KR960005770B1 - Microwave oven - Google Patents

Abstract

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Description

Microwave

1 is a partial plan view of a conductor pattern according to a first embodiment of the present invention.

2 is a full perspective view.

3 is a partial cross-sectional view of the door.

4 is a plan view of a conductor pattern.

5 is a view corresponding to FIG. 1 showing a modification of the present invention.

6 is a partial cross-sectional view of the inner barrier showing the second embodiment of the present invention.

7 is a diagram corresponding to FIG. 1 showing a conventional configuration.

* Explanation of symbols for main parts of the drawings

11 body 12 heating cooking chamber

13: door 19: clairvoyant part

20: Body border 28,35: Inner Barrier

30,36: glass plate (transparent board) 31,37: conductor pattern

32,34: line part 33: border shape part

The present invention relates to a microwave oven having an improved propagation prevention structure of a door. In general, the microwave oven is provided with an internal viewing window on the door for the user to look in from the outside of the door. The inner window is provided with an inner barrier formed by wrapping a glass plate with a punching plate for shielding the radio wave formed integrally with the frame of the door. However, in the conventional configuration, the size of the hole of the punching plate has a limit in contracting against radio leakage, and the number of holes (density) also has a limit in punching, so the punching plate is noticeable when looking into the inside of the hole. It was difficult to see the flaw. As a configuration for eliminating such defects, as illustrated in FIG. 7, the inner barrier 3 is formed by electroless plating on one side of the glass plate 1 by electroless plating. It is conceivable that the barrier 3 is attached to the main frame of the door. Thus, since the mesh-shaped conductor pattern 2 is formed by electroless plating, the restriction | limiting in a punching process is eliminated, the number of holes (dense degree) can be made large, and the visibility in a height can be made high by that much. However, in this configuration, since the conductor pattern 2 is formed on the side of the heating cooking chamber of the glass plate 1, the conductor pattern 2 may be damaged or cut by colliding with a cooking vessel and the like, and the radio wave shielding property is deteriorated. Moreover, as shown in FIG. 7, the mesh-shaped conductor pattern 2 protrudes a lot of the line-shaped part 2a of the edge part of the glass plate 1, and it can also be an antenna, and also the radio wave shielding performance may fall. Accordingly, an object of the present invention is to provide a microwave oven capable of improving visibility in a vehicle and having sufficient radio wave shielding performance. In a microwave oven according to the present invention, a microwave oven is provided by attaching an inner barrier for radio wave shielding to a body border of a door that opens and closes a heating cooking chamber, wherein the inner barrier is formed on a transparent substrate and a semi-heated cooking chamber side of the transparent substrate. And a wire-shaped conductor pattern formed on the surface, wherein the line width dimension of the portion of the conductor pattern, which is disposed at the edge portion of the transparent substrate, is made wider than the line width dimension of the other portion and connected to the main frame border. .

In this case, the thickness dimension of the portion of the conductor pattern which is in contact with the main frame edge may be made thicker than the thickness dimension of the other portion. According to the above means, since the mesh-shaped conductor pattern is formed on the side of the semi-heating cooking chamber side of the transparent substrate, the cooking pattern does not collide with the conductor pattern, thereby preventing damage and cutting of the conductor pattern and preventing radio wave shielding performance. The fall can be prevented. In addition, since the line width dimension of the portion of the conductor pattern, which is arranged at the edge of the transparent substrate, is made wider than the line width dimension of the other portion, the line border is in contact with the main frame. Can be. As a result, a large number of linear portions of the mesh-shaped conductor pattern do not protrude from the edges of the transparent substrate, and the linear portions do not function as antennas. On the other hand, in the above configuration, when the inner barrier is attached to the main frame border and the conductor pattern is brought into contact with the main frame border, the conductor pattern may be peeled off or damaged by the contact. In such a case, if the thickness dimension of the portion of the conductor pattern which is in contact with the body edge is made thicker than the thickness dimension of the other portion, the strength of the portion is released and the breakage of the conductor pattern is prevented by the contact with the body edge. Can be. Hereinafter, a first embodiment of the present invention will be described with reference to FIGS. 1 to 4. First, in FIG. 2, a heating cooking chamber 12 is provided inside the main body 11 of the microwave oven. The front opening of the heating cooking chamber 12 is opened and closed by a door 13. Moreover, the operation panel 14 is provided in the front-right part of the main body 11. The display panel 15 and the various switches 16 are arranged on the operation panel 14. In addition, a magnetron (not shown) is provided on the right outer side of the heating cooking chamber 12 in the main body 11. When the magnetron is oscillated, the high frequency is supplied to the heating cooking chamber 12 to irradiate the food (not shown) contained in the heating cooking chamber 12 and to cook the food. In addition, a drive shaft 17 for driving a rotary table (not shown) on which food is placed is provided at the bottom of the heating cooking chamber 12. This drive side 17 is rotationally driven by a motor (not shown). In the ceiling of the heating cooking chamber 12, an overcooking heater 18 is provided. And the door 13 is provided with a rectangular high visibility unit 19, it is possible to look inside the heating cooking chamber 12 from the high unit 19.

Hereinafter, the structure of the door 13 is explained in full detail. That is, as shown in FIG. 3, the front surface of the main body border 20 made of the metal plate of the door 13 is attached to the outer barrier 21 made of glass, for example. In the inner circumferential portion of the main body border 20 located inside the outer barrier 21, the flange portion 22 is vertically formed over the entire circumference thereof. The flange portion 24 of the contact plate 23 is welded to the flange portion 22, so that the contact plate 23 is integrally provided on the main frame 20. The space portion enclosed by the main body border 20 and the contact plate 23 constitutes the choke groove 25. In addition, a door cover 26 is provided at an opening portion between the main frame 20 and the outer peripheral portion of the contact plate 23. A door chassis 27 is attached to the outer circumferential portion of the body border 20. The inner barrier 28 is bonded to the back surface of the flange portion 24 of the contact plate 23 by the silicone adhesive 29. The inner barrier 28 has a glass plate 30, which is a transparent substrate, and a mesh shape formed on the side of the anti-heat cooking chamber 12 of the glass plate 30, that is, the left side shown in FIG. A conductive pattern 31). In this case, the conductor pattern 31 is formed on the surface of the glass plate 30 by screen printing of electroless plating or conductive paint. The electroless plating is a treatment method in which metal ions are attached to the surface of the glass plate 30 which has been catalyzed in advance by a constant autocatalytic reduction effect. The conductor pattern 31 is set to about 0.2 mu m in thickness. As shown in FIG. 1, the conductor pattern 31 has a mesh width, i.e., the line width dimension A of the line portion 31 constituting the grid is set to about 40 mu and the center line of the line portion 32 and the side line thereof. The spacing dimension B of the center line of the linear part 32 of is set to about 140 micrometers. Here, the line width dimension C of the edge part 33 which is a part of the conductor pattern 31 which is arrange | positioned at the edge part of the glass plate 30 is set to about 80 micrometers. Thereby, the line width dimension C of the part of the conductor pattern 31 arrange | positioned at the edge part of the glass plate 30 becomes wider than the line width dimension A of the other part. And the edge part 33 of this widely structured head body pattern 31 is made to directly contact the back surface of the flange part 24 which contacted (23).

The silicone adhesive 29 is applied between the outer peripheral portion of the glass plate 30 and the flange portion 24. In the above configuration, cooking is performed by irradiating food with high frequency as the magnetron is driven. At this time, a part of the high frequency is irradiated to the door 13 side, the frequency is by the contact plate 23, the choke groove 25 and the front plate portion 11a of the main body 11, as shown in FIG. Because they are attenuated in turn, they do not leak outside. In addition, the high frequency radiated to the high penetration unit 19 is shielded by the conductor pattern 31 of the inner barrier 28. The high frequency on the conductor pattern 31 is shielded by contact between the edge portion 33 of the conductor pattern 31 and the main body border 20. According to this embodiment of the configuration, since the mesh-shaped conductor pattern 31 is formed on the glass plate 30 by electroless plating or the like, the restriction on punching processing is eliminated and the number of holes (density) can be increased. We can raise visibility in the room. In addition, since the conductor pattern 31 is formed on the surface of the semi-heating cooking chamber side of the glass plate 30, the conductor pattern 31 is prevented from colliding with the cooking vessel, thereby preventing damage and cutting of the conductor pattern 31. have. Therefore, the fall of the electric wave shielding performance of the conductor pattern 31 can be prevented. In addition, since the width of the conductor pattern 31, which is disposed at the edge of the glass plate 30, that is, the portion along the line width dimension of the edge portion 33, is wider than the line width dimension, the main body border 20 is brought into contact with each other. The contact area between the body border 20 and the conductor pattern 31 can be increased, and the connection between them can be assured. In this case, since the line portion 32 of the mesh-shaped conductor pattern 31 is reliably connected to the body border 20, unlike the conventional configuration (see FIG. 7), the line portion 32 is formed of a glass plate ( It is possible to prevent the plurality of protruding portions from the edge portion of 30) to function as the linear portion 32 antenna. Therefore, the fall of the electric wave shielding performance can be prevented. In the above embodiment, the portion of the eight-body pattern 31 disposed at the edge portion of the glass plate 30 is a line portion 33, while the edge portion of the glass plate of the conductor pattern is shown in FIG. Even if the line width dimension D of the line-shaped portion 34 arranged in the upper portion is configured to be wider than the line width dimension A of the other line-shaped portion 32, the line-shaped portion 34 may be configured to be in contact with the adjacent line-shaped portion 34. good. In the above embodiment, the glass plate 30 is used as the transparent substrate, but a transparent plate made of plastic may be used.

6 shows a second embodiment of the present invention, and explains the differences from the first embodiment. 6 is an enlarged cross-sectional view of the edge portion of the inner barrier 35. 6, the inner barrier 35 is comprised from the glass plate 36 and the conductor pattern 37 formed in one surface of this glass plate 36. As shown in FIG. The thickness dimension E of the part 38 which contacts the main body border 20 of the conductor pattern 37 is comprised thicker than the thickness dimension F of the other part 39. As shown in FIG. In this case, thickness dimension E is set to about 0.4 micrometer, and thickness dimension F is set to about 0.2 micrometer. Also in the second embodiment, the same effects as in the first embodiment can be obtained. In particular, when the inner barrier 35 is attached to the main frame border 20 and the conductor pattern 37 contacts the main border 20, the conductor pattern 37 may be peeled off or damaged for the contact. In such a case, if the thickness dimension E of the portion 38 of the conductor pattern 37 which contacts the main body border 20 is made thicker than the thickness dimension F of the other portion 39, the portion 38 is formed. It is possible to prevent the breakage of the portion 38 of the conductor pattern 37 by the contact with the main body border 20 to the maximum strength. As described above, the present invention can obtain the following effects. In the microwave oven according to claim 1, the inner barrier is composed of a transparent substrate and a mesh-like conductor pattern formed on the side of the semi-heating cooking chamber side of the transparent substrate, and the line width dimension of the portion of the conductor pattern disposed at the edge of the transparent substrate. Since the structure is made to be wider than the line width of other parts to make contact with the main frame, it is possible to improve the visibility in the vehicle and prevent the decrease in the radio wave shielding performance. In the microwave oven according to claim 2, since the thickness dimension of the portion of the conductor pattern, which is in contact with the frame, is made thicker than the thickness of the other portion, the conductor is contacted with the frame when the inner barrier is attached to the frame. The breakage of the pattern can be prevented.

Claims (2)

In a microwave oven in which an inner barrier for radio wave shielding is installed in a main frame of a door for opening and closing a heating cooking chamber formed inside the main body, the inner barrier is formed on a surface facing the transparent substrate and a surface facing the heating cooking chamber of the substrate. A microwave oven comprising a mesh-shaped conductor pattern, wherein the line width dimension of a portion of the conductor pattern disposed at the edge of the transparent substrate is set to be larger than the line width dimension of the other portion to be brought into contact with the main body border. The microwave oven according to claim 1, wherein the thickness dimension of the conductive pattern portion in contact with the main body border is set to be thicker than the thickness dimension of the other portion.