SE504126C2 - Microwave ovens and process for its manufacture - Google Patents

Abstract

The dish has a base (12) provided externally with a coating (18) absorbing microwaves made of a moulded material in a monoblock assembly having supports (22,24,26) moulded in to maintain the base (12) of the dish at a given height (H) above the surface of which it rests. Also claimed is prodn. of the dish base by direct moulding. USE/ADVANTAGE - Microwave oven dish, partic. a browning plate for roasts, pizza bases, tarts, pies etc. Gives rapid uniform heating to the base of the dish without conduction of heat through the supports as occurs if they are formed from extensions of the dish base (12).

Description

10 15 20 25 30 504 126 Barrels are known in which the coating which absorbs microwaves is provided but in the form of a cast material containing ferrites, this coating having a thickness substantially in the order of 1 to 3 mm.

These known barrels are generally provided with feet in one piece to hold the barrel bottom at a certain height above the adjusting surface (bottom of the oven or rotating plate) on which dish is placed in the oven. This allows to ensure a circulation of micro- the waves under the barrel and consequently an optimal effect of these on the absorbent the coating.

In the known containers of this type, the feet are formed of the same material as the dish, which is generally made of a heat-conducting metallic material, such as steel or aluminum. These feet are generally provided by integrated paws, which extends the excess edge of the container.

The applicant has found that a non-negligible part of the heat is transferred to the barrels, stored in its feet, where it results in a non-homogeneous heating of the bottom of the dish.

In order that the heating of the bottom of the dish is not homogeneous, the temperature deviations between the periphery and the middle of the bottom of the barrel as well as temperature deviations along the periphery of the bottom of the dish.

These temperature deviations, which in some cases can amount to a hundred ° C, do that the foodstuffs are not surface-treated or browned in a homogeneous manner in the dish in which they are placed.

The object of the invention is in particular to overcome such an inconvenience.

A particular object of the invention is to provide a dish for microwave ovens, where the bottom can be heated quickly and homogeneously.

Likewise, an object of the invention is to provide a dish of such a kind as can be obtained at a low production price.

A further object of the invention is to provide a dish of this kind, which can be made in different dimensions and which can suit different types of microwave ovens, with or without rotating plate.

According to the invention, therefore, a dish for microwave ovens is proposed, which dish is made of the type having a bottom externally provided with a coating which absorbs microwaves, made of a cast material, which, for example, contains ferrites. 10 15 20 25 30 504 126 According to an essential feature of the invention is the absorbent coating cast in the form of a unit in one piece, which comprises support means at a distance from each other. others, which are obtained by casting and suitable for holding the bottom of the container on one given height above a placement surface, on which the dish is placed in an oven compartment.

Since the dish according to the invention does not have feet shaped in the same material as the barrel, the heat transferred to the bottom of the barrel is absorbed and distributed homogeneously way, so that temperature deviations are not generated.

It is also possible to ensure that the coating covers the entire drum bottom surface, which improves the heating of the bottom of the barrel at its periphery, i.e. in one area, where the feet of the dish are placed according to known technology.

The support elements of the barrel according to the invention, which have been provided by casting coating with materials that absorb microwaves does not only allow keep the bottom of the dish at a given height above the placement surface but also to contribute to a better heating the bottom of the dish.

In an embodiment of the invention, the support elements comprise an interrupted, peripheral real bead protruded in relation to the coating. This bead may, for example, comprise par- tier, which have the shape of circular arc segments, which are spaced apart.

In another embodiment of the invention, the support elements comprise at a distance spaced apart contact elements located at the periphery of the bottom of the dish.

For example, one can arrange three contact elements with substantially cylindrical or stubble like form.

According to another feature of the invention, the coating has a substantially constant thickness below 5 mm, preferably between 1 and 2 mm.

The thickness of the coating is chosen in such a way that an optimal heating of the bottom of the barrel is obtained, as mentioned, for example, in the above-mentioned U.S. patent 4,266,108.

The material that absorbs microwaves is chosen in such a way that it can cast on the underside of the container to form a one-piece unit comprising the coating and the supporting elements, which have been cast together with it.

This material preferably comprises a mixture of ferrite and a thermoplastic technical, curable or elastomeric material. 10 15 20 25 30 504 126 As ferrites, ferromagnetic materials with the general one are especially preferred the formula MO (Fe, O 2), which M is a bivalent metal, preferably Mn or Zn. These ferromagnetic materials are crushed to form a powder, where the grains have a diameter of between 50 and 250 pm.

This powder may then be present, in a ratio of 70 to 90% by weight of ferrites, in a suitable form thermoplastic, curable or elastomeric material. This material should be suitable for maintain the good mechanical properties (resistance to release, good appearance of the surface, etc.) and not to give rise to a degassing even to a temperature of play order 300 ° C.

For the above reasons, it is preferred to use a silicone elastomer, which in addition, it has the advantage of good adhesion at the bottom of the barrel, which favorably mes with non-oxidizable steel or aluminum.

From a point of view, the invention relates to a method for manufacturing a barrel for microwave oven, in which the unit is cast in a single piece in one piece comprising the coating and the support elements by means of a mold which has an elongated cavity to form this coating and these support elements, and this unit in one piece glued to the outside of the bottom of the dish.

In a first embodiment of the invention, the unit is cast in one piece directly, below controlled conditions regarding pressure and temperature, on the bottom of the barrel that acts as part of the mold, by means of a compression pressure.

To facilitate the adhesion of the unit in one piece to the bottom of the dish, one can adhesive is applied in advance to the bottom of the dish.

According to another embodiment of the invention, the unit is cast in one piece in one first operation and, in a second operation, the one-piece molded unit is adhered to the bottom of the dish by means of an adhesive.

This adhesive suitably consists of an epoxy resin.

In the following description, made by way of example, reference is made to the accompanying drawings, on which Fig. 1 is a bottom view of a dish according to a first embodiment of the invention. one, in which the support elements comprise an interrupted, peripheral bead; - fi g. 2 is a section along the line II-II in fi g. 1; 10 15 20 25 30 504 126 Fig. 3 is a bottom view of a dish according to a second embodiment of the invention. one, in which the support elements comprise spaced apart contacts. element; - fi g. 4 is a section along the line IV-IV in fi g. 3; and Fig. 5 shows temperature development curves for the middle and the edge of a dish according to prior art (curves C1 and C2) and a barrel according to the invention (curves C3 and C4).

First, reference is made to fi g. 1 and 2, which show a dish 10, which preferably has made of a heat-conducting, metallic material, for example of non-oxidizable steel or aluminum. The dish 10 has a bottom 12, flat and circular, extended by one widening edge 14, which is terminated by an annular projecting edge 16.

Attached to the underside of the bottom 12 is a unit 18 in one piece, which unit has held by casting a microwave absorbent material, preferably formed by a mixture ferrites / silicon elastomer.

The unit 18 in one piece comprises a coating 20 of substantially circular shape, which adheres to the lower surface of the bottom 12 and which has a thickness which is generally less re than 5 mm, preferably between 1 and 2 mm. A broken, peripheral bead 24 is cast together with the coating 20, which bead in the embodiment shown comprises three segments 24-1, 24-2, 24-3 in the form of circular arc segments, distributed 120 ° in relation to eachother. The bead 24 forms the spaced apart support members for holding the bottom of the container at a given height H over a placement surface S inside a micro- wave oven (not shown). This surface S can be formed either by the bottom of the furnace cavity or of a rotating plate placed in the oven.

Due to the distance achieved between the bottom of the drum and the placement surface S an optimal effect of the microwaves is obtained in order to achieve heating of the coating. 20 and consequently of the bottom 12 of the dish.

In addition, the breaks in the bead facilitate the access of the microwaves in the area, which is under the barrel.

In the embodiment according to fi g. 3 and 4, to which reference is now made, include the the three contacting elements 26 located at a distance from each other at 120 ° apart and located near the periphery of the coating. These contacts may have a substantially cylindrical shape or rather a stubby shape, as shown in 10 15 20 25 30 504 126 Fig. 6. Here, too, the placement of contact elements 26 at a distance from each other is facilitated microwave access to the area under the dish.

Now refer to fi g. 5, which shows four curves for temperature evolution as function of the duration of action of the microwaves.

Curves C1 and C2 show the temperature development at the center and at the edge, respectively on a prior art barrel comprising feet provided in one piece with the dish itself and consequently designed in the same material as the dish.

Curves C3 and C4 show, under the same conditions, the temperature development in the center and at the edge of a dish according to the invention of the kind shown in ñg. 3 and 4.

In the case of the prior art dish (curves C1 and C2) it can be stated that for five minutes the temperature deviation between the center and the edge of the dish is of the order of 40 ° C, while at the dish according to the invention, this deviation has been reduced to a value of the order of 15 to 20 ° C.

This results in the bottom of the dish being raised to a substantially homogeneous temperature. which allows a good preparation of steaks, cakes, pizzas, etc.

The material which absorbs the microwaves is preferably formed of a mixture ferrites / silicon elastomers, as described above, although other materials are conceivable.

In a preferred embodiment of the invention, the unit is molded in one piece directly on the bottom of the barrel using a compression press, under that pressure and with it temperature, which are necessary for the vulcanization of the silicon elastomer. To obtain one good adhesion, an adhesive is preferably used.

In this way, the vulcanization of the ferrite / silicon mixture is effected simultaneously and the adhesion of this mixture to the bottom of the dish.

In another embodiment of the invention, it is possible to first cast that unit in one piece, which forms the coating and the support elements and then adheres it unit in a block on the bottom of the dish.

To achieve this, adhesives or adhesives are preferably used, e.g. epoxy resins are suitable to be durable up to temperatures of the order of 400 ° C.

These resins also have the advantage of conducting heat well and having perfect adhesion against the metallic materials. 504 126 The invention can have a number of variants, especially with regard to the shapes, dimensions. the ions and the basic materials in the dish.

Claims (8)

10 15 20 25 30 504 126 Patent claims Microwave oven dish comprising a bottom (12) provided on its outside with a coating (18) which absorbs the microwaves, made of a molded material, characterized in that the absorbent coating (18) is molded of a unit in one piece comprising spaced apart support elements (24; 26), which are included in the casting and suitable for holding the bottom (12) of the drum at a given height (H) over a placement surface (S), on which the drum is placed in the oven. Barrel according to claim 1, characterized in that the support elements comprise a broken, peripheral bead (24), formed by portions (24-1, 24-2,24-3), which have the shape of circular segments and have a distance between them. Barrel according to claim 1, characterized in that the support elements comprise spaced apart contact elements (26) located along the bottom periphery of the barrel. Barrel according to claim 3, characterized in that it comprises three contact elements (26) with a substantially cylindrical or stubby shape. Barrel according to one of the preceding claims, characterized in that the cast material is a mixture of the ferrite / silicon elastomer type. Method for manufacturing a microwave oven dish according to one of Claims 1 to 5, characterized in that a unit (18) is cast in one piece in one piece, comprising the coating (20) and the support elements (24; 26) by means of a mold having an uninterrupted cavity to form the coating and the support elements, and attaching this unit (18) in one piece to the outside of the bottom (12) of the drum (10). Method according to claim 6, characterized in that the unit (18) is directly cast in one piece, under controlled conditions of pressure and temperature, under the bottom (12) of the drum (10), which acts as part of a mold, by means of a compression pressure, during application, if necessary, in advance of an adhesive to the bottom (12) of the drum (10). Method according to claim 6, characterized in that in a first operation the unit (18) is cast in one piece and, in a second operation, the cast unit is adhered in one piece to the bottom (12) of the drum (10) by means of an adhesive.