KR20000014776U - Microwave Intensive Structure - Google Patents

Abstract

The present invention relates to an ultra-high frequency concentrated structure of a microwave oven, and communicates with the central region of the bottom plate 90a from the magnetron 30 so that an opening 20a through which the microwave is injected is formed in the bottom plate 90a of the cooking chamber 90. Waveguide 20; And a transmissive plate 50 formed of a material that forms an upper surface and transmits ultra-high frequency, and an ultra-high frequency formed in a central region of the transmissive plate 50 and injected from the opening 20a of the waveguide 20 in a radially lower direction. The first reflector 60 to reflect and the ultra-high frequency communicated with the opening 20a and reflected by the first reflector 60 are reflected back to the upper portion of the transmissive plate 50 to pass through a certain focus point. The transmission plate 50 is formed of a tray 80 composed of a second reflector 70 formed downward along a predetermined curvature.

Therefore, the microwave concentrating structure of the present invention, the microwave injected into the interior of the cooking chamber 90 can be intensively sprayed on the food to prevent the loss of unnecessary ultra-high frequency, shorten the cooking time, all kinds of The food can be cooked quickly and efficiently.

Description

Microwave Intensive Structure

The present invention relates to an ultra-high frequency concentrating structure of a microwave oven, and in particular, the ultra-high frequency of the magnetron is emitted from the bottom of the cooking chamber into the inside of the tray, and the ultra-high frequency concentrated region reflected by the first and second reflecting plates of the tray has various kinds of food. By matching the location of the location, the ultra-high frequency sprayed into the inside of the cooking chamber is intensively sprayed on the food to prevent the loss of unnecessary ultra-high frequency, shorten the cooking time, and quickly and efficiently cook all kinds of food It is about the ultra-high frequency concentration structure of microwave oven which can be made.

In general, a microwave oven is a device that heats food by using ultra-high frequency. The principle is a fast reverse electric field property of ultra-high frequency oscillating tube magnetron. It is supposed to cook.

1 is a schematic view showing a structure in which the ultra-high frequency of the conventional microwave is distributed, and a schematic configuration of the inside of the microwave oven 10 to which the above principle is applied is shown in FIG. The magnetron 4 in which ultra-high frequency is generated by the circuit elements, the waveguide 3 in which the ultra-high frequency emitted from the magnetron 4 propagates, and the cooking chamber 9 in which the ultra-high frequency propagated in the waveguide 3 is inherited in food. )

At the interface between the waveguide 3 and the cooking chamber 9, an opening 3a for injecting ultra-high frequency waves into the cooking chamber 9 is provided, and a separate stirrer pan (not shown) for dispersing the ultra-high frequency at the opening 3a position. Although this structure is provided, the microwave oven 10 which rotates the tray 8 by the motor 1 is mass-produced in recent years without installing the above stirrer fan.

The structure for rotating the tray 8 as described above includes a motor 1 installed below the bottom plate 9a of the cooking chamber 9 and having a rotation shaft 1a upward, and a rotation shaft 1a of the motor 1. It consists of a roller guide 2 coupled to the tray 8, the tray 8 is seated on the upper surface of the roller guide 2 and the food container 5 is placed thereon.

Referring to FIG. 1, an operation state of a conventional microwave oven having such a configuration is as follows. At this time, the arrow shown by the line in FIG. 1 indicates the radiation path of the ultra-high frequency.

First, when high voltage electricity is applied to the magnetron 4, ultra high frequency of about 2,450 MHz is generated, and the ultra high frequency of the magnetron 4 is propagated to the waveguide 3 and then through the opening 3a of the waveguide 3. It radiates into the cooking chamber 9 from above.

At the same time, when the motor 1 installed under the bottom plate 9a of the cooking chamber 9 is operated, the roller guide 2 is rotated while the rotating shaft 1a of the motor 1 rotates. As the tray 8 disposed on the upper surface of 2) is rotated, the food container 5 located on the upper surface of the tray 8 is placed to rotate.

Then, as shown in Figure 1, the ultra-high frequency dispersed in the cooking chamber (9) is directly transmitted to the food placed on the tray (8) in the rotating state, or hit the inner wall of the cooking chamber (9) As a result, it is diffusely reflected and incident on the food. Thus, frictional heat is generated as fast translation motions of 2.45 billion times per second are applied to the molecules constituting the food, and thus the food is cooked.

On the other hand, in the structure in which the ultra-high frequency of the conventional microwave oven as described above, the ultra-high frequency radiated into the cooking chamber 9 is irregularly reflected on the inner wall of the cooking chamber 9, the amount of ultra-high frequency substantially incident on the food becomes small, ultra-high frequency There was an unnecessary loss of, and because of this, the ultra-high frequency is not concentrated in the food, and in this state, simply rotating the tray 8 does not increase the concentration of the ultra-high frequency, thus prolonging the cooking time and preventing food from being cooked efficiently. Occurred.

The present invention has been made in order to improve such a conventional problem, the technical problem of the present invention is to spray the high frequency emitted into the cooking chamber concentrated in the food to prevent the loss of unnecessary high frequency, shortening the cooking time, all It is to cook kinds of food quickly and efficiently.

The technical problem of the present invention as described above is a waveguide communicating from the magnetron to the central region of the bottom plate so that an opening through which high frequency is injected is formed in the bottom plate of the cooking chamber; And a transmissive plate formed of a material having an upper surface and transmitting ultra high frequency, a first reflecting part formed in a central region of the transmissive plate and reflecting the ultra high frequency emitted from the opening of the waveguide in a lower radial direction, and communicating with the opening. And a tray including a second reflector formed downward along the curvature of the transmissive plate so as to reflect the ultra-high frequency reflected by the first reflector to the upper portion of the transmissive plate and pass through a predetermined focus. This is achieved by providing a very high frequency concentrated structure.

1 is a schematic diagram showing a structure in which the ultra-high frequency of the conventional microwave is dispersed.

Figure 2 is a schematic diagram showing the ultra-high frequency concentrated structure of the microwave oven according to an embodiment of the present invention.

Figure 3 is a schematic diagram showing a state in which the ultra-high frequency concentrated on various kinds of food according to the present invention.

<Explanation of symbols for main parts of drawing>

20: waveguide 20a: opening

30: magnetron 50: transmission plate

60: first reflecting unit 70: second reflecting unit

70a: connector 80: tray

90: cooking chamber 90a: bottom plate

100: microwave oven

Figure 2 is a schematic diagram showing the ultra-high frequency concentrated structure of the microwave oven according to an embodiment of the present invention, Figure 3 is a schematic diagram showing a state in which the ultra-high frequency concentrated in various kinds of food according to the present invention, When the invention is described in detail with reference to the accompanying drawings as follows.

The microwave concentrating structure of the present invention is a microwave oven (100) having a cooking chamber (90) for cooking food at a microwave generated by the magnetron (30), the cooking chamber (90) from the magnetron (30) A waveguide 20 communicating with the center region of the bottom plate 90a; And a transmissive plate 50 forming an upper surface, a first reflector 60 formed in a central region of the transmissive plate 50, and a second reflector formed downward from the transmissive plate 50. It consists of a tray 80 consisting of 70).

At the interface between the waveguide 20 and the bottom plate 90a of the cooking chamber 90, an opening 20a, which is an outlet of the waveguide 20, is formed such that ultra-high frequency waves are injected into the tray 80.

The transmission plate 50 is made of a glass material through which ultra-high frequency is transmitted, and the first reflecting unit 60 is a second reflecting unit which is a lower radial position of the ultra-high frequency injected from the opening portion 20a of the waveguide 20. The reflective plate 70 is formed in a semicircular shape having a predetermined curvature projecting downward from the center area of the lower surface of the transmissive plate 50.

The second reflecting portion 70 communicates with the opening portion 20a of the waveguide 20 through a connecting end 70a extending downwardly thereof, whereby the opening portion 20a and the second reflecting portion 70 are connected to each other. The stage 70a and the first reflecting portion 60 are opposed to each other in a vertical line.

In addition, the second reflector 70 reflects the ultra-high frequency reflected by the first reflector 60 to the upper portion of the transmissive plate 50 to obtain a predetermined curvature in the transmissive plate 50 so as to pass through a certain focal point. Along the bottom.

On the other hand, in the constant focus region through which the ultra-high frequency reflected by the first and second reflectors 60 and 70 of the tray 80 uniformly passes, the ultra-high frequency in each direction passing through the constant focus region has a constant pattern. After hitting the inner wall of the cooking chamber 90, the tray 80 is set to an appropriate position on the upper portion of the upper portion of the tray 80 so as to be reflected back to the food.

When the ultra-high frequency of the microwave is concentrated by the present invention configured as described above in detail with reference to FIGS. 2 and 3 as follows. In this case, the line shown in FIG. 3 represents a radiation path of ultra high frequency.

First, the food on the upper surface of the tray 80 installed in the center region of the bottom plate 90a of the cooking chamber 90 to be connected to the opening 20a of the waveguide 20 by the connection end 70a. This placed food container 40 is placed.

Next, when a high voltage electricity is applied to the magnetron 30 after closing the door (not shown) of the cooking chamber 90, about 2,450 MHz of high frequency is generated, and the ultra high frequency is propagated to the waveguide 20.

In this case, the waveguide 20 communicates from the magnetron 30 to the center region of the bottom plate 90a of the cooking chamber 90, and the opening 20a of the waveguide 20 is connected to the connection end 70a of the tray 80. As the opening portion 20a, the connection end 70a of the tray 80 and the first reflecting portion 60 face each other in a vertical line, the ultra-high frequency propagated through the waveguide 20 is the opening portion 20a. Is injected into the first reflection part 60 protruding downward from the central region of the transmission plate 50 after passing through the connection end 70a.

Then, as the first reflecting portion 60 of the tray 80 is formed in a semi-circular shape having a predetermined curvature, as shown in FIG. 3, first of all, a first angle having a large angle with the opening 20a of the waveguide 20 is shown. Ultra-high frequency incident on the outer circumferential A portion of the reflecting portion 60 is reflected at a corresponding large angle, and is incident on the outer circumferential A 'portion of the inner surface of the second reflecting portion 70.

In addition, the second reflector 70 is formed to have a predetermined curvature so that when the ultra-high frequency reflected by the first reflector 60 is incident, the light is reflected back to the upper portion of the transmission plate 50 to uniformly pass through a certain focal point. In addition, the ultra-high frequency incident on the A 'portion of the second reflecting portion 70 formed with a large curvature reflected from the A portion of the first reflecting portion 60 is reflected at a large angle again to transmit the glass plate 50 of glass material. After passing through, it passes through the F portion which is the upper constant focus of the tray 80.

Next, the ultra-high frequency incident to the central portion C of the first reflecting portion 60 which forms a small angle with the opening 20a of the waveguide 20 is reflected at a corresponding small angle, and thus the second reflecting portion 70 ) Ultra-high frequency incident to the C 'portion near the center of the inner surface and incident to the C' portion of the second reflecting portion 70 formed with a small curvature is reflected at a small angle again and then transmitted through the transmission plate 50. The upper portion of the tray 80 passes through the F portion.

The ultra-high frequency incident to the portion B between the portions A and C of the first reflecting portion 60 is reflected at a corresponding angle, and is incident to the portion B ′ of the inner surface of the second reflecting portion 70. The ultra-high frequency incident to the portion B ′ of the second reflector 70 is reflected again at an angle corresponding to the curvature ratio of the portion to transmit the transmissive plate 50, and F, which is a top focal point of the tray 80, is reflected. Via the site.

On the other hand, the food of the food container 40 disposed on the permeable plate 50, which is the upper surface of the tray 80 is composed of a variety of vertical type, horizontal type and rectangular type, all the above-mentioned food is permeable plate The position of the upper portion of the 50 is the concentration of the ultra-high frequency generated by the ultra-high frequency reflected by the first and second reflecting portion 60, 70 to the upper portion of the transmission plate 50 via a certain focal point F portion Will match the station.

Therefore, the ultra-high frequency emitted from the bottom of the cooking chamber 90 to the inside of the tray 80 through the opening 20a of the waveguide 20 is the tray centered on a constant focus by the first and second reflectors 60 and 70. (80) the various kinds of food which is reflected upwards, and placed on the upper surface of the tray 80 is located in the ultra-high frequency concentrated region reflected by the first and second reflectors 60 and 70, Ultra-high frequency in each direction via a constant focus on the upper portion of the tray 80 hits the inner wall of the cooking chamber 90 in a predetermined pattern and then reflected back to the food again, spraying the ultra-high frequency focused on all kinds of food quickly and efficiently cooking Becomes possible.

As described above, according to the microwave concentrating structure of the present invention, the microwaves emitted from the bottom of the cooking chamber 90 into the tray 80 by the first and second reflecting units 60 and 70. Reflected to the upper portion of the tray 80 and passed through a certain focus, at this time, various kinds of food placed on the upper surface of the tray 80 is concentrated of the ultra-high frequency reflected by the first and second reflectors 60 and 70 By being located in reverse, ultra-high frequency sprayed into the inside of the cooking chamber 90 is intensively sprayed on the food to prevent the loss of unnecessary ultra-high frequency, shorten the cooking time, quickly and efficiently all kinds of food There is a useful effect that can be cooked.

Claims (1)

In the microwave oven 100 is provided with a cooking chamber 90 for cooking food at a very high frequency generated by the magnetron 30, A waveguide 20 communicating from the magnetron 30 to a central region of the bottom plate 90a so that an opening 20a through which high frequency is injected is formed in the bottom plate 90a of the cooking chamber 90; And Reflecting the radially transmitted lower plate 50 formed of a material that forms the upper surface and the ultra-high frequency transmission, and the ultra-high frequency formed in the central region of the transmissive plate 50 and injected from the opening 20a of the waveguide 20 The first reflector 60 and the ultra-high frequency communicated with the opening 20a and reflected by the first reflector 60 are reflected back to the upper portion of the transmissive plate 50 to pass through a certain focus point. Ultra-high frequency concentrating structure of the microwave oven, characterized in that the tray comprises a tray (80) consisting of a second reflecting portion (70) formed in the lower portion along the curvature.