EP2631545A1

EP2631545A1 - A heating plate including at least one temperature sensor element

Info

Publication number: EP2631545A1
Application number: EP12156428.0A
Authority: EP
Inventors: Thomas Dehnert; Ulrich Häutle; Rainer Brahm
Original assignee: Electrolux Home Products Corp NV
Current assignee: Electrolux Home Products Corp NV
Priority date: 2012-02-22
Filing date: 2012-02-22
Publication date: 2013-08-28
Anticipated expiration: 2032-02-22
Also published as: EP2631545B1

Abstract

The present invention relates to a heating plate including at least one temperature sensor element (20). The heating plate comprises a top panel (10) forming a top side of the heating plate, and a supporting plate (16) arranged below the top panel (10). The heating plate comprises a heating panel (14) arranged between the top panel (10) and the supporting plate (16), and at least one shaped hole (26) formed in the supporting plate (16). The shaped hole (26) comprises a bigger portion for inserting the temperature sensor element (20) and a smaller portion for fixing said temperature sensor element (20). In particular, the present invention relates to a heating plate for cooking appliances.

Description

The present invention relates to a heating plate with at least one temperature sensor element. In particular, the present invention relates to a heating plate for cooking appliances.
In a conventional heating plate the temperature sensor is arranged out of a heating element. Sometimes the temperature sensor is fixed at fastening means of said heating element. Thus, the distance between the temperature sensor and the heating element is relative large. The detection of the temperature on the heating plate is improper. Further, the latency of the detection of the temperature is relative high.
US 3,684,862 discloses an electric hot plate of cooking purposes including an insert for securing a temperature sensor. The temperature sensor is provided to contact the bottom of a cooking vessel placed on the hot plate. The insert is in an opening within a central unheated portion of the hot plate. The insert comprises a thin peripheral wall by which said insert is fitted in the opening. The temperature sensor is secured by a snap-in mechanism.
It is an object of the present invention to provide a heating plate with an improved arrangement of the temperature sensor element in order to obtain an exact detection of the temperature with reduced latency, wherein the temperature sensor element can be easily installed at the heating plate.
The object of the present invention is achieved by the heating plate according to claim 1.
The heating plate according to the present invention includes at least one temperature sensor element, wherein the heating plate comprises:

a top panel forming a top side of the heating plate,
a supporting plate arranged below the top panel,
a heating panel arranged between the top panel and the supporting plate, and
at least one shaped hole formed in the supporting plate, wherein
the shaped hole comprises a bigger portion for inserting the temperature sensor element and a smaller portion for fixing said temperature sensor element.

The main idea of the present invention is the shaped hole in the supporting plate, wherein the temperature sensor element can be inserted into the bigger portion of said shaped hole and fixed in the smaller portion of the same shaped hole. No additional fastening means are required for fixing the temperature sensor element. Further, no tools are necessary for the installation of the temperature sensor element at the heating plate.
In particular, the temperature sensor element is pressed against the top panel. This ensures an exact detection of the temperature. Further, the latency for the detection of the temperature is reduced.
Preferably, the shaped hole is formed as a keyhole. The keyhole is easy to handle, when the temperature sensor element is installed.
According to a preferred embodiment of the present invention a graphite layer is arranged between the heating panel and the top panel. The graphite layer support the heat transfer from the heating panel to the top panel.
Further, the at least one shaped hole may be also formed in the heating panel, wherein the shaped hole in the heating panel is congruent with the corresponding shaped hole in the supporting panel.
In particular, at least one slot or long hole is formed in the graphite layer, wherein the slot or long hole in the graphite layer is congruent with the corresponding shaped hole in the supporting panel. The temperature sensor element can be moved along the longitudinal axis of the slot or long hole and fixed in the smaller portion of the shaped hole, after being inserted into the bigger portion of said shaped hole.
Preferably, the heating plate comprises at least one pressing disc arranged below the supporting plate.
The at least one pressing disc may be provided for pressing the supporting plate against the top panel. In this way the temperature sensor element is also indirectly pressed against the top panel.
For example, the at least one pressing disc is fixed or fixable at the heating plate by at least one fastening bolt and at least one screw nut.
In particular, the temperature sensor element has the form of a mushroom, wherein the head of the mushroom-shaped temperature sensor element is pressed against the top panel and the shaft of the mushroom-shaped temperature sensor element is fixed in the smaller portion of the shaped hole.
At last, the heating plate is provided for cooking appliances.
Novel and inventive features of the present invention are set forth in the appended claims.
The present invention will be described in further detail with reference to the drawings, in which

FIG 1: illustrates a schematic view from below at a heating plate according to a preferred embodiment of the present invention,
FIG 2: illustrates a schematic view from below at a supporting plate of the heating plate according to the preferred embodiment of the present invention,
FIG 3: illustrates a schematic sectional side view of the heating plate according to the preferred embodiment of the present invention,
FIG 4: illustrates a detailed schematic perspective view from below at a temperature sensor element of the heating plate according to the preferred embodiment of the present invention, and
FIG 5: illustrates a detailed schematic perspective top view of the temperature sensor element of the heating plate according to the preferred embodiment of the present invention.

FIG 1 illustrates a schematic view from below at a heating plate according to a preferred embodiment of the present invention. In particular, the heating plate is provided for cooking appliances.
The heating plate includes a top panel 10, a graphite layer 12, a heating panel 14 and a supporting plate 16. The heating panel 14 is arranged above the supporting plate 16. The graphite layer 12 is arranged above the heating panel 14 again. At last, the top panel 10 is arranged above the graphite layer 12. The top panel 10, the graphite layer 12, the heating panel 14 and the supporting plate 16 are formed as sheets and have substantially the same base area.
The heating panel 14 may be formed as a single heating element or subdivided into several heating elements. In the latter case, the heating elements may have different heating powers.
A temperature sensor element 20 is arranged in the centre of the heating plate. The temperature sensor element 20 is fixed within the heating panel 14 of the heating plate. The temperature sensor element 20 is indirectly pressed against the top panel 10 of the heating plate by a number of pressing discs 18. In this example, the heating plate comprises five pressing discs 18, wherein a central pressing disc 18 is arranged very close to the temperature sensor element 20. Further, the pressing discs 18 guarantees the correct position of the temperature sensor element 20.
FIG 2 illustrates a schematic view from below at the supporting plate 16 of the heating plate according to the preferred embodiment of the present invention.
The supporting plate 16 comprises a keyhole 26 and five round holes 28. The round holes 28 are provided for receiving a fastening bolt 22 in each case in order to fasten the corresponding pressing disc 18. The keyhole 26 is provided for receiving the temperature sensor element 20.
The keyhole 26 includes a bigger portion and a smaller portion. The bigger portion is provided for introducing the temperature sensor element 20 into the supporting plate 16. The smaller portion is provided for fastening the temperature sensor element 20.
Instead of the keyhole 26, the supporting plate 16 may comprise an arbitrary hole with at least one bigger portion and at least one smaller portion, wherein the bigger portion allows the introducing of the temperature sensor element 20 into the supporting plate 16 and the smaller portion allows the fastening of the temperature sensor element 20.
FIG 3 illustrates a schematic sectional side view of the heating plate according to the preferred embodiment of the present invention. The sectional side view relates to the plane A-A on FIG 1.
FIG 3 clarifies the structure of the heating plate. The top panel 10, the graphite layer 12, the heating panel 14 and the supporting plate 16 are arranged one upon the other.
The temperature sensor element 20 is formed as a mushroom. The head of the mushroom-shaped temperature sensor element 20 is pressed against the bottom side of the top panel 10. The shaft of the mushroom-shaped temperature sensor element 20 penetrated through the heating panel 14 and the supporting plate 16. Thus, the temperature sensor element 20 is directly pressed by the by the heating panel 14, and indirectly pressed by the pressing disc 18 via the supporting plate 16 against the top panel 10. The pressing discs 18 are fastened at the supporting plate 16 by the fastening bolt 22 and a screw nut 24 in each case, wherein the fastening bolts 22 penetrates through the corresponding round holes 28 in the supporting plate 16. A head of the fastening bolt 22 is inside a round hole of the heating panel 14. Said round hole of the heating panel 14 corresponds with the round hole 28 of the supporting plate 16.
FIG 4 illustrates a detailed schematic perspective view from below at the temperature sensor element 20 of the heating plate according to the preferred embodiment of the present invention. FIG 4 clarifies the arrangement of the temperature sensor element 20 at the heating plate.
The keyhole 26 is formed in the supporting plate 16 as well as in the heating panel 14. Thus, the head of the mushroom-shaped temperature sensor element 20 is arranged above the supporting plate 16 and heating panel 14, when the temperature sensor element 20 is fixed at the heating plate. Since the supporting plate 16 and heating panel 14 are pressed against the top panel 10, the temperature sensor element 20 is also pressed against the top panel 10.
FIG 5 illustrates a detailed schematic perspective top view of the temperature sensor element 20 of the heating plate according to the preferred embodiment of the present invention. FIG 5 clarifies the arrangement of the head of the mushroom-shaped temperature sensor element 20.
Unlike the supporting plate 16 and the heating panel 14 comprising the keyhole 26, the graphite layer 12 comprises a long hole or slot provided for the head of the mushroom-shaped temperature sensor element 20. The height of the head of the mushroom-shaped temperature sensor element 20 is adapted to the thickness of the graphite layer 12. Thus, the head of the mushroom-shaped temperature sensor element 20 is clamped between the top panel 10 and the heating panel 14. The temperature sensor element 20 is from-locked and friction-locked fasted at the heating plate.
The arrangement of the temperature sensor element 20 allows a direct and exact measuring of temperature at the top panel 10. The temperature sensor element 20 does not require any special fastening means. The temperature sensor element 20 is clamped by the pressing discs 18, which are already provided for fastening the heating panel 14 or the heating elements, respectively.
The heating plate according to the present invention allows a simple installation of the temperature sensor element 20. The temperature sensor element 20 may be fixed, after the graphite layer 12 and the heating panel 14 have been already installed. The sizes and the arrangements of the pressing discs 18 is dimensioned in such a way that the contact between the temperature sensor element 20 and the top panel 10 is guaranteed, if one conjunction of the screw nut 24 and fastening bolt 22 fails.
Although an illustrative embodiment of the present invention has been described herein with reference to the accompanying drawings, it is to be understood that the present invention is not limited to that precise embodiment, and that various other changes and modifications may be affected therein by one skilled in the art without departing from the scope or spirit of the invention. All such changes and modifications are intended to be included within the scope of the invention as defined by the appended claims.

List of reference numerals

10: top panel
12: graphite layer
14: heating panel
16: supporting plate
18: pressing disc
20: temperature sensor element
22: fastening bolt
24: screw nut
26: keyhole
28: round hole

Claims

A heating plate including at least one temperature sensor element (20), comprising:
- a top panel (10) forming a top side of the heating plate,

- a supporting plate (16) arranged below the top panel (10),

- a heating panel (14) arranged between the top panel (10) and the supporting plate (16), and

- at least one shaped hole (26) formed in the supporting plate (16), wherein

- the shaped hole (26) comprises a bigger portion for inserting the temperature sensor element (20) and a smaller portion for fixing said temperature sensor element (20).
The heating plate according to claim 1,
characterized in, that
the temperature sensor element (20) is pressed against the top panel (10).
The heating plate according to claim 1 or 2, characterized in, that
the shaped hole is formed as a keyhole (26).
The heating plate according to any one of the preceding claims,
characterized in, that
a graphite layer (12) is arranged between the heating panel (14) and the top panel (10).
The heating plate according to any one of the preceding claims,
characterized in, that
the at least one shaped hole(26) is also formed in the heating panel (14), wherein the shaped hole (26) in the heating panel (14) is congruent with the corresponding shaped hole (26) in the supporting panel (16).
The heating plate according to any one of the preceding claims,
characterized in, that
at least one slot or long hole (28) is formed in the graphite layer (12), wherein the slot or long hole (28) in the graphite layer (12) is congruent with the corresponding shaped hole (26) in the supporting panel (16).
The heating plate according to any one of the preceding claims,
characterized in, that
the heating plate comprises at least one pressing disc (18) arranged below the supporting plate (16).
The heating plate according to claim 7,
characterized in, that
the at least one pressing disc (18) is provided for pressing the supporting plate (16) against the top panel (10).
The heating plate according to claim 7 or 8, characterized in, that
the at least one pressing disc (18) is fixed or fixable at the heating plate by at least one fastening bolt (22) and at least one screw nut (24).
The heating plate according to any one of the preceding claims,
characterized in, that
the temperature sensor element (20) has the form of a mushroom, wherein the head of the mushroom-shaped temperature sensor element (20) is pressed against the top panel (10) and the shaft of the mushroom-shaped temperature sensor element (20) is fixed in the smaller portion of the shaped hole (26).
The heating plate according to any one of the preceding claims,
characterized in, that
the heating plate is provided for cooking appliances.