SK50312005A3 - Method of manufacturing combined building element, device for its manufacturing, combined building element and its use - Google Patents

Abstract

The invention discloses a method for manufacturing and manufacturing equipment combined building component, combined building component and use of this building component for building. Advantageously, the combined building component can be used for construction of family houses, civil facilities, for industrial buildings and warehouses. Combined building the panel is formed by installing metal reinforcements into the panel of an anti-deformation block consisting of expanded cellular nuclei. When using combined construction the component does not form thermal bridges

Description

METHOD OF MANUFACTURING A COMBINED BUILDING PARTNER, EQUIPMENT FOR ITS PRODUCTION, COMBINED BUILDING PARTS AND ITS USE.

DESCRIPTION

Current state

The present invention relates to a process for the production of a composite component consisting of an anti-defibrating block of expanded cell cores and metal reinforcements, to an apparatus for manufacturing these composite components and to their use in the construction of building structures.

BACKGROUND OF THE INVENTION

Sandwich plates are known, consisting of non-metallic and metal components, which are made by expanding in the mold as disclosed in US Patent 4,144,296. Furthermore, plates with metal or non-metallic covering strips mounted on cores of a predominantly inorganic or organic nature are known, as disclosed in SK 279 679. They are plates, mostly used for additional thermal insulation of existing buildings, or used for thermal insulation in new buildings. However, the building materials described are not strong enough to constitute the load-bearing structure of a residential building or industrial building, as is known in the case of structural components made in the classical way, i.e. reinforced concrete panels or wooden panels.

The main object of the present invention is a method of manufacturing a simple building component which can be used for the economically advantageous construction of building units realized as a new building or extension of existing houses. The method of production takes into account the ecological aspect of the technology, which is one of the waste-free and environmentally friendly technologies. The composite component is fully recyclable, the separation of the materials from which it is made is simple and energy efficient, and does not generate waste on site. The components manufactured according to the invention are manufactured off-site, transporting them to their destination is simple and inexpensive, since they are very lightweight plate shapes that are manipulated by human force.

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION The present invention resides in a method for manufacturing a structural component meeting the strength requirements for building materials for structural engineering, which are defined in particular by the strength of the individual components and the stability of the interconnected components. The combined components of the invention consist of an antideform block of dimensions and shapes required by the builder and a plurality of metal reinforcements formed from sheet metal profiles that are located on the front and rear sides of the antideform block so that the axis of each reinforcement on the front back shifted. At the same time, the metal reinforcement on the front reinforces the first edge of the component at the point of weakening of the block resulting from the removal of material from the block body, forming a step at the edge corresponding to half the thickness of the antideformation block and width equal to half the width of the metal reinforcement. By removing the same amount of material from the second edge of the anti-deformation block, a step corresponding to the mirror image of the step of the first edge was produced. As metal reinforcements, steel profiles of various semi-closed shapes are preferably used, which are releasably connected to the anti-deformation block by mechanical pressing or inserting or pushing into preformed grooves on the front and back sides of the composite component. Advantageously, an adhesive may be applied between the metal reinforcement and the anti-deformation block before or during the fixing of the metal reinforcement. Furthermore, it is advantageous to apply the adhesive to the preformed grooves on the front and rear of the anti-deformation block, which are formed simultaneously in a selected number depending on the width of the component. There is a minimum of four grooves on one side of the panel. The number of grooves on each side is always an even number.

Components manufactured as described above meet the requirements of fire safety for buildings with a flammable structural system in accordance with the regulations in force, in particular for single and terraced houses, hotels and motels, shops and warehouses, multifunction civic amenities, industrial halls, extensions, extensions and extensions of existing buildings. and temporary buildings. Advantages of combined components are low weight of individual components compared to classic materials eg. brick, panels made of gravel, iron and cement, and at the same time a high strength to weight ratio. The special insulating properties of this component are also advantageous. The use of a component made in accordance with the present invention does not create thermal bridges, thereby avoiding thermal energy leakage during the heating period and at the same time providing a pleasant indoor space during the summer months without the need for additional air conditioning.

The apparatus for producing the present building components consists of several machines arranged in a production line, in the following sequence.

a / A machine for adjusting the dimensions of a starting block with a different type of drive drive having a plurality of rotating cutting tools disposed in one axis, and a support table along which a machined anti-deformation block moves to adjust dimensions such as length, width and geometric shape of the component.

(b) A machine for machining blocks, shaping edges and forming grooves for placing reinforcements, with at least one cutting tool and with one support table to which the workpiece is to be fixed.

c) Metal reinforcement machine d / A machine for joining a metal reinforcement and an anti-deformation block having a support table on which metal reinforcements are mounted in a fixed anti-deformation block. The advantage is that the machine for joining the metal reinforcement is provided with a pushing or pulling mechanism.

The use of the composite component produced by the above method on the above-described apparatus is in particular for load-bearing and infill walls, interior inter-apartment walls or fire partition walls. The components are connected to each other by mechanical fastening by means of screws and connecting plates, whereby the metal-uncovered areas of the edge stages are placed close together. Advantageously, an adhesive may be applied between the interface surfaces of the edge stages. Excess mass at the location of future structural openings is removed after assembly and connection to ensure stability of the structure.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will be explained in more detail by way of examples, the description of which will be given with reference to the attached scheme wherein:

Fig. 1 is a block diagram of manufacturing a composite component; FIG. 3 shows a component with a bevelled side, FIG. 2 shows a component with the possibility of forming an opening

DETAILED DESCRIPTION OF THE INVENTION

Example 1:

Figure 1 is a block diagram illustrating the operation of manufacturing a composite component, which consists of the following steps. In a first step, the material for producing the composite component is transported from the stock of basic raw materials to the processing site. Material for production of metal reinforcements. sheet metal profiles or blank for the production of metal reinforcements are transported independently of the anti-deformation blocks.

In the second step, the dimensions, in particular, the length and shape of the metal reinforcements are adjusted. In the third step, which can run simultaneously with the second step, the antideform blocks are machined to the desired size and shape, while grooves are made by mechanical cutting, milling or thermoelectric cutting at the front and back of the antideform block. It is possible to take the second and third steps in any order in terms of space and staff savings. The composite component is formed by installing the preformed metal reinforcements in the preformed grooves in the fourth step, using a human force, or a machine-applied force, which acts in a direction perpendicular to the front of the antideform block to provide mechanical connection. In this case, the reinforcement is pressed into the grooves of the anti-deformation block, or the direction of the applied force is parallel to the machined surface of the anti-deformation block, whereby the force can be applied to the beginning or the end of the reinforcement. The metal reinforcements are then installed by pushing or pulling. In order to improve the stability and load-bearing capacity of the composite part, it is advantageous to insert an adhesive application between the third and fourth steps, the composition of which is dependent on the chemical composition of the antideforming block. Preferably, environmentally friendly organic adhesives are used. In the fifth step, the finished product is transported to the finished product warehouse from where it is transported to the construction site after completion of the delivery. The described method comprising elements of the Just in time system "can be modified as a warehouse production method, whereby according to the described method, components of one type, for example from a future window opening, subsequently combined components with a tapered wall, etc. are produced first. The resulting article of the invention is a combined component, in the simplest variant shown in Figures 2 or 3.

Example 2.

The method of manufacturing the composite component described in Example 1 is produced on a machine consisting of several individual machines.

A machine for adjusting the dimensions of a starting anti-deformation block with a different type of drive drive having several rotating cutting tools positioned in one axis and a support table on which a machined anti-deformation block moves to adjust dimensions such as length, width and geometric shape of the component.

• A machine for machining blocks, shaping edges and making grooves for placing reinforcements, with at least one cutting tool and one support table to which the workpiece is to be fixed.

• A machine for manufacturing metal reinforcements • A machine for joining - installing - a metal reinforcement and an anti-deformation block having a support table on which metal reinforcements are installed in a fixed anti-deformation block. Advantageously, the machine for joining the metal reinforcement to the anti-deformation block is provided with a pushing or pulling mechanism.

Said machines may advantageously be arranged in a single production line.

Example 3:

In the manner described in Example 1, on the apparatus described in Example 2, the composite components shown in Figures 2, 3 are formed. The composite components have an anti-deformation block 1 made of expanded expanded cell cores with a minimum bulk density of 15 kg / m ^3. polystyrene plate with a thickness from 70 mm to 220 mm, as a material of metal reinforcements it is suitable to use steel coated steel sheets or aluminum sheets having a minimum thickness of 0.5 mm. It is advantageous to use galvanized steel sheets with a thickness of 0.7 mm to 1.5 mm on both sides. The maximum length of the combined component is 4000 mm. Preferably, the composite components are manufactured in dimensions up to 3000 mm in height. The minimum width of the combined part is 220 mm. The optimum width advantageous in terms of handling, storage and use on site is from 1000 mm to 1500 mm. The described composite component has excellent heat and sound insulation properties. It also meets the prescribed fire safety requirements for individual types of buildings.

Example 4:

In the previous examples 1,2,3, the described composite component is used in construction in accordance with the requirements of legal regulations, e.g. Of the Building Products Act, as load-bearing structures in a building where the resistance of load-bearing and partition fire walls from 30 to 90 mines is required. The joining of the individual combined building elements to one another or, when joining the combined building element to a wooden or metal or non-metallic structure, preferably a metal connecting plate system made of a material identical to the reinforcement material is used. A special case is a plate with pre-drilled holes. Metal nails or screws may be used as the connecting member. Self-tapping screws are preferably used.

Industrial usability

The invention makes it possible to use a combined building component for the construction of family houses, industrial buildings, apartment buildings and other civic amenities buildings, in a very short time, in a different composition, with the possibility of using any projects according to individual customer requirements. The technology of construction using combined building components is independent of the season.

Claims (8)

PATENT CLAIMS Method for manufacturing a composite component, characterized in that in a first step, the material for producing the composite component is transported from a stock of basic raw materials to a processing site, in a second step the dimensions, in particular the length and shape of the metal reinforcements are adjusted; blocks to the required size and shape, and at the same time are made by mechanical cutting or milling or thermoelectric cutting on the front and back of the anti-deformation block at the edges of the step and on the front and back of the groove. to secure the mechanical connection, human or machine-applied force is applied, acting in a direction perpendicular to the front of the anti-deformation block, in the fifth step the finished product of the combined building element is transported to the finished product warehouse from where it is completed transports the van to the construction site. Method according to claim 1, characterized in that between the third and fourth steps an adhesive is applied to the areas between the metal reinforcements and the anti-deformation block. 3. Combination component building machine consisting of several individual machines, characterized in that it is assembled - from a machine for adjusting the dimensions of a starting block with a different type of drive drive having several rotating cutting tools positioned in one axis, and a support table on which a machined anti-deformation block is moved, adjusting dimensions such as length, width and geometric shape of the component . - from a block-processing machine, to the shape of the edges and to form grooves for the placement of the stiffener, with at least one cutting tool and one support table to which the workpiece is to be fixed - from a machine for the production of metal reinforcements - from a machine for joining a metal reinforcement and an anti-deformation block having a support table, on which metal reinforcements are installed in a fixed anti-deformation block. The advantage is that the machine for joining the metal reinforcement is provided with a pushing or pulling mechanism. Combination component characterized in that it is formed by installing a metal reinforcement (2) on an antideform block (1) made of cell cores such that the axes of the metal reinforcements on the front and rear sides of the combined component are offset from one another. Combination component according to claim 4, characterized in that the anti-deformation core is of expanded polystyrene having a minimum bulk density of 15 kg / m ³ . Combination component according to Claims 4 and 5, characterized in that the metal reinforcements of thicknesses of 0.7 mm to 1.5 mm are made of steel galvanized on both sides. Combination component according to claim 6, characterized in that the mass of the anti-deformation block (4) located at the location of the future opening (3) is free of metal reinforcements and is trimmed with a sheet metal strip. 8. Use of a composite component for the construction of buildings, characterized in that the joining of the individual composite components to each other or the connection of the composite component to a metal or non-metallic structure is accomplished by means of a metal connecting plate made of a material identical to the metal reinforcement material. Block diagram of the production of the combined building component