DE3005707A1 - LARGE-SIZED BUILDING BOARD AND METHOD FOR THE PRODUCTION THEREOF, AND WALL ELEMENT COMPOSED FROM THESE BOARDS - Google Patents

Description

; ί ·

DR.ING.RUDOLF SELL

Consulting engineer for new developments in construction

Dr. Ing.Rudolf Sell · SeebenseestraBe 14 · 8000 Munich 70, hy

ADVICE

[MONITORING
REVIEW

in the development, use and approval of new building materials, processes and technologies

of quality controls and special construction work

and scientific examinations on construction sites for appraisals

Member of expert committees d. IFBT Berlin

Munich, February 15, 1980 S / PAG 79133/5

Applicant: STREIF oHG

Vettelschoss ü. Linz / Rhine

Inventor: Dipl.-Ing. Rudiger Chamberlain

Reichenhärdt 6, 5340 Bad Honnef 6

Dipl.-Ing. Arnd Zoller

Laacher Str.16a, 5461 St. Katharinen

Large format building board and method for their
Manufacture, as well as consisting of these plates

Wall element

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The invention relates primarily to a large-format building board, the greater edge length of which has the usual storey heights consisting of fibrous organic aggregates and hydraulic binders.

Known building boards of the type under consideration (cf. cement-bonded chipboard, such as the Duripanel system) can be up to 6 m long and up to 24 mm thick. The building boards have a gross density of> 1200 kg / m ³ . Wood shavings are used as aggregate; mixed with mineral binders, they only produce the required density if they are compacted with high-pressure presses.

The structure of the plates must have few pores in order to achieve the highest possible density, because only then is the desired density high flexural, tensile and compressive strength is achieved. The well-known cement-bonded chipboard is used similar to asbestos cement panels, for cladding and for protecting buildings against rain and other influences from the atmosphere. Due to their high density and brittleness, they can only be nailed and screwed to a limited extent will. To produce them, high-quality and therefore expensive mechanical equipment is required, the experienced and require qualified operators.

To ensure the nominal plate thickness with a low tolerance, the material input must be measured precisely in the case of the dense building boards mentioned. This can only go through

Complicated and expensive operational systems, e.g. electronically controlled facilities, can be achieved.

The task of the invention is to find cheaper ones Aggregates with a lower total cost are equally resistant to fire, water, insects and rot To create a building board into which nails can be hammered and screws screwed in and their loading

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work can be carried out with standard mason's or carpenter's tools. It shouldn't be an additional one Plaster or similar finish, may be necessary. From this grows furthermore the task without high-quality mechanical equipment and with workers without professional qualifications a uniform board quality, especially with regard to the edges of one side and their dimensional accuracy to ensure.

This object is achieved according to the invention with the features specified in the characterizing part of claim 1 solved. By enriching the mortar on one side and the associated edges and specifying a with A building board is created that is better adapted to its intended use, which can be achieved by simple pressing is than the well-known building board. The dense outer skin is completely sufficient for weather protection. It could too of the homogeneity over the entire cross-section, because it is more appropriate to use composite materials.

The dense mortar layer on the surface is so thin that it can easily be punched through, for example when hammering a nail. However, it differs significantly from the known pore closure the so-called pore closure panels, a special embodiment of wood wool lightweight panels, as not only a closure of the pores in the sense of a roughness compensation is applied, but a separate layer with multiple functions. There are no shrinkage or bending cracks in the thin layer because there is no shrinkage obstruction consists of the cross-sectional core and because the fines, which are appropriately granular and fibrous Can have structure, cause an increase in tensile, flexural and compressive strength.

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In the case of the building board according to the invention, the board thickness is to be achieved in a simple way by the fact that the layers of low density come together -

let press. Excess amounts do not affect the panel thickness, but only the density of the Building board from.

There are also wood wool lightweight boards according to DIN 1101 and similar panels of wood and cement are well known. Its purpose is primarily that of a thermal insulation board. They can be nailed and screwed, but only with little hold of the screws in the material.

They can also be produced in a thickness of only 20 mm, but not in storey-high formats because they do not have sufficient flexural strength due to their pile porosity 460 kg / m ³ ) .If they are installed on the outside of buildings, they must be provided with a special weather protection layer, e.g. with a multi-layer plaster.

The wood wool aggregate has to be in a very special way Elaborate manufacturing process from round wooden pieces of 50 cm length with special tools in the longest possible " Chips are only produced.

Viewed in this way, a special expenditure of raw materials, energy and facilities is required to get the input material Produce wood wool, for which only flawless, thick round wood sections can be used.

The raw materials for the production of the building board according to the invention on the other hand are predominantly waste products that only require processing or classification. In this

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there is a significant economic advantage that leads to a reduction in the cost of the product. Besides that there is no need for special facilities for the production of the input materials. There aren't any High-pressure presses are necessary for compaction, which gives rise to another economic advantage for the building board.

In the material composition of the thin mortar layer of fine materials fibrous, to a small extent but also of a granular type, both an elastic and rigid outer skin is created, which in combination with the The use of latent hydraulic binders meets the special requirements of weather resistance, because through the moisture absorption, so to speak, creates a swelling, self-sealing effect and the fibers form some kind of reinforcement. An addition of pigments in the fine mortar layer helps to perfect the Finish character of the building board.

The mineral, hydraulically bound building board can be used with the usual hand tools of the masonry and carpentry trade and simple fasteners such as nails and screws can also be used. Another advantage results from the fact that a building board that is only 20 mm thick and floor-to-ceiling dimensions able to withstand bending and transport loads.

The open-pored, rough surface on one side with storey-high dimensions is an advantageous one Design of the subject matter of the invention, because this creates an intimate adhesive bond when with mortar a two-dimensional connection is established. So can the

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Novel building board, for example, can also be used advantageously as permanent formwork with a good bond with the concrete and paintable and wallpaperable surface on the dem Side facing away from concrete.

Construction panels produced with a symmetrical layer structure are suitable for applications in which bending has an impact on the Construction panel is exercised. For example, a building board with two dense, smooth layers is beneficial for Screed boards and the like.

The invention relates in the second place to a method for producing the large-format building board according to a of claims 1 to 5;

The well-known wood wool lightweight panels according to DIN 1101 are used when using magnesite as a binder in an endless belt of 50 cm width and the desired thickness. Requirement for the wood wool lightweight board are longitudinally planed, long-fiber wood wool made from spruce and fir wood with a width of 3 to 6 mm and a thickness of 0.2 to 0.5 mm. The minimum length of the wood chip must be 80 mm.

In the case of lightweight wood wool panels other than those bound with magnesite, a longer dwell time in the forms is necessary before they can be stacked. The particular advantage of the magnesite lightweight panel is that a continuous strand production is possible on a band forming machine, when causing Abbindebeschleuniqunq in a channel-shaped heating gas furnace of 600 ⁰ C. At the end of the oven, the 2.0 m long panels are cut off with separating disks and stored in a stack, as they only cure completely within the next 7 days.

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The production of other cement-bound lightweight wood panels is much easier. The coniferous wood particles will processed with chemicals to set the mineralization in motion and then in one Mixer mixed with cement. Sometimes, for optical reasons, the top layers are made of fine chipboard layers manufactured without, however, foregoing a pore-rich cavity. The panels are placed in formwork of the desired Made to size, stacked on top of each other and stored in heating ovens for faster setting. It's an edging and packaging required in order to be safe against transport damage due to the low edge break resistance.

The process for the production of dense cement-bonded chipboard is characterized by an interaction highly developed single machines. In a mill, the chips are processed, sieved and appropriately their grain size stored in silos. In a Mischanlaae the chemicals for the mineralization of the Shavings mixed in and then cement and water added. The mix is spread out on pouring plates and When stacked in a high pressure press, it achieves the required compression. When pressed together, the panels must be in Climatic chambers are stored before they harden in drying ovens in maturing chambers.

Only after cutting and trimming, due to the relatively high shrinkage, sometimes also through processing By grinding, the panels are given the required dimensions and are made up and stored according to their sizes.

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The disadvantages of the known manufacturing processes are that expensive production plants with a high degree of mechanization are required and are accordingly qualified Require manpower. With the wood wool lightweight panels it is also necessary that, installed in the building, a layer of plaster must be applied because disproportionate due to the standard dimensions of 50 χ 200 cm many butt joints are created.

The invention is therefore based on the object of developing a method for producing large-format Building panels with the characterizing features mentioned in claim 1, with relatively simple, energy-saving Production facilities that do not require skilled labor.

The solution to the problem is that the chemical additives required to mineralize the organic additives are chosen so that they _{result in a short setting time with the cement mixture of Portland cement and tricalziumaluminate-rich (3CaO, Al 2} O ₃ ) cement that is used, and as a result of the heat of hydration released lead to a high hardening rate, so that no drying ovens or a supply of heat are required. The use of exothermic reaction heat of the cement mixture is increased by using mold material with a high specific heat for better heat storage in the stack of panels. By covering the stacks, the loss of thermal energy is reduced and the thermal energy is also used to accelerate the hardening process. The time until demoulding can be shortened considerably. The hardening time is also reduced.

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The molds with a rigid base are filled in layers. The first layer of a fine material mortar with a pulpy consistency is introduced into the bottom of the mold and with it evenly distributed over a mouldboard, in particular so that it accumulates in the edges. The next Layers are introduced into the mold and a mold attachment. The layers become fresh one after the other in freshly poured up and together by pressing a stamp reaching into the essay compressed to the required thickness. The essay will removed together with the punch, the shuttering cover, which is also the shuttering base for the next panel, placed and connected to the floor. In the manner shown, plate on plate are produced in a stack. The building boards cure within 8 hours without using an oven or air-conditioned room to such an extent that they are removed from the mold, can be transported and stored.

By means of the method shown, a new type of building board with two different surfaces is obtained. The surface formed by the bottom of the mold is a flat, closed, smooth surface. She has a ready-made character, can be painted or wallpapered and requires neither sanding nor cleaning. The upper one, from the molded lid Shaped, structured, open-pored surface is rough with excellent suitability as a plaster base.

In the manufacturing process used according to dependent claim 6, it is even possible to achieve a permanent coloring achieve that mineral dyes, so to speak, after a new printing process from the binders be integrated into the surface of the building board. The freshness of these colors remains even with the strongest Received sunlight after centuries, like the medieval frescoes painted in fresh lime plaster Colors show.

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Those bound on the surface by hydraulic binders Mineral paints prove to be the most durable and weather-resistant coloring.

The advantages of the process are that cement mixtures high heat tint result in a shortening of the setting times using the exothermic heat energy and by using dimensionally stable formwork forms, processing and trimming of the large-format building panels is not possible is required. The process for making the invention Building board is also characterized by a shortening of the setting and curing times. Through this, that sophisticated mechanical equipment can be dispensed with and also no qualified specialist personnel is required for production, the rational process leads to an inexpensive product.

Another advantage of the process is that no additional energy is required for setting during manufacture and hardening must be expended.

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The invention also relates to a storey-high wall element made from building panels according to claim 1.

Known wall elements made of wood wool lightweight panels consist of a wooden frame that is covered with wood wool lightweight panels is planked. The wood wool lightweight panels only form a surface finish and fulfill no static, nor constructive purpose. In the case of wall elements with wooden frames, the load-bearing capacity depends on its own on the dimensions of the wood cross-sections used. The planking with wood wool lightweight panels does not have any stiffening effect, preventing buckling. The surface of the wood wool lightweight panel planking must go through Plaster or clothing must be protected from the elements.

Further disadvantages of known wall elements made of wood wool lightweight panels consist in the fact that the load-bearing wooden frame as well as the planking are specially protected from moisture, fire and rotting Need to become. This applies in particular to panels made from reactive resin-bonded chipboard. at Wall elements made of load-bearing wooden frames with asbestos cement or cement-bonded wood chipboard is the fastening The planking on the wooden frame is a particular problem, as is the formation of the butt joints in the wall element to wall element.

The invention is therefore based on the object, with the aid of the storey-high building panel according to the invention with the in Claim 1 characterizing features to create a wall element that has the aforementioned disadvantages of known! does not have and moreover fulfills static structural tasks of stiffening.

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The solution to the problem is that from building board strips a rectangular closed Frame with an aspect ratio of around 1: 2 is formed, which is surrounded on both sides with floor-to-ceiling building boards at all edges the same dimension is overhanging and the outside countersink formed by the bottom surface of the mold Building panels point outwards at least on one element side. The one formed with the panel strips The frame is an integral multiple of the thickness of the building board. The building board strips are both among each other, as well as with the planking using a quick-setting mineral fine mortar. the Advantages of the wall elements are that

- the element is easy to handle and transport due to its low weight of approx. 120 kg leaves,

- the element has sufficient resistance to fire, moisture and rotting,

- the element is load-bearing and does not require an additional skeleton to be protected against moisture,

- the element integrates several functions and is therefore more cost-effective than known, comparable ones Wall elements.

The following drawings are intended to explain and clarify the invention. Show it:

1 shows a cross section through the building board;

Fig. 2 is a plan view of the assembled from building board strips right-angled frame for the Wall element;

Fig. 3 is an isometric view of the overlapped Frame corner /

4 shows a vertical section through a wall element; 5 shows a cross section through a wall element.

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BATH ORIGINAL

In Fig. 1 is an example of a 5-layer building board the symmetrical structure to the center of the cross-section is shown in the layer structure.

The overlying layers 1 are the layers with the highest density and strength. they consist of an enrichment in mortar from binders and fines in a thickness that the fibrous, organic Aggregates are covered. This dense mortar skin is in an intimate bond with the layers 2 or the Core layer 3. The core center, which is formed by layer 3, is due to the lowest strength, density and the smallest modulus of elasticity, but also with the highest chip content and cavity. Of the From the center of the cross-section, the strength, density and modulus of elasticity consequently increase towards the outside.

An essential feature of the building board according to the invention is the design of the surfaces o1 and o2. The surface o1 is the surface formed by the bottom of the mold. It's even and smooth. The surface o2 is the surface formed by the mold cover and is created by the application a fine mortar of a stiff consistency, consisting of binding agent, short wood chips, fibers or the like, produced before the compression process.

When placing the mold lid an open-pored, rough surface which also by designing the mold cover bottom, _w ith one profil'ler th die can obtain any other desired grained or structured surface.

Those formed from plate strips 4 and 5, see FIG Right-angled frames are in the butt joints and among each other with mechanical fasteners and / or Adhesive or quick-setting fine mortar "m" connected. 4 and 5 show that the frame is from

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double stripe is formed. The frame, consisting of 4 frame legs (4,5), can also consist of several with each other There are mortared board strips that overlap in the corner, as Fig. 3 shows.

Rapid-setting cement mortar has proven to be particularly advantageous because it is easy to work with and to enter into an intensive bond both with the rough surface o2 and with the smooth surface oil able.

Therefore, the plate strips are connected to one another or to the planking 6 in such a way that a surface the type of oil meets a surface o2. However, it is unavoidable that two rough surfaces o2 also meet.

The wall element shown in Fig. 4 and 5 has a hollow box cross-section and a high degree of dimensional accuracy Thickness, because the connection of the planking with the frame made of building board strips under the exertion of pressure is that a stop ensures that possible tolerances of the plate thickness are compensated for by different mortar bed thicknesses.

The planking formed from building planks is on Margins an equal amount over. This protrusion leads to a right-angled, groove-shaped, circumferential recess "η", which has proven to be particularly advantageous for joining the wall elements. Of course, the overhang can also be designed differently, for example in such a way that the frame protrudes from the planking edge and forms a kind of spring. Other training than shown, can be expedient from case to case and advantageous for solving a special application.

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L e r s e i t e

Claims (18)

Claims 1.Large-format building board, the larger edge length of which corresponds to the usual storey heights of residential buildings, consisting of fibrous organic aggregates and hydraulic binders, labeled by combining the following features: a there are interconnected layers with different thicknesses and different parts of the binder intended, b is on a first of the two large-area sides a mortar consisting of binding agent and fines in the amount provided so that a thin, the fibrous, organic aggregate covering a smooth, completely dense and homogeneous surface is created, c on the edges adjacent to the first large-area side, the mortar proportion is increased, while otherwise the density is lower in the flat areas, d the second large-area side is also flat, but it has an open-pore> rough surface, Sawdust, wood shavings are used as aggregates reed plants made from waste wood or aeston and agricultural waste products, such as cotton stalks, rice hulls, bagasse, coconut fibers, Bamboo chips or similar that are mineralized using chemical additives, f the mean bulk density over all layers is less than 800 kg / m ³ , The compressive strength parallel to the plane of the plate is 5 to 3 N / mm ² when the thickness of the plate is in the range from 20 to 40 mm. 130034/0519 • ι- 2. Large-format building board according to claim 1, characterized in that the long narrow sides the building board have a closed surface. 3. Large-format building board according to claim 1od.2 thereby characterized in that the layers standing in the composite are arranged symmetrically to the center of the cross-section and the second large-area side also consists of a dense layer of fine mortar. 4. Large-format building board according to one of claims 1 to 3, characterized in that the formed by the bottom of the mold, the first of the two large areas Pages has a homogeneous, weather-resistant and permanent coloring, consisting of chemically from the binder integrated, mineral pigments. 5. A method for producing the large-format building board according to any one of claims 1 to 4, characterized in that only such a chemical additive is used for mineralization of the organic additives that delays the setting of the binder that the first ¹ in the mold bottom in a thin layer inserted mortar of a pulpy consistency consists of binding agent and fine aggregate in a weight ratio greater than 1: 1, so that this fine mortar is at special in the edges of the mold bottom ^ and the side surfaces the plate shape is painted, and the other layers of mortar fresh on fresh one after the other in the with a attached filler frame provided form filled and compacted in one operation at the same time that the plate forms are closed in that they are stacked on top of one another and braced together or harden in a clamping frame surrounding the stack of molds. 13003A / OS19 6. A method for producing the large-format building board according to claim 5, characterized in that that the binder is made from a mixture of Portland cement and cement rich in tricalziuminate with the There is a property of increased heat of hydration. 7. A method for producing the large-format building board according to one of claims 5 or 6, characterized that the mold base receives a paint application or eininit minera ^ in the mold base Lischem dye provided film, fleece or the like is inserted so that the dye enters the surface of the building board upon hydration of the binder is permanently integrated. 8. A method for producing the large-format building board according to any one of claims 5 to 7, characterized that the fine mortar, which is introduced into the mold last, is of such a stiff consistency is that it results in an open-pored, rough surface and only interlocks with the layer below penetrates. 9. A method for producing the large-format building board according to any one of claims 5 to 8 ', characterized in that that de mortar, made of fine materials, fine-grained, increasing the tightness and strength Additions made from latent hydraulic material, such as pozzolana, trass, fly ash and the like, as well as pigments such as titanium dioxide can be added. 10. A method for producing the large-format building board according to any one of claims 5 to 9, characterized that for the production of the large-format building board forms made of a material with high specific heat can be used. 130034/0519 '·· ".-- · ■ - ■ 300570? Ψ- 11. Method of manufacturing the large-format building panel according to one of claims 5 to 10, characterized in that the cover of the lower Form forms the bottom of the form above. 12. A method for producing the large-format building board according to any one of claims 5 to 11, characterized that molds are used to manufacture their bases and covers devices own, for mutual bracing. 13. Method of making the large format building board according to one of claims 5 to 12, characterized that the building boards hardening in a stack are protected against heat loss by covering with suitable material. 14. A method for producing the large-format building boards according to any one of claims 5 to 13, characterized that the mortar layers are compacted with a punch which is designed so that it automatically lifts the filling frame at the end of the compaction process. 15. Storey-high wall element made of building panels according to one of claims 1 to 4, characterized that a rectangular, closed frame formed from building board strips on both sides is planked with floor-to-ceiling panels protruding by an equal amount on all sides and at least one or both sides with that building board surface is equipped, which is formed by the mold bottom. 130034/0519 S- 16. Floor-high wall element made of building panels according to claim 15, characterized in that that all frame legs consist of several integral, interconnected building board strips exist, the width of which is two to six times the thickness of the plate. 17. Floor-high wall element made of building panels according to one of claims 15 to 16 thereby marked Inet that the frame in itself and with the planking with a quick-setting cement mortar is connected in such a way that the element thickness only tolerates +2 mm, -0. 18. Floor-high wall element made of building panels according to one of claims 15 to 17, characterized in that that the frame corners are made by overlapping the building board strips. 13003A / 0819