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Induction heating cooker

A technology of induction heating and cooking equipment, applied in induction heating, induction heating devices, electric/magnetic/electromagnetic heating, etc., can solve the problems of reducing inverter output and driving frequency, and achieves ease of use, energy-saving use, and restraint The effect of useless power supply

Active Publication Date: 2015-07-08
MITSUBISHI ELECTRIC CORP +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In addition, it is disclosed that when the change in the predetermined control amount is less than or equal to a predetermined amount of time during a predetermined period of time, it is determined that boiling water is completed, and the drive frequency is reduced in order to reduce the output of the inverter.

Method used

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  • Induction heating cooker
  • Induction heating cooker
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Examples

Experimental program
Comparison scheme
Effect test

Embodiment approach 1

[0031] (structure)

[0032] figure 1 It is an exploded perspective view showing Embodiment 1 of the induction heating cooker of this invention. like figure 1 As shown, on the upper part of the induction heating cooker 100, there is a top plate 4 on which a to-be-heated object 5 such as a pan is placed. The top plate 4 is provided with a first heating port 1 , a second heating port 2 , and a third heating port 3 as heating ports for inductively heating the object 5 to be heated. In addition, the induction heating cooker 100 includes a first heating unit 11 , a second heating unit 12 , and a third heating unit 13 corresponding to the heating ports 1 to 3 , and the object to be heated 5 can be placed on each of the heating ports 1 to 3 . for induction heating.

[0033] exist figure 1 Among them, on the front side of the main body, the first heating unit 11 and the second heating unit 12 are arranged side by side, and the third heating unit 13 is arranged approximately in the...

Embodiment approach 2

[0080] Figure 12 as well as Figure 13 is a figure showing Embodiment 2 of the present invention, refer to Figure 12 as well as Figure 13 Another example of the operation of the drive control unit 31 of the induction heating cooker 100 will be described. In addition, in Figure 12 as well as Figure 13 In the pair with Figure 8 as well as Figure 9 Parts having the same structure as those shown in the drawings are attached with the same symbols and their descriptions are omitted. Figure 12 as well as Figure 13 The drive control unit 31 is controlled with Figure 8 as well as Figure 9 The difference in the control of the drive control unit 31 is the change timing of the drive frequency f.

[0081] like Figure 12 as well as Figure 13 As shown, the drive control unit 31 performs control to reduce the high-frequency power after a predetermined additional period Te elapses after the current change amount ΔI becomes equal to or smaller than the set current change ...

Embodiment approach 3

[0087] Figure 14 It is a figure showing Embodiment 3 of the induction heating cooker of the present invention, refer to Figure 14 Description of induction heating cooker. In addition, in Figure 14 The drive circuit 150 has a pair with figure 2 Portions with the same configuration as the drive circuit 50 are given the same reference numerals and their descriptions are omitted. Figure 14 The drive circuit 150 with figure 2 The driving circuit 50 differs in that the driving circuit 150 has a plurality of resonant capacitors 24a, 24b.

[0088] Specifically, the drive circuit 150 has a configuration in which a resonant capacitor 24b connected in parallel to the resonant capacitor 24a is further provided. Therefore, in the drive circuit 50, a resonance circuit is formed by the heating coil 11a and the resonance capacitors 24a, 24b. Here, the capacitance of the resonant capacitors 24a and 24b is determined by the maximum heating power (maximum input power) required in the...

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PUM

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Abstract

According to the present invention, when driving an inverter circuit at a prescribed drive frequency, the change in current per prescribed time of an input current or a coil current is detected, and the heating period lasting from the start of control until said change in current falls to or below a setting value is measured. The inverter circuit is then controlled such that high-frequency power supplied to a heating coil falls in accordance with the length of the measured heating period.

Description

technical field [0001] The present invention relates to an induction heating cooker. Background technique [0002] In a conventional induction heating cooker, there is an example in which the temperature of an object to be heated is determined from an inverter input current and a control amount (see, for example, Patent Documents 1 and 2). The induction heating cooker of Patent Document 1 has a control unit that controls the inverter so that the input current of the inverter becomes constant, and when there is a change in the control amount greater than or equal to a predetermined amount within a predetermined time, it is determined that the object to be heated is Large temperature changes inhibit the output of the inverter. In addition, it is disclosed that, when the change in the predetermined control amount is less than or equal to a predetermined control amount during a predetermined time period, it is determined that boiling water is completed, and the drive frequency ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H05B6/12
CPCH05B6/062H05B2213/07H05B6/12H05B6/1209
Inventor 吉野勇人高野浩志郎伊藤雄一郎西健一郎
Owner MITSUBISHI ELECTRIC CORP