DE2050524A1 - - Google Patents

Description

C.E.P. R. A. -CERAMIQUEPRODUCTIVITE RESEARCH APPLIQUEE, Eguilles (Bouches-du-Rhone)

"Assembly method for components"

The subject of the invention is assembly methods for components, characterized in that a binder is applied to the upper surface of said elements in separate strips, which are in the form of beads, being extruded through pulling devices.

The components are, for example, ceramic stones, blocks made of concrete agglomerates, Natural stones or artificial stones.

The invention also relates to devices for use of the method according to the invention.

In classic construction methods, the joining of the elements is carried out in the generally made by means of a mortar cement or a plaster of paris. This binder is covered with a shovel under a layer with a A certain thickness is attached, which covers the entire area or almost the entire area of the contact area between two elements.

It has been suggested to use these hydraulic binders by binders to replace synthetic resin-based polymerizable type, which then form a glue. Because of the prices of these types of glue and theirs

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These are then applied to the element surface in the form of a liquid Thin film applied, which requires that the components have precise dimensions and very well smoothed surfaces. One can so do not use the components of the usual type unless their surfaces have been reworked.

One of the purposes of the invention is a construction method using a binder, which has a high level of adhesion, so that even by attaching it to only part of the surface or contact area between two Elements a sufficient binding force is achieved.

Another purpose of the invention is a construction method using a binder, which is laid in separate beads, with which one achieves better thermal and acoustic insulation and avoids bridges, resulting from continuous connections.

Another purpose of the invention is a construction method with a binding agent, which is applied in the form of beads with a certain thickness in order to remove the irregularities in the dimensions of the usual construction ^ compensate elements.

Another purpose of the invention is a construction method using an extruded Binder, which facilitates the application of the binder and the speed of application and the cleanliness of the construction sites promotes.

• After a general feature of the invention, one brings up the upper one Surface of the structural elements to be joined on separate beads of a paste-like binder, which in the form of beads of a certain Strength to be extruded. In order to come to this conclusion, it was necessary to work out a binding agent that was contained in a closed

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Container remains plastic for a sufficient period of time for example for at least five hours, which corresponds to the maximum duration of half a working day; the binder must continue have a high degree of adhesion, higher than that of cement mortars or plasters, and must retain their bulge shape even when on Ceramic material or applied to blocks of concrete agglomerates which are very water-absorbent, the material must also be able to be extruded.

According to a further feature of the invention, this result is obtained by that with one volume of water approximately three volumes of a powdery mixture are ground in dry form, with a hydraulic It uses binding agents, acrylic resin, proteins and an inert mineral compound Ballast mass. Hydraulic binders are mineral substances that bind with the water and usually used in buildings such as cement, lime, gypsum. Preferably the hydraulic binder will consist of a mixture of Portland cement and molten cement. Under molten cement one understands a cement that is rich in aluminum.

The molten cement ratio is preferably between 4% and 9% by weight of the dry powder mixture. The presence of the molten cement allows the setting time to regulate the binding agent and to give it excellent resistance characteristics to salt water.

The proteins in this mixture are purified animal or vegetable Proteins that are finely divided like those found in stores. For example, you will use soy proteins or fish or bone glue. The proteins give the binder its deformability, which is what extrusion does enables. They hold back water and accordingly the beads are, even if they are placed on products

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Greedily soak up water and dry them even when they are in the sun they do not immediately and retain their bulge shape. The binder beads remain separate, which improves thermal and acoustic insulation.

The inert, mineral additional mass in the mixture consists of any any mineral aggregate in powder or grain form, as they are commonly used in the manufacture of mortar, for example it can be sand or crushed or ground stones.

The acrylic resins that are added to the mixture increase the adhesion of the binder and its strength per unit surface area.

Acrylic resins in powder form, which are commercially available, are used and which consist of polymerizable esters or of copolymerizable esters of acrylic or methacrylic acids and of a catalyst that leads to leads to a polymerization in an aqueous medium.

The proportions of the individual substances in the powder mixture in relation to weight of the mixture in dry form are within the following limits:

a) cement between 45 and 55%

b) acrylic resin between 4 and 10%

c) Proteins between 0.5 and 2%

d) inert mineral addition between 38 and 50%.

By way of example and without limitation, the preferred one Composition of a binder according to the invention, which is used as glue cement is designated as follows:

a) normal cement: 44%

b) molten cement: 6%

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c) sand: 38%

d) Acrylic resin:. 10%

e) purified proteins 2%.

The properties of this binder are as follows:

Tensile strength 39 kg / cm

Flexural strength 18 kg / cm

Compression strength 410 kg / cm

Adhesion: 46 kg / cm.

These results were obtained in the course of tests carried out accordingly according to the norms at 20 C and in an atmosphere with a hygrometric coefficient of 65%.

According to a further feature of the invention, the Elements have grooves that are opposite each other on opposite surfaces. The binder is then applied to these grooves, so that the coefficient of thermal insulation of the joint is as good as that of the elements forming a partition, even if form these closed hollow bodies, which is the most common case. I.

The results and advantages of the invention are as follows:

A hollow brick wall with a thickness of 30 cm, which according to the invention Process has been built has a coefficient of thermal conductivity per unit surface area and per degree of temperature difference between the two Areas equal to 0.8, while this value is at least 1.1 if the joints are made with mortar cement.

The binders according to the invention have a tensile and flexural strength i

-δ-Ι

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and a coefficient of adhesion higher than the values of the cement mortar. This property is very useful in the construction of prefabricated panels. These are namely when they move on the construction site Tension stresses or bending stresses, which often lead to cracking or loosening in connections with mortar cement to lead. These cracks are avoided.

The methods according to the invention also have great advantages regarding. practical application.

The quantities of binder used are approximately 50% less than that Amounts of cement mortar that are used in the classic method. This leads to an initial saving in the price of the binder used. In addition, the organization of the construction sites is very different. Numerous tools from classic construction sites are left out. That Binder according to the invention is prepared in a mixer and then poured into one of the pressure vessels, from which it is passed through flexible pipes are distributed and extruded. These pressure vessels can be individual vessels. This results in a very substantial saving the application of the binding agent.

Another benefit lies in the fact that the construction sites are cleaner are. The prefabricated construction sites can easily be industrialized in rationally organized workshops, as is the case with mechanical ones Assembly lines is the case.

The production speed on the construction site for element masonry is around five times faster than on a classic construction site. The GE- ! weight of a brick wall according to the invention is about 60% of the weight a same wall with connections made of cement mortar. A business

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weight of 400 kg of cement paste replaces the 25 tons of cement mortar,

which are roughly used for the construction of a single-family house.

Further features and advantages of the invention emerge from the following Description of the embodiment shown in the attached schematic drawings. Herein is:

1 shows an application example for the invention,

Fig. 2 shows an embodiment of the apparatus for using the Er- (

finding.

Fig. 1 shows in vertical section the construction on the construction site of a brick partition, consisting of hollow bodies, which lie between prefabricated panels. The wall must be built between a floor 1 and a ceiling 2 that were previously built. Supports 3 are fixed to the floor and ceiling by any means. These consist, for example, of rectangular tubes or of circular tubes made of plastic material. It is then secured on either side of these supports two prefabricated panels 4, for example gypsum boards, which will form the visible panels of the walls and the traditional grouts ER i

set. You leave an opening A at this opening, you add the hollow bodies, for example brick 5 and they are arranged in successive horizontal rows. On a number 5 that are already in place and Place is, a rod 6 is arranged, which counts as a strength part device, for example a round reinforcing iron. Then by means of a Pipe with two injection ports, which is connected by a flexible pipe with a container under pressure, in which the paste-like Binding agent is located, a double binding agent bead 7 is extruded on both sides of the rod 6, the height of which is less than that of the rod 6.

In order to facilitate the attachment of the binding agent beads, the

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spray tube guided by the rod, for example by means of a fluted Roller that runs on top of said rod. Then add another horizontal row of bricks 8 by placing them on bar 6 lets slide. The rod 6 is then removed and placed on the row of bricks 8 and a new cycle begins. Of course, if the Thickness of the partition wall necessitates a plurality of Rods 6 are used.

The execution speed of such a wall is five times faster than that of a classic wall, in which the bricks are connected with mortar cement or plaster and covered with grout.

The scaffolding by the walls is left out. A scaffold is enough at the opening through which the bricks are inserted. The bricklayers no longer have to check the position of the bricks with a plumb bob. There are the prefabricated boards that serve as a guide. There is no need to put grouting and the cleanliness of the construction site has clearly improved.

Of course, you can only attach the boards to one surface at first and then garnish the other surface when the bricks are put together.

Fig. 2 shows the inventive construction of a masonry Hollow brick 9. The lower and the upper surfaces of these bricks have grooves 10 which are opposed when they are joined. These grooves are flush with the vertical partitions of the bricks.

The joining of the bricks is accomplished by applying an extruded bead of binder 23 to each groove. This creates a closed connection between the bricks, the coefficient of thermal conductivity of which is just as good as that of the bricks. \

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In order to extrude the binding agent, one uses a device consisting from a container 12 and an extruder 13. The container 12 is a container that is constricted by means of carrier 14 and the Plate 15 can be carried on his back by a man. Pour into this container a plastic binder that has already been mixed became. The container is closed and an effective pressure of 2 to 3 bar is applied by any means. This press release is achieved, for example, by a compressor 17 and by a flexible pipe 16. The container 12 is over with the extruder 13 a flexible pipe 18 and a valve 21 are connected.

The extruder consists of an inner tube 19 that has holes is provided. This tube is arranged concentrically to the interior of a second tube 20. The tube 19 is used for even distribution the plastic mixture over the entire length of the outer tube 20. The outer tube is provided with openings and nozzles 22, which have the function of extrusion nozzles and whose spacing corresponds to that of the grooves 10 .

The extrusion device 13 is provided with a handle 25 which enables an operator to move it by hand. He is white Λ

therhin provided with two guide rollers 24, which run in the rollers 11, which are provided for this on the upper surface of the targets.

The application of the binding agent on the construction site is very quick, regular and clean thanks to this extrusion device and thanks to the container carried on the back. On large construction sites, for example on prefabricated construction sites, the portable container 12 can be replaced by a stationary container. ·

Of course, the extruder can have other equivalent shapes without

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that one leaves the scope of the invention, because the form described is only a preferred, but not restrictive, exemplary embodiment.

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Claims (10)

Patent claims: 1.}, assembly method of components, characterized in, that a binding agent is applied to the upper surface of said elements in separate strips in the form of a bead by that it is extruded through nozzles. 2. The method according to claim 1, characterized in that the called binder consists of a plastic, moldable paste, which is obtained by about a volume part Kneads water with three parts by volume of a powdery dry mixture, which consists of a hydraulic binder, an acrylic resin, consists of proteins and an inert, mineral load. 3. The method according to claim 2, characterized in that the hydraulic binder that contributes to the composition of the powder mixture, a mixture of portland cement and molten cement is. 4. The method according to claim 3, characterized in that the The proportion of molten cement is between 4% and 9% of the weight of the dry putty mixture. 5. The method according to claim 3 or 4, characterized in that said powdery mixture has the following composition where the proportions are based on the total weight of the dry mix: a) cement between 45% and 55% ; b) acrylic resin between 4% and 10%> c) Proteins between 0.5% and 2%: 109818/1389 205052A - ν d) inert mineral load between 38% and 50%. 6. The method according to claim 1 for joining components, which are arranged on their opposite sides opposite Having grooves, characterized in that said binder beads are attached between said grooves. 7. Assembly method according to claim 1 for components for he-position on the construction site of partition walls made of hollow blocks, which lie between two prefabricated cladding panels, characterized in that, that the following processes follow one another: the said panels are initially arranged and on at least one surface Fixed supports attached to the floor and ceiling; the hollow blocks that are inserted between the panels through this opening, are arranged in successive horizontal rows; at least one rod is placed on an in-place row placed; Beads of said binder, the diameter of which is less than the thickness of the rods, are extruded on both sides of these rods; a new row of hollow blocks is placed above the bars, after which the bars are removed and placed on the new row of hollow blocks are placed, whereupon a new cycle begins. ' 8. The method according to any one of the preceding claims, characterized ; characterized in that said pasty binder in one Container is under an effective pressure of a few bar, whereby the- This container is connected by a flexible tube to an extrusion device consisting of an apertured tube located inside a second concentric tube provided with at least one aperture having an extrusion nozzle, said apparatus having Rollers are provided which run in the grooves running on the upper surface of the elements to be joined, where ₍ i - O - j 109818/1389 an operator manipulates said apparatus by hand by means of a handle displaces and applies beads of the extruded binder to the upper surface of the elements to be joined. 9. The method according to claim 8, characterized in that the called pressure vessel is a single vessel carried on a man's back. 10. Extruding device for applying the method according to claim 8, characterized in that it consists of a tube provided with openings which lies inside a second concentric tube provided with an opening having an extrusion nozzle; from a tap, consisting of two rollers designed to run in two guide grooves made on the upper surface of the structural elements to be joined are and from a single handle. 109818/1389 ι ^Λ · ♦ Blank page