JPS62285393A - Heating appliance for combined microwave apparatus - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

Detailed Description of the Invention 3. Detailed Description of the Invention (Field of Industrial Application) The present invention relates to an improvement to a heating appliance of a combination microwave device.

BACKGROUND OF THE INVENTION Microwave devices are becoming popular throughout the world and their share of the market is constantly increasing. Recently, so-called combination microwave devices have gained in importance in that in addition to microwave features, supplementary infrared heating units are added to the browning or roasting cooking process. In these combined devices, browned and/or roasted foodstuffs can be obtained in exactly the same way as in baking ovens, and the roasting process is simultaneously enhanced by microwavelengths. Supplementary infrared heating elements that are conventionally utilized are heating elements that exhibit a radiator (heating conductor) temperature of about 900-100 OK.

Problems to be Solved by the Invention However, with infrared heating, the complete cooking process and its respective walls become hotter than in the case of mere microwaves. In particular, the infrared heating rods and the rear surfaces of these heating rods are contaminated even if the heating temperature is below a o o'c. Even if it is possible to cover these heat-generating rods to protect them from contamination, as a general rule, the thermal energy and heat conductor temperature must pass through this cover sufficiently to achieve a roasting and baking result. However, existing covering materials are not satisfactory.

The object of the invention is to eliminate the disadvantages of unsatisfactory roasting and baking results, while at the same time protecting the heat radiating body and the cooking surface placed behind it.

Insofar as the microwave feed-in occurs within the microwave apparatus, the area of the microwave feed-in should at the same time be protected from contamination.

(Means for solving problems) The above object is achieved by the following heating device.

(1) consisting of a radiant heating element having a temperature of at least 1150° C., characterized in that the heating filament is at least partially covered with an infrared heating element glass-ceramic having low microwave energy absorption; h0 heating appliance for microwave equipment.

(2) The heating device according to item 1 above, characterized in that the radiant heating element is an electric heating resistance wire fixed in or on the surface of a highly insulated support by a suitable method, and is mutually constituted with the heating element. .

(3) The heating appliance according to item 1 above, wherein the radiant heating element is composed of a halogen lamp.

(4) The heating appliance according to item 1 above, wherein the radiation-emitting heating element is a quartz radiator.

(5) The heating appliance according to item 2 or 3 above, which is formed by a combination of a heating coil and a heating lamp.

(6) made as a heating module consisting of an insulating molded body, a heating conductor and each halogen lamp, a glass-ceramic cover and, if necessary, a temperature protection element and/or a regulator; 4. The heating appliance according to any one of items 1 to 3 above, which is attached to a device.

(7) characterized in that the glass-ceramic cover is made to be able to be mounted directly over the microwave foot-in, characterized in that it serves at the same time to cover the microwave foot-in into the gas space of the microwave apparatus; The heating appliance according to item 6 above.

(9) The heating device according to any one of items 1 to 6 above, wherein the glass ceramic used is MK-containing high pyroxene Kasura ceramic that exhibits low microwave absorption.

By using a radiant heating element with a high radiant temperature, it is possible with a sufficiently temperature-stable and radiation-transparent glass-ceramic cover according to the invention, on the one hand, to roast and bake foodstuffs well, and On the other hand, the cover protects the heat radiator from direct contamination.

It is essential to the invention that the glass-ceramic cover used is on the one hand at least partially infrared transparent and on the other hand exhibits low microwave absorption. Transparent glass-ceramics that have been used in the past generally absorb microwave energy too strongly. On the other hand, strictly speaking, glass-ceramics, which are broadly transparent to microwave energy, exhibit little transparency to infrared radiation.

The radiant heating element used may be any desired suitable infrared radiator, such as a resistance wire, a halogen lamp, a quartz radiator or a combination of different suitable radiators.

EXAMPLES Example 1 FIG. 1 shows an example generally in accordance with claim 6 of the present application. Microwave energy is supplied into the microwave cooking chamber 1 through the bottom 2. The heating module 4 is mounted on the top wall of the cooking chamber. The heating conductor 5 of this heating module is therefore radiated from above onto the food to be baked. To the rear and to the directly adjoining sides, the walls of the cooking chamber are protected from overheating by insulation formations 3. At the same time, the heating conductor 5 is attached to this insulating molded body. To the bottom, to the cooking chamber, the heating conductor is covered by a glass-ceramic plate 7. The glass-ceramic plate is mounted on the housing 8 of the heating module 4 by suitable mounting means.
is attached to. The temperature protection element 6 integrated in the heating module 4 contributes to temperature regulation and/or temperature regulation of the heating module 4 .

Embodiment 2 FIG. 2 depicts another embodiment substantially in accordance with claim 7 of the present application. In this device, microwave energy is supplied to the microwave cooking chamber 1 from above 2. Heating module 4 with insulating molding 3, heating conductor 5, glass-ceramic cover 7 and temperature limiter 6
is in this case arranged on the underside of the top wall of the galley. For this purpose, the heating conductor radiates onto the food and burns it from above. The glass-ceramic cover 7 in this device not only protects the heating conductor from contamination but also simultaneously supplies the microwave to the cooking chamber of the microwave head.

Due to the low microwave absorption of the rough ceramic 7, microwave energy can enter the cooking chamber with low losses.

Although a glass ceramic cover can be made into a play 1 as shown in Figures 1 and 2, it is entirely possible to provide the cover with compressed or blow molded channel material.

EFFECTS OF THE INVENTION By using a radiant heating element with a high radiant temperature, the sufficiently temperature-stable and radiation-transparent glass-ceramic cover according to the invention makes it possible, on the one hand, to thoroughly roast and bake food products. On the other hand, the cover protects the heating radiator from direct contamination.

[Brief explanation of the drawing]

1 and 2 are straight sectional views of a heating device according to the invention. DESCRIPTION OF SYMBOLS 1... Cooking chamber, 3... Insulating molded body, 4... Heating module, 5... Heating conductor, 7... Glass ceramic board.

Claims (9)

[Claims] (1) consisting of a radiant heating element with a radiator (heating resistor) temperature of at least 1150 K, characterized in that the heating filament is at least partially covered with an infrared transparent glass-ceramic with low microwave energy absorption; Heating equipment for microwave equipment. (2) The radiant heating element is an electrically heated resistance wire fixed in or on the surface of a highly insulating support by a suitable method, and is mutually constituted with the heating element. heating appliances. (3) The heating appliance according to claim 1, wherein the radiant heating element is composed of a halogen lamp. (4) The heating appliance according to claim 1, wherein the radiant heating element is a quartz radiator. (5) The heating appliance according to claim 2 or 3, characterized in that it is formed by a combination of a heating coil and a heating lamp. (6) manufactured as a heating module consisting of an insulating molding, a heating conductor and each halogen lamp, a glass-ceramic cover and, if necessary, a temperature protection element and/or a regulator, and which heating module is installed as a complete unit in a microwave device; The heating appliance according to any one of claims 1 to 3, wherein the heating appliance is installed. (7) The glass-ceramic cover serves at the same time to cover the microwave feed-in into the gas space of the microwave device, as claimed in any one of claims 1 to 5. heating equipment. (8) Heating appliance according to claim 6, characterized in that the heating module is made such that it can be mounted directly on top of the microwave feed-in. (9) The heating device according to any one of claims 1 to 6, wherein the glass ceramic used is an MK-containing spodumene glass ceramic that exhibits low microwave absorption. .