IMPROVEMENTS RELATING TO ELECTRIC HEATING ELEMENTS

Description

Field of the Invention:

[0001] This invention concerns improvements relating to electric heating elements and more particularly concerns thick film heating elements which comprise a resistive heating track or layer formed on a substrate which commonly comprises stainless steel with an electrically insulating layer between the stainless steel and the resistive heating track or layer, though ceramics material substrates are also known. Such thick film heating elements are nowadays used in liquid heating appliances, such as kettles and hot water jugs for example, and also find wider application.

Background of the Invention:

[0002] It has previously been proposed to provide more than one heating track on a thick film heating element, see for example GB-A-2 343 352, GB-A-2 335 588 and our British Patent Application No. 2354927. In such previous applications for thick film elements with multiple tracks, the power density of the additional heater track(s) has always been sufficiently low to allow it to be located on the heating element surface and not occupy too much space. However, where the power required from the additional tracks(s) becomes significant, there may be insufficient space on an element disk to accommodate the required tracks. An example of an appliance where this is the case is one which is intended to heat a range of different liquids, where a high power (2-3kW) is needed for rapid boiling of water, and a lower power (6-700W), and lower power density, is needed for heating milk, without the milk becoming burnt on the base of the vessel. The low power density of the lower power track means that it cannot be tightly laid into a small area, but may occupy as much space as the high powered track. A large element diameter to give sufficient area is not desirable, since this leads to appliance styling difficulties and high costs.

[0003] US Patent No. 5 560 851 is illustrative of a previously proposed electric heating element (and manufacturing process) of multilayer construction, wherein respective heating conductors at different layers are interconnected by means of contact recesses in intervening insulating layers which are filled with metallizing paste.

Objects and Summary of the Invention:

[0004] It is thus the principal object of the present invention to overcome or at least substantially reduce the abovementioned problem.

[0005] According to the present invention this object can be achieved by a thick film heating element according to claim 1.

[0006] More particularly, in order to overcome the abovementioned problem, it is proposed in accordance with a preferred embodiment of the present invention to print two or more tracks one on top of the other, separated by a thin dielectric layer. With this proposal, which is based on multi-layer thick film electronics technology, the withstand voltage for the intermediate layer does not have to be as great as the basic insulation required between the mean heating element and the steel substrate which has to withstand a high voltage test of 1250V. The intermediate layer would only have to withstand 250V, perhaps with a high voltage test of only 500V. thus the intermediate insulating layer can be thinner than the main insulation, say 60-80 µm (60-80 microns) compared to 150 µm (150 microns) for example. The increased total insulating thickness between the additional track(s) and the substrate will raise the running temperature of that track, but since we are aiming for a low power density, the resulting temperature rise will be acceptance. The reduced thickness of the intermediate layer will also assist in keeping temperature rises down.

[0007] A manufacturing process for a thick film heating element is defined in claim 10. A preferred embodiment of that method might for example comprise the following steps: .

1. Onto a prepared steel substrate print the main dielectric layer and fire;

2. Print the main heater track and fire;

3. Print the intermediate insulating layer and fire;

4. Print the additional heater track and fire;

5. Print silver connection pads and fire; and

6. Print a protective cover coat and fire.

The various firing operations may be combined by firing multiple layers at once, as is usual in the manufacture of thick film elements, and operations 5 and 6 may be reversed or combined.

[0008] The additional track(s) may include other features, such as an adjustable resistance control track as described in our aforementioned British Patent Application No. 2 354 927 for example, and tappings from either track may be provided to give access for controls or indicators, similar to that described in our GB-A-2 329 759 or GB-A-2 325 396. Connections to the underlying track could be made through holes in the intermediate insulating layer, and access to the tracks for bimetal or other sensors can also be similarly provided.

[0009] The above and further features of the present invention are set forth in the appended claims and will be clearly understood from consideration of the following description which is given, by way of example only, with reference to the accompanying drawings.

Description of the Drawings:

[0010] 

Figures 1A to 1E illustrate various steps in the manufacture of an exemplary thick film heating element embodying the present invention; and

Figure 2 is a perspective cross-sectional view of a thick film heating element manufactured by the steps of Figures 1A to 1E.

Detailed Description of the Embodiment:

[0011] In the following, since the manufacture of thick film heating elements is well known, only brief details of the various manufacturing steps will be described.

[0012] Referring to the drawings, Figure 1A illustrates the provision of a dielectric layer 1 on one surface of a stainless steel substrate 2. The dielectric material can for example consist of a glass, ceramics or glass ceramics material which is applied onto the surface of the substrate in powder form and is then fired, as is well known. Figure 1B shows the provision of a main heater track 3 on top of the dielectric layer 1, for example by means of a printing step employing electrically conductive ink followed by a firing step. Note that the form of the track 3 that is shown in Figure 1B is exemplary only.

[0013] Figure 1C illustrates the provision of an intermediate electrically insulating layer 4 over the track 3, but with connector terminal parts 5 and 6 of the track 3 left exposed in a window opening 7 provided in the layer 4. A second window opening 8 exposes a portion of the main heater track 3 for access by a thermally-responsive control (not shown). Figure 1D shows the provision of a further heating element track 9 on top of the intermediate electrically insulating layer 4 and Figure 1E shows the provision of a further, protective electrically insulating layer 10 overlying the further heating element track 9, the layer 10 being formed with window openings 11, 12 and 13 which, respectively, register with the window opening 7 in the intermediate insulating layer 4, provide access to the terminal parts 14 and 15 of the heating element track 9, and expose a portion of the additional heating element track 9 for access by a further thermally-responsive control (not shown).

[0014] At appropriate stages in the manufacturing process as abovedescribed the terminal parts 5, 6, 14 and 15 are provided with low resistance silver coatings which may also be provided, as is well known, at the locations where the heating element tracks 3, 9 turn back upon themselves so as to avoid the phenomenon of current crowding.

[0015] Figure 2 is a perspective cross-sectional view of a thick film heating element manufactured as described above. It is to be noted that the thicknesses of the various layers are greatly exaggerated for the sake of clarity.

[0016] Having described the invention in the foregoing in relation to a particular embodiment, it is to be well appreciated that the embodiment is in all respects exemplary and that modifications and variations thereto are possible without departure from the scope of the invention as set forth in the appended claims.

Claims

1. A thick film heating element having a multi-layered construction in which different heating tracks (3,9) are provided at different layers which are separated by electrically insulating material (4), the element being characterised in that: window openings (7,11,12) are provided in the one or more electrically insulating layers (4,10) which cover the heating tracks (3,9) so as to provide access to terminal portions (5,6; 14,15) of the tracks (3,9).

2. A thick film heating element as claimed in claim 1 comprising a metal substrate (2) provided with a first electrically insulating layer (1) upon which at least one heating track (3) is provided and a second electrically insulating layer (4) overlying said first electrically insulating layer (1) and said at least one heating track (3), at least one further heating track (9) being provided on said second electrically insulating layer (4), and wherein the thickness of said first electrically insulating layer (1) is greater than that of said second electrically insulating layer (4).

3. A thick film heating element as claimed in claim 1 or 2 wherein at least one window opening (8,13) is provided in one or more of the electrically insulating layers (4,10) of the element for enabling access to at least one of the heating element tracks (3,9) by a thermally-responsive control.

4. A thick film heating element as claimed in any preceding claim wherein a main heating track (3) is provided at one layer and an additional heating track (9) is provided at another layer together with a means for adjusting the power output of such additional track.

5. A thick film heating element as claimed in claim 4 wherein said power adjustment means comprises a resistive track coupled to said additional heating track, said resistive track being configured to enable its resistance to be adjusted by operation of a control associated therewith.

6. A liquid heating appliance incorporating a thick film heating element as claimed in any of the preceding claims.

7. A liquid heating appliance as claimed in claim 6 having a high power heating track (3) for rapid boiling of water and a low power heating track (9) for the heating of milk without the milk becoming burnt on the heating element.

8. A liquid heating appliance according to claim 7, wherein said high power heating track has a power of 2 to 3kW.

9. A liquid heating appliance according to claim 7 or 8, wherein said low power heating track has a power of 6 to 700W.

10. A method of manufacturing a thick film heating element comprising:

(i) preparing a metal substrate (2);

(ii) providing an electrically insulating layer (1) on a surface of said substrate;

(iii) providing a first heating track (3) on said electrically insulating layer;

(iv) providing a second electrically insulating layer (4) overlying said first heating track (3);

(v) providing a second heating track (9) on said second electrically insulating layer (4); and

(vi) providing a third, protective electrically insulating layer (10) overlying said second heating track (9);

wherein access openings (7,11,12) are provided in said second and third electrically insulating layers (4,10) which enable terminal portions (5,6,14,15) of said first (3) and second (9) heating tracks to be accessed for supplying electricity to the tracks.

11. A method according to claim 10, wherein said substrate (2) is comprised of stainless steel.

Ansprüche

1. Dickfilmheizelement, welches eine mehrschichtige Konstruktion aufweist, in welcher unterschiedliche Heizbahnen (3, 9) auf unterschiedlichen Schichten bereit gestellt sind, die durch elektrisch isolierendes Material (4) getrennt sind, wobei das Element dadurch gekennzeichnet ist, dass: Fensteröffnungen (7, 11, 12) in einer oder mehreren der elektrisch isolierenden Schichten (4, 10) vorgesehen sind, welche die Heizbahnen (3, 9) bedecken, um so Zugriff zu den Anschlussabschnitten (5, 6; 14, 15) der Bahnen (3, 9) zu gewähren.

2. Dickfilmheizelement gemäß Anspruch 1, umfassend ein Metallsubstrat (2), welches mit einer ersten elektrisch isolierenden Schicht (1), auf welcher wenigstens eine Heizbahn (3) vorgesehen ist, und einer zweiten elektrisch isolierenden Schicht (4) bereit gestellt wird, welche über der ersten elektrisch isolierenden Schicht (1) und der wenigstens einen Heizbahn (3) liegt, wenigstens eine weitere Heizbahn (9), welche auf der zweiten elektrisch isolierenden Schicht (4) bereit gestellt ist, und wobei die Dicke der ersten elektrisch isolierenden Schicht (1) größer ist als jene der zweiten elektrisch isolierenden Schicht (4).

3. Dickfilmheizelement gemäß Anspruch 1 oder 2, wobei wenigstens eine Fensteröffnung (8, 13) in einer oder mehreren der elektrisch isolierenden Schichten (4, 10) des Elements bereit gestellt ist, um den Zugriff zu wenigstens einer der Heizelementbahnen (3, 9) durch eine wärmeempfindliche Regelung zu ermöglichen.

4. Dickfilmheizelement gemäß jedem der vorangehenden Ansprüche, wobei eine Hauptheizbahn (3) auf einer Schicht bereit gestellt ist und eine zusätzliche Heizbahn (9) auf einer anderen Schicht gemeinsam mit einem Mittel zum Einstellen der Leistungsabgabe einer solchen zusätzlichen Bahn bereit gestellt ist.

5. Dickfilmheizelement gemäß Anspruch 4, wobei das Leistungseinstellmittel eine Widerstandsbahn, die mit der zusätzlichen Heizbahn gekoppelt ist, umfasst, wobei die Widerstandsbahn so konfiguriert ist, um zu ermöglichen, dass ihr Widerstand durch den Betrieb einer Regelung, die dazu beigefügt ist, eingestellt wird.

6. Flüssigkeitsheizgerät, welches ein Dickfilmheizelement gemäß jedem der vorangehenden Ansprüche umfasst.

7. Flüssigkeitsheizgerät gemäß Anspruch 6, welches eine Hochleistungsheizbahn (3) zum raschen Kochen von Wasser und eine Niedrigleistungsheizbahn (9) zum Wärmen von Milch aufweist, ohne dass die Milch auf dem Heizelement anbrennt.

8. Flüssigkeitsheizgerät gemäß Anspruch 7, wobei die Hochleistungsheizbahn eine Leistung von 2 bis 3 kW aufweist.

9. Flüssigkeitsheizgerät gemäß Anspruch 7 oder 8, wobei die Niedrigleistungsheizbahn eine Leistung von 6 bis 700 W aufweist.

10. Verfahren zur Herstellung eines Dickfilmheizelements, umfassend:

(i) Herstellen eines Metallsubstrats (2);

(ii) Bereitstellen einer elektrisch isolierenden Schicht (1) auf der Oberfläche des Substrats;

(iii)Bereitstellen einer ersten Heizbahn (3) auf der elektrisch isolierenden Schicht;

(iv) Bereitstellen einer zweiten elektrisch isolierenden Schicht (4), welche über der ersten Heizbahn (3) liegt;

(v) Bereitstellen einer zweiten Heizbahn (9) auf der zweiten elektrisch isolierenden Schicht (4); und

(vi) Bereitstellen einer dritten, schützenden elektrisch isolierenden Schicht (10), welche über der zweiten Heizbahn (9) liegt;

wobei Zugriffsöffnungen (7, 11, 12) in den zweiten und dritten elektrisch isolierenden Schichten (4, 10) bereit gestellt sind, welche den Zugriff auf Anschlussabschnitte (5, 6, 14, 15) der ersten (3) und der zweiten (9) Heizbahn zum Versorgen der Bahnen mit elektrischem Strom ermöglichen.

11. Verfahren gemäß Anspruch 10, wobei das Substrat (2) rostfreien Stahl umfasst.

Revendications

1. Elément chauffant à couche épaisse ayant une construction multicouche, dans lequel différentes pistes de chauffage (3, 9) sont prévus sur différentes couches qui sont séparées par un matériau isolant électriquement (4), l'élément étant caractérisé en ce que : des ouvertures de fenêtres (7, 11, 12) sont prévues sur une ou plusieurs couches isolant électriquement (4, 10) qui couvrent les pistes de chauffage (3, 9) afin de fournir un accès aux parties d'extrémité (5, 6 ; 14, 15) des pistes (3, 9).

2. Elément chauffant à couche épaisse selon la revendication 1, comprenant un substrat métallique (2) pourvu d'une première couche isolante électriquement (1) sur laquelle est prévu au moins une piste de chauffage (3) et d'une deuxième couche isolante électriquement (4) recouvrant ladite première couche isolante électriquement (1) et ladite au moins une piste de chauffage (3), au moins une autre piste de chauffage (9) étant prévu sur ladite deuxième couche isolante électriquement (4), et dans lequel l'épaisseur de ladite première couche isolante électriquement (1) est supérieure à celle de ladite deuxième couche isolante électriquement (4).

3. Elément chauffant à couche épaisse selon la revendication 1 ou 2, dans lequel au moins une ouverture de fenêtre (8, 13) est prévue sur une ou plusieurs des couches isolante électriquement (4, 10) de l'élément pour permettre l'accès par une commande thermiquement réactive à au moins l'une des pistes de l'élément de chauffage (3, 9).

4. Elément chauffant à couche épaisse selon l'une quelconque des revendications précédentes, dans lequel une piste de chauffage principale (3) est prévu sur une couche et une piste de chauffage additionnelle (9) est prévue sur une autre couche, avec un moyen pour ajuster la puissance de sortie d'une telle piste additionnelle.

5. Elément chauffant à couche épaisse selon la revendication 4, dans lequel ledit moyen d'ajustement comprend une piste réactive couplée à ladite piste de chauffage additionnelle, ladite piste réactive étant configurée pour permettre d'ajuster sa résistance en se servant d'une commande associée à celle-ci.

6. Appareil de chauffage de liquide incluant un élément chauffant à couche épaisse selon l'une quelconque des revendications précédentes.

7. Appareil de chauffage de liquide selon la revendication 6, comprenant une piste de chauffage de forte puissance (3) pour faire bouillir rapidement l'eau et une piste de chauffage de faible puissance (9) pour chauffer le lait sans que le lait brûle sur l'élément chauffant.

8. Appareil de chauffage de liquide selon la revendication 7, dans lequel ladite piste de chauffage de forte puissance a une puissance comprise entre 2 kW et 3 kW.

9. Appareil de chauffage de liquide selon la revendication 7 ou 8, dans lequel ladite piste de chauffage de faible puissance a une puissance comprise entre 6 W et 700 W.

10. Procédé pour la fabrication d'un élément chauffant à couche épaisse comprenant :

(i) la préparation d'un substrat métallique (2) ;

(ii) la pose d'une couche isolante électriquement (1) sur une surface dudit substrat ;

(iii) la pose d'une première piste de chauffage (3) sur ladite couche isolante électriquement ;

(iv) la pose d'une deuxième couche isolante électriquement (4) recouvrant ladite première piste de chauffage (3) ;

(v) la pose d'une seconde piste de chauffage (9) sur ladite deuxième couche isolante électriquement (4) ; et

(vi) la pose d'une troisième couche isolante électriquement (10) recouvrant ladite seconde piste de chauffage (9) ;

   dans lequel des ouvertures de fenêtres (7, 11, 12) sont prévues sur lesdites deuxième et troisième couches isolantes électriquement (4, 10) qui permettent l'accès aux parties d'extrémité (5, 6 ; 14, 15) desdites première (3) et seconde (9) pistes de chauffage pour l'alimentation électrique des pistes.

11. Procédé selon la revendication 10, dans lequel ledit substrat (2) est constitué d'acier inoxydable.

Drawing