FR3049970A1 - EASILY RENOVATED EXPANSION JOINT FOR CONCRETE SLABS FORMWORK SYSTEM - Google Patents

Abstract

Expansion joint (1) for concrete slab formwork system, said joint comprising first and second longitudinal members (2, 3), arranged side by side on the same horizontal plane, and each intended to form an integral part with a ridge upper and horizontal of a concrete slab, the first longitudinal member (2) being integral with a vertical partition plate (4). According to the invention, the first and second longitudinal members (2, 3) comprise arrangements (5, 6, 7) opening at the level of the horizontal upper walls of the first and second longitudinal members (2, 3) and allowing removal of at least a portion (2a, 3a) of each of the first and second longitudinal members (2, 3) for replacement thereof.

Description

EXPANSION JOINT WITH FACILITATIVE RENOVATION FOR SYSTEM

FORMWORK OF CONCRETE SLABS

Technical area

The present invention relates to the technical field of concrete slab formwork systems providing an expansion joint between two adjacent slabs. The present invention relates more particularly to an improved expansion joint, particularly in terms of ease of renovation.

Previous art

In the field of construction, and in particular that relating to the floor covering by concrete slabs, it is well known to use a formwork system including expansion joints between the slabs. Indeed, it is customary to divide the concrete slab into several parts, depending on its area and its thickness, to create an air space necessary for the absorption of volume variations of a slab, for example under the action of withdrawal.

A known formwork system generally comprises an expansion joint having first and second longitudinal members, arranged side by side on the same horizontal plane, and each intended to form an integral part with an upper and horizontal edge of a concrete slab. The first longitudinal member is secured to a vertical partition plate for forming the vertical boundary between the two adjacent concrete slabs. After a horizontal retraction of at least one concrete slab, the first and second longitudinal elements are spaced from each other, each remaining integral with the concrete slab with which it forms an integral part.

At the end of its life, or when these formwork systems and expansion joints are incorrectly installed, the opening of the expansion joint after retracting the concrete slabs can cause shocks or jolts resulting in deterioration of the concrete and longitudinal elements. said expansion joint.

Thus, a single rather restrictive solution for renovating the joint consists in sawing or breaking the jackhammer concrete in order to permanently remove the longitudinal elements of the expansion joint, and to cast a filling material such as resin or water. concrete in the recess generated by the removal of joints and broken concrete.

One of the aims of the invention is thus to overcome these drawbacks by proposing an expansion joint for concrete slab formwork system whose renovation is simplified when degradations of the longitudinal elements of the joint or the concrete in contact with these elements intervened. For this purpose, and to solve the aforementioned problems, it has been developed an expansion joint according to the state of the art in that it comprises first and second longitudinal elements, arranged side by side on the same plane horizontal, and intended to form each integral part with an upper and horizontal edge of a concrete slab, with the first longitudinal member secured to a vertical partition plate.

According to the invention, the first and second longitudinal elements comprise arrangements opening at the level of the upper horizontal walls of said first and second longitudinal elements and for removing at least a portion of each of the first and second longitudinal elements for their replacement.

In this way, the longitudinal elements deteriorated, or poorly placed, can be removed by acting on the arrangements that are accessible after casting and drying of the concrete slabs, and replaced. Heavy operations of breaking concrete and joints for forced removal are removed. Renovation is fast and easy.

According to a particular embodiment, the second longitudinal element consists of at least two parts fixed to one another by removable fixing means, so that only the removable part is removed and replaced during the renovation. The other part remains fixed and anchored in the concrete.

According to particular embodiments, in order to be removed and replaced, the first longitudinal element is either fixed to the vertical partition plate by removable fixing means, or it also consists of at least two parts fixed one to the other. on the other by removable fastening means, with a removable upper part and a lower part secured to the separating plate.

Preferably, the vertical plane defined by the separating plate is offset horizontally with respect to the vertical plane defined between the first and second longitudinal elements. Thus, when the concrete slabs retract, the longitudinal elements move away from each other, but still rest on one of the concrete slabs. The stability of the joint is optimal and the appearance of disorders, such as cracks or breaks is reduced. Advantageously, the first and second longitudinal elements comprise complementary means for fitting horizontally into one another. Thus, the horizontal engagement allows a transfer of the vertical loads between the first and second longitudinal elements of the expansion joint.

For example, the first longitudinal element comprises a stack of three layers of material, with an intermediate layer that is narrower than the other two layers so as to have a U-shaped cross section, and the second longitudinal element comprises a stack of three layers. of complementary material, with an intermediate layer wider than the other two layers so as to form a transverse projection adapted to fit into the hollow of the U-shape of the first longitudinal member.

According to a particular embodiment, the arrangements are in the form of orifices vertically traversing at least the removable portion of each of the first and second longitudinal members, and rods inserted into said orifices with lower ends integral with a fixed part. expansion joint and threaded upper ends adapted to receive clamping members for releasably fixing said removable portion of each of the first and second longitudinal members.

Preferably, the removable portions of the first and second longitudinal members have facing faces comprising complementary sinusoidal profiles to ensure continuity in the separation between two concrete slabs. Thus, during the passage of a wheeled vehicle, said wheels are always supported by the surface of one of the adjacent slabs. This feature limits the impact and wear of concrete slabs near expansion joints.

According to another characteristic of the invention, at least the removable portion of each of the first and second longitudinal elements is made of a polymeric material, or a composite material made from a polymeric material, such as plastic, in particular resin, etc. This characteristic makes it possible, when the longitudinal elements of the expansion joint have a vertical offset, resulting in shocks and jerks during the passage of vehicles, to be able to sand said longitudinal elements to achieve optimal planimetry. The renovation is very fast and simply consists of a sanding step.

Of course, the sanding nature of the longitudinal elements is independent of the removable nature so that it can be envisaged to develop a remarkable expansion joint in that it comprises first and second longitudinal elements made of a polymer material, or in a composite material made from a polymer material, without these having a removable character.

BRIEF DESCRIPTION OF THE FIGURES Other advantages and features will become more apparent from the following description of several variant embodiments, given as non-limiting examples, of the expansion joint according to the invention, with reference to the accompanying drawings on which: - Figure 1 is a perspective view illustrating an embodiment of the expansion joint according to the invention, before shrinking concrete slabs; Figure 2 is a perspective view similar to that of Figure 1, after retraction of the concrete slabs; FIG. 3 is a cross-sectional representation of the embodiment of the expansion joint illustrated in FIG. 1, before shrinkage of the concrete slabs; FIG. 4 is a cross-sectional representation of the embodiment of the expansion joint illustrated in FIG. 2, after shrinkage of the concrete slabs.

Description of the invention The invention relates to an expansion joint (1) for a concrete slab formwork system which employs at least one vertical separator plate of two adjacent concrete slabs, and which is used when it is necessary, for concrete pouring, to divide the concrete slab into several parts, depending on its area and thickness, to create an air space necessary for the absorption of variations in volumes of a slab , for example under the action of withdrawal.

With reference to FIGS. 1 to 4, the expansion joint (1) comprises first and second longitudinal elements (2, 3), arranged side by side on the same horizontal plane, intended to form each integral part with an upper edge and horizontal of a concrete slab.

The first longitudinal element (2) is integral with a vertical partition plate (4) of the two adjacent slabs.

The first and second longitudinal members (2, 3) can be made of metal, or of a suitable material to be sanded, such as a polymer or a composite material made from a polymer, for example plastic or resin.

Thus, when the expansion joint is damaged or incorrectly placed, and the longitudinal elements (2, 3), which form the upper edges of the slabs, are offset vertically, shocks and jolts occur during the passage of vehicles to wheels, resulting in disorders in the concrete and accelerated deterioration of the concrete and the expansion joint (1).

The sanding of the longitudinal elements (2, 3) makes it possible to remake said longitudinal elements (2, 3) by a sanding operation and obtain an optimum planimetry of the expansion joint (1) and concrete slabs. Thus, the renovation of the expansion joint (1) is facilitated. The invention also makes it possible to remedy this problem by the following features, taken alone or in combination with the sanding nature of the longitudinal elements (2, 3), according to which said longitudinal elements (2, 3) comprise arrangements, leading to the horizontal upper walls of said first and second longitudinal members (2, 3), and for removing at least a portion (2a, 3a) of each of the first and second longitudinal members (2, 3) for their replacement.

According to a preferred embodiment, the first longitudinal element (2) comprises a stack of three layers of material, including an upper layer (2a), an intermediate layer (2b), and a lower layer (2c). The intermediate layer (2b) has a width smaller than that of the upper (2a) and lower (2c) layers so that the first longitudinal member (2) has a U-shaped cross section.

In the same way, the second longitudinal element (3) comprises a stack of three complementary material layers, including an upper layer (3a), an intermediate layer (3b), and a lower layer (3c) whose width is greater that of the upper layer (3a) and lower (3c) so as to form a transverse projection adapted to fit into the hollow of the U-shape of the first longitudinal member (2) and allow the transfer of vertical loads.

The first and second longitudinal members (2, 3) comprise orifices (5) formed in their thickness so as to pass vertically through all three layers (2a, 2b, 2c, 3a, 3b, 3c). These orifices (5) are adapted to receive as insertion rods (6) fixed at their lower ends to fixed parts of the expansion joint (1). For example, the lower ends of the rods (6) are welded to the lower layers (2c, 3c) of the first and second longitudinal members (2, 3). The lower ends of the rods (6) can also be fixed to fixed parts of the formwork system on which the expansion joint is mounted without departing from the scope of the invention. The upper ends of the rods (6) do not protrude from the first layers (2a, 3a) of the first and second longitudinal members (2, 3), and are, for example, threaded to cooperate with clamping members (7) for block in position, at least the upper layers (2a, 3a) of the first and second longitudinal members (2, 3). Conversely, when these clamping members (7) are unscrewed, the upper layers (2a, 3a) of said first and second longitudinal members (2, 3) can be removed and replaced, especially when they are deteriorated or when a vertical shift generating shock and jerk is felt when passing a vehicle.

The width of the upper layer (2a) of the first longitudinal element (2) is greater than the width of the upper layer (3a) of the second longitudinal element (3), and the lower layer (2c) of the first longitudinal element (2). ) is made integral with the vertical partition plate (4), for example by welding, so that the vertical plane defined by the separating plate (4) is offset horizontally with respect to the vertical plane (P) defined between the first and second longitudinal members (2, 3). Thus, with reference to FIGS. 2 and 4, when the concrete slabs retract, the longitudinal elements (2, 3) move away from one another but still rest on one of the concrete slabs. The stability of the joint is optimal and the appearance of disorders, such as cracks or breaks is reduced. The invention therefore describes an expansion joint (1) comprising first and second longitudinal members (2, 3) each having removable portions, constituted in particular by the upper layers (2a, 3a). Other embodiments can be imagined without departing from the scope of the invention. For example, the intermediate (2b, 3b) and lower (2c, 3c) layers of the first and second longitudinal members (2, 3) may form a one-piece assembly, or the first longitudinal member (2) may be made in one piece. part fixed directly removably, by the same means as above, on the vertical partition plate (4) provided for example with an upper edge at right angles.

In order to ensure continuity in the separation between the two concrete slabs, the removable parts of the first and second longitudinal elements (2, 3), in particular the upper layers (2a, 3a), have facing faces comprising complementary sinusoidal profiles. Thus, when passing a vehicle, the wheels are always supported by the surface of one of the adjacent slabs. This feature limits the impact and wear of concrete slabs near expansion joints.

Claims (10)

1 - Expansion joint (1) for concrete slab formwork system, said joint comprising first and second longitudinal elements (2, 3), arranged side by side on the same horizontal plane, and intended to form integral part with an upper and horizontal edge of a concrete slab, the first longitudinal element (2) being integral with a vertical partition plate (4), characterized in that the first and second longitudinal elements (2, 3) comprise arrangements (5, 6, 7) opening at the level of the upper horizontal walls of the first and second longitudinal members (2, 3) and for removing at least a portion (2a, 3a) of each of the first and second longitudinal members (2, 3) for their replacement. 2 - expansion joint (1) according to claim 1, characterized in that the second longitudinal member (3) consists of at least two parts (3a, 3b, 3c) fixed to one another by means removable fasteners (6, 7). 3 - Expansion joint (1) according to claim 2, characterized in that the first longitudinal member (2) is fixed to the vertical partition plate (4) by removable fastening means (6, 7). 4 - Expansion joint (1) according to claim 2, characterized in that the first longitudinal member (2) consists of at least two parts (2a, 2b, 2c) fixed to one another by means removable fasteners (6, 7). 5 - Expansion joint (1) according to one of the preceding claims, characterized in that the vertical plane defined by the separating plate (4) is offset horizontally relative to the vertical plane (P) defined between the first and second elements longitudinal (2, 3). 6 - expansion joint (1) according to one of the preceding claims, characterized in that the first and second longitudinal members (2, 3) comprise complementary means (2a, 2b, 2c, 3a, 3b, 3c) for s nest horizontally into each other. 7 - Expansion joint (1) according to claim 6, characterized in that the first longitudinal element (2) comprises a stack of three layers of material (2a, 2b, 2c), with an intermediate layer (2b) comprising a width less than that of the other two layers (2a, 2c) so that the first longitudinal member (2) has a U-shaped cross section, and the second longitudinal member (3) comprises a stack of three layers of complementary material (3a, 3b, 3c), with an intermediate layer (3b) comprising a greater width than the other two layers (3a, 3c) so as to form a transverse projection adapted to fit into the hollow of the shape in U of the first longitudinal element (2). 8 - Expansion joint (1) according to one of the preceding claims, characterized in that the arrangements are in the form of orifices (5) vertically traversing at least the removable portion (2a, 3a) of each of the first and second longitudinal members (2, 3), and rods (6) inserted in said orifices (5) with lower ends secured to a fixed part of the expansion joint (1) and threaded upper ends adapted to receive clamping (7) for releasably fixing said removable portion (2a, 3a) of each of the first and second longitudinal members (2, 3). 9 - Expansion joint (1) according to one of the preceding claims, characterized in that the removable portions (2a, 3a) of the first and second longitudinal members (2, 3) have facing faces comprising complementary sinusoidal profiles. 10 - Expansion joint (1) according to one of the preceding claims, characterized in that at least the removable portion (2a, 3a) of each of the first and second longitudinal members (2, 3) is made of a polymer material or in a composite material made from a polymeric material.