KR890003057B1 - Electronic range - Google Patents

Abstract

A magnetron microwave cooker has a metal plate (7) and an opening (8) adjusted between sub-cavity (2) and oven-cavity (1). The microwave is supplied to the oven-cavity at maximum output state, controlling a reference position between the oven-cavity and a magnetron output portion. The microwave projected from the magntron easily converts a electromagnetic distribution by effect of metal plate, a shape of the metal plate and a reference position of the opening about the magnetron output portion. A good output is achived and improves uniform heating property in foodstuffs by optimum reference position or the opening shape.

Description

Microwave

1 is a side cross-sectional view showing an example of a conventional magnetron direct-attach microwave oven.

Figure 2 is a side cross-sectional view of one embodiment of the present invention.

3 (a) and 3 (8b) and 3 (c) are diagrams showing the attachment state of the metal plate with the opening according to the present invention, respectively.

* Explanation of symbols for main parts of the drawings

1: oven cavity 2: secondary cavity

3: magnetron 4: magnetron output

7,7a, 7b, 7c: Metal plate 8, 8a, 8b, 8c which concerns on this invention: Opening

9: bend

The present invention relates to a magnetron direct-attach type microwave oven in which microwaves are easily obtained in an oven cavity at an optimum output state.

1 shows the structure of a conventional magnetron direct attach type microwave oven. In the figure, (1) is an oven cavity, (2) is a cavity, (3) is a magnetron, (4) is a magnetron output, (5) is a heating load, and (6) is an auxiliary antenna. The subcavity 2 is usually press-worked on the side surface of the oven cavity 1 and protrudes, or it is about 20 mm at most to protrude in relation to a material or a processing method. In the case of a magnetron used in a microwave oven in which the microwave output of the magnetron is fed into the oven cavity via a waveguide, the height of the magnetron output part is about λ / 4 ≒ 30mm. However, in the microwave oven of the type shown in FIG. 1 in which the secondary cavity is projected into the oven cavity and the magnetron is directly attached thereto without using the waveguide, as described above, the secondary cavity is not related to the material or processing method. At most, it can protrude only 20mm. Therefore, in the case of the magnetron for direct attachment, the height of the magnetron output part 4 is similarly limited to about 20 mm. If a magnetron having a short height of such an output part is directly attached directly, the degree of contention between the magnetron and the oven cavity is extremely reduced. For this reason, as shown in the front end of the magnetron output part 4, the auxiliary antenna 6 was attached, and the coupling degree was improved by this.

However, in such a conventional structure, in order to obtain the necessary coupling degree, the outer diameter and the shape of the auxiliary antenna become large, making it difficult to mount the microwave oven, or the shape of the auxiliary antenna becomes complicated and becomes expensive. There was a problem. In addition, in such a conventional method, in the case where the auxiliary antenna, which the magnetron manufacturer had previously attached and shipped at the time of shipment, could not realize that the microwaves became optimal for the oven cavity, the microwave oven manufacturer changed the auxiliary antenna. In addition, adjusting the attachment method is not always easy, and there is a fear that the magnetron will be damaged at that time.

An object of the present invention is to provide a microwave oven in which a microwave of a magnetron can be easily obtained at an optimum output state in an oven cavity with a simple and inexpensive configuration without the above problems.

In order to achieve the above object, in the present invention, a metal plate having an opening is provided at the boundary between the secondary cavity and the oven cavity, and the oven is operated in the optimum output state by adjusting the position of the relationship between the opening and the magnetron output unit. Had to get on.

Hereinafter, embodiments of the present invention will be described in detail by the accompanying drawings.

2 is a side cross-sectional view of one embodiment of the present invention, and (7) is a metal plate according to the present invention, and has an opening 8. In the drawings, other symbols are the same as in the case of FIG.

3 (a), 3 (b) and 3 (c) show the attachment states of the three types of metal plates 7a, 7b and 7c according to the present invention, respectively, in FIG. It is the figure seen from the direction of one arrow A, These metal plates have opening 8a, 8b, 8c, respectively. In addition, indicated by L in these figures is the distance between the periphery of the opening 8 and the magnetron output part 4.

Due to the shape of the metal plate and the relative position of the opening with respect to the magnetron output part, the microwaves emitted from the magnetron can easily change the electromagnetic field distribution under the influence of the metal plate. That is, according to the shape of the opening of the metal plate and the relation position with the magnetron output part, the oven impedance suitable for the magnetron characteristics can be easily obtained. As a result, a good oven output can be obtained, and the uniform heating property of food can be improved by optimizing the opening shape and the relative position.

The shorter the distance L between the magnetron output part 4 and the periphery of the opening 8 of the metal plate 7, the higher the coupling degree of the magnetron can be. However, field concentration tends to occur at this shortest distance. As a result, if the distance L is made too short, a spark occurs in the field concentration. In order to avoid inconvenience such as a sparking phenomenon, according to the experimental results of the present inventors, it is preferable to set the shortest distance between the magnetron output portion and the periphery of the metal plate opening to about 8 to 15 mm. Within this range, sufficient bonding degree can be obtained. When the distance between the magnetron output part and the periphery of the metal plate opening is made close, a high degree of coupling is obtained, which means that capacitive coupling between them is achieved. Therefore, by forming a bent portion around the opening of the metal plate 7 facing the magnetron output part 4, for example, as shown by (9) in FIG. 3 (a), the capacitive coupling can be increased, and the magnetron The distance L between the output part and the periphery of the opening of the metal plate can be widened by that much. In this way, the spak can be afforded. By adopting a bent shape, a problem such as a burr that tends to occur around the metal plate opening at the time of manufacture can be solved without causing a problem. Since it is possible to avoid the direct contact with the metal scrap generated when the opening is formed in the metal plate at the microwave output part, it is also advantageous in the pressure resistance phase. On the other hand, with respect to the heating imbalance (food uniformity heating), in either the third (a), the third (b), or the third (c), by rotating the position of the metal plate relative to the magnetron output unit, Since the impedance can be changed, the heating imbalance can be controlled by optimizing the position of the metal plate 7. In this case, the degree of coupling is determined by the distance L between the opening 8 of the metal plate 7 and the magnetron output portion 4, so that only by rotating the metal plate, the degree of coupling does not change significantly. That is, the phase of the oven impedance only changes. In this way, it is extremely simple and easy for the microwave oven manufacturer to adjust the relative position of the magnetron output portion of the metal plate opening according to the present invention so that the microwave output can be obtained at the optimum output state for the oven cavity. There is no worry about damage.

As described above, according to the present invention, in the microwave oven direct attach type microwave oven, the microwave output can be obtained very easily at the optimum output state in the oven cavity.

Claims (1)

In a microwave oven in which the microwave output of the magnetron is supplied directly to the oven cavity without starting the waveguide, a metal plate having an opening is provided at the boundary between the secondary cavity and the oven cavity which protrude into the oven cavity and serve as a magnetron device. A microwave oven characterized by adjusting the relative position between the opening and the magnetron output unit so that microwaves are obtained at the optimum output state for the oven cavity.

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