NL8001533A - CONSTRUCTION ELEMENT. - Google Patents

Description

* N.O. 28,877 - 2 - e - '- ^

Construction element.

The present invention relates to a construction element, which is intended to be fixed on a concrete slab to serve as a marking and to facilitate the alignment and installation of formwork, which are intended to form concrete walls.

According to a classical method, after the pouring of the concrete slab, which is intended as the basis for a construction, an additional concrete slab with a certain thickness is poured on the construction site, which slab serves to define the walls, which are later erected on this slab. .

This concrete strip, which is generally referred to as a bead, serves simultaneously as a marking point for the construction and as a support point for aligning the formwork into which the concrete is to be poured.

Such a heel piece has a very high cost price. This heel piece is considered indispensable by the workers in charge of the construction and is highly criticized by the technicians because this heel piece greatly reduces the resistance of the construction because weak zones are caused at the base of the construction. It is correct that the concrete of these heel pieces cannot be vibrated effectively, so that the cohesion of the construction is reduced.

On the other hand, these low thickness concrete belts are often manufactured under only conditions so that they harden too quickly in summer and do not harden enough in winter, thereby delaying the pouring of the concrete.

In all cases, these annoying and expensive heel pieces are almost always of poor quality, adversely affecting the density of the base of the wall, and there is a chance that the iron reinforcements will be quickly attacked by corrosion, destroying these reinforcements.

In order to avoid these disadvantages, it has already been proposed to replace these heel pieces with various construction elements such as, for example, wooden bars, the length of which corresponds to the width of the wall to be manufactured and which is nailed to the concrete slab with the aid of a hammer, of the normal pneumatic type or with cartridges.

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But such wooden bars can not provide a satisfactory result, because they also create weaknesses in the base of the walls of the building and can provide places for moisture penetration, or even form waterways.

It has also already been proposed to use elements of the type described above, which are formed by asbestos rods, provided with openings, by means of which they can be fastened to the concrete slab by means of nails. But such elements, despite the fact that they offer advantages over the previously described elements, are not able to form a satisfactory whole, because the surface of the concrete slab that receives it shows strong irregularities, as a result of which it elements cannot properly adhere to this surface, whereby weak elements are formed in the construction, which can give rise to different infiltrations. In addition, the expansion coefficient of asbestos cement is different from the expansion coefficient of concrete, which also creates an inequality in the base of the wall with the danger of infiltration.

In order to improve the fixing of these elements to the floor, it has already been proposed to use elements in the form of a 0, ie elements with a perforation in their central part, which elements are intended to be walled directly onto the cement board , which theoretically prevents any infiltration of moisture at the bottom. But such elements, like the previously described elements, have the drawbacks due to the difference between the expansion coefficients of concrete and of asbestos cement. Moreover, these elements may have the disadvantage that they are difficult to install, because their shape forces them to be included in the reinforcing bars, which reinforcement can be very long and, on the other hand, it is not always possible if the reinforcement consists of a grille.

The object of the present invention is to avoid these drawbacks and to propose a construction element, which is intended to be fixed on a concrete slab, in order to facilitate the straightening and placing of formwork, which serve to form concrete walls, as described above, where there is no danger of the resistance of the structure being adversely affected by the formation of a weak zone at the base of the construction, and which element is moreover very easy to use and inexpensive.

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The construction element according to the invention is characterized in that it consists of a concrete body with a plane provided with three protrusions, which serve as support points when the construction element rests on the concrete slab.

Thus, the element according to the invention is made of a material equal to the material of the plate on which it is to rest and to the material of the walls, which are to be mounted later, eliminating all the problems resulting from the difference in coefficient of expansion between the plate and the walls on the one hand and the element 10 on the other are avoided. In addition, the presence of three protrusions allows the element to rest stably on the concrete slab, irrespective of which irregularities the surface of the concrete slab exhibits, so that the element is completely surrounded by the concrete to be poured.

It is clear that this element can be connected to the concrete slab by bricking in or by means of nails or by a combination thereof.

In the latter case and according to a feature of the invention, the element comprises at least one passage which is approximately perpendicular to the SO plane containing the protrusions and which passage is intended to cooperate with a nail to form the construction element. attach to the concrete slab.

This nail can be driven with any device, for example with a classic hammer or with a cartridge-operated pistol.

To damp the shocks, to reduce the danger of tearing of the construction element during impact and to maintain the firm contact of the element with the concrete slab, an elastic ring is slid onto the nail so that at the end of the when tightening, the ring is compressed between the head of the nail and the concrete element.

According to another feature of the invention, the concrete element has approximately the shape of a cylinder.

This device makes it possible to realize elements of small dimensions 35, which are practically invisible from the outside, and which are completely incorporated in the concrete when the wall is ready, so that the homogeneity of the whole is not affected, nor the aesthetic appearance. .

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Placing these elements in place on the route of the future walls is of course left to the choice of the technicians in charge of the construction and depends on the dimensions of these elements, as well as on the dimensions of the structure to be constructed. 5 construct walls.

According to another feature of the invention, a variant of the elements described above consists of elements, the concrete body of which has the shape of a C, one of the surfaces of which is provided with the three projections.

In this way elements of the size of the wall to be built are provided, the two arms of the C of which form a kind of claws, which can be inserted between the reinforcements of the concrete, without being displaced therewith and which can be moved any later prevent the element during bricking.

It is thus possible to manufacture elements with a very low price which in no way adversely affect the resistance of the entire construction. Furthermore, the elements can satisfactorily follow the trajectory of the walls to be constructed.

Further features of the invention will now be described in more detail with reference to the drawing, in which: Fig. 1 shows a known device, which also offers a solution to the problem that the construction element according to the invention can solve, Fig. 1. 2 shows a construction element according to the invention, FIG. 3 shows a variant of the construction element according to FIG. 2, and FIG. K shows an example of placing the elements according to FIG. 2 on a concrete slab.

According to fig. 1 it is now customary to place on the workshops on concrete slabs, such as slab A, which is schematically shown, an additional concrete strip B, which is indicated by heel piece, which concrete strip is the route of the walls, which later must be erected, bounded and at the same time serve as support for the formwork, which serve to pour the walls.

However, this heel piece B produces a certain number of inconveniences, which are indicated in details above. To avoid these inconveniences, bars C of wood or asbestos cement (shown with dashed-dotted lines) have already been proposed, which are nailed to the concrete slab A, or elements such as elements D of asbestos cement, which have the shape of 800 1 5 33 f > - 5 - a 0.

However, all of these elements have a certain number of drawbacks, which have been described above and for which the invention seeks to provide a solution.

According to Fig. 2, the construction element according to the invention is composed of a concrete body 1, with a surface 2, which is provided with three protrusions 3, which serve as support points when the construction element rests on the concrete slab A.

It is clear that a concrete slab is never absolutely flat and the presence of the three projections 3 makes it possible to place the elements 1 on the slab A in an absolutely stable manner.

According to Fig. 2, the body 1 has an approximately cylindrical shape and comprises a passage 4 which is approximately perpendicular to the plane 2 carrying the protrusions 3, which passage cooperates with a nail 5, 15 which is provided with an elastic ring 6, which acts as a shock absorber and makes it possible to nail the body 2 to the plate A without tearing and improving the adhesive force.

It is clear that these elements 1 are distributed in a desired manner over the plate A, leaving the choice to the 20 technicians in charge of the construction.

Fig. 4 · shows an example of the distribution of these elements 1, if one wishes to build a pillar, as indicated by dashed dotted line E.

According to Fig. 3, the body 1 has the shape of a C, consisting of a central part 7 and two side arms 8, which serve as claws.

This element, like the element shown in fig. 2, can be attached to the concrete slab A, either by classic mortar-laying in the mortar, or by nailing with nails 5, which protrude through the cross-section k, which is specially for this are provided in FIG. 3 in a number of two pieces. It is clear that one can brick and nail the body at the same time.

In all cases, the element 1 rests perfectly on the surface of the slab A, thanks to the presence of the three projections 3, regardless of the nature of the surface of the concrete slab.

The claws 8 define moorings 9, which can receive reinforcements not shown, which can be inserted, avoiding any lateral displacement of the body 1.

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It is clear that the elements 1 of Fig. 3, like the elements of Fig. 2, can have arbitrary dimensions and can be placed on the concrete slab A in a manner determined by the technicians in charge of the construction ; in particular, emn can use elements whose length L exactly corresponds to the width of the wall to be constructed.

With the help of these construction elements, the classic heel pieces B can be replaced by very cheap elements, which offer all desired technical guarantees.

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Claims (6)

Construction element, intended to be fixed on a concrete slab, in order to facilitate the alignment and placing of the formwork, which serve to later form walls of concrete, characterized in that the element consists of a concrete body with 5 a plane, provided with three protrusions, which serve as support points for the construction element when it rests on the concrete slab. 2. Construction element according to claim 1, characterized in that it comprises at least one passage which is approximately perpendicular to the plane carrying the protrusions and which passage is intended to cooperate with a nail, with which the construction element can be attached to the concrete slab. Construction element according to claim 2, characterized in that it cooperates with a nail, which is provided with an elastic ring, which serves as a shock absorber and which allows the element to be nailed to the plate, without destroy the element while improving the adhesive strength. Construction element according to one or more of the preceding claims, characterized in that the concrete body has the shape of a cylinder. Construction element according to any one of claims 1 to 3, characterized in that the concrete body has the shape of a C, one of the surfaces of which contains the three protrusions. Construction element according to one or more of the preceding claims, characterized in that the element has a length corresponding to the width of the wall to be built. 800 1 5 33