DE3644276A1 - Microwave oven - Google Patents

Abstract

The invention relates to a microwave oven, which consists of a housing with an inspection window F and a microwave generator MG installed in the housing and connectable to an electric voltage source U. The inspection window F exhibits a first flat electric conductor path L1 installed at least in the area of the window edges, which conductor path is connected to a first switching arrangement S1 detecting the interruption of the first conductor path L1. If an interruption occurs, the switching arrangement S1 disconnects the voltage source U from the microwave generator. The first conductor path L1 extends in particular in a meandering way over the inspection window F. <IMAGE>

Description

The invention relates to a microwave oven consisting of a housing with a sight ster and one arranged in the housing, with an electrical voltage source connectable microwave generator.

Known microwave ovens are provided with doors that have a glass pane and one Have metal grid formed from thin wires, glass plate and metal grid prevent microwaves from escaping from the cooker only when intact. In addition, metal grids formed from wires are produced only with relatively great effort deliver. Their installation in the microwave oven is also proportionate complex.

The invention has for its object a microwave oven of the beginning ge Specify named type that automatically in the event of damage to the window switches off.

This object is achieved according to the invention in that the viewing window a first electrical level arranged at least in the region of the window edges Has conductor track and that the first conductor track with a first, the Unterbre Chung the first circuit trace-detecting circuit arrangement connected in In the event of an interruption, the voltage source is decoupled from the microwave generator.  

The first conductor track can be applied to the viewing window in a simple manner. Be Damage to the viewing window, particularly in the area of the window edges interrupt the first trace. The one connected to the first trace standing first circuit arrangement on the one hand causes the microwave to be switched off lenherdes, if the viewing window be during the operation of the microwave oven is damaged and on the other hand prevents the microwave oven from turning on damage to the viewing window.

With the meandering first conductor track, almost all damage is un depending on the location of their appearance on the viewing window.

The first conductor track can easily be made as a relatively thin first metal realize shift.

The second metal layer parallel to the first conductor track enables detection and evaluate further damage to the viewing window.

Further advantageous embodiments of the invention are in the subclaims featured.

The invention will now be explained in more detail with reference to the drawings. It shows

Fig. 1, the viewing window of a microwave oven according to the invention and

Fig. 2 shows an electrical circuit arrangement for protection against the escape of microwaves from the stove.

Fig. 1 shows the window F of a microwave oven having a connectable to an electrical voltage source U's microwave generator MG. The viewing window F has an electrical conductor track L 1 arranged at least in the region of the window edges. According to driving experience, damage to the viewing window F occurs particularly in the area of the window edges. Be occurring there interrupt the first trace L 1 . Illustrated in FIG. 1 meandering first conductor track L 1 is also interrupted when the window F is not damaged in its edge region, but in its inner area. The meandering structure is only shown schematically in FIG. 1 and can have different size ratios than those shown. The width of the conductor track L 1 and the distance between the parallel conductor track sections is selected, inter alia, depending on the mechanical properties of the viewing window F : even relatively small forces impinging on the viewing window F lead to extensive damage to the viewing window F , the distance of the parallel ones can Conductor sections can be chosen relatively large. On the other hand, the same forces only lead to small-area damage to the viewing window F , the distance between the parallel interconnect sections should be chosen to be relatively small. The optical function of the viewing window F must also be taken into account when choosing the conductor track dimensions and the viewing window material. A wide conductor track L 1 and a narrow spacing of the parallel conductor track sections impair the transparency of the viewing window F.

The first conductor path L 1 is connected to a first circuit arrangement S 1 which detects the interruption of the first conductor path L 1 and which, when the conductor path L 1 is interrupted, decouples the voltage source U from the microwave generator MG .

The conductor track L 1 preferably consists of a first metal layer M 1 . The Me tallschicht M 1 is vapor-deposited on the window F or by other well-th process, for example, the thin-film technique, is applied to the window F. Glass material can be applied to the metal layer M 1 , so that a viewing window F is formed with a conductor track L 1 , which is arranged in the interior of the window material. Touches of the conductor track L 1 by operators are thus excluded.

Fig. 2 illustrates the electrical circuitry for protection against the escape of microwaves from the stove. The voltage source U is connected to the microwave generator MG via a controllable switching element. The switching element is controlled by the first circuit arrangement S 1 , which detects the interruption of the first conductor track L 1 or, as will be explained below, by circuit arrangements S 2 , S 3 or S 4 .

Circuit arrangements which, like the circuit arrangement S 1, recognize the interruption of an electrical conductor and emit a first control signal in the event of an interruption and a second control signal in the case of non-interruption are known.

The viewing window F can be provided with an electrically conductive second metal layer M 2 parallel to the plane of the first conductor track L 1 . Both metal layers M 1 and M 2 are separated by a dielectric in each case. The second metal layer M 2 is as M 1 the first metal layer deposited on the window F, or by other methods, for example, applied to the thin-film technique on the window F. The known methods enable the production of electrically conductive and at the same time translucent metal layers which only restrict the transparency of the viewing window F to a relatively small extent.

The second metal layer M 2 extends, for example, across the entire viewing window or, like the first metal layer M 1, is designed as a meandering second conductor track L 2 . In the latter case, the two meandering structures can be arranged one above the other in a congruent manner by a dielectric. The parallel sections of the meandering conductor tracks L 1 and L 2 can also be arranged in parallel planes perpendicular to one another separated by a dielectric. This arrangement prevents polarized waves from emerging from the microwave oven.

The second conductor L 2 is at a second interruption the second Lei terbahn L 2 recognized circuit S 2 is connected. The second circuit arrangement S 2 , which fulfills the same function as the first circuit arrangement S 1 and can therefore be implemented in the same way, controls the switching element arranged between the voltage source U and the microwave generator MG . In the event of an interruption, the circuit arrangement S 2 opens the switching element by means of a corresponding control signal and thus decouples the voltage source U from the microwave generator MG .

Both conductor tracks L 1 and L 2 or the first conductor track L 1 and the second metal layer M 2 , which extends across the entire viewing window F , form an electrical capacitor. Damage to the viewing window F , which leads to an interruption of L 1 and / or L 2 or L 1 and / or M 2 , reduce the capacitance of the capacitor. According to a further embodiment of the invention, the first conductor track L 2 and the second conductor track L 2 or the first conductor track L 1 and the second large-area metal layer M 2 are connected to a third circuit arrangement S 3 , which detects the decrease in the capacitor capacitance. If the capacity falls below a predetermined value, the circuit arrangement S 3 outputs a control signal to the switching element arranged between the voltage source U and the microwave generator MG and effects the separation of the voltage source U and the microwave generator MG .

The second conductor track M 2 or the second metal layer M 2 can also be connected to a fourth circuit arrangement S 4 , which derives a signal voltage from the microwave loading of the second metal layer M 2 via rectifiers. The circuit arrangement S 4 compares the value of the derived signal voltage with a predetermined voltage value characterizing the damage to the second conductor track L 2 or the second metal layer M 2 and, when the derived signal voltage reaches this value, generates a control signal which is the voltage source between the voltage source U and the microwave generator MG arranged switching element opens and thus disconnects the voltage source U from the generator MG .

Claims (8)

1. Microwave oven, consisting of a housing with a viewing window and a arranged in the housing, with an electrical voltage source connectable Ren microwave generator, characterized in that the viewing window (F) has an at least in the region of the window edges arranged first flat electrical conductor track (L 1 ) and that the first conductor track (L 1 ) is connected to a first circuit (S 1 ) recognizing the interruption of the first conductor track (L 1 ), which decouples the voltage source (U) from the microwave generator (MG) in the event of an interruption. 2. Microwave oven according to claim 1, characterized in that the first conductor track (L 1 ) extends meandering over the viewing window (F) . 3. Microwave oven according to one of the preceding claims, characterized in that the first conductor track (L 1 ) consists of a first metal layer arranged in the interior of the window material (M 1 ). 4. Microwave oven according to one of the preceding claims, characterized in that the viewing window (F) has an electrically conductive and translucent second metal layer (M 2 ) parallel to the plane of the first conductor track (L 1 ). 5. Microwave oven according to claim 4, characterized in that the second metal layer (M 2 ) is formed as a meandering second conductor track (L 2 ) and that the second metal layer (MA 2 ) with a second, the interruption of the second conductor track (L 2 ) recognizing circuit arrangement (S 2 ) is connected, which decouples the voltage source (U) from the microwave generator (MG) in the event of an interruption. 6. Microwave oven according to claim 2 and 5, characterized in that he ste and second conductor track (L 1 , L 2 ) are arranged at an angle of 90 ° to each other. 7. Microwave oven according to claim 4, characterized in that the first Lei terbahn (L 1 ) and the second metal layer (M 2 ) with a third, the acceptance from the first conductor track (L 1 ) and the second metal layer (M 2 ) formed capacitance-detecting circuit arrangement (S 3 ) are connected, the voltage source (U ) decouples from the microwave generator (MG) when the capacity falls below a predetermined value. 8. A microwave oven according to claim 4, characterized in that the second metal layer (M 2 ) is connected to a fourth circuit arrangement (S 4 ) which derives a signal voltage from the microwave exposure to the second metal layer (M 2 ) and which when a predetermined level is reached Be damage to the second metal layer (M 2 ) characterizing voltage value decouples the voltage source (U) from the microwave generator (MG) .