KR0128565B1 - Twin stirer fan device of microwave-oven - Google Patents

Abstract

In the twin stirrer fan installed on an upper plate of a cavity of a microwave oven to distribute microwave, a pair of rotating axes are vertically installed on a bottom of the stirrer fan cover (120) made of high frequency energy permeable material, a pair of fan holder (110 and 111) where a plurality of wings are radially and vertically installed in a circle by high frequency energy permeable material are respectively inserted in the rotating axes (122 and 124), thereby being capable of rotating by the wind which flows in, stirrer fans (100 and 101) reflecting high frequency energy on an upper surface of a pair of fan holders (110 and 111) are installed to rotate with respective fan holders (110 and 111), the stirrer fan cover (120) where a pair of fan holders (110 and 111) and a pair of stirrer fans (100 and 101) are rotatablely installed is provided with the wind through a suction port formed on one side wall of the cavity, and it is fixedly installed on an upper plate of the cavity so that the high frequency energy may be provided from the upper part thereof to be diffusedly reflected.

Description

Two wins stri fan installation structure for microwave oven

1 is an exploded perspective view showing an embodiment of the present invention.

2 is a plan view of the coupling state to the fan holder and the stirrer fan in the present invention (a) and (b).

3 is a schematic state diagram showing an installation state of the present invention.

4 is a plan view of FIG.

5 shows changes in the oscillation frequency of the stove, in which (a) is not used with the stirrer pan and (b) is with the stirrer pan.

* Explanation of the symbols of the main parts of the drawings

100,101: Stirrer fan 102: Auxiliary wing

110,111: fan holder 112: wing

114: extension wall 120: stirrer cover

122,124: axis of rotation

The present invention relates to an electromagnetic wave dispersing stirrer fan installed in the cavity top plate of the stove, and by installing a plurality of stirrer fans, the oscillation frequency and the propagation mode can be changed by a plurality of stirrer pans, thereby uniformly distributing high frequency energy. It relates to a two-win stirrer pan installation structure for a microwave oven that can cook food in an improved state.

In general, the microwave oven is to cook food using electromagnetic waves generated from the magnetron, that is, high-wave energy or heat of a heater.

Here, in the above method, in cooking food using electrons, that is, high frequency energy, in order to disperse the high frequency energy in the food in a more uniform state, the streak on the opening side of the waveguide opening serving as a passage of the high frequency energy is used. In this case, there are two types of rotating fan, which are driven by the motor and secondly by the wind generated by the cooling fan.

However, in the prior art, in the above method, a stirrer fan is installed at the top of the opening side of the waveguide, which is a passage of high frequency energy generated by the magnetron, in the driving method of the strut fan using the cooling fan to diffuse the high frequency energy. , Which had the following problems.

In other words, the stir pan installed as described above has a more useful effect in the cooking of dielectric materials, but has not produced a great improvement in food cooking.

This phenomenon means that in a stove design, the field density is not always constant within the cavity. Therefore, in designing the cavity, if it is designed according to the legitimate standard, the effect of uniform dispersion of electromagnetic waves can be obtained. However, it is not easy to design the structure of the cavity effectively. It is more effective.

Therefore, if such a strut pan was installed, high frequency energy could be dispersed, but the effect was insufficient, and efficient food cooking was not possible.

Therefore, the present invention is to solve the above problems, an object of the present invention is to be able to change the oscillation frequency and propagation mode by a two-way strut pan to uniformly distribute the high frequency energy to cook food in a more improved state It is to provide a twin strut pan installation structure for a microwave oven.

In the present invention, a pair of rotation shafts are placed on the bottom of the strut pan cover made of a high frequency energy transmission material, and a pair of fan holders in which several wings are placed radially is introduced into the rotation shaft while forming a circle with a high frequency energy transmission material. It installs and installs a strut pan that rotates with each fan holder and rotatably installs a strut pan reflecting high frequency energy from the upper surface of the pair of fan holders and rotatably installs a pair of fan holders and a pair of strut pans. The strut cover is achieved by being fixed to the upper plate of the cavity so that the wind is introduced through the suction port formed in one side wall of the cavity and the high frequency energy is introduced from the upper side and diffusely reflected.

Hereinafter, a preferred embodiment of the present invention according to the installation structure of a two-way strut pan for a microwave will be described in detail with reference to the accompanying drawings. That is, as shown in FIGS. 1 and 2, a pair of rotating shafts 122 and 124 is placed on the bottom of the strut pan cover 120 made of a high frequency energy transmitting material and formed into a high frequency energy transmitting material. A pair of fan holders 110 and 111 in which several wings 112 are installed radially are installed to be rotatable by the wind flowing into the rotation side 122 and 124, respectively, and the pair of fan holders. A pair of fan holders 110 and 111 is installed to rotate and install the strut pans 100 and 101 reflecting high frequency energy from the upper surfaces of the 110 and 111 together with the respective fan holders 110 and 111. And a pair of strut pans 100 and 101 rotatably installed on the upper plate of the cavity so that wind is introduced through the inlet formed on one side wall of the cavity and high frequency energy is diffused from the upper portion to diffuse the reflection. It is configured by fixed installation.

Particularly, in forming the strut pans 100 and 101, one of the strut pans 100 is formed without the auxiliary wings 102 at both ends thereof, and the other strut pan 101 has both side ends thereof. As a result, the auxiliary wing 102 is bent at a predetermined angle. In this result, the high frequency energy that collides with each other can cause interference with each other by the strut pans 100 and 101, which can enhance the diffuse reflection effect. will be.

In addition, as shown in FIGS. 3 and 4, the diameter of the one side fan holder 110 is larger than the diameter of the other side fan holder 111 and the wing 112 of the one side fan holder 110 has a predetermined angle. It is formed to be bent to improve the diffuse reflection effect of electromagnetic waves. Here, in more detail, the size of the pair of strut pans 100 and 101 should each be approximately 100 mm in diameter or less. The reason is to efficiently arrange the space when forming the cavity. By doing this, since the R.P.M (rotation radius) of the strut pan 100 and 101 is different during rotation, the diffuse reflection effect of high frequency energy is much better.

In addition, by bending and extending the extension wall 114 at the end of the wing 112 of the fan holder 110, 111 fan fan 110 (111) by allowing a greater amount of wind flow into the extension wall (114). To improve the rotational force of the.

By doing so, more wind is introduced in the state where the extension wall 114 is not formed, thereby increasing the rotational effect of the fan holder 110.

On the other hand, the one side fan holder 110 is formed in a plate shape, and the other side of the fan holder 111, the wing wings of the side of the auxiliary wing 102 with a predetermined angle is formed to increase the diffuse reflection effect is formed by the rotational speed and Since the reflection effect of high frequency energy is different from each other, food can be cooked in a uniform state.

In addition, the fan holders 110 and 111 rotated by the wind can be rotated in opposite directions, respectively, to increase the diffuse reflection effect of high frequency energy. This also improves the food cooking effect. In the present invention formed as described above, when the wind generated from the cooling fan flows into the stirrer cover 120 through the intake hole of the side wall of the cavity, the wind is a pair of fan holders 110 and 111 installed on the stirrer cover 120. ) And the wind is rotated along the stirrer pans 100 and 101 seated on the fan holders 110 and 111 so that the wind flows into the cooking chamber along the outlets formed in the stirrer cover 120. Will be.

That is, the high frequency energy coming out of the waveguide opening is to be diffusely reflected by the rotating stirrer pans 100 and 101, and the wind is discharged to the outlet through the above process.

Therefore, the operation and effects of the present invention thus formed will be described in detail with reference to the accompanying drawings.

That is, as illustrated in FIGS. 3 and 4, wind generated by the cooling fan flows toward the opening of the stirrer cover 120 through the suction hole formed in the side wall of the cooking chamber. The introduced wind causes the fan holders 110 and 111 fitted to the rotation shafts 122 and 124 formed on the stirrer cover 120 to rotate. In this case, the wind is the fan holders 110 and 111. The fan holders 110 and 111 may be rotated by hitting the blades 112 of FIG. When the fan holder 110, 111 is rotated,

Of course, the stirrer pans 100 and 101 fixedly seated thereon are also rotated along. Since the wind is introduced into the cooking chamber through the outlet of the stirrer cover (120).

In particular, the high-frequency energy output from the magnetron is radiated into the cooking chamber through the opening of the waveguide. At this time, the high frequency energy is diffusely reflected to the dielectric and delivered to the dielectric material through the waveguide. You will be able to cook effectively. Since the stirrer cover 120 and the fan holders 110 and 111 are made of a material capable of transmitting high frequency, the high frequency energy is scattered only by the stirrup fan 100 and 101.

On the other hand, since the stirrer pans 100 and 101 are located at the opening side of the waveguide, the high frequency energy output from the magnetron can be more widely distributed, thereby efficiently cooking food.

Here, when employing a two-win stirrer fan and a non-employment as in the present invention, a result as shown in FIG. 5 (a) (b) is obtained.

That is, in FIG. 5A, when the stirrer pan is not used, the amplitude of the center and the edge is narrow in the frequency range where the stove can be used. This means that the high frequency energy is not uniformly irradiated on the food to be cooked, and thus it is not possible to cook good food.

On the other hand, Fig. 5 (b) shows the case of using the twin-win stirrer fan of the present nickname, and since the amplitude of the high frequency energy is distributed relatively wide in the center and the edge in the frequency range where the stove can be used, High frequency energy is evenly irradiated to the food to be cooked, and thus effective food is obtained. At the same time, the multi-mode operation can be performed, and the high frequency energy can be evenly distributed.

In addition, some of the high frequency energy output from the magnetron is returned to the magnetron.

As a result, the magnetron operates in the sink region, that is, the magnetron serves to shorten the life of the magnetron, but in the present invention, since the two stirrer pans 100 and 101 are established, this effectively prevents them. . By installing the two stirrer pans 100 and 101, it affects various modes, thus contributing to the field dispersion (FIELD DISTRIBUTION), thereby enabling efficient food cooking.

In the present invention formed as described in detail above, the oscillation frequency and the propagation mode can be changed by the two-win stirrer pan by installing a plurality of stirrer pans, thereby uniformly distributing high frequency energy to cook food in an improved state. It is a very useful invention.

Claims (5)

In the electromagnetic wave dispersing stirrer pan installed on the cavity top plate of the stove, a pair of rotary shafts 122 and 124 is placed at the bottom of the stirrer pan cover 120 made of a high frequency energy transmitting material and formed in a circular shape with a high frequency energy transmitting material. A pair of fan holders 110 and 111 in which several wings 112 are installed are installed to be rotatable by wind flowing into the rotary shafts 122 and 124, respectively, and the pair of fan holders 110 ( The strut pans 100 and 101 reflecting high frequency energy from the upper surface of the 111 are seated and installed so as to rotate together with the respective fan holders 110 and 111, and a pair of fan holders 110 and 111 are paired with each other. The stirrer cover 120 rotatably installed with the fan 100 and 101 is fixed to the upper plate of the cavity so that the wind is introduced through the suction port formed in one side wall of the cavity, and the high frequency energy is introduced from the upper side to diffuse the diffuse reflection. Characteristic Microwave-to-stop trunnion fan installation structure for that. According to claim 1, wherein the diameter of the one side fan holder 110 is formed larger than the diameter of the other side fan holder 111 and the wing 112 of the one side fan holder 110 is formed to be bent at a predetermined angle diffuse reflection effect of the electromagnetic wave Two-way strut fan installation structure for a microwave, characterized in that to improve the. The fan holder 110 of claim 1, wherein the extension wall 114 is bent and placed at the ends of the wings 112 of the fan holders 110 and 111 so that a larger amount of wind flows into the extension wall 114. 2) One-way strut fan installation structure for a microwave, characterized in that to improve the rotational force of (111). The method of claim 1, wherein the one side fan holder 110 is formed in a plate shape and the other side of the fan holder 111, wing blades 102 having a predetermined angle at both ends of the wing portion to enhance the diffuse reflection effect, characterized in that Installation structure of two-way strut pan for microwave oven. According to claim 1 or 2, wherein the fan holders 110, 111 rotated by the wind can be rotated in the opposite direction, respectively, to enhance the diffuse reflection effect of high-frequency energy microwave oven two-way strut fan Installation structure.