NL7808358A - Components for prefabricated building process - are mainly of cement reinforced with fibre glass or asbestos, assemblable without mechanical lifting aid - Google Patents

Abstract

The prefabrication building system involves various standard facade and wall units, floor constituents and/or roof sections being assembled with the aid of connecting components to form a lasting, firm structure. All the structural components are produced from a weather and fire-resistant, light material with great mechanical resistance and load bearing qualities. Their structure is such as to permit buildings of more than one storey to be made, and being made principally of fibre-glass or asbestos reinforced cement can be easily positioned by normal man power without the aid of lifting appliances.

Description

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Ί. ,,. 1 / y N.O. 26,519

Francois - Henri Boos, in Brussels.

Prefab construction system.

The present invention relates to a new prefab construction system in which various standard facade and wall elements, floor elements βη / or roof elements are combined into a construction using connecting elements.

The invention further relates to new prefabricated building elements 5 which can be used for the system according to the invention.

Building systems in which fixed structures are realized using prefabricated building elements are already known. 10

For example, there are building systems that use prefabricated building elements from classic building materials such as brick or poured concrete. Such building elements have the advantage of enabling very solid and durable structures, but have the major drawback that they are very heavy and therefore necessitate extensive hoisting devices for handling and placing the elements.

Other known prefab construction systems use prefabricated elements of lighter material, such as plastic panels, wood panels, cement aggregate panels, etc. Such lighter building elements have the advantage that they can be handled and mounted by manpower, but have the disadvantage that they do not, in themselves, have sufficient strength. have to be self-supporting, so that the construction must be based on a supporting skeleton · 25

In addition, some of these known lighter prefab systems have the disadvantage that they use insufficiently weather- and fire-resistant materials and therefore do not allow sustainable constructions 7808358 t 2 *

On the other hand, the known lighter prefab systems using cement aggregate elements have only an architectural function, and do not contribute to the load-bearing structure of the realized structures. 5

The present invention now aims to provide a new prefab construction system that combines the advantages of the various known systems while at the same time avoiding the disadvantages of those known systems, whereby different standard facade and wall elements, floor elements and / or roof elements can easily be combined by means of connecting elements. a durable fixed construction can be combined.

For this purpose, according to the invention, in this new prefab construction system, building elements are used which are made of a weather- and fire-resistant, light material with great mechanical resistance and tensile strength, said elements per se being sufficiently self-supporting to constructions with more than one construction level. possible and at the same time be light enough to be handled and placed only by manpower without the use of hoists. 20

According to a specific embodiment of the invention, the building elements are manufactured from a cement mixture reinforced with mineral fibers.

The mineral fibers used for this purpose are preferably glass fibers, but other mineral fibers such as, for example, asbestos fibers, etc. may also be eligible. According to further embodiments of the invention, matrix compositions other than cement mixtures can also be used, such as, for example, polyester concrete mixtures.

A very suitable material, however, is formed by a cement / sand mortar, in which special alkali-resistant glass fibers are mixed.

Such material is known per se, inter alia from information publications of the Pilkington Brothers Ltd. dating from about 197 ^ 35

It was now discovered in an entirely unexpected manner that this known material, which for the time being was only considered for architectural building elements 7808358 3 + elements, is ideally suited to manufacture self-supporting prefab building elements, and thus a particularly preferred embodiment of the new building system according to the invention.

According to the most preferred embodiment of the invention, the building elements for the new prefab building system are therefore manufactured from a cement / sand mortar, in which special alkali-resistant glass fibers are mixed.

According to another feature of the invention, in the new prefab construction system, building elements are used which have a shape 10 which promote the rigidity of those elements and of the construction

A well-defined and preferred shape for those building elements is provided by the Caisson shape, wherein the strength and stiffness of the caisson elements is very suitably increased by reinforcing beams or ribs.

According to a further feature of the invention, the load-bearing floor elements can furthermore be reinforced with steel wire or rods

The material thicknesses of the building elements used according to the invention can vary between about 1 and about 5 cm, and may preferably be about 2 cm.

These material thicknesses are particularly suitable when using the most preferred material according to the invention, namely the alkali-resistant glass fiber / cement mortar mixture. 25

According to yet another very suitable and preferred feature of the building system according to the invention, the different building elements can be joined together using furs and nuts.

Naturally, in the building system according to the invention, the building elements used can have an additional architectural function in addition to their specific structural function.

Furthermore, according to one of the preferred embodiments of the invention described above, the box elements can also serve as pouring form for pouring floors. 35

In addition to the new prefabricated building system, the invention also relates to the new leakage of the new building elements having the characteristics 7808358 * k suitable for that building system.

Finally, the invention also includes the constructions realized according to that building system according to the invention and / or with the building elements according to the invention.

Further details and features of the invention are set forth below with reference to a particularly preferred embodiment of that invention, with reference to the accompanying drawings.

In those drawings fig. 1 represents a prefab building element, which can be used as a roof element or as a self-supporting floor element in the building system according to the invention; Fig. 2 shows a prefabricated building element, which can be used more specifically as a floor element, and Fig. 3 shows a prefabricated building element, which can be used more specifically as a wall element. 15

The elements shown in the exemplary embodiment of the invention described are made from a mixture of cement mortar (Portland cement: sand ratio about 3: 1) with about 6 alkali resistant glass fibers (special glass fibers manufactured by Pilkington Brothers Ltd. under the 20 designation Cem-Filar are marketed).

This material is injected into a mold with a double-headed spray gun, the material thicknesses of the elements described as example being about 2 cm.

Instead of spraying the material in a mold, this material can be sprayed on a deformable support, so that after the casting of the first material layers a stiffened structure is obtained, namely a skeleton that serves as a support for subsequent sprayed layers or for another element.

The elements thus obtained are excellent fire resistant, have homogeneous and isotropic mechanical properties and have satisfactory acoustic properties.

The manufacturing of the elements is very simple and inexpensive, and requires only little investment costs.

The building elements shown as examples have the following 33 specific properties: 7808358 5 *> £

The roof or self-supporting floor element 1 shown in fig. 1 consists of a base surface 2, with a surface size of 60 x 600 cm, and of a reinforcing frame 3 »along the circumference of the base surface 2 * The element 1 further comprises a longitudinal reinforcement sheet 4 and an transverse reinforcement beam 5 5 * The height of the reinforcement frame 3 and of the reinforcement beams 4 and 5 is 15 cm.

As already mentioned, the material thickness of the building elements, i.e. of the base surface and of the reinforcing frames and beams, is approximately 2 cm. 10

The reinforcing frame 3 of the building element is provided with recesses 6, whereby the different roof and floor elements 1 can be connected to each other or to the wall elements by means of bolts and nuts (not shown).

The floor element 11 shown in Fig. 2 consists of a base surface 12, with a surface size of 60 x 450 cm, and of a reinforcing frame 13 'along the circumference of the base surface.

The element 11 further comprises a longitudinal reinforcement bar 14 and an transverse reinforcement bar 15 · 20

The height of the reinforcing frame 13 and of the reinforcing beams 14 and 15 of this building element is 7 cm.

Here, too, the material thickness of the element is about 2 cm.

The reinforcing frame 13 is provided with recesses 16 for joining the elements together using nuts and bolts.

The facade or wall element 21 shown in Fig. 3 consists of a base surface 22, with a surface size of 120 x 275 cm. 30

On this base surface 22 there is a reinforcement frame 23, with an outer circumference of 120 x 260 cm, whereby the base surface 22 of the facade element 21 protrudes 15 cm on one side outside the reinforcement frame 23.

As a result, the roof or self-supporting floor element 1 can very suitably be placed on top of side 30 of the reinforcing frame 23 7808358 Μ 6, whereby a continuous surface is obtained on the outer facade of the construction ·

The element 21 further comprises diagonal reinforcement crossbars 24-25. The height of the reinforcement frame 23 and the reinforcement crossbars 24-23 is 10 cm. The material thickness is about 2 cm. The reinforcing frame 23 is provided with recesses for joining the elements together and with the other elements.

The building elements thus described can be set up and assembled in a very simple manner by unskilled labor, without the use of expensive hoisting devices.

In addition, screwing the elements together with bolts and nuts requires only light weight and inexpensive tools *

Where necessary, the floor elements can also be used as pouring mold 13 for pouring a reinforced floor surface. In addition, the floor surfaces can be further reinforced by the use of steel.

The above-described embodiment of the invention is only intended as an illustrative example of the inventive idea, and does not in any way imply a limitation of the scope of the claimed protection.

Further elaborations and other embodiments of the invention, as claimed in the patent claims below, will indeed be readily recognized by the skilled person. 23

The new building system according to the invention can be used for building all kinds of constructions or construction parts (floors, roofs, walls, etc.), namely for houses, swimming pools, etc. 7808358.

Claims (15)

7 'CONCLD S-I ES 1. Prefab construction system in which various standard façade and wall tents, floor elements and / or roof elements are combined into a durable, fixed construction using connecting elements, noting that the different building elements consist of a weather and fire-resistant, light i material having a high mechanical resilience and tensile strength, said elements per se being sufficiently self-supporting to allow constructions of more than one construction level, and at the same time being sufficiently light to be handled and placed only by manpower 10 without the use of hoisting devices. 2. Building system according to claim 1, characterized in that the building elements are made of a cement mixture reinforced with mineral fibers. 15 Building system according to claim 2, characterized in that the building elements are made of a cement mixture reinforced with glass fibers. Building system according to claim 3, characterized in that the building elements are made of a cement mixture reinforced with special alkali-resistant glass fibers. 5. Building system according to claim 2, characterized in that the building elements are made of a cement mixture reinforced with asbestos fibers. 6. Building system according to claim 1, characterized in that the building elements are manufactured from a mineral concrete reinforced polymer concrete mixture. 7. Building system according to one or other of the preceding claims, characterized in that the building elements have a shape which promotes the buoyancy of those elements and of the construction. Building system according to one or other of the preceding claims, characterized in that the building elements are manufactured in a ciasson shape, wherein the strength and stiffness of the caisson elements is increased by reinforcing beams or ribs. 7808358 Building system according to one or other of the preceding claims, characterized in that the load-bearing floor elements are reinforced with steel wire or rods. Building system according to one or other of the preceding claims, characterized in that the material thickness of the building elements is from about 1 to about 3 cm. Building system according to claim 10, characterized in that the material thickness is about 2 cm. Building system according to one or other of the preceding claims, characterized in that the different building elements are joined together by means of bolts and nuts. Building system according to one or other of the preceding claims, characterized in that the building elements have both a structural function and an architectural function. iJf. Building system according to claim 8 or according to claim 8 and one or other of claims 9 to 13, characterized in that the floor box elements serve as a pouring form for pouring floors. 20 151 Building elements which have the characteristics as described in one or other of claims 1 to 11 · Construction constructed using the prefabricated construction system according to any one of claims 1 to 14. 7808358 ******