Steam generator and household appliance

Abstract

A cooking appliance includes a cooking cavity adapted to cook food therein; and a steam generator adapted to supply steam for cooking to the cooking cavity. The steam generator includes an L-shaped conduit for steamable fluid having one vertical arm and one horizontal arm, and a heating element located adjacent and external to the L-shaped conduit. The vertical arm is substantially vertical in an operative position of the steam generator.

Claims

1. A steam generator comprising: an L-shaped conduit for steamable fluid comprising one vertical arm and one horizontal arm; and a heating element located adjacent and external to said L-shaped conduit, said vertical arm being substantially vertical in an operative position of the steam generator, wherein the L-shaped conduit has an inner surface that comprises a series of protuberances distributed about the inner surface, and wherein the steam generator is operable to receive the steamable fluid within the L-shaped conduit and heat the steamable fluid to produce steam.

2. The steam generator according to claim 1, wherein the protuberances form ribs.

3. The steam generator according to claim 1, wherein a flow path of the L-shaped conduit through the vertical arm and the horizontal arm thereof has a constant cross-sectional area.

4. The steam generator according to claim 1, wherein the L-shaped conduit is symmetrical about an imaginary vertical plane that passes through a center line of the L-shaped conduit.

5. The steam generator according to claim 1, said vertical arm and said horizontal arm forming an angle with one another, said heating element covering at least partially the vertical arm and the horizontal arm of the conduit.

6. The steam generator according to claim 5, wherein the heating element is continuous between a first portion thereof that covers the vertical arm and a second portion thereof that covers the horizontal arm.

7. The steam generator according to claim 1, further comprising: first and second heater conduits running parallel and adjacent to the L-shaped conduit on opposite sides thereof, said heating element being disposed within said first heater conduit, and a further heating element being disposed within said second heater conduit.

8. The steam generator according to claim 1, wherein an angle between said vertical and horizontal arms is from 90° to 110°.

9. The steam generator according to claim 8, said angle being 91° to 94°.

10. The steam generator according to claim 1, wherein the L-shaped conduit has an inner diameter between 8 and 16 mm.

11. The steam generator according to claim 1, wherein the L-shaped conduit has an inner diameter between 11 and 13 mm.

12. The steam generator according to claim 1, having a support structure to fix said steam generator in said operative position.

13. The steam generator according to claim 1, wherein the L-shaped conduit is made of at least one of extruded material and aluminum.

14. The steam generator according to claim 1, wherein the vertical arm and the horizontal arm have different lengths, wherein at least one of the vertical arm and the horizontal arm is substantially full of steamable fluid in said operative position of the steam generator.

15. The steam generator according to claim 14, wherein the longer arm of said vertical arm and said horizontal arm is the one substantially full of the steamable fluid in said operative position.

16. The steam generator according to claim 14, wherein the shorter arm of said vertical arm and said horizontal arm is at least partially filled with steamable fluid in said operative position.

17. The steam generator according to claim 1, wherein the L-shaped conduit is at least partially filled with water.

18. A cooking appliance comprising: a cooking cavity adapted to cook food therein; and the steam generator according to claim 1, wherein the steam generator is adapted to supply steam for cooking to the cooking cavity.

19. The cooking appliance according to claim 18, wherein the steam generator is connected to the cooking cavity such that water enters the L-shaped conduit and steam exits the L-shaped conduit and is delivered to the cooking cavity.

Description

(1) Subsequently, embodiments of the invention will further be explained on the basis of examples given in the drawings wherein:

(2) FIG. 1 and FIG. 2 show flow-type steam generators according to the prior art;

(3) FIG. 3 shows examples of configurations for flow-type generators;

(4) FIG. 4 gives examples for inner profiles of flow-type generators;

(5) FIG. 5 gives an example of a flow-type steam generator according to an embodiment of the present invention; and

(6) FIG. 6 gives an example of a household appliance and a steam generator built into it in an operative position.

(7) As FIG. 1 shows, a linear flow-type steam generator is most commonly mounted in a vertical position. As a fluid to be steamed generally water is used, but flow-type generators also work for other fluids such as alcohol. There is a fluid entry 105 and a steam exit 150. FIG. 1 also shows the fluid 130 and the steam 140. Also, a conduit 115 is identified which is covered by a heating element 110. The fact that only one heating element is shown here serves only illustrative purposes. There can be plural heating elements, and they can be separated by gaps in order to optimize the heat transfer into the fluid 130. Generally, a conduit receives water and is beneficially being produced from an extruded aluminum profile. A heating element 110 is preferably made of nickel alloy wires that are insulated e.g. by magnesium oxide powder. Generally, power ranges of common devices range e.g. between 500 Watt to 1500 Watt.

(8) Flow-type heating elements are usually mounted in a horizontal or slightly tilted position.

(9) FIG. 2 shows another shape of a flow-type steam generator in a bent manner as already described in the prior art. Here, a U-shaped heat generator is shown. With such a profile, as can be seen from the drawing, it can only partially be filled with fluid 115 in order to be able to generate steam. The heating elements cover almost the entire steam generator with an outer heating element 210 and an inner heating element 220.

(10) FIG. 3 shows various profiles, which can be manufactured by extrusion to manufacture steam generators according to embodiments of the present invention. A conduit filled with fluid 115 on top of the drawing has an inner diameter 303 and an outer diameter 307 and is shown to be accompanied on the side by one heating element 110. In the middle of the drawing, a central conduit is accompanied by two heating elements 110 and 310 which are integrated into tubes 312 and 317, respectively. The heat transfer into the fluid 115 and the amount of steam to be generated can be further increased by using two conduits 115 and four heating elements 110, 320, 310 and 315 as shown in the lower part of the drawing.

(11) The depicted configurations ensure a maximum of heat exchange between the heating elements 110, 310, 315, 320 and the fluid 115 as well as the conduits enclosing the fluid. The heat transfer can be further increased by providing the conduit with an inner profile as shown in FIG. 4.

(12) FIG. 4 shows examples for two inner profiles. One is sort of star-shaped giving a greater inner surface area 455 for heat transfer from the conduit 130 to the fluid 115. The other has ribs 410 inside, which also increases the heat transfer into the fluid 115. The star-shaped conduit surface design 455 form of the cross-section is in particular advantageous for limestone removal, as the sharp edges, along with thermal expansion differences between aluminum and limestone, crack the limestone layer and scale it out from the surface.

(13) Advantageously, to further maximize the effectiveness of limestone removal, a low adhesion surface treatment can be provided such as PTFE coating of the internal surface of the fluid or water conduit.

(14) FIG. 5 shows an example of an embodiment, which can be considered as a preferred embodiment of the invention. It shows a flow-type steam generator 500. Such a device is e.g. typically manufactured from aluminum by extrusion. In this case, the preferably extruded element 500 is bent to be substantially L-shaped as shown in FIG. 5. The angle 580 between the horizontal arm 502 and the vertical arm 504 is preferably 90° or in excess of 90°, beneficially in a range of 90° to 110° or preferably from 91 to 94°. This allows limestone debris in the case that water is evaporated remaining in the vertical conduit 504 to flow downwards out of the steam generator 500 leading to an efficient natural drain of such debris and enhancing cleansing during de-scaling operations. Inlet of Water 105 takes place at the opening of the horizontal arm 502 of the generator pipe, while steam and/or hot water outlet occurs at the opening of the end of the vertical segment 504 where the steam exits 150.

(15) The mounting position is typically critical for the actual component efficiency as it drives the actual heat exchange by the free fluid surface inside and by the actual surface in contact with the fluid, such as defining the fluid transfer surface inside of the steam generator.

(16) The shape of this embodiment unites both, the advantages of a linear flow-type generator mounted horizontally, which fully exploits the heat exchange surface of the horizontal arm 502, and of vertically positioned arms or generators which provide easy evacuation of generated steam, and adaptation to a relatively wide water level range.

(17) Furthermore, heating linear power density can be calibrated over the length of the steam generator, providing higher heat flow at the intake area, where the water inlet 105 is and water presence 130 can always be ensured.

(18) Characteristic preferred values to define a steam generator are: linear power density in terms of Watt/cm, heat exchange rate between heating elements and water duct, heat exchange rate between water duct walls and water to be evaporated.

(19) Further beneficially, a support structure such as a flange 530 can be provided to the steam generator and fixed to it by welding, brazing or any known mechanical fixing method. The support structure 530 may allow the fixture of the steam generator 500 to an appliance directly or by other intermediate supporting elements and also allows the fixture of accessories as safety thermostats or temperature sensors.

(20) A cross-section of the steam generator 500 in the area of the support structure 530 is shown and indicated by 575. It shows the view from a direction 570. Also shown is an enlarged view A of a cable of the heating element 560 and an associated connector 565. Also indicated are conduits for heaters 312 and 317.

(21) FIG. 6 shows an example of a household appliance 600, in particular a steam oven, that has a steam generator 500 built into it and associated tubing 610 and 620 to connect it to a cooking cavity 660 of the steam oven. As can be seen, the steam generator is built into the household appliance 600 wherein the longer arm of the L-shaped steam generator lies horizontal and the shorter arm lies vertical as also shown in the schematic representation in FIG. 5.

(22) Beneficially, the linear power density of such a steam generator varies from 15 to 60 Watt/cm, preferably from 35 to 45 Watt/cm.

(23) Further beneficially, the ratio between the longer and the shorter arm of the steam generator 502 and 504 is between 1.1 to 1.5, preferably between 1.3 to 1.4.

(24) Further beneficially, the angle between the two arms 502 and 504 is beneficially between 90° and 110°, preferably from 91° to 94°.

(25) Advantageously, the internal profile of a conduit maximizing the surface for heat exchange has a ratio between actual section parameter and nominal average diameter in the range of 1.1 to 5, preferably 1.15 to 1.25. Beneficially, the internal average diameter of the water conduit favorably is in the range of 8 to 16 mm, preferably between 11 and 13 mm.

(26) Preferable, the support structure 530 is fixed to the shorter arm 504.

LIST OF REFERENCE NUMERALS

(27) 105 fluid entry 150 fluid exit 110 heating element 130 fluid conduit 115 fluid 150 steam 220 inner heating element 210 outer heating element 303 inner diameter 307 outer diameter 312, 317 conduits for heating elements 310, 315, 320 heating elements 455 star-shaped profile of water conduit 410 rib-shaped profile of water conduit 500 embodiment of steam generator 502 first arm 504 second arm 550 fluid level 505 inner heating element 510 outer heating element 530 support structure 575 top view 570 view direction 565 connector 501 conduit A enlarged view 580 angle between arm 502 and arm 504 600 household appliance 610 tubing 620 tubing