CN102367959A - Semiconductor microwave oven - Google Patents

Abstract

A semiconductor microwave oven comprises a semiconductor power source and a rectangular waveguide, wherein the semiconductor power source is connected with a direct current power supply mechanism. The DC power supply mechanism comprises a DC power supply which is respectively connected with the control part of the semiconductor microwave oven and the semiconductor power source. Or the direct current power supply mechanism comprises a direct current power supply which is respectively connected with the commercial power and the semiconductor power source. Or the direct current power supply mechanism comprises a storage battery, commercial power is connected with the storage battery after passing through the charger, and the storage battery is connected with the semiconductor power source. The charger is also connected to a direct current DC. Or the direct current power supply mechanism comprises a storage battery and a solar panel, the storage battery and the solar panel are respectively connected with the semiconductor power source through the charge-discharge controller, and the storage battery is respectively connected with the commercial power and the direct current DC through the charger. The invention has the characteristics of simple and reasonable structure, flexible operation and wide application range.

Description

The semiconductor microwave stove

Technical field

The present invention relates to a kind of semiconductor microwave stove.

Background technology

At present, the main components and parts of common microwave magnetron stove comprise magnetron, high-tension transformer, high-voltage capacitance, high-voltage diode, cavity, fire door and control assembly etc.The power supply of microwave magnetron stove comprises: as civil power AC 11, high-tension transformer 12, high-voltage capacitance 13, high-voltage diode 14 and the magnetron 15 of AC power.Wherein, the input of civil power AC 11 is exported one and is used for the 3.3V voltage of filament and the high pressure of an about 2000V behind high-tension transformer 12.Behind 14 voltage multiplying rectifiers of the high pressure of this about 2000V through high-voltage capacitance 13, high-voltage diode, become about 4000V negative high voltage, supply with magnetron.AC power becomes the dc pulse high pressure after high-tension transformer, high-voltage capacitance, high-voltage diode boost, magnetron just can send microwave.Microwave is had an effect with heated material in the cavity after rectangular waveguide gets into cavity of microwave oven, realizes the microwave Fast Heating.

Because the cost of manufacture of common microwave magnetron stove is high, volume is big, weight is big, voltage is high, the material standard requirement of magnetron is high, manufacture difficulty is big etc., so limited the further lifting of micro-wave oven.

Along with the exploitation of semiconductor microactuator wave technology, the cost of semiconductor microactuator wave technology is more and more lower, weight is more and more lighter, power density unit volume is increasing, with its application on micro-wave oven inexorable trend that is the semiconductor microwave technical development.But,,, need the new power supply mode of research so there is a big difference for its power supply mode, electric pressure and common microwave magnetron stove because the semiconductor microwave stove does not use magnetron, high-tension transformer, high-voltage capacitance, high-voltage diode.

Chinese patent document number CN 102062424A discloses a kind of no microwave magnetron stove on 05 18th, 2011; Comprise that furnace chamber, control circuit, replacement magnetron also produce satisfied microwave signal of cooking the microwave signal that requires amplitude and produce module, microwave signal is transferred to the microwave antenna of furnace chamber, and be that control circuit and microwave signal produce the power circuit that module provides working power; Microwave signal produces module and comprises that microwave signal produces circuit and power amplification circuit.Power circuit is for exchanging the power circuit that changes direct current, and the DC voltage of its output is below 32 volts.

Summary of the invention

The object of the invention aims to provide a kind of simple and reasonable, flexible operation, semiconductor microwave stove applied widely, to overcome weak point of the prior art.

A kind of semiconductor microwave stove by this purpose design comprises semiconductor power source and rectangular waveguide, and its architectural feature is that semiconductor power source and direct current supply mechanism join.

Said direct current supply mechanism comprises dc source, and this dc source joins with the control assembly and the semiconductor power source of semiconductor microwave stove respectively.

Said direct current supply mechanism comprises dc source, and this dc source joins with civil power and semiconductor power source respectively.

Said direct current supply mechanism comprises battery, and civil power joins with battery through behind the charger, and battery and semiconductor power source join.

Said charger also joins with direct current DC.

Said direct current supply mechanism comprises battery and solar panel, and battery and solar panel join through charging-discharging controller and semiconductor power source respectively, and battery joins with civil power and direct current DC respectively through charger.

Said direct current supply mechanism comprises battery and wind energy Electrical Discharge Machine, and battery and wind energy Electrical Discharge Machine join through charging-discharging controller and semiconductor power source respectively, and battery joins with civil power and direct current DC respectively through charger.

The present invention for the production and the penetration and promotion of semiconductor microwave stove, has established solid foundation for the semiconductor microwave stove provides multiple direct current supply mechanism, has simple and reasonable, flexible operation, advantage of wide range of application.

Description of drawings

Fig. 1 is for having the power supply the principle figure of common microwave magnetron stove now.

Fig. 2 is that the circuit of first embodiment of the invention connects block diagram.

Fig. 3 is that the circuit of second embodiment connects block diagram.

Fig. 4 is that the circuit of the 3rd embodiment connects block diagram.

Fig. 5 is that the circuit of the 4th embodiment connects block diagram.

Fig. 6 is that the circuit of the 5th embodiment connects block diagram.

Among the figure: 21 is dc source, and 22 is the semiconductor power source, and 23 is control assembly, and 30 is the semiconductor microwave stove, and 31 is civil power, and 41 is direct current DC, and 43 is charger, and 44 is battery, and 51 is solar panel, and 52 is charging-discharging controller, and 61 is the wind energy Electrical Discharge Machine.

The specific embodiment

Below in conjunction with accompanying drawing and embodiment the present invention is further described.

First embodiment

Referring to Fig. 2, this semiconductor microwave stove comprises semiconductor power source 22 and rectangular waveguide, and semiconductor power source 22 joins with direct current supply mechanism.Semiconductor power source 22 required voltages are direct current 0～32V, through regulating the height of input voltage, can regulate the microwave output power size in semiconductor power source 22, realize that semiconductor microwave stove power stepless is adjustable.

In the present embodiment, direct current supply mechanism comprises dc source 21, and this dc source 21 joins with control assembly of semiconductor microwave stove 30 23 and semiconductor power source 22 respectively.

Dc source 21 is exported variable voltage DC 0～32V semiconductor supply power source 22, voltage DC 12V supply control system 23, voltage DC 5V supply control system 23 respectively.

The 23 output voltage conditioning signal D of control system regulate dc source 21 output DC 0～32V magnitude of voltage, control semiconductor power source 22 variable power.

Second embodiment

Referring to Fig. 3, in the present embodiment, direct current supply mechanism comprises dc source 21, and this dc source 21 joins with civil power 31 and semiconductor power source 22 respectively.

Dc source 21, semiconductor power source 22 are positioned at semiconductor microwave stove 30.Dc source 21 transfers the alternating voltage of civil power 31 to semiconductor power source 22 required 0～32V DC voltage.Wherein, the watt level of dc source 21 disposes according to the watt level in semiconductor power source 22.

All the other are not stated part and see first embodiment, no longer repeat.

The 3rd embodiment

Referring to Fig. 4, in the present embodiment, direct current supply mechanism comprises battery 44, and civil power 31 joins with battery 44 through charger 43 backs, and battery 44 joins with semiconductor power source 22.Charger 43 also joins with direct current DC41.

Battery 44, semiconductor power source 22 are positioned at semiconductor microwave stove 30, and charger 43 is external.After battery is full of electricity, can satisfy the work of semiconductor microwave stove a period of time, realize that the semiconductor microwave stove is portable fully.Because accumulator capacity restriction, charge in batteries power supply plan relatively are fit to small-power semiconductor microwave stove.Wherein battery 44 chargings have dual mode: civil power 31 and direct current DC41, charge through 43 pairs of batteries 44 of same charger.Civil power 31 satisfies indoor grade has the place of civil power to charge, and direct current DC41 satisfies the dc source that vehicle-mounted grade has DC12V～DC32V scope.Can charge to battery through automobile cigarette lighter output is convenient.

All the other are not stated part and see first embodiment, no longer repeat.

The 4th embodiment

Referring to Fig. 5; In the present embodiment; Direct current supply mechanism comprises battery 44 and solar panel 51, and battery 44 joins through charging-discharging controller 52 and semiconductor power source 22 respectively with solar panel 51, and battery 44 joins with direct current DC41 with civil power 31 respectively through charger 43.

Charging-discharging controller 52, battery 44, semiconductor power source 22 are positioned at the semiconductor microwave stove.The battery of semiconductor microwave stove 30 can use the solar panel charging, charging-discharging controller 52 control solar recharging electric current and charging voltages.Wherein, solar panel 51 is a separate modular, links to each other with semiconductor microwave stove 30 through output interface.

When the no solar time, also can use common charger 43 battery 44 to be charged through civil power 31 or direct current DC41.

All the other are not stated part and see first embodiment, no longer repeat.

The 5th embodiment

Referring to Fig. 6; In the present embodiment; Direct current supply mechanism comprises battery 44 and wind energy Electrical Discharge Machine 61, and battery 44 joins through charging-discharging controller 52 and semiconductor power source 22 respectively with wind energy Electrical Discharge Machine 61, and battery 44 joins with direct current DC41 with civil power 31 respectively through charger 43.

Charging-discharging controller 52, battery 44, semiconductor power source 22 are positioned at semiconductor microwave stove 30.The battery of semiconductor microwave stove 30 can use wind-driven generator 61 to charge through charging-discharging controller 52, charging-discharging controller 52 control wind-driven generator charging current and voltages.Wherein wind-driven generator 61 is a separate modular, links to each other with semiconductor microwave stove 30 through output interface.

When no wind energy, also can use common charger 43 battery 44 to be charged through civil power 31 or direct current DC41.

All the other are not stated part and see first embodiment, no longer repeat.

Claims (7)

1. a semiconductor microwave stove comprises semiconductor power source (22) and rectangular waveguide, it is characterized in that semiconductor power source (22) and direct current supply mechanism join.

2. semiconductor microwave stove according to claim 1 is characterized in that said direct current supply mechanism comprises dc source (21), and this dc source (21) joins with control assembly (23) and semiconductor power source (22) of semiconductor microwave stove (30) respectively.

3. semiconductor microwave stove according to claim 1 is characterized in that said direct current supply mechanism comprises dc source (21), and this dc source (21) joins with civil power (31) and semiconductor power source (22) respectively.

4. semiconductor microwave stove according to claim 1 is characterized in that said direct current supply mechanism comprises battery (44), and civil power (31) joins with battery (44) through charger (43) back, and battery (44) joins with semiconductor power source (22).

5. semiconductor microwave stove according to claim 4 is characterized in that said charger (43) also joins with direct current DC (41).

6. semiconductor microwave stove according to claim 1; It is characterized in that said direct current supply mechanism comprises battery (44) and solar panel (51); Battery (44) and solar panel (51) join through charging-discharging controller (52) and semiconductor power source (22) respectively, and battery (44) joins with civil power (31) and direct current DC (41) respectively through charger (43).

7. semiconductor microwave stove according to claim 1; It is characterized in that said direct current supply mechanism comprises battery (44) and wind energy Electrical Discharge Machine (61); Battery (44) and wind energy Electrical Discharge Machine (61) join through charging-discharging controller (52) and semiconductor power source (22) respectively, and battery (44) joins with civil power (31) and direct current DC (41) respectively through charger (43).

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