DE10040643C1 - Pipe-laying mat consists of wire mesh, containing recesses and protuberances, and ridged recess-bottoms - Google Patents

Abstract

Pipe-laying appliance consists of a malleable wire mesh-mat (10) in which are recesses (16) for holding the pipe (21) being laid and round protuberances (14) between the recesses. Recesses and or protuberances, arranged in at least two directions at right angles to each other, are formed by deforming the wire mesh. Bottoms (18) of the recesses have ridges (20) supporting the pipes are running across the direction in which the pipes extend

Description

The invention relates to a laying device for cooling or heating medium pipes, especially for surface heating pipes.

It is used in a large number of applications in the field of building technology required to lay pipes that are used for cooling or heating. As an an example let wall or floor heating or ceiling cooling be mentioned here.

Knobs, for example, are known in the prior art, on which Pipes for surface heating or surface cooling are laid. This Knob plates hold the pipes in a clamped position and point between opposite indentations on which the pipes to be laid are located be ordered. These laying boards are usually on the top with a thermoformed film. This foil is by means of a heat insulation material, for example EPS with PUR foam.

There are areas of application for surface heating, such as Wall heaters where those applied to the pipe laying device Building materials such as mortar, plaster or the like only have a relatively small thickness should point. These building materials can be found on known installation boards but not enough support, which is why these installation boards for these applications cases are less suitable.

Further pipe laying devices are known for example from DE 298 08 792 U1, known from DE 195 39 739 A1 and DE 91 09 764 U1.

The invention has for its object to provide a laying device for cooling or pipes carrying heating medium and in particular for surface heating pipes  to create, which themselves have a relatively low profile and where the component in which the laying device is integrated above the pipes also only needs to have a small thickness.

To solve this problem, the invention proposes a laying device which is provided with

• - A plastically deformable grid mat, whereby
• - the grid mat is a wire mesh,
• - The mesh mat recesses for receiving the pipe to be laid and has elevations between the depressions,
• - The depressions and / or elevations by plastic deformation of the Wire mesh are formed, and
• - The depressions and / or elevations for laying the pipe in at least two mutually perpendicular laying directions are suitable are.

In the laying device according to the invention, the elevations and ver in particular in a plastically deformable wire mesh Metal trained. The wire mesh makes it possible to lay that on fixture applied plaster or similar building material adheres well. The grid mat also ensures good heat transfer when heating and cooling; This applies primarily if the material from which the Mesh mat is there, is good heat conductivity.

In the laying device according to the invention is between two adjacent pipe receiving recesses preferably one in particular Top view round elevation. In other words, sizing defines this survey the pipe laying distance.

The pipes are expediently clamped in the pipe receiving recesses kept mend. For this purpose, these depressions have a width which is slightly smaller than the outer diameter of the to be installed Tube. It can also be advantageous if the depth of the depressions in  is approximately equal to the pipe outer diameter. In any case this results a low installation height of the laying device.

Instead of the previously described frictional connection for holding the pipes in the Wells can also fix the pipes by positive locking. To this Purpose assigns at least one of two adjacent surveys, between where a deepening is defined, one towards the other elevation protruding retaining projection, i.e. an undercut, for partial order pick up the pipe to be held in the recess.

In an advantageous development of the invention it is also provided for the loading fix the laying device on a sub-base see, which are arranged in the elevations and have an axial length sen, which is equal to the height of the laying device. From the top The bumps are then screwed through the spacer sleeves ben or nails that are anchored in the ground.

The laying device according to the invention is described below with reference to the drawing tion and explained in connection with some applications.

In detail show:

Fig. 1 is a plan view of the wire mesh tube installation plate according to an embodiment of the invention,

Fig. 2 shows the wire mesh pipe laying plate in cross section and in use for holding wall heating pipes and

Fig. 3 to 5 cross sections through component structures in which the wire mesh tube laying plate according to the invention is used.

Fig. 1 shows a plan view of a wire mesh pipe laying plate or - mat 10, which has on its top 12 a plurality of particularly regularly arranged in elevation round elevations 14 with pipe receiving recesses 16 arranged therebetween. On the bottom 18 of the wells 16 there are pipe support ribs 20 .

A pipe 21 to be laid is clamped between two adjacent elevations 14 .

As can be seen from FIG. 2, the wire mesh pipe laying plate 10 extends from the top 12 of its elevations 14 to the bottom 18 of its depressions 16 . Screws 22 , which are guided from the top 12 through openings 24 in the elevations 14 through spacer sleeves 26 , are used to fasten the wire mesh tube laying plate 10 . The axial length of these spacer sleeves 26 is such that they end from the top 12 of the elevations 14 up to the level of the bottoms 18 of the depressions 16 . The dimensioning of the recesses 16 is chosen such that the pipes 21 to be laid are clamped between the side flanks of the recesses 16 and are otherwise received in such a way that they essentially end with the top sides 12 of the elevations 14 .

In Fig. 2, the application is described in which the wire mesh pipe laying plate 10 is used to hold the pipes 21 of a wall heater. The wire mesh tube laying plate 10 is fixed to the masonry 28 by means of the screws 22 described above. Plaster 30 is applied to the wire mesh tube laying plate 10 , which, as indicated at 32, passes through the wire mesh of the wire mesh tube laying plate 10 and in this way "claws" against the wire mesh tube laying plate 10 . The entire installation system has an extremely low overall height, it should be noted that the plaster layer 30 can also be made relatively thin. This ensures good heat transfer to the room.

Fig. 3 shows in section the application of the wire mesh pipe installation plate 10 in an underfloor heating. Here, the wire mesh pipe laying plate 10 is placed on the film 34 of an impact sound and thermal insulation layer 36 . Both together are on the raw concrete 38 . After laying the pipes 21 , a screed layer 40 is applied. The screed 40 penetrates through the wire mesh of the wire mesh tube laying plate 10 and fills the entire space below the wire mesh tube laying plate 10 up to the film 34 . The metal grid of the wire mesh pipe laying plate 10 also serves as reinforcement and reinforcement (reinforcement) within the screed layer 40 , which means that the thickness of the screed layer 40 can be reduced. This also serves to improve the heat transfer to the room.

Fig. 4 shows in longitudinal section the application of the wire mesh pipe laying plate 10 according to the invention for a finished ceiling or a component configuration. In both cases, the wire mesh pipe laying plate 10 is embedded in a concrete layer 42 . The reinforcement is not shown in Fig. 4. It should be noted, however, that the metal mesh of the wire mesh tube laying plate 10 itself functions as reinforcement.

When used in the case of a prefabricated concrete ceiling, there is good heat transition to the room and a low inertia of the temperature control system, because the pipes are close to the surface. An additional paneling of the Blanket is also not necessary. In addition, there is an optical appeal surface that is not interrupted by optical interference Chen is.

In the case of component conditioning, the wire mesh according to the invention is Pipe laying plate with the pipes laid on it towards the formwork of the casting component. After the reinforcement has been built, it is invented appropriate wire mesh pipe laying plate raised so the pipes are arranged as close as possible to the center of the component to be cast. How  also in the other users dealt with in the context of this description If necessary, the ends of the installed pipe are removed from the component leads, so that other pipes, units or the like. System later on these ends components can be connected. Due to the nub structure of the Wire mesh pipe laying plate according to the invention is a good protection of the Pipes given in the phase of the manufacture of the component.

A final application of the wire mesh pipe laying geplatte 10 is shown in Fig. 5 in section. In this application, the wire mesh pipe laying plate 10 serves as a reinforcement of an EPS or PUR mounting plate 44 . In this case, the tubes 21 are fixed by receiving recesses 46 formed in the mounting plate 44 . The mounting plate 44 designed in this way can be used in particular in the renovation of old buildings. Due to the metal mesh of the wire mesh pipe laying plate 10 , it has a high load-bearing capacity and resilience. Furthermore, the mounting plate 44 has good insulation properties.

Claims (8)

1. Laying device for cooling or heating medium leading pipes, in particular for surface heating pipes, with
a plastically deformable grid mat ( 10 ), wherein
the grid mat ( 10 ) is a wire mesh,
the grid mat ( 10 ) has depressions ( 16 ) for receiving the pipe ( 21 ) to be laid and elevations ( 14 ) between the depressions ( 16 ),
the depressions ( 16 ) and / or elevations ( 14 ) are formed by plastic deformation of the wire mesh ( 10 ), and
the depressions ( 16 ) and / or elevations ( 14 ) are suitable for laying the pipe ( 21 ) in at least two mutually perpendicular laying lines. 2. Laying device according to claim 1, characterized in that between the adjacent recesses ( 16 ) of the wire mesh ( 10 ) each have a spacing of the recesses ( 16 ) defining elevation ( 14 ) of the wire mesh ( 10 ) is arranged. 3. Laying device according to claim 1 or 2, characterized in that the elevations ( 14 ) are round in plan view. 4. Laying device according to one of claims 1 to 3, characterized in that the depressions ( 16 ) on their bottoms ( 18 ) transverse to the direction of extension of the tube ( 21 ) have tube support ribs ( 20 ) which are formed by plastic deformation of the wire mesh . 5. Laying device according to one of claims 1 to 4, characterized in that the tubes ( 21 ) between two adjacent elevations ( 14 ) in the recesses ( 16 ) are fixed by clamping. 6. Laying device according to one of claims 1 to 5, characterized in that at least one of two adjacent elevations ( 14 ) has a protruding projection in the direction of the other elevation for partially gripping around the tube ( 21 ) to be held in the depression ( 16 ). having. 7. Laying device according to one of claims 1 to 6, characterized in that the distance between the bottoms ( 18 ) of the depressions ( 16 ) and the upper sides ( 12 ) of the elevations ( 14 ) is substantially equal to the outer diameter of the tube ( 21 ) is. 8. Laying device according to one of claims 1 to 7, characterized by spacer sleeves ( 26 ) in the elevations ( 14 ), the spacer sleeves ( 26 ) extending from the top ( 12 ) to the level of the bottoms ( 18 ) of the depressions ( 16 ) extend.