FI58810C - LAETTKONSTRUERAT VAEGGELEMENT OCH DESS TILLVERKNINGSMETOD - Google Patents

Description

ΓΰΕΓη M (^ ADVERTISEMENT 58810 mj »l ° J 1 j utlAggningsskrift C Patent granted 10 04 1031 ^ Patent meddr-lat ^ (51) Kv.ik.3 / iw.ci.3 E 04 C 2/46 FINLAND —FINLAND ( 21) P »Mnttlh * k« mui —P «« nttn * eknln | 7919 ^ 5 (22) Hikamlspllvt - AiMÖknlnpd · * 19 · 06.79 (Fl) (23) AlkupUvt —Gllti | h «t * d» f 19 · 06.79 (41) Become Public - Bllvlt offsntllf 20.12.80

Patent and r.ki.t.rih.llltu. N «htivik.ip ™«, j. date of month. -

Patent- och ragitteratyralMn Ansöksn Utlt | d oeh utl.jkrlften publieersd 31 · 12. öO

(32) (33) (31) Requested «uoikaui —Bsgtrd prlorltet (Tl) Rakennusdomino Oy, Maapallonkuja 1, 02210 Espoo 21, Finland-Finland (FI) (72) Tauno Jokela, Espoo, Finland-Finland (FI) (7I + ) Keijo Heinonen (5U) Lightweight wall element and its manufacturing method - Lättkonstrue-rat väggelement och dess tillverkningsmetod

The object of the invention is to provide a lightweight, fast and low-cost building element intended mainly for warm soils.

Today, different building elements are used in the construction of houses:. Layer tile or sandwich elements with different layers of different properties are often used as external wall elements; thermal insulation, such as rock wool or polyurethane foam, is installed between the outer and inner wall layers of the building. The building elements can either be manufactured on site 1 la or in prefabricated factories. E.g. DE Application No. 23231 52 discloses an element consisting of an inner plate, a frame, a thermal insulator and a lightly reinforced outer surface layer.

In connection with the standardization of construction, in order to reduce construction costs, speed up construction and reduce work at the workplace, a large shift has been made to the use of prefabricated building elements.

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Today, the exterior façade of building elements is often made of porous, gypsum-like materials or wood or reinforced concrete.

The thermal insulation capacity of gypsum-like materials as well as moisture resistance is often quite poor, wood does not withstand the termites found in warm countries. Elements made of concrete are reinforced with steel, in which case the element becomes massive, thick and heavy and its transport and installation costs are high.

If the concrete elements are manufactured in a warm country where the construction work is carried out, the elements made with conventional, known technology require the establishment of an element factory, large industrial premises and expensive. the molds needed to make the elements and the heavy equipment needed to move the heavy elements and therefore the investment costs are high. In addition, such an arrangement is rigid from the point of view of production planning, in which case the construction easily becomes one-of-a-kind.

The making of elements made by conventional techniques is relatively slow. In addition, the elements manufactured by the conventional technique are, as mentioned above, heavy and massive, and their use also requires heavy construction equipment during the construction phase, and in addition, their massiveness places great demands on the building land. In addition, if it is desired to produce colored prefabricated concrete houses, it is necessary to make: colored elements made by conventional techniques very expensive due to the large amount of paint required for painting the thick outer shell.

The object of the invention is to eliminate the above-mentioned disadvantages.

The object of the invention is to provide a light wall element which is particularly suitable for export and is intended for use in warm countries and can be manufactured quickly and at low production costs.

The lightweight wall element according to the invention, which consists of a frame, thermal insulation and cladding panels attached to the frame plate, one of which is concrete, is characterized by the features set forth in the characterizing part of claim 1. The features of the method for manufacturing an element according to the invention are set out in the characterizing part of claim 2.

The invention will be explained in more detail with reference to the figures 1 shown in the accompanying drawing.

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Figure 1 shows a schematic cross-section of an element according to the invention.

Figure 2 shows a part of the cross-section of a wall element according to the invention perpendicular to the ribs.

Figure 1 shows the sandwich-type structure of the element 1: there is a thermal insulation 4 between the concreted outer shell Θ and the inner plate 3.

Figures 1 and 2 show the structure of the outer shell; a fin mesh 9 is fastened to the frame 2 by a mechanical fastening 10, the louvre of which is marked with the reference number 11 and the ribs with the number 12. Figure 1 further shows an L-shaped list of the element 1 marked with the reference number 7.

The element according to the invention can be manufactured, for example, by the following method 11a: "Assemble the element body 2. Install the inner plate 3 and the thermal insulation 4. The reinforced mesh 9 is attached to the body 2 and an L-shaped strip 7 is installed around the element 1. The reinforcement 9 and the edge strip 7 mechanically to the frame 2. Apply the concrete surface Θ, whereby the concrete passes through the holes in the fin mesh and binds to the mesh over the thermal insulation.

The body 2 of the element 1 can per se be made of any suitable material, such as wood or steel. It is required that the body 2 be rigid. In the solution according to the invention, the frame 2 acts as a load-bearing structure and the concrete surface stiffens the frame and is able to receive a wind load.

In the solution according to the invention, a perforated ribbed mesh 9 made of hot-dip galvanized sheet metal (for example, an English red-rib) has been used for cladding the body 2. The net is made of sheet metal by stamping so that the edges of the intersections in the sheet are bent perpendicular to the plane of the sheet, forming a perforated sheet with tongues at the edges of the holes away from the plane of the sheet. The function of this network 9 made of galvanized sheet metal is to act as a double reinforcement: the ribs 12 act as tensile steel, and thus as a stiffening structure, and the slatted mesh 11 acts as an adhesive base for the concrete and as a crack reinforcement. The concrete field is then the so-called parallel reinforced.

The L-shaped strip 7 mounted around the body 2 acts as a casting edge and thus together with the body 2 as a “mold”, in which case no ordinary, expensive mold is required, which is necessary for the production of concrete elements by conventional techniques.

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The fin net 9 and the L-shaped strip 7 are attached directly to the frame 2 by a force-transmitting joint. The fastening can advantageously be carried out mechanically, for example by means of heat-sealed screws. If necessary, the fastening can also be performed, for example, by spot welding on a line. When the reinforcement is carefully attached to the frame, the concrete outer shell makes the frame rigid, this rigidity can be utilized in the overall stability calculations of the building frame, i.e. these concrete elements are slabs holding the building upright.

The concrete is cast on the frame 2 in the normal way: the concrete is spread, vibrated with a beam and the surface is brushed, for example. The use of a lightweight net 9 makes it possible for the shell 8 not to become heavy, much less concrete is needed than normal and, moreover, since the concrete is attached to the frame 2 by means of reinforcement, the stiffening capacity of the concrete has been utilized.

Element 1 can be moved to storage immediately after casting. Elements made by conventional techniques should usually dry in their molds for about a day. In addition, impregnation can be used to advantage in the production of the elements according to the invention, i.e. most of the water is sucked out. This method cannot be used on conventional sandwich concrete elements.

The outer shell of the element 1 according to the invention is thin, only about 25 mm, while the outer shell of the sandwich elements produced by the conventional technique is about 7 cm. The element (2.4 x 2.6) according to the present invention shown in the above example has a thickness of only about 11 cm, of which the proportion of thermally insulated wool is about 7 cm, which corresponds, for example, to Middle Eastern standards. The weight of the element per unit volume is then 500 kg per cubic meter; the weight of the element according to the invention in question is only about 16¾ of the weight of the conventional sandwich element, it is therefore very light and advantageous for transport. However, the element according to the invention is durable and has good thermal insulation.

The manufacture of the element 1 according to the present invention does not require large hall spaces, expensive molds, or heavy equipment for moving on the manufacturing site and in buildings. Thus, the casting site of element 1 does not require large investments and its manufacture is highly skilled. The element can be made in small workshops, quickly, the smallest material "

Claims (2)

58810 and staff costs. The fact that the casting does not require conventional mold equipment allows the element 1 to be transferred to the warehouse to dry immediately after manufacture, which allows a high finished capacity. Light equipment, for example forklifts, is sufficient to move the element according to the invention. The lightness of the element causes not only the lightening of the construction equipment, but also the cheapening of the foundations, the facilitation of construction and the shortening of the construction time. In addition, the elements 1 according to the invention can be produced in color at a lower cost than conventional concrete elements: considerably less concrete and thus less color is required per element 1, which is generally about 6% by weight of cement, i.e. about three times the color of a normal sandwich element element. The invention may be modified within the scope of the claims according to the conditions of use. For example, although these elements are mainly intended for the needs of warm countries, they can be modified to produce building elements suitable for even cooler climates. For example, the thickness of the wool layer can be thickened to increase the thermal insulation, or instead of wool, for example, polyurethane foam can be used, which has almost twice the thermal insulation capacity of wool. The main point of the invention is that the outer shell of the element is formed directly on the frame, using the frame as a mold, by a cast concrete slab, the reinforcement of which is directly connected to the frame by a force-transmitting joint, preferably mechanically. A lightweight wall element (1) consisting of a frame (2), a thermal insulator (4) and cladding panels attached to the frame, one of which is concrete, characterized in that it comprises a rib network attached directly to the frame (2) by a force-transmitting joint, preferably mechanically 1a (9) a reinforced concrete outer plate (8) surrounded by a strip (7) acting as a casting edge, preferably L-shaped.