JPS6235280Y2 - - Google Patents

Description

[Detailed explanation of the idea]

[Technical Field of the Invention] The present invention relates to a high-frequency heating cooking device, and in particular, to shorten the axial length of the starf unshaft to a predetermined length by attaching a starf unshaft to the ceiling plate of a heating chamber via a shaft mount. The present invention relates to a high-frequency heating cooking device that can prevent starvation shafts from melting. [Technical background of the invention] Generally, as shown in FIG. 1, a high-frequency heating cooking device has a magnetron 2 installed on the side of a heating chamber 1, and the heating chamber is heated by radio waves emitted from the magnetron 2. Cooked food 3 placed on the bottom side of 1
is being heated and cooked. Furthermore, a star fan 4 is provided on the upper side of the heating chamber 1.
is arranged, and the cooked food 3 is heated evenly by the radio wave stirring action of the starvation fan 4. This starvation fan 4 is attached to the lower end portion of a starvation shaft 5 that hangs down from the ceiling plate 1a of the heating chamber 1, and is placed at an appropriate position to obtain a good stirring effect. Further, the starvation shaft 5 is made of a dielectric material and is fastened and fixed to the ceiling plate 1a with nuts 6. [Problems in the Background Art] However, as described above, the starf unshaft 5 is formed to a predetermined length in order to arrange the starfang 4 in an appropriate position. The axial length _l1 up to the boss portion 4a was approximately 1/4 of the wavelength λ of the cooking radio wave. For this reason, the starvation shaft 5 resonated with the cooking radio waves, and heat generation occurred due to the concentration of the high-frequency electric field, causing the starvation shaft 5 to melt. [Purpose of the invention] The object of the present invention is to provide a high-frequency heating cooking device that eliminates the above-mentioned drawbacks, prevents the concentration of high-frequency electric fields on the starch undershaft, and prevents the starch undershaft from melting. [Summary of the invention] In order to achieve the above object, the present invention attaches the starfish unshaft to the ceiling board of the heating chamber via a shaft mounting base, and makes it possible to shorten the starfish unshaft to a length that does not resonate with radio waves. I have to. [Embodiments of the invention] Hereinafter, embodiments of the invention will be described in detail based on the drawings. As shown in FIG. 2, in the high frequency heating cooking device according to the present invention as well, a magnetron 12 is fixed to the side of the heating chamber 11, and in front of the radio wave output end 12a of the magnetron 12, as in the conventional one.
A reflecting plate 13 is provided to determine the direction of radio waves. In addition, a star fan 14 is arranged at an appropriate position above the heating chamber 11, and the cooked food 15
is placed on the lower side of the heating chamber 11. Furthermore, a shaft mount 16 that projects downward is attached to the inner surface of the ceiling plate 11a of the heating chamber 11. This shaft mounting base 16 has a groove shape, and is fixed to the ceiling plate 11a by screws 17, 17 at flanges 16a, 16a provided at the opening thereof. Further, the width of the groove bottom plate 16b of the shaft mount 16 is approximately 1/4 of the wavelength λ of the cooking radio waves emitted from the magnetron 12. Furthermore, the groove bottom plate 16 of the shaft mounting base 16
One end side of a starch unshaft 18 is fixed to a, and the starch unshaft 18 is suspended from the shaft mounting base 16.
On the fixed end side of the starfish unshaft 18,
A flange portion 18a is formed, and a male threaded portion 18b projects upward from the flange portion 18a. The male threaded portion 18b is
Fitted into the groove bottom plate 16b of the shaft mounting base 16,
A nut 19 is tightened to this male threaded portion 18b. Further, a tube 21 made of a low-loss dielectric material, such as Teflon, is connected to the lower end portion of the starvation anchor shaft 18.
is installed. Furthermore, a retaining ring 22 is fitted and fixed to the starch unshaft 18 directly below the starch annular shaft 14, and this retaining ring 22
The starvation fan 14 is supported in the axial direction and is prevented from falling off in the axial direction. and,
The axial length l ₂ of the starch unshaft 18 from the lower end surface of the groove bottom plate 16b of the shaft mounting base 16 to the boss portion 14a of the starch fan 14 is equal to the wavelength λ of the cooking radio waves emitted from the magnetron 12.
It is formed about 1/8 of the starfish unshaft 18.
is designed not to resonate with radio waves. In the high frequency heating cooking apparatus having the above configuration, when the cooked food 15 is placed in the heating chamber 11 and the switch is turned on, the magnetron 12 emits cooking radio waves. The radio waves are directed by the reflector 13 and heat the cooked food 15. The rotation stirring action of the starvation fan 14 ensures even heating. In this case, the starvation shaft 18 is
It can be formed as short as the height of the shaft mounting base 16, and in particular, it is formed to a length of λ/8 that does not resonate with radio waves, so there is no electric field concentration on the starch unshaft 18, and the electric field concentration does not occur. No fever. Note that the axial length of the starch unshaft 18 is not limited to λ/8, and any other length that does not resonate can be adopted. In addition, in this embodiment, the shaft mounting base 1
6 is formed with a groove bottom plate 16b having a width equal to 1/4 of the radio wave wavelength, an electric field is concentrated on the groove bottom plate 16b, and the cooked food 15 placed below the shaft mounting base 16 is can improve the heating condition. Specifically, the results shown in the table below were obtained.

[Effect of idea]

As described above, in the present invention, the axial length of the starfish unshaft can be shortened to a length that does not resonate with radio waves by attaching the starfish unshaft to the heating chamber via the shaft mounting base. It is possible to eliminate electric field concentration on the shaft, prevent heat generation and melting of the starvation shaft, and greatly improve the durability and reliability of the high-frequency heating cooking device.

[Brief explanation of the drawing]

FIG. 1 is a longitudinal cross-sectional view showing a heating chamber of a conventional high-frequency cooking apparatus, and FIG. 2 is a longitudinal cross-sectional view showing a heating chamber of a high-frequency cooking apparatus according to an embodiment of the present invention. 11... Heating chamber, 14... Starf unshaft, 16... Shaft mounting base, 18... Starf unshaft.

Claims (1)

[Scope of Claim for Utility Model Registration] 1. In a high-frequency heating cooking device in which a starvation fan is rotatably mounted on a starvation shaft attached to hang from the ceiling plate of a heating chamber so as to be able to stir radio waves for cooking. , the base end of the starvation unshaft is fixed to the ceiling plate side of the heating chamber via a shaft mount that protrudes downward from the heating chamber, and the distance between the end surface of the shaft mount and the starvation unboss is A high-frequency cooking device characterized in that the length is set to a length that does not resonate with radio waves. 2. The high frequency device according to claim 1, wherein the axial length of the starch unshaft from the end face of the shaft mount to the starch unboss is set to 1/8 of the wavelength of a radio wave for cooking. Heating cooking device. 3. The shaft mounting base is made of a metal material formed into a groove shape, and the width of the groove bottom plate is set to about 1/4 of the radio wave wavelength so that the groove bottom plate resonates with radio waves.
A high-frequency heating cooking device according to claim 1, characterized in that the device is formed as follows.