DE102004058588A1 - Heating system for water bed has resistor wires laid in meandering pattern on both sides of insulating carrier membrane, and with insulating layers on upper and lower sides - Google Patents

Abstract

The resistor wires (1-2') and (11-12') for heating the water bed are laid in a corresponding meandering pattern on both sides of an insulating carrier membrane (4). The terminals for the upper and lower meandering wires are reversed so that the current flows in opposite directions in the wires. Having the currents flow in opposite directions ensures that the magnetic fields cancel out. There are two insulating layers (16,18) on the upper and lower sides of the meandering wires.

Description

The The invention relates to a heating device, in particular for waterbeds, according to the Preamble of claim 1 specified features.

From the DE 41 02 880 A1 is such a heating device is known, which contains an elongated heating cable with two substantially parallel electrical wires in an insulating sheath, which are traversed by the heating of electric current. The electrical leads are embedded in a PTC-conductive polymer material, that is, a material having a positive temperature coefficient, and are juxtaposed at a fairly large distance, typically in the range of several millimeters. By said PTC-conductive polymer material, the current between the two lines occurs, wherein the polymer material heats up and due to the increasing temperature of the polymer material whose electrical resistance increases, so that the current flow decreases. The PTC-conductive polymer material with the embedded lines is meander-shaped between two films, wherein one film for stiffening is formed as a polyester film and the other film for positioning the heating cable is formed as aluminum foil. The thus formed sandwich assembly is also surrounded on all sides by the insulating waterproof envelope, for example, PVC films. The prior art heater requires a significant material and manufacturing costs, the described sandwich construction requires a correspondingly large volume and weight. The juxtaposed lines of the PTC heating cable are flowed through in opposite directions by currents, wherein the currents of the lines occur 180 ° out of phase with each other. Due to the PTC material located between the two adjacent lines of the heating cable, which must have a fairly large thickness to specify the required resistance, the two lines to each other a considerable distance, with the result that only an insufficient compensation of the electromagnetic fields is made possible and overall the heater outside has a disadvantageous to a user magnetic field.

Of these, Based on the object of the invention, with a small constructive effort to further develop the heater to that the electromagnetic field is significantly reduced and in particular essentially goes to zero. The heater should have a require low production costs and also with minimal use of materials have a low weight and / or volume.

The solution This task is performed according to the Claim 1 specified features.

The Heating device according to the invention records characterized by a functionally reliable and compact design and guaranteed due to the arrangement of the two lines congruent one above the other on the top and bottom of the insulating backing in the opposite direction of impact with electricity a compensation as far as possible the overlapping ones Magnetic fields. The outer overall magnetic field the heater is kept to a minimum and detrimental Effects on a user, in particular a waterbed, are largely excluded. The carrier layer is in particular formed as a film and is preferably made of plastic. On the top and the bottom of the carrier layer are the mentioned Lines arranged directly, with additional, the distance-increasing insulation or other material is missing. The wires on the top and bottom are congruent to each other parallel and / or arranged and are in opposite directions flowed through by electricity, so that resulting magnetic fields in the essentially cancel each other out. Made of electrically insulating Material existing carrier layer has only a small predetermined thickness, so that the anti-parallel current-carrying leads of the top and bottom are very close to each other and thus an optimized magnetic field cancellation takes place. The thickness of the carrier layer is appropriately smaller than 1 mm, preferably less than 0.5 mm, in particular less than 0.2 mm, with a thickness of at least approximately 0.175 mm being particularly has proved advantageous. With regard to the insulating function and / or Stability and / or Strength requirements, the thickness of the support layer and / or film is preferred not smaller than 0.05 mm, preferably not smaller than 0.1 mm and preferably not less than 0.15 mm.

The lines are arranged directly on the carrier layer, preferably as strip conductors and / or with a substantially rectangular cross section, in particular by a coating method, such as screen printing, thermal coating or by a lithographic method. The charging of said lines can be done by means of direct current as well as by means of alternating current. If the heating by means of direct current, the congruent and parallel arranged on the top and bottom wires or conductors are in opposite directions from the stream traversed. When loading or heating by means of alternating current, the lines or traces of the top and bottom of the insulating support layer are applied in opposite phase so that at a maximum of the sine wave of the upper trace the immediately underlying trace on the bottom of the minimum of the sine wave is applied.

The Lines or conductor tracks have only a small thickness, useful in the Magnitude of a few microns, with a thickness in the region of 10 to 50 μm, preferably from 20 to 40 μm and in particular to maximum essentially 30μ as has proved advantageous. The width is in the range of some Given millimeters, the width preferably in the range between 1 to 20 mm, advantageously between 3 to 15 mm and in particular between 5 to 10 mm is specified. The lines or in cross section preferred rectangular Conductor tracks also provide a special security aspect, namely overheating protection or a material-given thermal fuse. The cables or conductor tracks are designed to melt in the event of a malfunction, and at a given temperature, appropriate in the field between 150 ° -190 °. hereby will ensure that further damage, be it the heater themselves, such as their protective films or wrapping, or damage or even a smoldering fire in a waterbed can not occur.

Special Embodiments and developments of the invention are in the subclaims and the following description of a particular embodiment.

The Invention will be described below with reference to the drawing Embodiment explained in more detail, without that in that respect a restriction he follows. Show it:

1 a top view of the heater with meandering arranged on the support layer lines, wherein the insulating sheath is not shown,

2 a view of the underside of the heater according to 1 with corresponding meandering lines,

3 a section through the heater along the section lines A according to 1 and 2 ,

1 shows a top view of the top of the heater with lines 1 . 2 , which on an electrically insulating carrier layer 4 are arranged, wherein a sheath is not shown. The wires 1 . 2 , which are partially highlighted in black in the drawing for clarity, are by a coating method, in particular by screen printing, directly on top of the carrier layer 4 arranged in a preferred manner as conductor tracks, wherein between the lines 1 . 2 as well as between the meandering adjacent parts of said lines 1 . 2 free areas 5 available. The carrier layer consisting of electrically insulating material 4 is designed in particular as a plastic film. The wires 1 . 2 have a predetermined electrical resistance such that due to a current lines 1 . 2 be heated and as a result of the heater in particular the above the heater in a water bed arranged and with a suitable liquid, especially water, filled mattress is heated. In contrast to the heater explained above, the heating does not take place by means of a between the lines of the top and the bottom of the carrier layer 4 existing resistor material with a positive temperature coefficient. For connection to an electrical supply source, not shown here, further connections are on the carrier layer 6 . 8th provided with which the ends of the lines 1 . 2 are electrically connected. After connection to the supply source can through the lines or pipe parts 1 . 2 in the direction of the arrow 10 flow and in the adjacent line parts 1' and 2 ' against the mentioned arrow direction. In the preferred embodiment, there are two traces 1 . 2 arranged parallel to each other, in which the current flows in the same direction. The wires 1 . 2 or the individual portions of these lines are adjacent to each other in the same plane on the top of the carrier layer 4 ,

2 shows a plan view of the underside of the above-described insulating support layer 4 , Analogous to the above statements are at the bottom of the carrier layer 4 the tracks 11 . 12 or their sub-areas arranged, and according to the invention corresponding and / or congruent with the lines of the top. The pipes of the top and the pipes 11 . 12 the bottom are thus directly above each other, being between the lines 1 . 2 the top and the wires 11 . 12 the underside only the thin, preferably designed as a foil electrically insulating carrier layer 4 is available. The arranged in the same common plane lines 11 . 12 the underside are in the invention in the opposite direction to the conductor tracks of the top flowed through by electricity, as with the arrow 14 is indicated. As can be seen, the conduit parts 11 ' and 12 ' against the direction of the arrow 14 flowed through by electricity. The over the line parts 11 ' and 12 ' lying portions of the lines of the top are opposite to the direction of flow in the lower line parts 11 ' and 12 ' flowed through by electricity. It should be expressly stated that in the context of the invention, the lines of the top and congruent on the underside of the thin carrier layer 4 existing lines can also be provided in a different geometric configuration, where it crucially important that the lines of the top and bottom are arranged congruent to each other, so that the associated one above the other corresponding and / or parallel lines or line parts in each case in opposite directions with power be acted upon in order to ensure an optimized and substantially zero compensation of the magnetic fields.

3 shows enlarged a section through the heater along section line A according to 1 and 2 , As can be seen, are congruent with the lines 1 . 2 . 2 ' . 1' the top on the bottom of the carrier layer 4 the wires 11 . 12 . 12 ' . 11 ' arranged. Over the wires 1 . 2 or rectangular conductor tracks of the top is at least one insulating layer 16 , preferably at least two insulating layers 16 . 18 intended. Accordingly, at the bottom electrical insulation layers 16 . 18 intended. At the outer edge of the carrier film 4 ' and thus the entire heater, the upper and lower insulating layers, which are preferably formed as plastic films, firmly and tightly, for example by welding, connected to each other.

1, 2

Management, Conductor of the top

1 ', 2'

parts of 1 . 2

4

Backing / backing film

5

free Area

6 8th

connection

10

Arrow / direction in 1 . 2

11 12

Management, Trace of the bottom

11 ', 12'

part of 11 . 12

14

Arrow / direction in 11 . 12

Claims (9)

Heating device, in particular for waterbeds, containing pipes ( 1 . 2 respectively. 11 . 12 ), which in opposite directions can be acted upon by electricity, characterized in that the lines ( 1 . 2 ) on the top of an electrically insulating carrier layer ( 4 ) and the lines ( 11 . 12 ) on the underside of said carrier layer ( 4 ) are arranged congruently one above the other such that the electromagnetic fields of the by means of the insulating support layer ( 4 ) separate lines ( 1 . 2 ) of the top one hand, and he leads ( 11 . 12 ) on the other hand when subjected to current in opposite directions ( 10 . 14 ) essentially cancel each other out. Heating device according to claim 1, characterized in that the carrier layer ( 4 ) is formed as a film, in particular made of plastic. Heating device according to claim 1 or 2, characterized in that the lines ( 1 . 2 respectively. 11 . 12 ) directly on the top or the bottom of the carrier layer ( 4 ) are arranged and / or formed by means of a coating process, in particular as conductor tracks. Heating device according to claim 3, characterized in that the lines ( 1 . 2 respectively. 11 . 12 ) by a screen printing process or a thermal coating or by a lithographic process directly on the top or the bottom of the carrier layer ( 4 ) are arranged. Heating device according to one of claims 1 to 4, characterized in that the thickness of the carrier layer ( 4 ) has a predetermined and / or small thickness, suitably less than 1 mm, preferably less than 0.5 mm, in particular less than 0.2 mm, wherein the thickness is advantageously at least approximately predetermined with 0.175 mm. Heating device according to one of claims 1 to 5, characterized in that the lines ( 1 . 2 ; 11 . 12 ) has a predetermined and / or small thickness, expediently of the order of magnitude of a few micrometers, and / or that the thickness in the range from 10 to 50 μm is preferably from 20 to 40 μm and in particular up to a maximum of substantially 30 μm. Heating device according to one of claims 1 to 6, characterized in that the lines ( 1 . 2 ; 11 . 12 ) have a substantially rectangular cross-section. Heating device according to one of claims 1 to 7, characterized in that the lines ( 1 . 2 ; 11 . 12 ) have a width in the range of a few millimeters, wherein the width is preferably in the range between 1 to 20 mm, preferably between 3 to 15 mm and in particular between 5 to 10 mm predetermined. Heating device according to one of claims 1 to 8, characterized in that the lines ( 1 . 2 ) of the top with their ends with terminals ( 6 . 8th ), which preferably also on the upper side of the carrier layer ( 4 ) are arranged, and that accordingly the lines ( 11 . 12 ) the bottom with its ends on electrical connections ( 6 . 8th ), which preferably on the underside of the carrier layer ( 4 ) are arranged, wherein via said connections an electrical connection with a supply source for acting on the lines ( 1 . 2 respectively. 11 . 12 ) can be produced.