EP0029532A1 - Combined stove for microwave and for conventional resistance heating - Google Patents

Abstract

Combined stove for microwave and conventional resistance heating operation, which is equipped with a device for pyrolytic cleaning of the cooking space (1) and a cooling air system (23) and in which one in the bottom of the cooking space (1) is covered tightly by a glass ceramic plate (8) Window opening (16) is provided, below which a microwave coupling housing (17) with a microwave energy generation and supply device (19, 20) is attached. To prevent condensation on the parts of the microwave energy generation and supply device (19, 20) in the microwave coupling housing (17) via air supply openings (22) against the sealing area (10, 11, 13) for the through the glass ceramic plate (8) covered window or coupling opening (16) directed overpressure.

Description

The invention relates to a combined cooker for microwave and conventional resistance heating operation, which is equipped with a device for pyrolytic cleaning of the cooking space and a cooling air system and in which a window opening which is tightly covered by a glass ceramic plate is provided in the floor of the cooking space, beneath which a microwave coupling housing with a microwave energy generation and supply device is attached.

A stove of this type is known from DE-A-27 15 655. As is known, when the cooking chamber is operated with resistance heating elements during the baking or roasting process, moist vapors occur to a considerable extent, which penetrate everywhere and subsequently condense and thereby contaminate the relevant parts of the appliance through their precipitation. In the case of sensitive electrical components in particular, their operational safety can be considerably impaired. In order to avoid such condensation precipitation on the extremely sensitive microwave energy generation and supply device, the glass ceramic covering the window opening in the bottom of the cooking space Plate attached with the interposition of a high-temperature-resistant all-round seal. It has now been shown, however, that such a seal takes up fat and the like during normal operation of the cooking space and stores it initially. If the cooking chamber of a stove of the type mentioned at the beginning is subjected to pyrolytic heat cleaning at certain intervals, which is known to be carried out at temperatures around 500 ° C. and above, this has the consequence that, due to the high cooking chamber temperatures, that in the seal for the glass ceramic -Plate grease deposited or diffused therein and the like. Is removed again by evaporation of the seal. This grease vapor or the contaminated gases escaping from the seal now evaporate in all directions or directions, and some of it also reaches the microwave energy generation and supply device located below the glass ceramic plate. There, the fat vapor condenses and affects the sensitive parts, such as the magnetron and the antenna of the microwave energy generating device. Over time, this precipitation leads to such contamination of these parts that their operational safety is endangered and premature failure is to be expected.

The invention seeks to remedy this. The invention, as characterized in the claims, solves the problem of designing a cooker of the type mentioned at the outset in such a way that a condensation precipitation of the grease vapor or the contaminated gas escaping, in particular, from the seal for the bottom-side glass ceramic plate the microwave energy generating device is practically avoided with simple design measures.

The advantages achieved by the invention are essentially to be seen in the fact that the fat vapors and other contaminated gases diffusing out of the seal, especially during the heat cleaning process, into one of the Microwave energy generation and supply device are directed opposite flow direction, so that the vapors and gases are kept away from these parts and thus a settling on these parts and an associated contamination is excluded. As a result, the operability and thus the service life of the microwave energy generating parts is considerably extended and the maintenance and maintenance costs of such cookers are kept down.

• Figur 1 einen kombinierten Herd bzw. Brat- und Backofen für Mikrowellen- und konventionellen Widerstands-Heizbetrieb im Vertikalschnitt,
• Figur 2 einen vergrößerten Teilausschnitt aus diesem Herd,
• Figur 3 bis 5 weitere Teilausschnitte verschiedener Ausführungsmöglichkeiten.

Embodiments of the invention are shown in the drawing and are described in more detail below with reference to this. Show it

• FIG. 1 shows a combined stove or roasting and baking oven for microwave and conventional resistance heating operation in vertical section,
• FIG. 2 shows an enlarged partial section from this hearth,
• Figure 3 to 5 further partial sections of different design options.

The cooking space 1 shown of a cooker or a roasting and baking oven has a conventional electric jacket tube heating element 2 on the top side, guides 3 arranged laterally for baking trays and the like, and on the back a receiving device 4 for a grill or hot air device. On the front side, the cooking space 1 can be closed by a cooking space door 5. A recessed area is provided in the bottom 6 of the cooking space 1, which is designed as a rectangular window opening with a circumferential flange 7, which is preferably covered towards the cooking space 1 by a glass ceramic plate 8 resting on the flange 7. The glass ceramic plate 8 lying thereon is secured in its recessed position by a circumferential fastening frame 9 which is screwed to the bottom 6 of the cooking space. The mounting frame 9 is supported under Zwi position of a high temperature resistant double seal 10 and 11 on the one hand on the bottom 6 of the cooking space 1 and on the other hand on the glass ceramic plate 8. The glass ceramic plate 8 is in turn placed on the flange 7 with the interposition of a further seal 13. A gap 15 is formed between the glass ceramic plate 8 and the raised edge 14 of the flange 7, so that the glass ceramic plate 8 can expand unhindered when heated. Below the glass ceramic plate 8 in the area of the so-called. Coupling opening 16 for the microwave energy is a pot-like so-called. Coupling housing 17 is attached to the underside of the flange 7, the dimensions of which are adapted approximately to the window or coupling opening 16 and are expediently encased with an insulating body 18.

In order to be able to introduce microwave energy into the cooking space 1, a magnetron 19 is provided. The microwaves (energy waves) are emitted into a waveguide 21 via an associated antenna 20 and from there reach the interior of the coupling housing 17 and then through the coupling opening 16 covered with the glass ceramic plate 8 into the cooking space 1.

As already explained at the beginning, the seals 10, 11, 13 absorb grease and other impure substances during operation of the cooking space 1, which then evaporate (diffuse out) from the seals, in particular during the pyrolytic heat cleaning process, and then evaporate as gases in all directions. The vapors or gases also get into the waveguide 21 and from there unhindered to the antenna 20 of the magnetron 19, as shown in FIG. 2 by an arrow 31. The vapors or gases then precipitate on the antenna 20, as a result of which this is covered with a layer of dirt over time. The consequence of this is premature failure of the microwave energy generating device. In order to prevent this device from becoming dirty, air is supplied via air in accordance with FIG tion openings 22 at the back of the waveguide 21 pressed in this and thus a counter or an overpressure against d _L e in the waveguide 21 flowing vapors and gases generated or built up there. Since the air introduced into the waveguide 21 is derived from the cooling air flow in the hearth generated by a fan, the counterpressure or excess pressure of the introduced air is substantially above the pressure of the vapors and gases emerging from the seals 10, 11, 13. As a result, these vapors and gases are kept away from the antenna 20 of the magnetron 19 and contamination of the latter is avoided. It is expedient to connect an air guide line 23 upstream of the air guide openings 22 in the waveguide 21 in order to be able to introduce or press the air into the coupling housing 17 in a targeted manner. This air guide line 23 can expediently be connected directly to the cooling air system of the cooker.

In a further development of the invention according to FIG. 3, in the upper region of the side wall 17 'of the pot-like coupling housing 17 for the coupling opening 16, annular air outlet openings 24 are provided for discharging the air flow guided through the waveguide 21 and the coupling housing 17. The air outlet openings 24 are in turn connected to an annular channel 30 provided in the insulating body 18 for the pot-like housing 17, which is connected to one or more vertical shafts 25 which then each end with an opening 26 on the bottom side. Since the air outlet openings 24 are located directly in the next area below the seal 13, the vapors and gases diffusing out of the seal are immediately enveloped by the throughput air flow emerging from the coupling housing 17 and entrained to the air outlet openings 24, so that these vapors and Gases in the waveguide 21 is excluded with the greatest security. In the shaft 25 leading downwards, the vapors, gases, Air led out through the shaft opening 26. The air throughput through the shaft 25 can be determined by appropriate dimensioning of the shaft opening 26.

In the exemplary embodiment according to FIG. 4, openings 27 which connect gap 15 between glass ceramic plate 8 and raised edge 14 of flange 7 and shaft 25 are arranged in peripheral flange 7 for glass ceramic plate 8. As a result of the suction effect occurring or formed in the shaft 25 or the negative pressure formed there, the vapors and gases diffusing out of the seals 10, 11 are already discharged through the shaft before penetration into the seal 13 and the area of the coupling opening 16.

FIG. 5 shows an exemplary embodiment in which the gap 15 between the glass ceramic plate 8 and the raised edge 14 of the flange 7 via openings 28 on the one hand with the shaft 25 and on the other hand via further openings 29 in the flange 7 with an adjoining channel 30 with the outlet openings 24 is connected in the side wall 17 'of the coupling housing 17 of the coupling opening 16. This ensures that the gap 15 in connection with the individual seals 10, 11, 13 is continuously blown with fresh air from the cooling system of the cooker, so that there is no grease vapor or gas accumulation from the outset. A diffusion of fatty substances, especially in the seal 13, which is directly connected to the coupling opening 16, is completely excluded from the outset with this solution.

Claims (10)

1. Combined stove for microwave and conventional resistance heating operation, which is equipped with a device for pyrolytic cleaning of the cooking space (1) and a cooling air system (23) and in which one in the bottom of the cooking space is sealed by a glass ceramic plate (8) covered window opening (16) is provided, below which a microwave coupling housing (17) with a microwave energy generation and supply device (19, 20) is attached, characterized in that in the microwave coupling housing (17) via air supply openings ( 22) an overpressure directed against the sealing area (10, 11, 13) for the window or coupling opening (16) covered by the glass ceramic plate (8) is formed (FIG. 1). 2. Cooker according to claim 1, characterized in that the coupling housing (17) via lateral inlet openings (24, 28, 29) is connected to an open shaft (25) in which a negative pressure is generated by the cooling air system of the cooker ( Fig. 5). 3. Cooker according to claim 2, characterized in that the air outlet openings (24) in the side wall (17 ') of the coupling housing (17) are arranged and in the coupling housing (17) a pressure directed against the air outlet openings (24) is formed (Figure 3, 5). 4. Stove according to claim 2, characterized in that the shaft (25) is connected to the cooling air system (Figure 3,4,5). 5. Cooker according to claim 1, characterized in that the coupling housing (17) via openings (22) of the associated waveguide (21) air is supplied from the cooling air system of the cooker (Figure 1). 6. Cooker according to claim 5, characterized in that the air duct openings (22) is preceded by an air duct (23) (Figure 1). 7. Stove according to claim 1, characterized in that the glass ceramic plate (8) with a gasket (13) placed on a window or coupling opening (16) delimiting flange (7) and by a mounting frame (9) with the interposition of a seal (10, 11) resting on the cooking chamber floor (6) and on the other hand on the glass ceramic plate (8) is pressed against the flange (7) and between the glass ceramic plate (8) the raised edge ( 14) of the flange (7) an air gap (15) is formed. 8. Stove according to claim 7, characterized in that the air gap (15) via openings (27, 28) with the vacuum shaft (25) is connected (Figure 4, 5). 9. Cooker according to claim 7 or 8, characterized in that the air gap (15) via openings (29) in the flange (7) and a channel (30) with openings (24) with the housing (17) of the coupling opening (16) is associated (Figure 5). 10. Cooker according to claim 1, characterized in that the shaft (25) is provided in an insulating body (18) enclosing the coupling housing (17).

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