DE19548546A1 - Floor drying during construction - Google Patents

Abstract

The wire length, dia. and material are selected to generate a heating power of no more than 25 Watts per metre from an alternating current of 250 Volts and 50 Hz. The distance between each two wires is in the range from 15 to 25 cm. The heating power of the heating wires lies in the range from 50 to 120 Watts per square meter. The heating wires consist of several twisted single wires made of metal alloys in accordance with DIN 57 253 and VDE 0253.

Description

The present invention relates to a screed construction tion with a shorter drying time and process for Making the same.

Screed constructions take a relatively long time to finish Drying out before they are verifiable. Given the wish after short construction times there is also a need for the period shorten between screed installation and readiness for covering. It is Please note that the drying out increases with increasing screed thickness time increases exponentially. The drying time can therefore vary from several days with large screed thicknesses to months.

The task of reducing the drying time of screed can now be solved by a screed construction that is characterized in that it has a bottom or several loops at approximately the same distance from one another other, electrically insulated heating wires, which are only connected to a power supply during the drying process are.

The heating wires are preferably of length, wire diameter Water and wire material are dimensioned so that they by Selstrom up to 250 volts and 50 hearts a maximum heating output Provide 25 watts / m. It is then easily possible that To choose distances between two heating wires so that they in Range from 15 to 25 cm. A distance is preferred of 20 cm.

Because on the one hand overheating, also local overheating avoided on the other hand, drying out at high temperatures  raturations takes place much faster, preferably one Construction chosen in which the heating power of the heating wires is in the range of 50 to 120 W / m².

Heating wires made of multiple materials are particularly suitable as heating wires twisted single cores, which consist of metal alloys DIN 57 253 and VDE 0253.

To prevent late damage from the heating wires remaining in the screed to avoid, insulation should be chosen that alkali are constantly. PVC is excellent in this regard can in principle also do other, commercially available today Insulations are used provided they are alkali-resistant.

The inventive method is carried out by on the One or more heating wires in a screed laid and given approximately the same distance as loops if fixed, then the screed is applied, then the ends of each individual wire loop with the power supply be connected and after drying out the power supply is finally interrupted.

Heating wires are preferably used which are of length, Diameter and wire material are dimensioned so that they a heating power through alternating current up to 250 volts and 50 hearts of a maximum of 25 watts / m. These heating wires can then at intervals of 15 to 25 cm, preferably 20 cm in a meandering shape be relocated. Such heating wires then provide heating power between 50 and 120 W / m². On the one hand, this will be sufficient Prevents warming to accelerate dehydration local overheating leading to screed damage could.

In practice, it can make sense to use heating cables with a difference length and different, specific heating output to provide per length. For example Cable lengths of 30 m, 65 m and 110 m are provided  which are then suitable for heating surfaces with 4 to 7 m², 8 to 14 m² or 20 to 30 m². From this calculate Heating outputs from 110 to 60 W / m². Each of these heating wire sly fen is then directly connected to the power supply, i. H. With the poles of a usual socket.

Of course it is also possible with other cable lengths to work. Only then it will recommend the optimal one Heating power can be set using upstream resistors or adjustable transformers. This effort is also relative low, especially since such upstream resistors and adjustable Transformers are used again at other construction sites bring.

The screed construction according to the invention differs from usual underfloor heating in that the heating wires are lost are and will not be used again later. For that the Tempera requires additional effort for underfloor heating door sensors, thermostat control and special safety measure took saved, thereby the screed according to the invention construction still remains very inexpensive.

According to the invention, it is possible to dry out weeks to be reduced to a few days, or for very thick screed Shorten shifts from months to a few weeks.

The construction according to the invention and the one according to the invention Procedures can be made even more efficient in that the rooms in which the screed has been laid, forced ventilation be tested. This forced ventilation can be done particularly easily be performed with a device consisting of simple assembly and disassembly site doors or construction sites windows with one built into these doors or windows electrically powered blower. Preferably the blower installed so that the moist air from the rooms from the inside to is transported outside.

The screed construction according to the invention is described in the following Examples explained in more detail.

Example 1

In a sales room of 40 m² according to Fig. 1, a self-leveling screed is installed and covered with carpeted floor within a week.

It becomes a quick setting and quick drying flow screed used in a layer thickness of 40 mm (Knauf FE 25).

To get voted:
for 27 m² cable 1 with 110 m length and 17.5 W / m with an area performance of 72 W / m² (4.1 m cable per m²).
for 13 m² cable 2 with 65 m length and 15 W / m with an area performance of 75 W / m² (5 m cable per m²).

The screed is ready for covering with a residual moisture of 1%. The screed is ready for covering after approx. Reached 13 days.

The screed is ready for covering with screed after approx. 6 Days reached.

Example 2

A liquid screed is installed in a warehouse of 75 m² according to Fig. 2, which is to be loaded by forklifts.

It becomes a normally setting and normally drying flow screed used in a layer thickness of 80 mm (Knauf FE 50).

To get voted:
for 75 m² three cables 1 with a length of 110 m and 17.5 W / m with an area performance of 77 W / m² (4.4 m cable per m²).

The screed is ready for covering with a residual moisture of 0.5%. The screed is ready for covering after approx. Reached 6 months.

The screed is ready for covering with the heating cable after approx. 1 Month reached.

Claims (11)

1. Screed construction with shortened drying time, characterized in that it has on its underside one or more loops of approximately the same distance from each other, electrically insulated heating wires, which are connected to a power supply only during drying. 2. screed construction according to claim 1, characterized net that the heating wires in terms of length, wire diameter and wire material are dimensioned so that they are AC up to 250 volts and 50 hearts a heating power of provide a maximum of 25 watts / m. 3. screed construction according to claim 1 or 2, thereby geken indicates that the distances between two heating wires are in the range of 15 to 25 cm. 4. screed construction according to one of claims 1 to 3, characterized in that the heating power of the heating wires is in the range of 50 to 120 W / m². 5. screed construction according to one of claims 1 to 4, characterized in that the heating wires from several twisted single wires consist of metal alloys according to DIN 57 253 and VDE 0253. 6. screed construction according to one of claims 1 to 5, characterized in that the insulation is alkali-resistant is.   7. Process for the manufacture of a screed construction according to one of claims 1 to 6, characterized in that first on the substrate for a screed or several heating wires at approximately the same distance as sly fen and if necessary fixed, then the Screed is applied, then the ends of each one Wire loop to be connected to the power supply and after the dehydration finally cuts off the power supply becomes. 8. The method according to claim 7, characterized in that the Loops laid meandering at a distance of 15 to 25 cm will. 9. The method according to claim 7 or 8, characterized in that heating cables with different lengths and differences heating power / m used to be different to heat large areas of the screed. 10. The method according to any one of claims 7 to 9, characterized geken indicates that the heating power by upstream counter levels or controllable transformers is reduced. 11. The method according to any one of claims 7 to 10, characterized characterized that the rooms during the drying period forced ventilation.