FR2528477A1 - Prefabricated block for building services shaft - has projections bearing on each storey floor slab and duct sections for connection to service pipes - Google Patents

Abstract

The shaft has a parallelepipedal block plastics foam central core (3) traversed by pipe and conduit sections (6,7,8) extending over the total block height, that communicate with respective tubes (9,10,12) exiting in at least one block lateral face. A three dimensional metal trellis (4) surrounds all the core faces, a lightweight concrete fire resistant cover (5) covers the trellis, and pointed rods (18) fit adjacent block sockets. Two horizontal rods (15) parallel to the block small vertical faces and near the plane of these faces, traverse the metal trellis, project beyond the block large lateral faces, and form slab bearings.

Description

"Prefabricated element constituting a technical sheath of a building
The present invention relates to a prefabricated element constituting a technical sheath of a building.

 The buildings, and in particular the multi-storey buildings in which residential premises are provided, include technical ducts which, arranged vertically over the entire height of the building, are used for the passage of the cold and water supply columns. hot under pressure, to a waste water evacuation column, and to a ventilation duct if a controlled mechanical ventilation system is provided.

 The most common solution consists in constructing these technical sheaths on the site, with the difficulties that there are to set up and to connect the column pipes and conduits which it contains. It has therefore been imagined to prefabricate in the factory duct elements containing sections of ducts, and to carry out a simple assembly on the site. Tests have notably been carried out with plaster-based sheath elements. However, it is a delicate technique to implement, and the sheath elements are heavy and difficult to fix and assemble, without the possibility of taking into account slight variations in height between two floors, relative to a height. of reference determined.

The present invention aims to remedy these drawbacks
To this end, the prefabricated sheath element it concerns1 forlane géflér the parallelepiped, includes
a central core made of expanded synthetic material, crossed by sections of pipes or conduits extending over the entire height of the element, and communicating with pipes opening into at least one lateral face of the element,
- a three-dimensional wire mesh surrounding the core on all of its faces,
- an envelope made of a light and resistant covering material, and
- Connection means between the sections of conduits or pipeline, of two superimposed elements.

 Advantageously, the core is constituted by a phenolic foam and the covering material is light concrete.

 From a practical point of view, the different sections of conduits of an element and the pipes associated with them are placed in a mold where the core is made, the assembly is then removed from the mold, the different pipes and pipes remaining perfectly positioned in relation to each other, thanks to the presence of the core. The core is then coated on all its faces with a three-dimensional wire mesh, after which the assembly is placed in a mold, where a light and resistant material such as light concrete is poured.

 The core first of all ensures a role of positioning of conduits and tubing during the intermediate phases of manufacturing of the element, plays a role of shuttering during the pouring of light concrete and finally ensures an excellent thermal and sound insulation in period of use.

 If this technical element is not load-bearing, it is self-supporting, and its walls are strong enough to allow the fixing of sanitary elements, such as sinks.

 The height of each element is slightly less than the height of a building floor, that is to say the distance between the two upper faces of the two slabs of two superposed floors. Therefore, in the mounted position of the elements, there is, between two superimposed elements, a slight clearance at the level of the reservation made in the slab located in the junction zone between these two elements, this clearance making it possible to compensate. height variations between two slabs.

 Advantageously, the means ensuring the holding of each element on the slab of a floor, consist of two horizontal rods arranged parallel to the two small vertical faces of the element, near the plane of these faces, so as to pass through the trellis metallic disposed therein, these rods having a length such that they project with respect to the two large lateral faces of the element, and bear on the upper face of a slab corresponding to a floor of the building.

 During the production of an element, it is advantageous to provide sleeves allowing the subsequent interlacing of the support rods on a slab. In view of the fact that the support rods are not located in the plane of the bottom of the element, there is a slight engagement of this element in the reservation of the slab considered.

 According to another characteristic of the invention, the thickness of light concrete is greater at the level of the bottom of the element than at the side faces of the latter.

This arrangement makes it possible to improve the qualities of thermal insulation between two stages, and to satisfy the fire-fighting rules which are prescribed by law.

 According to another aspect of the invention, each element has at least two longitudinal slots opening into its upper wall, and two coaxial slots opening into its lower wall, the slots opening into the upper and lower walls serving to engage pins. positioning at the upper profiled ends capable of simultaneously penetrating two superimposed elements.

 In addition, the connection means between the various conduits and pipes of two superimposed elements are arranged so as to be able to compensate for certain variations in distance between the two elements considered.

 The means of connection between two sections of ventilation duct constituted by a sleeve whose internal section is equal to the internal section of the duct sections, engaged in the enlarged ends of the duct sections, formed in the two elements to be connected, which have a section corresponding to the external section of the sleeve, the distance between the connecting shoulders between the zones of different sections of the two sections of conduit being greater than the length of the sleeve.

 This arrangement allows a certain axial adjustment slave of the position of two elements, while providing a satisfactory connection by the sleeve.

 The connection means between two sections of drain column consist of a tubular cuff whose enlarged upper end engages on the lower end of the column section of the ~ upper element, and whose end lower engages on the enlarged upper end of the column section of the lower end, with the possibility of axial sliding of the cuff relative to at least one of the column sections.

 The connection means between two sections of conduits for supplying pressurized fluid are constituted by flexible sleeves fixed with sealing to connections forming the upper ends of the lower element and lower of the upper element.

In any case, the invention will be clearly understood with the aid of the description which follows, with reference to the appended schematic drawings representing, by way of nonlimiting example, an embodiment of this element.
Figure 1 is a perspective view, the lower edge of which has been torn off
Figures 2 to 5 correspond to four cross-section views of the assembly between two superimposed elements highlighting, respectively, the positioning between two elements, the connection between the sections of ventilation ducts, the connection between the sections of down ducts , and the connection between the sections of pressurized fluid conduits
The prefabricated technical sheath element (2), represented in FIG. 1 comprises a core (3) made of a phenolic foam coated on all its faces in a three-dimensional metallic lattice (4), itself embedded in a layer of concrete light (5). The element is traversed over its entire height by conduits (6) for supplying pressurized water, a column (7) for lowering the waste water, and a duct (8) for ventilation. Also included in the element are pipes (9) opening into the conduits (6), pipes (10) opening into the column (7). and a sleeve (12) opening into the ventilation column (8). The pipes (9 and 10) allow instant connection of sanitary elements, such as sink (13) and bathtub (14). All the parts 6, 7, 8) passing through the element are embedded in the core (3), which ensures their positioning during the manufacture of the element, as well as good thermal and sound insulation in conditions of use.

 Each small lateral face of the element is crossed by a rod (15) projecting on either side of the large lateral faces, this rod (15) being engaged in the trellis (4) covering said faces.

 The two rods (15) associated with each element are intended to bear on the slab (16) corresponding to a floor of the building and to ensure the support of said element on the slab.

 For reasons of resistance and safety against fire, the thickness of the concrete layer (5) is greater at the level of the lower face of the element than at the level of the lateral faces of the latter.

 In the upper and lower faces of each element open two recesses (17), the recesses opening in two opposite faces being coaxial. These recesses are used for. mounting of pins (18) sharp at their upper end, ensuring excellent positioning of two superimposed elements, which is essential to ensure a good connection between the connections between these two elements.

 As shown in Figure 3, the connection between two sections of ventilation duct (8) is made using a sleeve (19). This sleeve has an internal section corresponding to the section of the internal sections of the ventilation duct. In order to allow the sleeve (19) to be accommodated, the ends of the pipe sections (8) have enlarged parts (20). The distance between the shoulders (22) connecting between the different sections of the two sections of conduit, is slightly greater than the length of the sleeve (19), which allows a certain latitude in positioning two superimposed elements, one relatively to the other.

 Figure 4 shows the connection between two sections of downpipes (7). This connection is made using a tubular sleeve (23) whose enlarged upper end (24) engages the end of the column section of the upper end, and whose lower end is engaged in the enlarged end forming a lip sleeve (25) at the end of the column section of the lower element.

 FIG. 5 represents the connection between two sections of conduits (6) for supplying pressurized water.

This connection is made using a rigid sleeve (26) and a flexible sleeve (27) mounted one after the other with threaded and threaded connections capable of ensuring excellent sealing.

 As is apparent from the above, the invention brings a great improvement to the existing technique by providing a sheath element, prefabricated, of simple design, of reduced weight therefore easy to handle both during transport and on site, and in which -the connections are made instantly, with the possibility of a certain latitude in the play between two superimposed elements.

 It goes without saying that the invention is not limited to the sole embodiment of this sheath element, described above by way of example; on the contrary, it embraces all of its variant embodiments.

Claims (9)

 1. - Prefabricated element constituting a technical sheath of a building, of general parallelepipedal shape, characterized in that it comprises  - A central core (3) of expanded synthetic material, crossed by sections (6, 7, 8) of pipe or conduits extending over the entire height of the element, and communicating with pipes opening into at least one side face of the element,  - a trellis. three-dimensional metal (4) surrounding the core on all of its faces,  - an envelope (5) made of a light and resistant covering material, and  - means of connection between the sections of conduits or pipeline, of two superimposed elements.  2. - element according to claim 1, characterized in that the core (3) consists of a phenolic foam and the covering material (5) is light concrete.  3. - element according to any one of claims 1 and 2, characterized in that the means ensuring the holding of each element on the slab of a storey, consist of two horizontal rods (15), arranged parallel to the two small vertical faces of the element, close to the plane of these faces, so as to pass through the wire mesh (4) arranged therein, rods having a length such that they project with respect to the two large lateral faces of the element, and are supported on the upper face of a slab corresponding to a floor of the building.  4. - Element according to any one of claims 1 to 3, characterized in that the thickness of light concrete is greater at the level of the bottom of the element than at the side faces thereof.  5. - element according to any one of claims 1 to 4, characterized in that each element comprises at least two longitudinal slots (17) opening into its upper wall, and two coaxial slots opening into its lower wall, the slots opening into the upper and lower walls serving for the engagement of pins (18) for positioning at the profiled upper ends able to penetrate simultaneously into two superimposed elements.  6. - Element according to any one of claims 1 to 5, characterized in that the means of connection between the various conduits and pipes (6, 7, 8) of two superimposed elements are arranged so as to be able to compensate for certain variations in distance between the two elements considered.  7. - Element according to claim 6, characterized in that the connection means between two sections of ventilation duct (8) consist of a sleeve (19) whose internal section is equal to the internal section of the duct sections, engaged in the widened ends (20) of the pipe sections, formed in the two elements to be connected, which have a section corresponding to the external section of the sleeve, the distance between the shoulders (22) connecting between the zones of different sections ( 8, 20) of the two sections of conduit being greater than the length of the sleeve.  8. - Element according to claim 6, characterized in that the means of connection between two sections (7) of the drain column consist of a tubular sleeve (23) whose enlarged upper end (24) engages on the lower end of the column section of the upper element, and the lower end of which engages the enlarged upper end (25) of the column section of the lower end, with the possibility of axial sliding of the cuff with respect to at least one of the column sections.  9. - Element according to claim 6, characterized in that the connection means between two sections of conduits for supplying pressurized fluid are constituted by flexible sleeves (27) fixed with sealing to connections forming the upper ends of 1 'lower and lower element of the upper element.