DE19600228A1 - Plate-shaped electrical resistance heating for air conditioning in apartments and buildings - Google Patents

Description

The invention relates to a plate-shaped electrical resistance heater for Air conditioning in apartments and buildings according to P 195 38 685 using a Electrically conductive heating layer made of a mixture based on electricity and which can be heated of graphite particles and water-dilutable water glass as a binding agent Brushing, spraying, screen printing or the like directly on one moisture-absorbing, provided on the back with a heat insulation layer Plasterboard is applied, with two parallel opposite sides of the Heating layer metallic strip-shaped power supply electrodes can be provided.

In the manufacture of a plate-shaped electrical resistance heater according to an older one Application P 195 38 686, using a paper-coated coating Gypsum board, there is uncertainty that as a result of too fast Moisture absorption dries out the resistive layer faster than desired. In these There is a higher proportion of binder in the resistive layer Mixing ratio compared to the graphite content or a further dilution of the Water glass solution with water required. Through a more abundant portion of the dilution but increases the effort when applying the resistance layer, because with a larger one Proportion of binder multiple layers are required in order for the required resistance values in the finished heating layer are observed. This is in Contradiction to the lowest possible level of production Expenses and, if possible, a small amount of working time.

Furthermore, there is generally the use of one-man panels in the interior Requirement to join the plasterboard without gaps. To this Requirement to be taken into account will be those that meet on their long sides Gypsum plasterboard filled with a filler, which is not in its composition previously calculated resistance layer is adapted. This allows the radiation of through the heating layer generated heat reduced or otherwise adversely affected if no masses that are adequate for the heating layer are used.  

On the other hand, when using a graphite particle enriched accordingly Filler for grouting the spaces between the plasterboard deviating resistance values, which determine the exact regulation of a room air conditioning can affect. For this reason it is necessary for an optimal control of the heat - and Moisture air conditioning a uniform distribution of the over the entire heating surface electrically conductive heating layer is required.

Finally, when using one-man plates, the same results as Heating wallpapers can be arranged in several strips next to each other after laying finally the need to run the resistance layers through parallel To connect power supply electrodes and to the power supply device to connect. In the earlier application P 195 38 686 the front of the Gypsum plasterboard a metal tape protruding on one side or a tape made of a metal foil provided that with each other by suitable joining processes, for example by soldering to be connected. In this case too, the connection is established by soldering is an activity that should not be underestimated, which increases the interior design Workload can result. There is also a risk that the soldering between each other connected sections of the power supply electrodes by cold solder joints only be contacted insufficiently or not permanently. Such possible defects must be eliminated by a comparatively time-consuming and uneconomical troubleshooting will.

In the German utility model with the roll number G 92 15 471 for Connecting heating wallpapers and the heating wires to each other metallic terminal strips provided that overlap the interfaces between the individual wallpaper sections. By appropriately designing the clamping line with the formation of fine saw teeth there is a safe contact of the power supply electrodes with the individual heating wires produced. The disadvantage is that the terminal strips rise from the plane of the wall surface stand out and for this reason according to the design of the wallpaper surface are designed. As a result, a large number of different terminal strips are in stock to keep. Therefore, the use of appropriate terminal strips for a large one Number of different wallpapers uneconomical.  

Finally, according to the width of the wall coated with the heating wallpaper, more or less long sections separated from a terminal strip and, if necessary, again be interconnected. If the terminal strips are one over several Wallpaper widths have length, they also become unwieldy, so that such, a plurality of prefabricated plate elements interconnecting clamping rails or terminal strips cannot be realized when using one-man plasterboard panels are.

The invention has for its object, while avoiding the disadvantages listed above the prior art, a plate-shaped electrical resistance heater for To create room air conditioning in apartments and buildings in which the electrically conductive Resistance layer in a small number of steps, with the smallest possible Binder content can preferably be produced in one operation. At the same time Grouting the one-man plates and contacting the power supply electrodes between the one-man panels can be improved with a simple structural design.

According to the invention, the task is carried out on the back with a thermal insulation building material provided composite building board solved, consisting of a building board on its view side from plaster, cement, ceramic masses, concrete, artificial stone or similar in building common masses, glass, wood, synthetic resin or plastic masses is coated. Composite building boards of this type have a paper-coated one Gypsum board has a surface with a lower absorbency, which enables the electrically conductive heating layer when applied with a higher proportion of graphite particles and to be used with a lower proportion of binder. This ensures that the electrically conductive heating layer can be applied in a single operation.

According to a further embodiment of the invention, it is useful to use one with a Composite building board provided with thermal insulation material to be used on the visible side is coated with a building board that contains fibers that are embedded in the building board. The fibers embedded in the building board are preferably used in the manufacture of the Composite building boards used to increase the strength of building boards.  

In a special embodiment of the invention, the building board or the composite building board directly from a foam glass, using porous Plastic, artificial stone or expanded clay produced using foaming agents, the Surface of the building board or the composite building board with a pore filler is smoothed. In this way, composite building boards are used, which in addition to a lower absorbency have a sufficiently high stability and strength.

Compared to a composite building board using plasterboard, this results in as a result, in the area of the visible surfaces more or less sharp edges that are already on grouting can be much easier.

According to a particular embodiment of the invention, the grouting and smoothing of the There are no connection points when the composite building boards have tongue and groove and are vulnerable when laying. By assembling several, by tongue and groove rounded composite building boards to one, with an electrically conductive heating layer coated wall made of prefabricated composite components results in a everywhere flat and even heating surface, which is used to air-condition rooms in apartments and Buildings is particularly suitable. An additional advantage is that in itself known design that is structurally simple and economical.

A simplification in the construction of an electrical resistance heater can also be done achieve if, according to a further embodiment of the invention, the contacting of the Power supply electrodes between the composite building boards designed as a plug contact becomes. This is due to protruding on both sides of the composite building board Contact sections of the power supply electrodes accomplished, alternating each a side contact section inserted as a clamping contact in the groove and the Contact section opposite is designed as a counter contact in the form of the spring. Through the proposed contacting by means of plug contact is already in the assembly of the Composite building boards without additional precautions an electrical connection between the Power supply electrodes created, which is above all durable.  

This means that the interior of buildings can be carried out very quickly an embodiment and will be explained in more detail with reference to drawings.

In the drawings belonging to the embodiment shows

Fig. 1 is a composite plate in front view,

Fig. 2 is an enlarged view at X of the composite building board shown in Fig. 1 in cross section and

Fig. 3 shows two composite building boards before assembly in detail X in a schematic representation.

In Fig. 1, the front view of a composite building board is shown very schematically, which consists entirely of a thermal insulation material 1 itself or of a composite system recognizable in Fig. 2 with a thermal insulation material 1 . All suitable insulating materials that have sufficient strength and can be used for the production of plate-shaped components can be considered as thermal insulation building material 1 . Porous foam plastic, foam glass, silicate foam glass or other foam glass, artificial stone, pearlite or expanded clay is particularly suitable for this purpose. The insulation materials also include mineral fibers that do not have a suitable strength per se in order to be used as a board material or as a load-bearing component of a board. Here, the insulation material is used in a composite system, which is shown in FIG. 2.

This shows a composite building board in cross section, in which a building board 2 is provided in addition to a thermal insulation building material 1 . A gypsum fiber board, a fiber cement board, a silicate board or calcium silicate board are suitable as building board 2 instead of a plasterboard board. Lightweight wood wool panels and panels are also suitable, the essential components of which are formed from cellulose.

In the case of building boards 2 made of expanded clay, foam glass, pearlite or gas concrete, and in the case of building boards 2 which have layers with a mineralized glass fleece or mineral fleece, a pore filler 3 is provided as a further component, with which the surface of the building board 2 can be smoothed. In the case of a building board 2 made from prefabricated elements made of a foam plastic, the surface can be provided with a smoothing, combustible reducing coating instead of a pronounced pore filler 3 , whereby these building boards 2 mentioned above are also essentially commercially available.

On the front side of the building board 2 , which is located on the left in FIG. 2, a power supply electrode 5 is provided parallel to the end face 4 and is suitably fastened to the composite building board by gluing or stapling. A heating layer 6 , which consists of a mixture of graphite particles with a water-dilutable binder, is applied to the surface enclosed between the two parallel spaced-apart power supply electrodes 5 by brushing or spraying. The heating layer 6 can be applied in one step with the required layer thickness by the proportion of binder being relatively low due to the lower absorbency of the materials carried forward, so that in any case the consistency required for optimal heating performance can be adjusted by a corresponding proportion of the graphite particles.

Furthermore, from Fig. 1 seen that the composite plate having a right side face 7 with a groove 8 and a left side surface 9 with a spring 10. As a result, the composite building boards can be pinned during assembly in a manner known per se. For grouting and smoothing the vertical course of the joint, therefore, only a very small amount of work is required because the spun composite building boards with the electrically conductive heating layer 6 lie in one and the same plane.

If the composite building boards have groove 8 and tongue 10 , building boards 2 that are sufficiently stable against breaking out of the edges can be used in particular, which can also make attachment, for example with joint claws, much easier.

Finally, it can be seen in FIG. 1 that the current supply electrodes 5 have laterally projecting contact sections 11 on both sides of the composite building board, which are bent in the direction of the directional arrows 15 . The bending takes place in such a way that the contact sections 11 can assume the respective shape of the left side surface 9 and the right side surface 7 . For this reason, easily deformable metallic power supply electrodes 5 are used, the material thickness of which should not exceed 0.05 mm. Alternating accordingly in Fig. 11 inserted recognizable 3 is a side contact portion as a terminal contact 12 in the groove 8 and the contact portion 11 with respect to bent as a counter contact 13 in the form of the spring 10.

The terminal contact 12 results with the mating contact 13 when the two contact each other, a structurally simple solution for a plug contact shown when laying the Verbundbauplatten, as shown in Fig. 3, several Verbundbauplatten in the direction of arrow 14 for a particularly unproblematic manufacturable electrical by interlinking Connection between the power supply electrodes 5 takes care. A plug contact means that the joining of the individual power supply electrodes 5 to one another does not depend on a longer terminal strip that spans the composite building boards.

Claims (7)

1. Plate-shaped electrical resistance heating for air conditioning in apartments and buildings according to P 195 38 686 using an electrically conductive heating layer that can be heated by electricity, consisting of a mixture based on graphite particles and a water-dilutable water glass as a binder, with two parallel opposite sides The heating layer is provided with metallic strip-shaped power supply electrodes, characterized in that, instead of a plasterboard, a composite building board provided on the rear with a thermal insulation building material ( 1 ) is used, which on its visible side has a building board ( 2 ) consisting of plaster, cement, ceramic materials, concrete, artificial stone or similar masses commonly used in construction, glass, wood, synthetic resin or plastic masses. 2. Plate-shaped electrical resistance heating for air conditioning in apartments and buildings according to claim 1, characterized by a composite building board, which is coated on its view side with a fiber-containing building board ( 2 ), the fibers being embedded in the building board ( 2 ). 3. Plate-shaped electrical resistance heating for air conditioning in apartments and buildings according to claim 1 and / or according to claim 2, characterized by a building board ( 2 ) or a composite building board, which is made directly from a foam glass, porous plastic using foam materials, artificial stone or expanded clay there, the surface of the building board ( 2 ) or the composite building board is smoothed with a pore filler ( 3 ). 4. plate-shaped electrical resistance heating for air conditioning in apartments and buildings according to one or more of claims 1-3, characterized in that the composite building panels each have a groove ( 8 ) and a spring ( 10 ), which can be compensated for during installation. 5. Plate-shaped electrical resistance heating for air conditioning in apartments and buildings according to one or more of claims 1-4, characterized in that the contacting of the power supply electrodes ( 5 ) between the composite building panels is designed as a plug contact. 6. Plate-shaped electrical resistance heater for air conditioning in apartments and buildings according to one or more of claims 1-5, characterized in that laterally projecting contact sections ( 11 ) of the power supply electrodes ( 5 ) are provided on both sides of the composite building board, alternating in each case one side contact section ( 11 ) inserted as a clamping contact ( 12 ) in the groove ( 8 ) and the contact section ( 11 ) opposite as a counter contact ( 13 ) in the form of the spring ( 10 ) is bent. 7. plate-shaped electrical resistance heating for air conditioning in apartments and buildings according to one or more of claims 1-6, characterized by metallic easily deformable power supply electrodes ( 5 ) whose material thickness is not more than 0.05 mm.