FR3065610A1 - WAVEGUIDE FOR THE THERMAL DISTRIBUTION IN A MICROWAVE OVEN - Google Patents

Abstract

The invention relates to a waveguide making it possible to ensure uniform distribution of the electromagnetic wave in a microwave oven. The waveguide according to this patent is defined by an innovative profile (4) and simple to produce from an industrial point of view. The waveguide according to the invention is particularly intended for temperature distribution in a microwave oven.

Description

Description

The present invention relates to a waveguide for thermal distribution in a microwave oven or in a multimode oven with the microwave function. More particularly, the present invention is dedicated to improving the thermal distribution in an oven having the microwave application.

To date, to ensure uniform thermal distribution in a microwave oven, there are solutions which require the use of components dedicated to this subject. Among these solutions is the use of a turntable on which the dish to be heated is placed. Another solution is the use of a microwave stirrer, the principle of which is to periodically modify the distribution of the electromagnetic field in the oven cavity. With the two cases cited, additional costs are to be taken into account. Among these costs are costs in terms of parts and assemblies.

In the description which follows, when reference is made to qualifiers of absolute or relative position or of orientation, such as the terms up, down, rear, left, right, upper, lower, outline, height, etc., reference is made to a practical case with which an oven is considered to be placed on a horizontal support and consequently the cavity being below the feed wave guide and the wave guide according to this patent. And when reference is made to coordinates, the mark is a point on the oven cavity.

The present invention aims to ensure a uniform thermal distribution in the cavity of the microwave oven and a good adaptation between the microwave energy source and the cavity of the oven; and it should not have any of the above drawbacks (the use of a turntable, the use of a microwave stirrer). This results in a reduction in the cost of the raw material and the assembly process. Technically simple and inexpensive means are necessary for the production of the waveguide according to this invention.

-2For this purpose, the invention relates to a waveguide having a particular geometry described as follows. A so-called main waveguide of cylindrical profile is defined. Then, a single modification is made on the upper wall of said main waveguide. This modification follows the shape of a volume body so that it induces a non-zero increase in the volume of said main waveguide, resulting in a non-zero local increase in the height of this main waveguide. .

The waveguide obtained with the pre-described description has an opening on its lower wall to ensure coupling with the cavity of the oven which has an opening on its upper wall. Preferably, the opening on the upper wall of the cavity of the microwave oven is similar to the opening on the lower wall of the waveguide according to this patent.

In addition, the waveguide according to this patent is coupled to an input waveguide which must be excited by a microwave energy source such as a magnetron. Preferably, the two waveguides are to be manufactured in a process to form a single component. Preferably, flanges are to be accommodated with the component obtained to offer fixing points on the oven cavity.

The walls of the waveguides and of the cavity are electrical conductors with a thickness.

Are defined according to the size of the oven cavity and the frequency of the microwave wave from the microwave source:

The dimensions of the input waveguide

The dimensions of said main waveguide,

The location of the said main wave guide on the cavity, The dimensions of the solid body which matches the shape of the modification made on the upper wall of the said main wave guide,

The location of the volume body which conforms to the shape of the modification made on the upper wall of said main waveguide,

The accompanying drawings illustrate, according to one embodiment, a particular and non-limiting example of the invention:

FIG. 1 represents an inverted top-down view of a diagram of said main waveguide with an opening on the wall of the contour and an opening on the bottom wall, seen in perspective.

FIG. 2 represents an inverted view from top to bottom of a diagram of the said main waveguide of FIG. 1 and with a modification made on its upper wall, seen in perspective.

FIG. 3 represents a diagram of a rectangular waveguide, seen in perspective.

4 shows a diagram of the example of Figure 2 connected to the waveguide of Figure 3, seen in perspective.

FIG. 5 represents a diagram of a cavity of an oven with an opening on its upper wall, seen in perspective.

FIG. 6 represents a diagram of a cavity of an oven coupled to the waveguide of the example of FIG. 4 and with a diagram of a door, seen in perspective.

Figure 7 shows a section of the diagram of Figure 6, seen in perspective.

FIG. 8 represents a description of part of the parameters of said main waveguide on a plane.

FIG. 9 represents a description of part of the parameters of said main waveguide on a second plane.

FIG. 10 represents a description on a plan of a part of the parameters of the solid body which matches the shape of the modification made on the upper wall of the said main waveguide.

FIG. 11 represents a description on a second plane of part of the parameters of the volume body which follows the shape of the modification made on the upper wall of said main waveguide.

FIG. 12 represents a view of the volume body which follows the shape of the modification made on the upper wall of said main waveguide, seen in perspective.

The various figures are not drawn to scale.

With reference to FIG. 1, there is an example which represents a diagram of a waveguide (2) with an inverted view from top to bottom and in perspective. This waveguide (2) has the shape of an isosceles trapezoidal cylinder. The upper wall (100) of this guide (2) is defined. According to this patent, this waveguide (2) is defined as being the main waveguide and the modification will have to be made on the aforementioned wall (100).

Referring to Figure 2, there is a diagram (4) which is the result obtained following the modification made on the upper wall (100) pre described on the diagram of the waveguide said main (2) of Figure 1 , seen in perspective.

Referring to Figure 3, there is a diagram of a rectangular waveguide (1), seen in perspective. This waveguide (1) represents that which will be excited by a microwave source, such as for example a magnetron. The lower wall (200) is presented as well as its upper plane (201). The upper wall (100) is also shown.

Referring to Figure 4, there is a diagram (5) of a waveguide which is the result obtained after the series of the rectangular waveguide (1) shown diagrammatically with Figure 3 and the guide wave according to this patent (4) shown diagrammatically with FIG. 2, to in perspective. The modification (3) made on the upper wall (100) is illustrated.

Referring to Figure 5, there is a diagram of a cavity (6) having an opening through its upper wall, seen in perspective. This opening is similar to the opening on the bottom wall of the waveguide (5) described in Figure 4. According to this patent, The waveguide shown schematically in Figure 4 will be placed above the opening illustrated in the diagram of FIG. 5. The upper plane (201) of the upper wall (200) of the cavity is illustrated. A part of this wall (200) constitutes the bottom wall of the waveguide shown diagrammatically in FIG. 3 which is also that of the diagram in FIG. 4 and the two of which bear the same number (200); this will be further clarified with Figure 7.

With reference to FIG. 6, there is a diagram (8) with the waveguide (5) which has been shown diagrammatically in FIG. 4 placed on the cavity (6) which has been diagrammed in FIG. 5. A door (7) is schematized

Referring to Figure 7, we find the diagram (8) of Figure 6 with a section, seen in perspective. The lower plane (101) of the upper wall (100) of the waveguide is illustrated. The upper plane (201) of the upper wall (200) of the cavity is also illustrated. As has been stated with the description of Figure 5, the wall (200) is well shown; it comprises the upper wall of the cavity (6) of the oven as well as the lower wall of the inlet guide (1). The distance between the planes (101) and (102) is the height of the waveguide previously schematized with FIG. 4.

With reference to Figures 8 and 9; the upper and lower planes of said main waveguide (2) which has a cylindrical shape are defined. On the plane (201), it is an isosceles trapezoid with parallel sides (¢ 24.25) and a perpendicular bisector (26). And on the plane (101), it is an isosceles trapezoid with parallel sides (21,22) and a mediator (23). With the example described, the sides (21) and (24) have the same value; and the sides (22) and (25) have the same value. And the lengths of the perpendicular bisectors (23) and (26) have the same value.

Referring to Figures 10, 11, 12; a description of the volume body which follows the shape of the modification (3) made on the upper wall (100) of the waveguide said main (2) is described. This volume body (31) is a sphere defined by a center (32) placed on the plane (101), two diameters (33,34) on the same plane (101) and which have the same value as the third diameter (35 ) describing the height.

Claims (9)

1) Microwave oven or multimode oven with microwave function comprising a microwave energy source coupled to a cavity (6) via an input waveguide (1) followed a waveguide (4) characterized in that the waveguide (4) is described by a so-called main waveguide (2) of cylindrical profile and comprising a single modification (3) on its upper wall (100) and whose shape matches that of a volume body (31) so that this modification induces a non-zero increase in the height of the waveguide said main (2) resulting in an increase in the volume of the same waveguide said main (2). 2) Device according to claim 1 characterized in that the waveguide said main (2) is in elliptical or circular or trapezoidal or regular polygonal or irregular polygonal shape. 3) Device according to claim 1 characterized in that the location of the waveguide said main (2) on the cavity is a function of the frequency of the microwave wave from the microwave source and the size of the oven cavity. 4) Device according to claim 1 characterized in that the dimensions of the waveguide said main (2) are a function of the frequency of the microwave wave from the microwave source and the size of the oven cavity. 5) Device according to claim 1 characterized in that the location of the volume body (31) matching the shape of the modification (3) made on the upper wall (100) of the waveguide said main (2) is a function of the frequency of the microwave wave from the microwave source and the size of the oven cavity. 6) Device according to claim 1 characterized in that the dimensions of the volume body (31) matching the shape of the modification (3) made on the upper wall (100) of the waveguide said main (2) are a function of wave frequency -7high frequency from the microwave source and the size of the oven cavity. 7) Device according to claim 1 characterized in that the 5 solid body (31) conforming to the shape of the modification (3) made on the upper wall (100) of the waveguide said main (2) either in ellipsoidal or polyhedral or cylindrical or pyramidal or spherical or torus shape. 10 8) Device according to claim 1 characterized in that the entire device for supplying and distributing microwave energy (5) is relative to the oven door positioned at the rear or to the left or to the right. 15 9) Microwave circuit comprising at least one waveguide according to claim 1. 1/8 FI6.1 100 FlS.2 2/8 200 F16.4 3/8 201 FI6.5 4/8 τοζ FlG * 6 6/8