FR2868151A1 - INTERNAL VENTILATION OF A MICROWAVE OVEN - Google Patents

Abstract

The ventilation has openings (5) situated in an upper zone at a front side of a microwave oven, above a door that closes a cooking cavity (2), where air enters via the openings (5) and traverses a technical zone by a ventilator (11). Two turbines of the ventilator divide the air flow into two flows that traverse respective technical zones before joining at a specific zone and are expelled via openings (6) at a lower zone of the oven.

Description

INTERNAL VENTILATION OF A MICROWAVE OVEN.

  The present invention relates to the internal ventilation of a built-in microwave oven comprising an outer enclosure intended to be inserted in a niche located in a kitchen unit.

  More specifically, the invention proposes to provide the internal ventilation of said enclosure, the areas to be ventilated in this chamber being of two types: the areas to be cooled on the one hand and the areas to be dried on the other hand. The areas to be cooled are all electrical or electronic components which, by the Joules effect, give off heat. The zones to be dried are those that are present inside the cooking cavity, namely, in particular, the door and the walls of this cavity on which the water vapor, emitted during the heating of the food by the microwaves. waves, tends to condense.

  It is therefore necessary to provide an air circulation inside the oven, as well as, of course, the inlet and outlet orifices of this air.

  The known microwave ovens have, for many of them, at least one of these orifices located on a face other than the front face. This requires a recess providing a natural air circulation space and to bring the air inlets and outlets in the plane of the front of the oven or to provide a chimney on the back of the cabinet Recessed. The patent application US4332993 for its part describes a device which is positioned on the air inlet and outlet openings disposed on the top of the oven and which, by the presence of a turbine, ensures the entry and exit of the air in the enclosure of said oven.

  Such systems all have the following constraint: it is necessary to provide a recess recess of dimensions greater than the overall dimensions of the apparatus.

  A common constraint of these devices, particularly if one wants a niche with the smallest possible dimensions, is the need for a ventilation chimney in the kitchen furniture.

  The object of the invention is to provide a built-in microwave oven does not impose any constraint on the niche to receive it, it simply presenting the standard dimensions proposed by kitchen furniture manufacturers. The invention thus facilitates the integration of said oven in a kitchen. The invention proposes, moreover, to do it economically.

  According to the invention, the air circuit inside the microwave oven is as follows: the air enters through the air inlet located in the upper zone of the front of the oven, above the door , it passes through a first technical area being sucked by the fan, before being divided into two streams at the output of the fan. The first flow passes through a second technical zone then will dry the door, then the inside of the cooking cavity, before joining a fourth technical zone. The second flow goes through a third technical zone before joining the fourth technical zone. Both flows are expelled by the air outlet located in the lower area of the oven, below the door.

  Thus the ventilation of the entire interior of the oven is ensured.

  There is a first technical area, where is placed the control electronics and, ideally, the power electronics. According to the invention, this zone, between the air intake and the fan, is slightly depressed and bathed by fresh air from the atmosphere of the room.

  The magnetron, placed, according to a preferred characteristic of the invention, in the second technical zone, cools by heating the flow that passes through it before being introduced into the cooking cavity, allowing this heated air to increase its capacity. dewatering the cooking cavity and reheating the door and the walls of said cavity to prevent condensation.

  Finally, the supply of the magnetron, ideally placed in a third technical zone and preferably in the lowest part of this zone, is cooled by the third flow, while being advantageously positioned in the lower part of the furnace. This positioning in the lower part facilitates the design of the device, said power supply being a high mass member and therefore constraining the structure.

  In addition, an interesting consequence of this device is that it allows to use an economical fan comprising a single motor driving two turbines.

  According to a particularly advantageous characteristic of the invention, the water vapor that escapes from heated food and has a natural tendency to rise once it is no longer in an imposed circuit, comes out in the lower part. from the oven. Thus it has time to dilute in the air before risking to be deposited on the cabinet wall located immediately above the oven. This preserves the aesthetic and functional qualities of the piece of furniture.

  In a preferred embodiment of the invention, the outlet of the first flow which has passed through the cooking cavity is effected in the upper part thereof. This flow then descends through a fifth technical area located between the side walls of the chamber and the cavity before finding the second stream in the fourth technical area. This gives it time to cool down before being expelled outside the oven.

  Other features and advantages of the invention will become apparent from the following description, given by way of non-limiting example, with reference to the accompanying drawings in which: - Figure 1 is a perspective view of a micro oven -ondes 35 according to the invention; FIG. 2 is a view similar to that of FIG. 1 and more particularly illustrates zone 4a and the manner in which air circulates in said zone; FIG. 3 is a view similar to that of FIG. 1 and illustrates more particularly the zone 4b and the manner in which the air circulates in said zone - FIG. 4 is a view similar to that of FIG. 1 and more particularly illustrates the zone 4c and the manner in which the air circulates in said zone - FIG. is a view similar to that of Figure 1 and more particularly illustrates the zone 4d and the way the air circulates in said zone; and FIG. 6 is a view similar to that of FIG. 1 and more particularly illustrates zone 4e and the manner in which the air circulates in said zone.

  In Figure 1 there is shown a perspective view of a microwave oven according to the invention. This view makes it possible, in particular, to clearly visualize the various components that will intervene in the description that follows. Of course, many components such as those involved in driving the tray of the oven or its lighting are not represented or described here because they do not differ from devices well known to those skilled in the art and present on current ovens.

  Figures 1 and 2 illustrate the flow of air in the technical area 4a.

  According to the invention, by the suction of the fan 11, the air enters the zone 4a through the openings 5 located on the front of the oven, between the front door 3 and the control panel 8. It cools the electronic components 7 which are located behind the control panel and / or in other locations within said area 4a. Then it enters one of the two turbines llb or lic of the fan, said turbines both being rotated by the motor lla.

  Thus, according to the invention, the technical zone 4a is in depression due to the suction provided by the fan 11.

  The fact that the fan 11 is formed of a motor 11a and two turbines 11b and 11c is very advantageous economically.

  However, it may be envisaged to replace it with two fans with a single turbine without departing from the scope of the invention.

  Figures 1 and 3 illustrate the flow of air in the technical zone 4b.

  According to the invention, the technical zone 4b is formed of a first air guide 12, the magnetron 9 and a second air guide 13. This technical zone 4b is bathed by the flow b from the turbine 11b . The first air guide 12 directs the flow under pressure towards the magnetron 9. As an indication, inside the air guide 12, the air is at a temperature within a range of 35 to 55 ° C. and preferably 45 C. The said magnetron 9 is crossed and thereby cooled by the flow b. The flow b is then directed towards the front of the oven thanks to the air guide 13 which communicates with the cooking cavity 2 through inlet openings (not shown) in the sheet forming the upper wall of the cooking cavity 2 , said inlet openings being located just above the door 3. The stream b has been heated through the magnetron 9, it has gained about 40 C, then in a temperature range between 75 and 95 C , It has thus, interestingly, increased its ability to heat and dry the interior of the door 3 and the elements of the cooking cavity 2 in order to avoid condensation.

  Figures 1 and 4 illustrate the air flow 30 in the technical area 4c.

  According to the invention, the turbine 11c directly blows the flow c on the supply 10 of the magnetron 9, which is one of the elements present in the technical zone 4c, in order to cool it, in compliance with the standards in force, while ensuring good aptitude for the function.

  Other components may be present in this technical area 4c, but they are not directly concerned by this invention and have therefore not been represented.

  According to a preferred characteristic of the invention, the supply 10 of the magnetron 9 is in the lower part of the technical zone 4c and therefore in the lower part of the furnace. This position is particularly interesting for economic reasons. Indeed, in this position, the power supply 10 of the magnetron 9 is directly fixed on the bottom of the oven and it is not necessary to provide a reinforced area to receive it, as may be necessary if said power supply. 10 of the magnetron 9 was placed in height.

  The technical zone 4c is separated from the technical zones 4d and 4e by a perforated wall 14 whose main role is to maintain the cavity 2 in position. The number and the position of the openings 15 present in this wall can be modulated, without departing from the scope of the invention, as long as it is provided at least one opening 15 allowing the flow c to join the technical zone 4e, either directly , or via technical zone 4d.

  Figures 1 and 5 illustrate the air flow in the area 4d.

  In a preferred embodiment of the invention, the flow b comes out of the cooking cavity 2 through outlet openings (not shown) located in the upper part of the cooking cavity 2, said outlet openings being on the upper wall of the cooking cavity 2, or in the upper part of the vertical walls of the cooking cavity 2.

  Once out of the cooking cavity 2, the flow b is guided to the technical zone 4d which is located on one side of the oven, or preferably on both sides thereof.

  According to the invention, the stream b then joins the bottom of the furnace to the technical zone 4e.

  Figures 1 and 6 illustrate the air flow in the area 4e.

  According to the invention, the streams b and c meet in the technical zone 4e before leaving the oven through the openings 6 positioned in the lower part of the front facade of the oven, below the door 3.

  It is conceivable, without departing from the scope of the invention, as a function of the number and arrangement of the openings 15 as well as the ratios of the pressures of the streams b and c, that the mixing of the streams b and c starts in the boundary zones between technical areas 4c and 4d. This does not affect the efficiency of the ventilation performed. Indeed, once in the technical area 4d, the stream b is no longer useful and its temperature may be any. As for the flow c, it is blown directly on the supply 10 of the magnetron 9 and creates a movement of air in the immediate vicinity of the supply 10 of the magnetron 9, preventing the arrival of parasitic flows whose temperature could be higher that of said stream c. The conditions of good operation are therefore not affected by the possible non-control of the mixing zone of flows b and c.

  It is also conceivable, without departing from the scope of the invention, that the streams b and c are fully channeled to outlet openings 6 dedicated to each flow, and that, therefore, they do not mix inside. of the enclosure 1 of the oven.

  According to one embodiment of the invention, the power supply 10 of the magnetron 9 is a high voltage transformer. It is equally conceivable whether it is a switching power supply or inverter.

  In the same way, it is also conceivable in another embodiment of the invention that the air inlet 5 is located, still in the upper part of the front of the oven, but above the control strip 8 or it is separated into several openings around the control panel 8.

  An interesting consequence is that an oven according to the invention makes it possible to preserve the furniture present around said oven. Indeed, the moist air discharged at the outlet of air 6 will not go directly to lick the furniture located above the recess of the oven. It will have time to dilute and therefore have a lower moisture content before coming into contact with colder surfaces and likely to fear moisture.

  Another interesting consequence of the invention is that the fan 11 being relatively far from the air outlet 6, the speed of the air leaving the oven is not very high and thus reduces the risk of discomfort for the user standing in front of the oven. The user feels less air flow than if the fan was in the immediate vicinity of the outlet. Moreover, still thanks to the relatively large distance traveled by the flows inside the chamber 1, the air output is at a temperature substantially lower than that which is generally found at the output of this type of chamber. 'apparatus. The air expelled from the oven according to the invention has a temperature in the range between 35 and 55 C and ideally close to 45 C.

  The characteristics described above are those of a microwave oven using this single cooking means, but the invention can also be applied to an oven having, in addition to the microwave cooking mode, other cooking modes that can operate alone. or in combination, such as a grill mode (direct heating through a shielded resistor, a quartz or a halogen) or a rotating heat mode (injection into the cavity, through a fan, air heated using armored resistance).

  The invention responds to the need to provide internal ventilation of a built-in microwave oven, in a simple, effective and economical way and allowing embedding in any integrated kitchen niche having standard dimensions without imposing on it in said niche of specific areas to ensure the flow of air and that in the best respect of the surrounding furniture and comfort of the user.

Claims (9)

  1. Internal ventilation of a built-in microwave oven comprising an enclosure 1, a cooking cavity 2 closed by a door 3, an air inlet 5, an air outlet 6, a fan 11, a technical zone 4a comprising at least one electronic card 7, a technical zone 4b comprising a magnetron 9, a technical zone 4c comprising a power supply 10 of the magnetron 9 and a technical zone 4e located upstream of the air outlet 6, characterized in that the air circuit inside said oven is as follows.   a) the air enters through the air inlet 5 located in the upper zone of the front face of the oven, above the door 3, b) it passes through the technical zone 4a being sucked by the fan 11, c) it is divided into two flows at the outlet of the fan 11, a flow b and a flow c, d) the flow b passes through the technical zone 4b and then will dry the door 3 20 and then the inside of the cooking cavity 2 before join the technical zone 4e, e) the flow c crosses the technical zone 4c before joining the technical zone 4e, f) the flows b and c are expelled by the air outlet 6 located in the lower zone of the oven, below of the door 3.   2. Internal ventilation of a built-in microwave oven according to claim 1, characterized in that during its crossing of the technical zone 4b the flow b is heated by cooling the magnetron 9 before entering the cooking cavity 2 .   3. Internal ventilation of a built-in microwave oven according to any one of the preceding claims, characterized in that the stream c comes to cool the supply 10 of the magnetron 9 located at the bottom of the technical zone 4c.   4. Internal ventilation of a built-in microwave oven according to any one of the preceding claims, characterized in that the fan 11 comprises a single motor lia driving two turbines llb and llc respectively blowing the flow b in the technical zone 4b and the flow c in the technical zone 4c.   5. Internal ventilation of a built-in microwave oven according to any one of the preceding claims, characterized in that the flow b leaves the cooking cavity 2 through an opening in the upper part of said cavity and joins the 4th technical zone crossing the technical zone 4d.   6. Internal ventilation of a built-in microwave oven according to any one of the preceding claims, characterized in that the flows b and c meet in the technical zone 4e before being expelled from it by the exit 6 located in the lower zone of the oven, below the door 3.   7. Internal ventilation of a built-in microwave oven according to any one of the preceding claims, characterized in that the supply 10 of the magnetron 9 is a transformer.   8. Internal ventilation of a built-in microwave oven according to any one of the preceding claims, characterized in that the supply 10 of the magnetron 9 is a switching power supply or inverter.   Internal ventilation of a built-in microwave oven according to any one of the preceding claims, characterized in that the cooking cavity 2 comprises additional heating modes such as a grill or a heat-baking device. rotating.