KR870000787Y1 - Heating device by microwave - Google Patents

Abstract

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Description

High frequency heating device

1 is a structural cross-sectional view of the present invention.

2 is a plan view of the top cover of the present invention in an open state.

3 is a plan view of the impeller of the present invention.

4 is a structural cross-sectional view of the impeller of the present invention.

5 is a perspective view of the installation state of the present invention.

6 is a cross-sectional view of a conventional structure.

* Explanation of symbols for main parts of the drawings

1: cavity 3: magnetron

4: waveguide 41: auxiliary cavity

42: assistant doc 5: stirrer pan

51: vertical wing 52: inclined portion

53: space part

The present invention improves the structure of the waveguide and the rotor blades installed therein in the top feeding type high frequency heating device, thereby reducing the cost due to the structural simplification, increasing the uniform heating effect, and increasing the effective content. It relates to a high frequency heating measure configured to reduce the size of the stove.

Referring to the general microwave structure, as shown in FIG. 6, the high frequency generated in the magnetron 3 'along the cavity 1' is induced and supplied to the upper part of the cavity through the waveguide 4 'and below the end of the waveguide. Inside the cavity of the supplied high frequency dispersing stirrer fan 5 'is installed as a cover 2', and between the front of the magnetron and the air inlet on the side of the cavity, the air supplied from the cooling fan in the rear is supplied into the cavity. The duct is connected to be installed to exhaust the smell in the cavity and rotate the stirrer pan, or alternatively, a separate air duct 9 'is installed on the top of the waveguide 4'. The rotor 8 'which is rotated by the wind supplied therefrom has been used separately in the shaft upper end of the stirrer fan 5'.

By the way, as described above, as the stirrer pan is located above the inside of the cavity and the cover for preventing the introduction of foreign matters is installed under the cavity, the effective volume of the cavity is reduced in proportion to that, and the installation structure of the stirrer pan is very complicated. There was another problem that the overall volume of the product is increased and the weight is increased.

Therefore, in order to solve the above problems, the present invention forms an auxiliary cavity having a predetermined size at the distal end of the waveguide located above the cavity, and simultaneously installs a stirrer pan therein to rotate the material. By improving the structure of the stirrer fan accordingly, it is possible to maximize the effective volume of the cavity and to simplify the installation structure and the overall structure of the stirrer fan, which will be described in detail with reference to the accompanying drawings. .

That is, as shown in Figs. 1 and 2, the auxiliary cavity 41 having a predetermined volume at the distal end of the waveguide 4 placed above the cavity 1 in order to induce the high frequency generated by the magnetron 3 is provided. Formed.

And the inside of the stirrer fan (5) is installed so as to rotate by the rotating shaft (6), the stirrer fan (5) is a disk-like bent at a predetermined angle (θ) at the end as shown in Figure 3, 4 Several vertical blades 51 having inclined portions 52 and a space portion 53 having an inflow flaw inside each vertical blade 51 are provided.

In addition, the upper plate of the cavity 1 below the stirrer fan 5 has a high frequency supply through hole 11 covered as a separate cover 2, and an air supply hole 43 formed at one side of the auxiliary cavity 41. ) Is provided with an air supply auxiliary duct 42 for rotating the stirrer fan (5), the other side is formed with an air outlet (44).

The present invention constituted as described above, when the high frequency generated and generated in the magnetron 3 is introduced into the auxiliary cavity 41 through the waveguide 4, the wind and the inclined portion 52 supplied as the auxiliary duct 42 therein. As a vertical blade 51 having a) is distributed by the stirrer fan (5) which is rotated at a constant speed in contact with the vertical blade 51 is supplied into the cavity (1) through the space portion 53 and the lower hole (11), In the figure, reference numeral 71 denotes a blowing fan, and 72 denotes a main doctor.

At this time, the stirrer fan 5 has a radius of about 3/4 lambda of the high frequency wavelength, the space portion 53 is formed at a distance of about λ / 4 from the rotation center point, the height of the vertical wing 51 At the same time as λ / 8, the bend angle (θ) of the inclined portion 52 of the end is preferably formed in the range of 0-30 ℃ to be able to rotate in smooth contact with the wind supplied.

The present invention constructed and operated as described above, in the state in which the high frequency dispersion stirrer fan 5 is installed in the auxiliary cavity 41 at the end of the waveguide 4, the wind and the vertical wing supplied through the auxiliary duct 42 ( By distributing and supplying the high frequency supplied while rotating by the inclined portion 52 of 51, the effective volume of the cavity 1 is maximized, and of course, the structural improvement of the stirrer fan 5 is improved. Accordingly, by excluding the separate rotor as in the prior art, it can be smoothly rotated, which has an extraordinary effect that can contribute to the reduction in manufacturing cost and the light weight of the product due to the simplification of the structure.

Claims (1)

(Correct) In a conventional one in which the high frequency supplied through the waveguide 4 is distributed and supplied into the cavity 1 by means of a stirrer pan, the end portion of the waveguide 4 located above the cavity has a predetermined size and at the same time one side. An auxiliary gait 41 is formed in which an auxiliary duct 42 for supplying wind is formed, and a plurality of vertical wings 51 having an inclined part 52 at the end thereof and a space part 53 having an inflow flaw therein. High frequency heating device, characterized in that the disk-shaped stirrer fan (5) having a) is installed so as to rotate. (Correction) The radius of the stirrer fan 5 is 3/4 lambda, and the space portion 53 is formed at a position spaced λ / 4 from the center of rotation, and the height of the vertical wing 51 is A high-frequency heating device, characterized in that lambda / 8, the inclined portion 52 is bent at 0-32 ℃.