DE6804053U - POST OR BEAM, IN PARTICULAR FOR BUILDING PURPOSES. - Google Patents

Description

Aachen, 1 * .12.1971 -J

File number: b Gbrnh 66 Oj

Dr.-h-, i -! .- r '>. H Scheller _My symbol: Gm ^ 700

.V. . * - '- ■ ■ ■' ^l '33

Coinpagnie de 5a.ini-Goba.in, Neuilly-sur-Seine (France)

Priority from French patent application no.

12b \ ^ 2 of October 27, 1967

Jr f ο st en or ^ r beams
-Z especially for construction purposes

The innovation btitrii:;. composite construction elements, Posts or baluses, in particular for use in building structures.

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According to one feature, the innovation is characterized by that these posts or beams have a longitudinal element to accommodate the majority of the acting Forces, as well as an outer shell and a filling made of a cellular or fibrous material.

Structural elements designed in this way also have the properties that they are carriers and insulators are.

The construction elements formed in this way are in particular applicable to the factory construction of light structures, in particular for house building purposes, wherein composite panels with good mechanical resistance properties are generally used and thermal insulation. These plates are connected with load-bearing reinforcements made of concrete or a steel frame. The use of the new construction elements to form these load-bearing fittings has the advantage that it facilitates the construction and no thermal bridges are brought in. This double property of the load-bearing according to the innovation Construction elements can be used to advantage if the panels consist of two outer layers of plastic material (Plastic) such as polyester, and an organic cellular

Core exist.

In the following description, the term "soul" is used to denote the element which the The role of the armature of the post or the beam plays and that most of the forces from tension, pressure and To accommodate bending acting on the post or beam.

When one has particularly great bending forces through the soul want to have recorded, it is advisable not to arrange this soul in the center of the post or the beam, but rather aru edge, for example adjacent to the inner surface of the shell. You can also do two use separate souls to give the cross-section of the post or beam a large moment of inertia admit.

Due to the fact that through the soul a large part of the mechanical forces acting on the construction element to be able to act upon its use, to allow it to be absorbed, one avoids the dangers of the Creep of the plastic materials that make up the other parts of the structural element, and one can allow much greater forces than with the same design learner without a soul. In addition, this soul can be used with advantage for anchoring the Construction elements on the floor, for the attachment of other construction elements to them and for various others Fortifications. When the soul is hollow, it can be very thick, and in this way the amount of what is necessary Reduce foam, especially if the posts or beams to be produced are of thick cross-section.

The materials that make up the soul must be mechanically resistant, that is, they must have good resistance have against tension and pressure. This resilience is always much higher than that of the material that forms the foam. The materials that make up the soul must be able to work without harm two types of mechanical stresses to which they are exposed, namely on the one hand the Forces of construction caused by the weights of the structure of which they are part and the external

Stresses and, on the other hand, local stresses from the points of anchoring and fastening go out. The appropriate materials can be metallic: profiles made of ordinary steel, made of Special steels, made of steels that are resistant to chemical attack or · to rusting appropriate; also profiles made from light alloys, from copper, from zinc. The souls can also come from one thermoplastic or thermosetting material, agglomerated products or any other material that has the required properties specified above.

The shell, which is the modern construction element, limited on the outside, it also plays an important role mechanical Role. It partly participates in the absorption of mechanical forces that the complete construction element claim, in cooperation with the inner seeie. In addition, the shell protects the filling material from any deterioration by breaking, tearing or crushing. The material that makes up the shell bilde +, generally has mechanical properties that lie between those of the soul and those of the filler material; it must have some resistance to tension have, but its modulus of elasticity can be lower because the shell does not work alone, but in conjunction with the other two components of the composite construction elements. Pie bowl rcui a certain resilience against hole formation have such that they retain their shape under the influence of pusher, and a punctiform force over a larger area distributed in order to avoid any indentation of the filling material.

These different egg i: ensc; .af th are achieved with Layers of fibers and resins, such as polyesters or epoxies, with fibers made of glass in Fonc of mats or Fabrics are reinforced. These resins can also be mineral Fillers eni: .a ± ten. The bowls can also be made from consist of other materials, e.g. aluminum sheet or thin steel sheet or hard coatings, the hydraulic Contain binders, or made from organic materials such as resins and latex - or even in certain cases from clothing without great strength, but which are impermeable to water. The shape of the cross section of the shells can either simply be round, oval, square with rounded corners, for example, or have recessed corners. In general, the compact shapes are more advantageous than elongated cross-sections.

The filler material is preferably an expandable material that is capable of the whole available standing place around the soul inside the bowl to fill in, and that is able to adhere to the soul and to the shell to a sufficient extent, possibly with help an interconnection layer that promotes this adhesion. Ge.i, äi3 of a variant, the foam can be used separately fabricated and in its final state in the machine, which is its connection with the soul and with the Shell causes to be introduced.

The foam is mostly pretty good or excellent Properties in terms of thermal insulation and medium mechanical properties. The organic foams are their own, well, especially when they are at the moment curing do not release gases or vapors. The polyurethane foams can be used with advantage; you choose theirs Densities depending on the required properties, e.g.

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between 30 and 200 kg / iir. In the usual applications of the Composite construction elements for building purposes suffice densities in the order of 40 kg / m ^. For construction elements, exposed to considerable mechanical forces, higher densities are beneficial and can for example be between 80 and 200 kg / nr. The mineral foams can also be used; she generally have the disadvantage of being heavier for handling and transportation. But this property has an advantage in certain uses for construction purposes, namely where you have a large heat capacity and thus a Desires great thermal inertia. In addition, the mineral foams are completely non-flammable and are due to this property in the being of interest »

Fibrous materials can also be used, such as glass fibers bound with a binder.

The continuous production of the construction elements according to the innovation can be done in such a way that the soul is first produced by the cellular or fibrous material that is to form the filling, that one brings about one's connection with the soul and that one has the filling in enclosing a shell.

When carrying out the first stage of work, for example use an extruder for the plastic material, a device for forming sheet metal, an apparatus for Impregnation of fiber.aic.tten with a resin, rait shaping and polymerization or any other suitable apparatus for the material used. Instead of on the spot To abrizie endless souls, one could also run profiles more finite Use lengths, whereby these lengths then have the greatest

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are possible or are chosen in accordance with the lengths for the final cutting of the finished construction elements.

For the application of the filling material and its connection with the previously formed soul you can, for example, place previously cut pieces of zelligem on the soul Glue the resin to form the desired cross-section for this filler material. It is better to turn to the immediate Foaming of the resin, for example by atomization, des foaming material on the soul, possibly in several successive steps; the external shape is determined by a temporary enclosure that serves as a mold and that limits expansion and with the materials wanders. As a variant, the outer shape can be obtained by simple processing without using any a shape. Instead of atomizing (spraying) the foaming material on the soul, it can flow into a mold let that surrounds the soul and circulates with it; the surface of this shape is essentially cylindrical; the cross-section of this shape is that of the final structural element and approximates that in thickness the shell that c "ann in the third part of the machine that to surround the final construction element.

In order to completely enclose the foam and the core with a material capable of forming a continuous shell, one can work in the following two ways, depending on the nature of the material chosen. This shell is fabricated directly on top of the previously formed foam; this is the case with bowls made of resin or a covering material. You cover the entire outer surface of the foam with dom resin, you cover it by pouring and wiping or simply by spinning

with the help of suitable atomizers; reinforcement elements are added like fibers made of glass or fabric, and the whole thing is hardened. This approach is also applicable in the case of special metallic shells that -ius a Strapping is made up of straps that are wound helically around the foam and at the same time with yourself and on the foam is glued.

Another way of working is to put the specially fabricated bowl around the soul and pour it Foam in the space. This is the case with a metallic shell supported by a continuous container is formed, wherein this container has a cylindrical surface and is open on a surface line, the continuous precipitation with the foaming material to enable; this container is closed by welding, soldering, gluing or folding before the expansion of the Foam is complete. This is also the case with a shell made of resin, for example one reinforced with glass fibers and polyester optionally filled with fillers, the shell being continuously fabricated separately. You can also form the shell from two parts, which after the introduction of the foaming material by gluing be put together.

1 to 8 show various examples of innovations according to the invention Construction elements.

In the embodiment according to FIG. 1 (vertical axial section) and FIG. 2 (section according to II-II of FIG. 1) the post consists of a cylindrical core 1, for example a metallic tube, which is encased by zelligem insulating foam 2, which in turn is protected on the outside

through a cylindrical shell 3. The lower part of the post is penetrated by an opening in a its three components penetrates and so the introduction of a pin or a wedge 4 enables the fastening of the post on the ground is used with the interposition of an anchoring piece cemented into the ground A foot 6 of suitable material can be inserted between the base of the post and the floor.

Fig. 3 relates to an embodiment of a beam in the form of an inverted T, which is formed from a metal core 7 in the form of a curtain rod, a body 8 made of two resin and a shell 9, which is formed, for example, from a layer of polyester resin, reinforced by fiberglass. The metallic core 7 allows the attachment of this beam th to an increase or its anchorage with a partition wall ¹ by means of a metallic O. Piece 11, which is loaded with r'iii'o «ines wedge Yi, which penetrates the partition

BLH ier embodiment gernäß 4 (side view) and Fig ^-..; (Section according to VV of Fig. 4) the beam or the post has a cross shape: and carries two cores 13-13a, which are arranged adjacent to the outer inner surface of the shell 14. On the thus formed bar or post part PY is attached Wubei this attachment is effected, the heads of which are embedded in the profile of the core by bolts sixteenth These heads have an elongated shape that enables them to be introduced into the soul through elongated holes in the shell.

Fig. 6 shows an arrangement in which the core 17 is formed by a relatively large cross-section Pr.fi1 from a layer of polyester and glass lasers, connected mil a shell 18, which also consists of a .Schicing consists of polyester and glass fibers, and a Polyurethane foam 19 between these two parts is arranged.

Fig. 7 shows an example of a bar according to the invention or post made of a central core 20 made of aluminum alloy, connected to a shell 21 made of a layer of epoxy or polyester resin with filling 22 Polyurethane foam du the like.

Fig. Ei shows a variant with lateral cores 20-2Oa, wherein the materials forming the variant can be the same as in the example according to FIG. 7.

FIGS. 9 and 10 relate to a machine for the production of the construction elements required by the innovation. These The machine is particularly intended for the production of an innovative composite construction element, that is formed from a metallic core of round, square or rectangular cross-section, from a Filling made of polyurethane foam and a shell made of glass fiber reinforced polyester resin. . Fig. 9 is a is a perspective view, and Fig. 10 is a plan view on this machine.

In the first section of the machine a thin sheet 23 of great length coming from a spool is formed at 24, so that a cylindrical cross-section is obtained. The edges of the sheet metal brought close together in this way are welded or brazed to form a continuous tube 25. This pipe is connected to

Aligned order of rollers 26 that allow its advance to the right under the action of the train, which is applied to the entire product produced by a suitable pulling device 27 at the exit of the Machine.

In the second section of the machine, the Ronr enters the interior of a cylindrical shape made up of identical elements 28, which are brought together around the pipe with the aid of a conveying member 29, which feeds said elements issued at the same speed as the pipe has it. The elements 28 are formed from two separable parts, did have symmetrical movements and at one end of the conveyor link allow the pipe to enter and the foam-lined pipe to exit at the other end. the The approach of the two half-forms takes place in the left part of the conveyor gliel, and their divergence in the right part of the latter. The half-forms can be metallic or consist of a glass fiber reinforced polyester resin. It is necessary to stiffen the walls of these molds in order to avoid any deformation caused by the pressure of the foam originates from. It is also necessary to keep the two half-molds tightly closed against each other in order to prevent them from coming apart prematurely also to be avoided under the influence of the pressure of the foam. This holding is effected by the pressure slide 30, which are used to operate the molds.

At the entrance 31 of the thus formed cylindrical movable mold, the foaming material is allowed to flow out, which in the present case is polyurethane cream, which is supplied by a suitable mixing spray gun 32. This Cream is carried away by the movement of said form and expands so that it is available as a whole fills the standing inner volume, with it on either side

goes around the pipe. If you fear the foam it is difficult to get into the zone just above the pipe, and that air pockets form, it is possible on the upper part of the pipe when it enters you; I'jrm to drain or sprinkle some cream, taking this cream is of the same type as the one that n> "n at 31 can flow out. As a variant of this type of introduction of the filler material, the foaming material can be used Spray all the way around the tube before entering the mold. In general, several successive atomizations are then carried out, ii.with intermediate hardening; this is only suitable for sufficiently rounded shapes and leads to rather high foam densities. In all these cases the Form to avoid the inclusion of air pockets in the interior Upper part of the air vent holes that are sufficiently tight. the Length of the cylindrical Fgra containing the foaming material, must be enough grci: because:;. it the time of the stay the foaming material is at least equal to its hardening time. You check a slight heating or shape Provide constituent elements in order to facilitate the initiation of the foaming and the hardening of the material to accelerate. At, exit or cylindrical shape rollers 33 are provided, which the arrangement of the soul and erect and hold previously formed foam. At this point, a slight editing of the Provide foam, in particular any deburring along the joints of the connection of the half-pieces that the form movable cylindrical shape, and at the location of the air vent holes. You can also do a safer processing provide when one Deiir, final product one complicated profile duration who wants to go through direct foaming is difficult to obtain.

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The arrangement of the core and foam then reaches the third section of the machine, where the shell is fabricated. At ; '' Sprinkle polyester resin spray guns all over the base of the foam formed in the previous section. A variety of guns fed with descr.iounifler resin and guns fed with catalyzed resin can be used. These guns can have fixed positions or they can be driven with a reciprocating or circular motion in the plane perpendicular to the advance of the foam in order to distribute the resin evenly over the entire outer surface. A rotating drum 35 with spools for a mat or fabric made of glass 36 and guide rollers 37 is used to wind up the reinforcing fibers for the resin hhä around the foam; the mats or tapes of fabric must be thin and overlap widely so that the final surface does not show any space from one tape to the other. A second resin atomization can be provided at 38 during the winding up or afterwards, as well as a system of press rollers 39 (to remove any trapped air), which consist of cylinders with rounded edges or of small discs and which are constantly in contact with the impregnated mat and which are attached concentrically to the formation of the foam on a circumferential ring 40. The speed of rotation / of the drum 35 and of the ring 40 can be uniform or irregular, i.e. programmed for one revolution, in order to unwind or wind up without hitting the reinforcing belts and a constant speed of the running of the press roller system on the surface of the impregnated paint to effect. The rotation speed cet: ring, which carries aas press roller system, can be faster than that of the drum which carries the bobbins, so that ■ ·: ic feed rate of the impregnated web is small

is versus the speed of passage of the press roll system and so that the mat does not run the risk of getting stuck ufic. damaged by the press roller system will. By arranging a second bobbin drum 41, which is identical to the first drum 35, avoids the production of the tray is stopped when the empty bobbins for the mat or fabric are replaced against full bobbins.

Smoothing can possibly be carried out by means of a hose made of flexible and elastic material in the form of a funnel 42 which is supported by a fixed frame 43. The part of this hose that is connected to the Polyester is in contact is held in place by the interposition of an inflatable chamber 44, which tightly encloses the perimeter of the shell being formed. Partial gelation may be necessary of the resin at 4! 3 before running through the said smoothing tube. One can be at some distance from to arrange a second tube similar to the first, and so between the two walls a furnace with circulating warmth Form air to cause the resin to polymerize. You can also use an infrared heating system in a simpler way arrange.

When you can get a completely smooth surface If you wish, you can replace the written smoothing system with a system that allows this continuous Method of taking advantage of the known "in-a-bag" molding method. A container 47 is then used an inflatable cylindrical heating chamber 48 (Fig. 11) which, once inflated, the product 49 via a certain distance accompanied for a period corresponding to the time for the polymerization; the container and its

Wrapping then return to its original position with the pressure released back to start a new cycle of sliding the product after re-inflation. The length of the inflatable envelope can be seen as the size of the longitudinal advance of the device. These Apparatus can be used for composite construction elements, whose cross-section is not too complicated in shape.

At this stage is the composite construction element completed; it reaches a pulling device, which is formed from rubber rollers 27 or from caterpillars, whose profile is adapted to the manufactured product. A cutting device 50 allows cutting in one the shell made of polyester, the foam and the metallic soul. This device can essentially consist from a cutting disc, e.g. made of corundum, which is embedded in a suitable plastic material. The advance of the Cutting wheel is effected by a carriage 51. A conveyor 52 removes the cut to desired lengths Pieces 53.

Instead of wrapping reinforcement tapes on the foam, you can you can use a device for spinning cut Threads, like rovings. FIG. 12 shows such a device with nozzles 54 for centrifuging the cut fibers 55 and with spray guns 56 for throwing a binder on onto these fibers before they are applied to the product 57 by rollers 62.

You can also use the foam for the same purpose (Fig. 13) Form longitudinal reinforcements from glass fabric tapes 58 or from fabric tapes that are more or less deformable are, like serge (twill fabric) or directional or warp-reinforced fabrics, which have a maximum resistance in

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have the longitudinal direction. Kan recognizes from FIG. 13 that the bands or the like that come from the bobbins 59, guides 60 pass and are applied to the foam by rollers 61, form longitudinal reinforcements.

One can also jointly choose the types of execution of the Use reinforcements by making the continuous reinforcements either before or after the cut threads introduces or between / successive centrifuges of cut threads.

General 'are the new construction elements can be used like beams or hosts in construction. They have no thermal bridges, they can be used jointly with compound]! Plates are applied, as already proposed by the applicant. They can be used for the construction of spaces, which are used to ripen fruit or for cold stores.

All features mentioned in the above description and / or shown in the drawing are intended, provided the known state of the art allows this, on its own or in any combinations or partial combinations as are considered essential to the invention, even if they are not included in the claims.

Claims (1)

Protection claims .- post or Beam, in particular for building purposes, characterized in that it is a longitudinal element Ί, 7, 13, 13a, 17, 20, 2OaJ have for inclusion most of the forces acting, as well as an outer shell (3, 9, 14, 18, 21) and a filling (2, 8, 19, 22) made of a cellular or fibrous material. 2) Construction elements according to claim 1, characterized in that the forces absorbing longitudinally Element or the core (1, 17) is arranged along the axis of the construction element. 3) construction elements according to claim 1, characterized in that that the force-absorbing longitudinal element or the core (7, 13, 13a, 20, 20a) of the construction element arranged in the vicinity of the outer shell (9, 14, 21, 22) or adjacent to the latter is. 4; Construction elements according to at least one of the claims 1 to 3, characterized in that the force-absorbing element consists of two parts (13, 13a; 20, 20a of Fig. 8), which are separated from each other. Proverbs * to 4, thereby rekennz eichnüi ,, rtpftTTas force-absorbing longitudinal _{gerj ii} gJil ^ i «- fiT5n! ent (7), that of the shell is the attachment of separating 1 to 5, thereby gej £ p "*" »» '' * ΤΤηρ * Γ ^ na R the forces on η ρ h n: pn ri p__] ρΐψ4 ^ μ ι 'ΓτΓΓΓί. ρ ι ρ element (1) for anchoring 6dttrtzu »pr. 6u, U itBU ^ ^r ψ 7) Construction elements according to at least one of the claims 1 to 6, characterized in that the material for the filling (2, 8, 19, 22) consists of a foam as a There is material that is able to adhere to the force-absorbing element and to the shell, possibly with the help of an intermediate layer that promotes this adhesion. 8) construction elements according to claim 7, characterized in that that the foam used is a foam made of a resin, in particular Poxvurethan. 9) Construction elements according to at least one aer claims 1 to 8, characterized in that the shell (9, 18, 21) is formed from a layer of fibers and resins, in particular Polyesters or epoxies reinforced with glass fibers in the form of mats or fabrics. 10) construction elements according to claim 9, characterized in that that the shell has a circular (3) or oval cross-section, 11) construction elements according to claim 9, characterized in that that the cross-section of the shell is square or polygonal with rounded corners. 12) construction elements according to claim 9, characterized in that that the shell has recessed corners.