FR2673349A1 - Method for controlling a microwave oven and microwave oven employing this method - Google Patents

Abstract

Microwave oven with a magnetron (10) and a rectifying diode (33) at the terminals of the magnetron. The latter is powered by the secondary of a transformer (25) via a capacitor (38). The magnetron is supplied during a limited time at a maximum power greater than the normal operating power. In order to control the magnetron at maximum power, the oven includes a switching (commutation) means (41) which connects the magnetron (10) to the secondary of the transformer (25) via a capacitor (33) with a higher capacitance than the capacitor (38) provided for supplying the magnetron at normal power.

Description

OVEN CONTROL PROCESS
MICROWAVE AND OVEN. MICROWAVE
IMPLEMENTING THIS PROCESS
The present invention relates to a method for controlling a microwave oven, and to a microwave oven implementing this method.

 A microwave oven is usually used to heat various items of different natllres. In one of its applications, this oven is used to defrost, reheat and cook food and drinks. A microwave oven generally comprises a system for producing micro-oids and a compartment receiving these microwaves and serving as a resonance box and enclosure for processing these foods and drinks. A microwave production system in a microwave oven frequently includes a magnetron which provides microwaves and electrical and / or electronic accessories for supplying and controlling this magnetron and for cooling this production system. The magnetron's power and control accessories are, for example, transformers, switches, capacitors, diodes, drive motors, and system cooling accessories are often electric fans. During operation of the oven, the components and accessories that make up the microwave production system come into action and heat both individually and by the influence of thermal conduction or convection. To allow them to maintain a good service life and functioning, these components and accessories must work at individual temperatures not exceeding admissible lirnites. In an improvement of the performance of the oven by an increase in the power of the magnetron, known solutions have proposed to oversize the power supply and control accessories or to cool them further, for example by using a larger number of fans. These known solutions not only lead to an increase in the price of the oven but also an extension of the volume occupied by these components and accessories in this oven at the expense of their food and drink processing compartment for a given dimension of this oven.

 The object of the present invention to avoid these drawbacks is an efficient and economical method of controlling a microwave oven making it possible to improve the performance of this oven.

 The present invention also relates to a microwave oven implementing this method.

 According to the invention, a method of controlling a microwave oven with a microwave production tube such as a magnetron is characterized in that it consists - in the beginning of a treatment cycle of a food or drink to operate this microwave production tube at its maximum power Pn for a time at most equal to a heating time of this microwave production tube or one or more accessories such as a supply transformer for this tube, taken as a reference, that is to say the temperature rise time, from its or their temperature at rest, to its or their predetermined operating limit temperature, and - in the rest of this processing cycle, to work the microwave production tube at a useful preset normal power, lower than its maximum power Pn.

 To better understand the invention, an example of its implementation is described below and illustrated by the appended drawings which represent in - Figure 1 a schematic and partial front view of a micro oven -waves according to the invention, - Figure 2, schematically and partially an electrical circuit of a microwave production system and oven control of Figure 1, and - Figure 3, schematically and partially, a circuit electric of a microwave production system and control of a known microwave oven.

 A microwave oven 1, illustrated schematically and partially in FIGS. 1 and 2, comprises a casing 2 in which a compartment 3 is formed to house a microwave production and control system 5 of the microwave oven 1 and a compartment 6 serving as a resonance box and enclosure for processing food and drinks.

The compartment 6 is closed by a door 7.

 During operation of the oven 1, the food or beverages stored in the compartment 6 and subjected to a thawing, reheating or cooking treatment are flooded by a stream of microwaves, produced by the micro-production system. and control 5, and brought into compartment 6 by a waveguide of a known type not shown.

 The microwave production and control system 5 which is partially and schematically represented in FIG. 2 comprises a magnetron 10 having a predetermined power Pn situated in a power range going from 600 Watts to about 1500 Watts for domestic ovens. microwave.

 In a known microwave oven 12 whose electrical circuit is schematically and partially shown in FIG. 3, a magnetron 14 is supplied with electric current through a transformer 15 and a programmer 17, by an alternating current source 18. In this electrical circuit, the magnetron 14 is connected through a capacitor 19 in series, on the secondary of the transformer 15 and comprises a rectifying diode 20 mounted in parallel so that the cathode of the diode 20 is connected to the anode of this magnetron 14 which is grounded and the anode of diode 20 is connected to the cathode of magnetron 14.

 During a first negative alternation of the voltage at the secondary of the transformer 15, the diode 20 conducts and charges the capacitor 19. During a next positive alternation of the voltage at the secondary of this transformer 15, the diode 20 is blocked and the magnetron 14 becomes conductive in the opposite direction by at least partially discharging the capacitor 19.

 The power of the magnetron 14 is, according to a known regulation, alternately transmitted for a given interval of time and then interrupted for another given interval of time, throughout a cycle of operation. In an operating cycle, the ratio of the set of walking time intervals to the set of rest time intervals plus the set of walking time intervals; gives the average rate of operation of the oven which goes into determining the treatment time.

 Each of the heating or cooking defrost treatments has a particular predetermined treatment time for each of the varieties or groups of varieties of food or drink.

 In the known microwave oven 12, the programmer 17 is preprogrammed and allows both a setting of the walking rate or power setting adapted to a thawing, heating or cooking treatment, and a setting of the treatment time. for each of the varieties or groups of varieties of food or drink.

 In the known microwave oven 12 having a magnetron 14 of given power Pn, the power and control accessories such as the transformer 15, the capacitor 19, the dipod 20, the programmer 17 and the cooling accessories such as 'a fan not shown are usually predetermined in their characteristics according to a compromise which makes it possible to obtain an oven having an attractive cost price, a reduced size, a correct operation and efficiency and a reasonable service life.

 Because of their heating in operation, the power supply, control and cooling accessories associated with the magnetron 14 are chosen for their resistance to admissible limit temperatures which are specific to them in continuous operation. It frequently results from this compromise that at no time during operation of the furnace 12 does the magnetron 14 work at its maximum power Pn. The magnetron 14 only works at a lower power which is a preset normal running power. This is a waste and a weak point for the performance of the known oven 12.

 The present invention avoids these disadvantages.

 According to the invention, a method of controlling a microwave oven with a microwave production tube such as a magnetron consists in the start of a cycle of a treatment of a food or a drink with operate the microwave production tube at its maximum power Pn for a time at most equal to a heating time of this microwave production tube or one or more power supply and cooling accessories microwave production tube taken as a reference such as a transformer, that is to say the temperature rise time, from its or their temperature at rest to its or their predetermined operating temperature limit, and in the rest of this treatment cycle, to work the microwave production tube at a preset normal running power, less than its maximum power Pn.

 In the method of controlling a microwave oven with a microwave production tube such as a magnetron, the operating time of the microwave production tube at its maximum power Pn at the start of a treatment cycle of a food or drink, is preferably less than one minute.

 In an exemplary implementation of the invention illustrated in FIGS. 1 and 2, a microwave oven 1 comprises in its compartment 3 a microwave production and control system 5 having a magnetron 10 as its tube. microwave production.

 In this microwave production and control system 5, the magnetron 10 is supplied with electric current through a transformer 25 and a control device 28 by an alternating current source 30.

 According to the invention, in the microwave production and control system 5 of the microwave oven 1, the magnetron 10 which is provided at its terminals with a rectifying diode 33, comprises on the one hand an anode 35 which connected to the cathode of this rectifier diode 33 is connected to a first end 36 of a secondary of the transformer 25 through first one of the two capacitors in parallel and of different values 38, 39 namely a capacitor with lower capacity 38 intended for operation of the magnetron 10 at a preset normal operating power lower than its maximum power Pn and a capacitor with higher capacity 39 reserved for operation of the magnetron 10 at its maximum power Pn and then a switch 41 establishing an electrical connection of one 38 or the other 39 of these two capacitors to the secondary of this transformer 25, and on the other hand a cathode 37 which connected to the anode of this re diode dressage 33 is connected to a second end 40 of this secondary of this transformer 25.

 The switch 41 is either an electronic switch or an electromechanical switch of a known type. The switch 41 comprises three terminals 44, 45, 46. The terminal 44 is connected to the end 36 of the secondary of the transformer 25 while the terminals 45 and 46 are respectively connected to the operating capacitor 38 of the magnetron 10 at its operating power normal, and to the operating capacitor 39 of the magnetron 10 at its maximum power Pn.

 The commutator it comprises an operating button 50, a timer St and a locking device 52 controlled by a temperature sensor 53, which allow either manual disconnection of a normal electrical connection 44, 45 and manual connection of a electrical connection at preset time 44-46, that is to say a disconnection of the magnetron 10 from its electrical connection allowing operation at its normal operating power and a connection of the magnetron 10 to an electrical connection allowing operation at preset time at its maximum power Pn, when the temperature of this magnetron 10 or of its supply and cooling accessories taken as a reference and entered by the thermal sensor 53 is lower than its operating temperature limit, or a blocking of the button operation 50, that is to say a maintenance of this normal electrical connection 44-45 by the locking device 52 when the t the temperature of this magnetron 10 or of its supply and cooling accessories taken as a reference and entered by the thermal sensor 53 is equal to or greater than its operating temperature limit.

After operation of the magnetron 10 at a preset time at its maximum power Pn through the electrical connection 44-46, the switch 41 is automatically recalled in its normal electrical connection 44-45.

 The control device 28 ctu microwave production system and control 5 of the oven 1 comprises, apart from the switch 41 described above, an electronic or electromechanical programmer of a known type 55. This programmer 55 is preprogrammed, ensures via an operating button 57 switching on or off a primary of the transformer 25, via an operating button 58 selecting a defrosting, reheating or heating treatment cooking according to which an average rate of operation of the magnetron has been established, defined in a previous paragraph, by means of an operating button 59 a choice of treatment time and by means of an electronic circuit d a known type 60, an operating synchronization between the programmer 55 and the switch 41 when the operating power of the magnetron 10 changes.

 In a treatment of a food or a drink, for example a rapid cooking of a dish or a rapid reheating of a tea, this dish or this tea is stored in compartment 6 of the microwave oven 1 then the button 58 is placed in its "cooking" or "reheating" position, the button 59 is turned to a location for a chosen treatment time, then the button 50 is pushed into its operating position at maximum power Pn of the magnetron 10, and finally the button 57 is toggled into the power-on or on position of the oven 1. The magnetron 10 then having its temperature at rest, emits microwaves at its maximum power Pn which accelerate the cooking of this dish or reheating of this tea and gradually warms up. This slow rise in the temperature of the magnetron is due to the thermal inertia of its mass.

 After a preset time when the temperature of the magnetron or of one or more supply and cooling accessories taken as reference, also reaches its operating temperature limit, the switch 41 which works in synchronization with the programmer 55, changes automatically the operating power of the magnetron 10 by unplugging the operating capacitor 39 of the magnetron to its maximum power Pn and immediately connecting the operating capacitor 38 of the magnetron 10 to its normal operating power, and maintaining this normal operating power of the magnetron 10 until the end of the processing cycle, i.e. at the end of cooking the dish or reheating the tea.

 If the chosen rapid processing time is less than the heating time of the magnetron or of one or more of the supply and cooling accessories taken as reference, at its operating temperature limit, the programmer 55 normally stops the operation of the oven at the end of this chosen treatment time and simultaneously the switch 41 is automatically recalled in its normal electrical connection 44-45, that is to say in its connection with the capacitor 38 operating the magnetron 10 at its power of normal walking. In this case, during all this chosen rapid processing time, the magnetron 10 operates at its maximum power Pn.

 Thanks to the invention, the microwave oven 1 has thus shortened the time for processing food or drinks without forcing the magnetron 10 and the supply and cooling accessories to operate above their working limit temperature, therefore without shortening their lifespan and without compromising the quality of treatment.

Claims (10)

 1. Magnetron microwave oven (10) and rectifier diode (33) at the terminals of this magnetron, the latter being supplied by the secondary of a transformer (25) via a capacitor (38) , a means being provided for supplying, for a limited time, the magnetron at maximum power (Pn), greater than the normal operating power, characterized in that, for controlling the magnetron at maximum power (Pn) the oven comprises means switch (41) to connect the magnetron (10) to the secondary of the transformer (25) via a capacity (39) of greater value than the capacity (38) provided for supplying the magnetron at normal power .  2. Oven according to claim 1, characterized in that it comprises means so that the operation of the magnetron at maximum power (Pn) takes place for a preset time.  3. Oven according to claim 1 or 2, characterized in that it comprises a temperature sensor (53) for detecting the temperature of the magnetron (10) or of a supply accessory, the supply at maximum power of the magnetron only performed when the temperature of the magnetron or the accessory is below a limit operating temperature.  4. For according to any one of the preceding claims, characterized in that the switching means (41) comprises an electromechanical switch.  5. Oven according to claim 2, characterized in that the operation of the magnetron at its maximum power (Pn) has a duration of less than one minute.  6. Oven according to claim 2, characterized in that after the preset time the switching means is automatically brought into a position allowing the normal power supply of the magnetron.  7. Oven according to claim 3, characterized in that when the temperature of the magnetron or of the accessory reaches the limit value the switching means is automatically brought into a position allowing the normal power supply of the magnetron  8. For according to claim 3, characterized in that when the temperature of the magnetron or of the accessory reaches the limit value the switching means is locked in the position of supply of the magnetron at normal power.  9. Oven according to any one of the preceding claims, characterized in that it comprises a programmer (55) enabling the primary of the transformer to be switched on or off (25), a selection of a thawing treatment, reheating or cooking and a choice of treatment time.  10. Oven according to any one of the preceding claims, characterized in that it comprises a synchronization of the operation between the programmer (55) and the switching means (41) during a change in operating power of the magnetron (10 ).