FR2474562A1 - Retaining wall reinforced concrete L-section - uses precast base and stem slabs with link and site concrete in recessed vertical joint - Google Patents

Abstract

The low retaining wall is of an 'L' section in reinforced concrete, and has standard precast stem and base slabs which are connected on site. Approximately vertical faces meet to fix the relative positions of the slabs, a structural connection being effected by a link in the recess which is filled with in situ concrete. The recess may for formed by a rear face stem socket together with localised rebating of the top internal edge of the base. The link may connect main reinforcing bars exposed by the socket and rebate respectively. Feet may support the stem during jointing, and the base may have recessed handle bars.

Description

The invention relates to a building element for the production of retaining walls, embankments for the terrace of Jardinières or landscaping of gardens, parks, etc.
There are schematically two means for producing such retaining walls.

The least studied and oldest solution consists of making foundations and masonrying a wall or pouring a concrete wall. This solution is heavy and expensive. A more elegant solution that has developed recently consists in making prefabricated elements having an L-shaped section, the vertical part of the element serves to retain the mass of the slope while the horizontal part which rests on the ground is loaded, by the weight of the soil, to remember
Although this known solution is much faster and more economical than the old solution, on the one hand since it uses the weight of the mass of earth to be retained, and on the other hand, since the elements used are prefabricated, it has some drawbacks
The modular elements are relatively heavy (of the order of 150 kg per mld for a height of 0.50 m which implies the use of mechanical handling means. It would theoretically be possible to reduce the weight by reducing the length of the element; this is not possible in practice because the wall would have too close vertical joints and the regularity of the construction would be difficult to control especially as the element is placed on the ground the more you divide an element in length and the greater will be the irregularity of the assembly carried out with the reduced elements This irregularity can still be accentuated according to the movements of the ground. It is therefore necessary to arrive at elements of a certain length and consequently of a certain weight
Another disadvantage of the known elements lies in their mechanical design. The weight of the earth mass which rests on the horizontal part tends to press this part on the ground, the thrust exerted by the slope tends to tilt the vertical part around of its connection with the horizontal part according to a "hinge effect", tending to open 1 angle of the hinge "In order for the element to resist this thrust, the element must be considerably reinforced by armatures - which increases the cost and the weight due to the concrete coating required around the steels
The present invention aims to create a building element for the realization of retaining walls, embankments, embankments terraces. Planters or the like, this element consisting of a vertical part ensuring the actual restraint and a horizontal part receiving the weight of the mass of earth, overcoming the drawbacks of known solutions, which is easy to handle while allowing precise positioning over time and having a better mechanical design, more resistant to a hinge effect, and whose installation is no longer dependent on the regularity of the ground surface, without modifying the advantages of prefabrication.

To this end, the invention relates to a prefabricated building element formed of a horizontal part receiving the weight of a mass of earth, or the like and of a vertical part intended to retain the slope, the horizontal part simply resting on the ground, for the realization of embankments, embankments, terraces, planters or others, element characterized in that the horizontal part and the vertical part are two separate prefabricated parts provided with positioning surfaces and corresponding dance cavities, intended to receive, after placing in place, a mass of binder blocking the two parts relative to each other
It is the assembly key which ensures the bonding of the mass of binder having for function
10) to oppose slipping or deformation
of the key,
20) to provide corrosion protection for
bonding steels
As the element is in two parts, the weight of each part is relatively low, which allows one or two people to handle and position the parts
In addition, as the vertical part is not integral with the horizontal part at the time of installation, the ground on which the elements are placed is not necessarily horizontal.

If, moreover, the horizontal part is subdivided, or is made up of several pieces or studs for the same vertical part,> one can absorb very large unevenness of the ground9 the only condition as long as the vertical parts are placed correctly and vertically (or d 'elsewhere, according to any other inclination chosen) When this establishment is made, it suffices to place the assembly keys and to pour binder into the corresponding cavities of the horizontal and vertical parts, to secure these parts at any angle.

The invention also facilitates the standardization of manufacture and the keeping of stocks while allowing a greater diversity of construction or aspects since for the same type of horizontal part, various types of vertical parts can be provided, with surface states. , shapes, etc. . o very diverse
According to another characteristic of the invention, the positioning surfaces are located below the cavities
According to another characteristic of the invention, concrete irons, embedded in the mass of each part, appear at least partially in the cavities.

 As the cavities9 receiving the binder, are above the bearing surfaces, the concrete works in better conditions to oppose the hinge effect.

The section in height of the junction between the vertical part and the horizontal part where the irons are found works in traction while the low section works in compression, the neutral line being more inside the junction than in the corresponding part known elements.

According to another characteristic of the invention, the concrete irons are connected by connecting members such as keys
For the installation pending the drying of the binder, the connecting members ensure the transfer of stresses.

During manufacture, concrete irons can be used, if necessary, for handling operations by hand or using machines
According to another characteristic of the invention, the surfaces of this contact with the ground of the horizontal part consist of axles and rear feet, the front feet being able to form a tablet for the vertical part of the element to be placed on the plinth. of contact with the ground of the horizontal element opposes the "limping" of this part in the event of installation on uneven ground
Finally. according to another characteristic of the invention, the horizontal part is provided. on its rear face, gripping means The hole reserved at the rear of this element is intended for broaching by a metal rod in the case of installation on loose soil (The weight 18kg avoids having to use a handling accessory)
the present invention will be better understood using an embodiment of the prior art as well as the construction element according to the invention, shown schematically .. by way of nonlimiting example, in the drawings attached in which
FIG. 1 is a side view of a first type of construction element according to the prior art,
FIG. 2 is a side view of a second type of construction element according to the prior art,
FIG. 3 is a side view of a third type of construction element according to the prior art,
- Figure 4 is a side view of the building element according to the invention;
- Figure 5 is a rear view of the building element according to the invention, shown in Figure 4 above.

According to Figure 1, the building element 1 is intended to form a wall or a low wall The vertical wall 2 of the element 1 is made by masonry or by pouring concrete This type of construction is generally grounded. the use of tie rods is only made in the case of large retaining heights. greater than those targeted by the present invention The vertical wall 2 is fixed in the ground Anchoring members 3 constituted by tie rods, makes it possible to fix and definitively position the vertical wall 2 Such an embodiment belonging to the prior art for - a certain number of problems Indeed, it is extremely difficult during the installation of such an element. to align several elements 1 1 one after the other due to the particular fixing of the vertical wall 2 I1 is extremely difficult to align several elements 1 and to respect the same angle of the vertical wall 2 with respect to the horizontal This angle is most often a right angle with respect to the horizontal and from one element to another there are angular variations causing undulations in the wall or the low wall.

According to Figure 2: 1 building element 4 is a more elaborate embodiment than that shown in Figure 1 above. The building element 4 has a vertical part 5 and a horizontal part 6 presenting. in section, an L shape. The vertical part 5 serves to retain the mass of the slope, while the horizontal part 6, .. which rests on the ground, is loaded by the weight of the mass to be retained The thrust of the mass is carried out according to the arrows F. Irons 7 are placed at the level of the
Junction of the vertical part and the horizontal part which determine an area of weakness. open the hinge angle. The irons 7 reinforce the element 4 to resist the thrust F
However, the irons 7 work in poor conditions and in particular do not work in traction like usual concrete irons. Also, the thrust causes a breaking line 8, shown in dotted lines at the junction between the vertical part 5 and the horizontal part 6.
According to FIG. 3, the construction element 9 also includes a vertical part 10 connected to a horizontal part 11
To overcome the drawbacks of the building element 4 shown in the previous figure 2, the element 9 includes a reinforcement 12 in the junction zone of the vertical part 10 and the horizontal part 11. This reinforcement 12 allows better resistance at the push and thus avoid cracking or breaking of the element 9
However, if this embodiment is more resistant than that shown in Figure 2 above, it has, like the other elements belonging to the prior art, the drawback of being difficult to install.

Practically. all existing elements of types 4 and 9 include accessories or handling devices (ears, sockets, pins, etc.), but their weight requires the use of mechanical lifting means.

According to FIG. 4 * 1: construction element 13, in accordance with the present invention., Comprises a vertical wall 14 with which is associated a horizontal wall 15. The vertical wall 14 is intended to retain the slope, while the horizontal part 15 is maintained on the ground by the mass of the embankment which covers it The two associated parts 14 and 15 allow the realization of embankments, terraces, planters, embankments or others,
Each of the vertical 14 and horizontal 15 parts 15 constitute separate prefabricated parts provided with positioning surfaces and corresponding cavities 16, 17.

These cavities 16, 17 form a housing 18, in the assembled position of the parts 14 and 15, intended to receive, after installation of the connecting members, a mass of binder blocking the two parts 14 and 15, moon relative to the other. The positioning surfaces 20 and 21 of the parts 14 and 15 are arranged below the cavities 16 and 17.

The connecting members consist of concrete irons 22 and 23, embedded respectively in the mass of the vertical wall 14 and horizontal 150 The concrete irons 22 and 23 are connected by a key 24 allowing the attachment of the two vertical parts 14 and horizontal 15.

 During the assembly of the construction elements 13, to form a wall, the vertical part 14 and the horizontal part 15 are first assembled by the keys 24.

Then concrete is poured into the housing 18 for the final fixing of the two parts 14 and 15 of the element 13.

The horizontal part 15 has a hole 25 of frustoconical shape. This hole 25 flares upwards. It allows the introduction of metal rods for anchoring or positioning the element 13 in the ground, for example sliding.

According to an alternative embodiment, the horizontal part 15 has a positioning surface 26
This positioning surface 26 is formed. in side view of a front foot 27 The horizontal part 15 is provided, at its other end, with a foot 28 opposite the foot 27
The front leg 27 forms a shelf for plinthing the vertical part 14.

 According to a first embodiment, the front face 29 of the foot 27 is set back from the front edge 30 of the vertical part 14.

According to a second embodiment, the front face 31 of the foot 2r is a projection relative to the front surface 30 of the vertical part 14
The front 27 and rear 28 feet allow a more precise positioning of the vertical wall 14 and the horizontal part 15 This also improves the aesthetics of the assembly.
According to Figure 5 the building element 13 is shown, seen from the rear The element 13 consists of the vertical wall 14 and at least one horizontal part 15. In this particular embodiment, two horizontal parts, in the form of studs ; are planned, however, a greater number of studs could be provided or else a single horizontal part
The horizontal part 15 is provided 9 in its rear part, hooking means 329 facilitating the handling and the positioning of the construction elements 13 either manually or using carrier machines
The elements 13 are assembled and aligned definitively on the site itself, the various parts which compose it being of: a very easy installation while ensuring 1 element 13 a very great resistance

Claims (8)

 10) Prefabricated building element, formed by a horizontal part receiving the weight of a mass of earth or the like, and a vertical part intended to retain the slope, the horizontal part simply resting on the ground, for the realization of embankments, embankments, terraces, planters or others, element characterized in that the horizontal part (15) and the vertical part (14) are two separate prefabricated parts provided with positioning surfaces (20,21) and cavities (16 , 17) corresponding, intended to receive an assembly key (24) and a mass of binder bloauant the two parts relative to each other.  20) Building element according to claim 1, characterized in that the positioning surfaces (20,21) are located below the cavities (16,17).  30) Building element according to claims 1 and 2 above, characterized in that concrete irons (22, 23) embedded in the mass of each part (14,15) appear at least partially in the cavities (16, 17) .  40) Building element according to any one of the preceding claims I to 3, characterized in that the concrete irons (22, 23) are connected by connecting members such as keys (24).  50) Building element according to any one of the preceding claims 1 to 4, characterized in that the positioning surfaces (21) of the horizontal part (15) consist, in side view, of front legs and rear (27, 28) at its base, the front feet (27) forming a shelf for the plinth installation of the vertical part (14) of the element (13). 60) Building element according to claim 5 above, characterized in that the front leg shelf (27) is set back from the front edge 30 of the vertical part (14).  70) Building element according to claim 5, previous, characterized in that the front leg shelf (27) is projecting relative to the front edge (30) of the vertical part (14). 80) Construction element according to any one of the preceding claims 1 to 7., characterized in that the horizontal part (15) is provided with gripping means (32) on its rear face.