DE102004011902B3 - Reinforcement structure for ceiling/floor multi-storey building is pre-prepared off-site - Google Patents

Abstract

In a building construction process to an inter-storey floor/ceiling, a quantity of reinforcement structures (2) is pre-prepared off-site. Following positioning of the mats, the pipes required for under-floor central heating are laid on the mats and secured.

Description

The The invention relates to a method for producing a thermal Activatable Building Floor Ceiling.

A method according to the preamble of claim 1 is known from EP 0 385 148 A1 . DE 198 32 289 A1 . DE 34 03 831 C2 or the DE 200 22 421 U1 known. In the production of building floor ceilings, which are to be heated or cooled, appropriate heating or cooling pipes are provided within the floor ceilings. When the floor slabs are poured from concrete, therefore, these pipes are attached to the reinforcing mats, so that these pipes run later in the finished floor ceiling in a predetermined layer of this floor ceiling and, for example, far enough from the top or bottom of the Floor ceiling are spaced so that they are best protected against damage, for example, if holes are introduced for mounting purposes in the floor ceiling.

Out In practice it is known, the piping on the first launched Lay the lower layer of reinforcement mats and then the upper one Position of reinforcing mats to order. Subsequently, the between these raised two layers of reinforcing mats laid pipelines and attached to the upper reinforcing mats.

there is disadvantageous that damage piping not be ruled out is when the area is committed where the bottom reinforcing mats and the pipes lie. In addition, the handling of the pipes, if this through the raised upper layer of reinforcing meshes and raised be fixed, comparatively cumbersome. Nevertheless, the lifting is the piping essential to this to the desired height within to bring the storey ceilings.

Of the Invention is based on the object, a generic method To improve that this easy and time-saving the creation a building floor ceiling allows.

These The object is achieved by a method with the method steps of Claim 1 solved.

The Invention proposes in other words, prefabricating the upper layer of reinforcing mats, not just the reinforcing mats themselves, but these mats also prefabricate, leaving a completely ready-to-install location arises. This assembly can be factory set at the manufacturer of the Reinforcement mats or piping done, or she can be made on site. In any case, this results in a simple Handling and a time saving in that by the pre-assembly the piping arranged at the top of the reinforcing mats can be, so that they are optimally accessible are. Furthermore, spacers, also on the top the reinforcing mats, arranged and either with the pipes - ie indirectly with the reinforcement mat - or attached directly to the reinforcement mat.

These Pre-assembled reinforcing mat with spacers and piping can be referred to as a ready-to-install "distance module". The spacer module is turned over so that spacers and tubing hanging aligned under the reinforcement mat. Well, that already can misplaced position of the bottom reinforcing mats are easily done, without the damage fear of piping to have to, so that the distance modules can be laid easily. Of the desired height distance between the upper and lower reinforcing mats is through the spacers ensuring that in this way also ensure that the piping within a certain height later Floor ceiling or at a certain height above the lower reinforcement mats are laid, for example in the neutral zone of the to be created Storey ceiling.

The Spacers can preferably rest on the lower already laid reinforcement mats. This ensures that the floor ceiling down as possible closed surface forms the secure support of the spacers on the bottom To ensure reinforcement mats, may advantageously be an approximately S-shaped configuration be provided the spacer: With the least possible cost of materials Thus, the cover of a comparatively large area is made possible, so that reliably be ensured may cause the spacer to rest on the bottom reinforcement mat is when the distance module is misplaced and that by this configuration of the spacer is avoided, that the spacer into a vacancy the lower reinforcement mat can dip.

Alternatively, it can be provided that the spacers are deliberately designed so that they dive into grid gaps of the lower reinforcing mats and do not get up on the lower reinforcing mats, but on the ground on which the lower reinforcing mats rest, for example, on a formwork, the later filled with concrete. Since this surface defines the later underside of the floor slab, spacers designed in this way reliably define the height orientation of the pipes within the later floor slab. In order to reliably ensure "penetration" through the grid gaps of the bottom reinforcing mats, such spacers may be rod-shaped or at least have a rod-shaped lower portion for extending through a bottom reinforcing mat For example, the spacers may have properties such as to facilitate such fastenings, such as lighting fixtures or the like. Thus, the spacers may preferably have a solid cross-section in their lower portion, so that the pouring of the floor-ceiling reliably prevents the penetration of concrete into the space occupied by the spacer Moreover, the spacer is preferably made of a softer material than concrete, for example of plastic, and these "soft" properties are to be understood in terms of machinability with a drilling tool. As a result, therefore, the arrangement of attachment points is effected at the bottom of the completed floor ceiling, where, for example, a hole can be drilled in the spacer with little effort and can be done by means of a self-tapping screw attachment suspended objects. Alternatively it can be drilled from the bottom of the floor-ceiling of the spacer over its full material cross-section, such as a circular cross-section, so that a directly adjacent to the concrete hole can be created with little effort, in which then, for example, a dowel can be introduced.

Of the The present proposal is based on the purely schematic drawings explained in more detail. there shows

1 a view from above of a distance module,

2 a view from the side of a ready-made distance module, and

3 a section through a building floor ceiling with a arranged on a lower layer of reinforcing mats distance module.

In the drawings is with 1 overall a distance module designates, which essentially comprises three components: A reinforcement mat 2 , of which only the outlines are indicated purely schematically, as well as a pipeline 3 with inflow and outflow connections 4 , and finally spacers 5 ,

Both the pipeline 3 as well as the spacers 5 are from above on the reinforcement mat 2 placed on and connected to the reinforcing mat in a conventional manner, for example verkrödelt.

In 2 is the distance module 1 in cross-section, shown in a side view. It can be seen that the pipeline and the spacers 5 on the top of the reinforcement mat 2 are arranged and each with a schematically indicated wire rod 6 at the reinforcement mat 2 are fixed. In the line section of the pipeline shown on the right 3 it can be seen that the Rödeldraht 6 below the reinforcement mat 2 was twisted while the other two pipe sections of the pipeline 3 shown is that the Rödeldraht 6 in favor of a particularly easy handling above the reinforcement mat 2 is twisted.

In the 1 and 2 are the spacers 5 purely schematically indicated as a cuboid. In practice, it can be provided that from the viewing direction of 1 results in an S-shaped profile of the individual spacers, so that such spacers extend over a comparatively large base area.

In 3 is the distance module 1 from 2 shown in its turned orientation, in which it above a lower reinforcement mat 7 is arranged. The spacers 5 stand on this lower reinforcement mat 7 on and the S-shaped course of the spacers places this support on the lower reinforcement mat 7 sure, without the spacers 5 on the upper reinforcement mat 2 should be aligned with a special caution or without the spacer module 1 on the lower reinforcement mat 7 would have to be aligned and arranged with a given accuracy.

The drawings are purely schematic and do not have some details, for example spacers, by means of which the lower reinforcement mat 7 is held at a predetermined distance above a formwork. Furthermore, in 3 the tubular wires of the pipeline 3 not shown, although these according to 2 attached tubular wires still on the distance module 1 are: they hold the pipeline 3 hanging under the reinforcement mat 2 ,

Claims (3)

A method for producing a thermally activatable building floor ceiling, wherein reinforcing mats are arranged, and at least one pipe, which is provided for guiding a heat transfer medium, is fixed to the reinforcing mats, and then a flowable building material - such as concrete - is introduced into a slab formwork in such a way that the reinforcing mats are enveloped by the building material, whereby two layers of reinforcing mats arranged one above the other are provided, characterized in that the reinforcing mats provided for the upper layer ( 2 ) are prefabricated, with these reinforcing mats ( 2 ) the pipelines ( 3 ) according to the desired line layout and on the reinforcing mats ( 2 ), and where spacers ( 5 ) on these reinforcing mats ( 2 ) and on the reinforcing mats ( 2 ) and that subsequently these prefabricated reinforcing mats ( 2 ), such that pipelines ( 3 ) and spacers ( 5 ) are suspended downwards, and that these turned reinforcing mats ( 2 ) on the lower layer of reinforcing mats ( 7 ) so that the spacers ( 5 ) a vertical distance between the lower and the turned reinforcing mats ( 2 . 7 ) to ensure. Method according to claim 1, characterized in that the spacers ( 5 ) of the turned reinforcing mats ( 2 ) on the lower, already installed reinforcement mats ( 7 ). Method according to claim 1, characterized in that the spacers ( 5 ) of the turned reinforcing mats ( 2 ) are placed on a substrate, such as formwork, on which the lower reinforcing mats ( 7 ) rest.