of concrete or elements with the hooks or plug-in couplings that are appropriately spaced from each other the elements put on or screwed. Door and window joists are through Reinforced steel beams or flat bars.

In Fig. 7a and b it is shown how elements are laid in the ceiling will. If you have mounted the side walls, you can put the ceiling elements on one Scaffolding of the appropriate height or on level ground one behind the other with a distance of about 15 cm horizontally = place on the right. Reinforcement bars of the appropriate length with a thread at the end pulled through the corresponding openings of the elements and spacers, the elements are pushed together and screwed form-fitting and force-fitting on both sides.

This block element is maneuvered onto the foundation walls with the crane, that it is "true". If you have now positioned the desired lanes next to each other (i.e. on top), the reinforcement bars for the cross bracing and are pushed through the screw connection.

In Fig. 8 a production scheme is shown.

The following offset can be considered as the mass: Clay I (pouring clay) Tone II ("fat tone) approx. 40% # clay III (dense-sintering clay) kaolin oSchamottF O - 0.5 mm orr (0 - 1.5 mm for coarser surfaces = structure) Talc or broken steatite approx. 60% # Feldspar BaCO3 Softened water electrolyte The water content (max. 20% to 100%) should be as low as possible for the purpose of higher dimensional tolerances, which is achieved by the type of preparation (gravimetric dosing) and the use of slwctrolyte. Of course, it is then still necessary to grind.

Whether the elements are horizontal or vertical, as in the stoneware industry usual, be pressed, must be left to test results, no doubt should be the length and those that may occur when burning Residual stresses cannot be without influence.

L e r s e i t e

Claims (1)

Claims 1. Construction elements, characterized in that these made of ceramic, dense sintering stoneware or porcelain = similar material higher Strength exist. 2.) Construction elements, characterized in that they are self = load-bearing and are dimensionally accurate and are used for the construction of buildings, especially in structural engineering. 3.) Construction elements, characterized in that these as a strand = press profiles (for example according to Fig. 1 and 2) are designed, among other things, with a bevel as a corner element. 4.) Construction elements, characterized in that they are inside (hollow space) with aluminum foil for thermal insulation and perforated with sound absorbing material for sound insulation are provided. 5.) Construction elements, characterized in that they are all around the Butt surfaces are insulated. 6.) Construction elements, characterized in that these one (outside = wall) and / or are glazed on both sides (inner wall). 7.) Construction elements, characterized in that Jie = printing and / or decals are decorated by screen 8.) Construction elements, characterized in that the profile is equipped to accommodate coupling elements - so = probably for Längs'alls also for transversely. 9.) Construction elements, characterized in that they are by means of Figure 3 Screws or brackets are connected to one another transversely, form-fitting and non-positive. 10.) Construction elements, characterized in that they are made by means of reinforcement bars are connected to one another lengthways (vertically) with hooks and screw connections etc. ii.) Construction elements, characterized in that they are (vertically) by means of Plug-in coupling and nipple are connected. 12.) Construction elements, characterized in that you = elements as the ceiling are mounted with reinforcement bars and spacers. 13.) Construction elements, characterized in that they consist of a mass with about 40 plast. Raw materials and 60% hard materials of different grain sizes are made. 14.) Construction elements, characterized in that the mass for production contains talc-like raw materials for the purpose of low CTE and high TWB. 15.) Construction elements, characterized in that they are according to the production scheme Fig. 8 and 9 are produced, so mainly by gravimetric dosing of the Hard materials and volumetric dosing of the slip and grinding. 16.) Construction elements, characterized in that the cavities through Concreting of the foaming (polyurethane) to be filled.