CZ404390A3 - constructional member - Google Patents

Abstract

A building component is formed of at least two moulded parts, one of which at least is made of a lightweight concrete that contains particles of plastic foam as its main additive. Both moulded parts are glued to each other.

Description

The invention relates to a building component which comprises at least two molded parts, at least one of which is made of lightweight concrete, which comprises foamed plastic particles as the main ingredient, the two molded parts being glued together.

BACKGROUND OF THE INVENTION

From A1-A-291 498, a structural component is known which is assembled from several parts, in particular in the form of glued layers.

The disadvantage of this structural element is that it is provided with boreholes, bores, grooves, and the like, in which reinforcing inserts, in particular supporting columns of reinforced concrete, are additionally stored, thereby substantially increasing production costs.

It is an object of the present invention to overcome this drawback and to provide a structural component which can be manufactured simply and cost-effectively and which exhibits a high strength at the smallest possible. weight and optimal material properties with respect to fire resistance, thermal insulation, frost from adolescence etc.

SUMMARY OF THE INVENTION

According to the invention, this is achieved in that, in a manner known per se, reinforcements are hammered in the free joints in the joints between two moldings made of lightweight concrete, the reinforcements being formed by sheet strips laid vertically, the edges of which run after hammering. basically so that they are flush with the surface

-2-shaped part.

According to DE-OS 3 714 537, a reinforcement is already known which rests flat on the parts to be joined and only protrudes engage in the parts to be joined, whereby a relatively weak connection is lacking and only small shrinkage stresses can be absorbed.

In addition to the advantage that relatively high shrinkage stresses can be absorbed according to the invention, there is also the added advantage that no cracking problems occur even with the plaster covering the joints. reinforcement need to be on. due to the very high joint strength of the lightweight concrete, in particular, of prottelithic or styroporo-concrete, in tension, overlapped at the joints. little.

Thus, it was possible to state that those lightweight concretes which are in the range of bulk density of about 0.25 kg / l to about 0.6 kg / l. especially those consisting of polystyrene foam particles having a grain size of 0.2 mm to 15 mm, preferably a size. In addition to the known properties, such as extreme diffusion, fire resistance and high frost resistance, the grains of 3 mm to 10 mm exhibit the following properties:

and / or extraordinary tensile strength exceeding far standardized limit values, this property being further tested empirically with amazing results.

For example, rods with a measuring diameter could be hammered in at any point on the prottelith blocks with a density of 0.3 hg / l, 30 cm x 20 cm x 50 cm, at any location, even within a range of 20 mm from any edge. 10 mm, pointed at 45 ° 10 cm deep without cracks in the concrete structure.

-3b / extraordinary ability of antithelted concrete to blend in with wood or metal parts.

It has been found that very exceptionally good adhesion results are obtained when polyurethane foam is used in joining anti-lithium concrete / or styroporo concrete to wood, especially unplaned wood. Brotfcelith can also be bonded to another prottelith using such adhesives. Bolyurethane foam expands a few minutes after application. This climbs into pores of light concrete and pores of wood. During curing, the foam glue disappears and, so to speak, pulls together the joining parts together.

By utilizing in particular the properties mentioned under a / and b) according to the invention, a number of variants of the use of this lightweight concrete can be realized.

When lightweight concretes exhibit shrinkage properties, which often have adverse effects, the maximum shrinkage stress is deliberately limited by the deliberate idle of as little intrinsic strength as possible (if this can still be justified). However, where this limitation is not sufficient, a web made of preferably stainless steel or a similar material, in the shape of a lattice, is inserted into a construction material of the same type as lightweight concrete (for example prottelithe) adjacent to the joints using properties and / or hammered or similar. namely a strip overlapping joints of 5 cm to 20 cm - into the unplastered mass of lightweight concrete formwork or cornice profiles. In this way, this strip, pressed into the lightweight concrete mass, assumes the shrinkage stresses on both sides of the material in the area of the joints and, in the case of the plaster covering the joints, no cracks are formed.

The stab of another feature of the invention can be carried out in such a way that the reinforcement is formed in the form of a lattice of standing sheet metal strips which are connected to each other.

Such reinforcement is very easy to manufacture and also

-4Easy to mount on glued shaped parts. In doing so, it is sufficient to hammer such reinforcement into the free surfaces of two shaped parts glued together *

It is further possible to provide the reinforcement with spikes extending into the molded parts, the horns exhibiting a _z- angle _, wherein one arm of this angular bend is connected to the reinforcement extending outside the molded part and the other arm of the angular bend is at least partially arranged in the molded part. part *

By this measure it is possible to use a reinforcement which serves to absorb the shrinkage stresses simultaneously and to reinforce the shotcrete joining the structural component, for example when a channel made of individual shaped parts or a column constructed of formwork bricks is to be poured with concrete.

According to the invention, it is further possible to adhere the molded parts to each other with polyurethane foam.

This ensures a secure connection in a simple way. When joining moldings made of lightweight concrete with moldings made of wood, such as unplaned wood, unplaned planks, gluing with polyurethane foam results in the above mentioned advantage that the polyurethane foam after its application first expands and penetrates into both molded parts and then pulls, so there is a firm connection.

A further feature of the invention may be that the reinforcement is provided with a bearing surface which overlaps at least partially a molded part made of fiberglass, which is joined by an adhesive applied with a spatula to the surface of the molded part or moldings.

The invention is explained in more detail below with reference to the drawings.

Overview of the drawings

These show:

Fig. 1 a and 1a examples of joining of shaped parts made of lightweight concrete, Fig. 2 fastening of retaining parts and reinforcements to the shaped part, Fig. 3 holding clamps and reinforcement of grooved shaped parts, Fig. 4,4 *, 4, 4a, 4b Fig. 5,5a, 5a * Examples of building components for floor height, Figs. 6 and 7 Examples of building components that can be easily fitted with wall cladding, Fig. 8 Fig. 9,9a, 9b and 9c show examples of the production of complicated formwork bricks from simple xvarovyen parts, and Fig. 10 shows a cross-section of a wall made of structural components with facing masonry.

Giant. 1 shows lattice-shaped reinforcing metal strips 4, which are manufactured, for example, as expanded metal and can have a plurality of deeper claws 4 which penetrate up to several centimeters deep into the prottelith mass to transmit forces.

At particularly critical points, the surface 2 of the component 1 which is secured by such reinforcing strips embedded in the building can be additionally secured therein by an adhesive compound applied with a spatula (e.g. Granolane) with the insertion of a glass fabric 8. This method of securing can 2, which are hammered into the lightweight concrete slat to increase the strength of the anchor plates 7 in the paxottelith body, or even to double.

According to FIG. 3, for the production of special building objects, such as for ceiling beams, the reinforcing nets 8 can be arranged to have numerous retaining claws% penetrating into the prottelith mass, which serve to secure the reinforcing nets 8 themselves securely on lightweight concrete and, in addition, kept them at the correct distance from the prottelith mass, which simultaneously serves as formwork.

Using the above features, the invention can find a large number of applications in the construction industry, on the one hand to save other raw materials such as large cross-sectioned wooden beams and, on the other, to achieve high construction quality with little labor. previously untrained can dělníoi.Jak tries § _e ^r g3 poáj ^ ^and ^ ⁱⁿ Y ^R ° kiti prottelithového of lightweight concrete / plate, for example an I-beam which are covered with strips 2 ·>

These nails 2 can now be nailed or bolted to the boards 10 in the order of the groove-groove-spring. Prior to this, the window and door openings can be cut from the house walls so produced.

For example, individual prottelith elements can be as high as a floor and about 40 om wide. This keeps the net weight within (about 20 kg) and can still be built using the work of a single worker. applicable on the outside of a conventional wooden façade, and on the other hand, no expensive prisms are required inside the walls, while prottelith also offers the advantage of being fireproof and extremely thermally insulating.

As shown in FIG. 5, house walls or partition walls can be made by gluing prottelith boards to the boards 10.

Such wall elements are glued to each other again during construction, whereby the vertical board is fixed to the ceiling by means of an angled connector. The rebo slatted purlins (purlins of about 5 cm to 6 cm thick) are connected with vertical planks.

The outer side of the facade, for example in the order of a groove-springing-on board 10, can thereby be securely fastened to the outer edge of the board 10. Likewise, the lining of the inside of the walls. Both the lining / lining of the outer side of the wall and the lining of the inner side of the wall / give the component only the ultimate strength / stiffness /.

As shown in FIG. 4, the cavity 16 can be filled with insulating materials such as wood chips, prottelith grains, ceramite grains or sand or stones or concrete to increase thermal insulation and improve heat storage properties, also due to masses. ”Decreases the audio transmission. Furthermore, the strength of the components 1 is correspondingly increased, in particular when the concrete or steel is filled not only with a single cavity 16, but with several cavities / or all cavities.

16.

The internal or external cavities 16 are formed according to FIG. 6 by means of wider boards 11, which allow them to protrude both sideways or according to FIG. 7 only on one side. The cavities 16 are also well suited for fixing pipes for installations.

Excellent ceiling beams can be made by gluing. Thus, for example, the component 2 as shown in FIG. 5 can also be used as a ceiling beam when the board 12 is made on both. sides slightly longer.According to fig

The protruding ends YL of the boards 12 screw or nail the nails to other vertical boards which are also too long.

It is also possible to produce complicated shuttering bricks from light. by means of gluing. Thus, according to the invention, for example, hollow bricks with floor heights can be manufactured in various variants, as shown in FIG. 9. The individual needles e, in FIG. 9c, are shown in cross-section. These have glued seams 13 according to FIG. 9c, brick on brick.

The individual bricks e according to FIG. 9c are again connected to each other to form a wall formation, by gluing, according to FIG. 9. The cavities c can be filled with concrete or concrete or other heavy substances such as sand or rubble or even insulating materials.

Furthermore, it is possible to provide one or more connection openings 14 in the transverse legs of the individual wall members 14 so as to connect the filler concrete to the adjacent concrete grains at half the height of the floor one or more times, for example 5 to T times the height of the floor.

Giant. 9a shows a Z-shaped formwork bricks in cross-section. These may also have a floor height and, if not made of a single stove *, are glued together at places f and g. The bricks of shape 1 are glued together again at the points h and i.

”K

Also the bricks U-shaped according to FIG. 9b are formed by gluing 1 and are glued together to form a wall formation m.

Also, the elements or walls of hollow blocks of lightweight concrete or prottelithu are glued using belts made $ 1 in FIG. 10 so that the outer side of the wall is almost entirely by such osazenj pásyfl.5.Ha these strips 15 is now, after? - ^x i according to the invention masonry bricks, clinkers or other boards, creating an aerated facade ”with the character of brickwork bricks.

These strips 15 can also be assembled so that the heat of the sun-exposed side of the house front is conducted according to FIG. 10, .0.

J through the air flowing through convection channels b to the colder side of the house. In this regard, the strips 15 can also be arranged obliquely or horizontally.

The strips 15 can also be made in one piece with their own brick 1 made of anti-celite lightweight concrete.

Also all of the above-mentioned building blocks and building elements made by gluing can be manufactured in one piece.

1 to 10, the building components are of component 1, which may also be single planks 10, 11 and 12. and which can also be made of different materials, assembled together, the bonding being carried out. In this case, a reinforcement can also be provided in the area of the glued joint 2, which extends into the two parts to be glued together by corresponding claws 2 or is completely hammered into the parts 1, even if the molded parts are made of lightweight concrete.

of*.

P A T S N Τ 0 H H Η 0 E Ϊ

Claims (5)

P A T E N 0 0 H E 0 E element Building construction material consisting of at least two molded parts, at least one of which is made of lightweight concrete, containing foamed plastic particles as the main ingredient, the two molded parts being glued together, characterized in that: In a manner known per se, in the area of the joints (2) between two shaped parts (1) made of lightweight concrete in their free surfaces (3), reinforcements (4) are hammered, these reinforcements (4) being formed by sheet strips laid vertically , the edges of which, after hammering, are substantially flush with the surface (3) of the shaped parts (1). p ^ j «k Building construction according to claim 1, characterized in that the reinforcement (4) is formed by a grid of sheet metal strips laid vertically and connected to each other. element Building construction according to claim 1 or 2, characterized in that claws (5) of reinforcement (4) extending into the shaped parts (1) are provided, wherein the claws exhibit a bend and wherein one arm of this bend is connected to a reinforcement extending outside and the second arm of this bend is arranged at least in part in the molded parts. element Building construction according to one of Claims 1 to 3, characterized in that the molded parts (1) are glued together with a polyurethane foam. Building construction according to one of Claims 1 to 4, characterized in that the reinforcement (4) is provided with a bearing surface (6) covering at least partially a molded part (1) made of glass fabric, which is joined by an adhesive applied with a spatula. with the surface (3) of the shaped part (1) or the shaped parts (1). 40U3- 30