JPS60143592A - High frequency heater - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a high-frequency heating device that uses microwave power to heat an object.

Conventional configuration and problems The high-frequency heating device uses two microwave power transmission lines called waveguides to connect the microwave generation section that generates microwave power and the heating chamber that accommodates the object to be heated. It consists of a structure that is connected using

In other words, the microwave power generated in the microwave generator is transmitted through the waveguide and fed into the heating chamber.
The object to be heated housed in the heating chamber is subjected to high frequency heating.

Here, if the heating chamber containing the object to be heated is an ideal load for the microwave generator (that is, a load with sufficient impedance matching), the microwave power generated by the microwave generator is Almost all of it will be absorbed by this ideal load. However, depending on the size and type of the object to be heated, the heating chamber containing the object often deviates from the ideal load on the microwave generator. In such a case, a portion of the microwave power supplied to the heating chamber is reflected toward the microwave generator in an amount corresponding to the degree of deviation from the ideal load. For example, an ideal load is 1000 cc of water as the object to be heated.
is selected, approximately 40 for a water load of 100cc.
% of microwave power is reflected.

3゛gum;' Conventional high-frequency heating devices do not have many measures against this reflected microwave power, so in the worst case, the microwave generating section may be destroyed by this reflected power. There was a risk.

Further, even if the reflected power does not lead to destruction, this reflected power is a loss power that does not contribute to the heating of the object to be heated, resulting in a waste of energy.

Purpose of the Invention The present invention has been made in view of the above-mentioned points, and it reuses the microwave power reflected from the heating chamber to heat the object to be heated, thereby increasing the heating efficiency. Intended for protection against microwave power.

Structure of the Invention To achieve the above object, the present invention provides a main transmission path that transmits the microwave power generated by the microwave generator to the heating chamber, and a sub-transmission path that transmits the reflected microwave power. A planar resistor disposed inside the heating chamber is connected to the end of the sub-transmission line, and the reflected microwave power is caused to be lost by this resistor. This is achieved by radiant heating of the object to be heated.

Description of examples Hereinafter, the present invention will be explained with reference to the drawings.

The drawing is a configuration diagram of a high-frequency heating device showing an embodiment of the present invention.

The microwave power generated in the microwave generator 1 is
Electric power is transmitted through the main transmission path 2 and the circulator 3 and is supplied to a heating chamber 4 that accommodates an object to be heated (not shown). Here, 5 is a feeding antenna that feeds microwave power to the heating chamber. Further, the circulator 3 operates to present a specific power output terminal depending on the input terminal of power to this circulator, and the output terminal for the input terminal 3-a is 3-b, and the input terminal 3-b is The output end for is 3-c
It is.

Therefore, the microwave power reflected from the heating chamber 4 is input to the terminal 3-b of the circulator 3, so its output terminal becomes 3-c.

This terminal 3-c has a wire that reflects from the heating chamber.
A sub-transmission line 6 for transmitting backwave power is connected,
A planar resistor 7 disposed on the bottom surface of the heating chamber is connected to the terminal end of the sub-transmission line 6. 8 is the body.

With this configuration, the microwave power reflected from the heating chamber will be absorbed by the resistor.
It is possible to prevent reflected power from being transmitted to the microwave generating section, and it is possible to prevent the microwave generating section from being damaged or having characteristics deteriorated due to the reflected power. ! In addition, the resistor placed in the heating chamber generates heat when the reflected power is lost, but this radiant heat contributes to heating the object to be heated, so the reflected power is not affected as in conventional devices. There is no ineffective power for heating the object, and heating efficiency can be increased.

Note that in order to prevent the planar resistor from being heated by the microwave power radiated from the feeding antenna, a mesoche-like metal body may be provided on the surface of the resistor.

6be:' Also, if the active elements of the microwave generation section are configured using transistors, the main transmission line and the sub-transmission line can be easily configured with strip transmission lines, so each transmission line is − results in a highly reliable structure.

More than the effects of the invention, the present invention transmits the reflected microwave power from the heating chamber which is branched from the main transmission line that transmits the microwave power generated by the microwave generating section to the heating chamber that houses the object to be heated. The present invention provides a high-frequency heating device in which a planar resistor disposed on the bottom surface of a heating chamber is connected to the terminal end of a sub-transmission line.

(1) Since the microwave power reflected from the heating chamber is absorbed by the resistor, it is possible to prevent the microwave generating section from being damaged or having its characteristics degraded by this reflected power.

■ Since a resistor that absorbs the reflected power is placed inside the heating chamber, the object to be heated can be heated by the radiant heat of the resistor, and most of the microwave power generated by the microwave generator is absorbed. Since all components can contribute to the heating power of all objects to be heated, high heating efficiency can be maintained for all objects to be heated.

[Brief explanation of the drawing]

The drawing is a configuration diagram of a high frequency heating device according to an embodiment of the present invention. 1...Microwave generation section, 2...Main transmission line, 4...Heating chamber, 6...Sub transmission line, 7...・Resistor. Name of agent: Patent attorney Toshio Nakao and one other person JP-A-Sho GO-143592 (3)

Claims (1)

[Claims] a microwave generator, a heating chamber that accommodates an object to be heated, a main transmission line that transmits the microwave power generated by the microwave generator to the heating chamber, and a main transmission line that is branched from the main transmission line. A high-frequency heating device comprising a sub-transmission line for transmitting microwave power reflected from a heating chamber, and a planar resistor provided at an end of the sub-transmission line and disposed within the heating chamber.