CN203086373U - Electromagnetic induction high-frequency pulse no-phase-difference self-correction efficient energy conversion system - Google Patents

Abstract

The utility model discloses an electromagnetic induction high-frequency pulse no-phase-difference self-correction efficient energy conversion system, which comprises a microprocessor and a power module, wherein the microprocessor and a control circuit module are mutually communicated and connected; the signal output end of the microprocessor is connected with the signal input end of a PWM (pulse width modulation) module; the signal output end of the PWM module is connected with the signal input end of an oscillating circuit module; the signal input end of the oscillating circuit module is also connected with a synchronous circuit; the signal output end of the oscillating circuit module is connected with an IGBT (insulated gate bipolar translator) driving module; the signal output end of the IGBT diving module is connected with a main loop coil; the output end of the power module is in power supply connection with the main loop coil; the IGBT driving module is connected with a temperature detection module; and the main loop coil converts the voltage output by the power module to an electromagnetic field acted on a heated object. The electromagnetic induction high-frequency pulse no-phase-difference self-correction efficient energy conversion system disclosed by the utility model has the advantages of no phase difference, self correction, high frequency, small thermal loss, high thermal efficiency, good synchronism, simple structure and strong reliability.

Description

The electromagnetic induction high-frequency impulse does not have the self-correcting of differing efficient energy conversion system

Technical field

The utility model relates to electromagnetic energy switch technology field, and relating in particular to a kind of electromagnetic induction high-frequency impulse does not have the self-correcting of differing efficient energy conversion system.

Background technology

Electromagnetic induction is used very extensive, and especially in electromagnetic heating technique, electromagnetic induction high-frequency impulse energy conversion system in the prior art exists the efficient of thermal source generation low at present, the big deficiency that waits of heat-energy losses.

The utility model content

The utility model is low for the heat energy efficiency that solves existing electromagnetic induction high-frequency impulse energy conversion system existence, the technical problem that heat-energy losses is big.Purpose is to provide a kind of electromagnetic induction high-frequency impulse not have the self-correcting of differing efficient energy conversion system.

The technical scheme that the utility model adopted is for achieving the above object:

The electromagnetic induction high-frequency impulse does not have the self-correcting of differing efficient energy conversion system, comprising: microprocessor, power module; Described microprocessor is connected with control circuit module mutual communication; Described microprocessor signals output is connected with PWM modulation module signal input part; Described PWM modulation module signal output part is connected with oscillating circuit module by signal input; Described oscillating circuit module by signal input also is connected with synchronous circuit; Described oscillating circuit module by signal output is connected with the IGBT driver module; Described IGBT driver module signal output part is connected with the major loop coil; Described power module outlet is connected with the major loop coil power supply.

Described IGBT driver module is connected with temperature detecting module.

Described major loop coil becomes electromagnetic field effect in heating object the voltage transitions of power module output.

Described IGBT driver module is two a full-bridges symmetry drive circuit, described IGBT driver module is according to microprocessor control signal, by control chip and logical circuit mating reaction, producing self-correcting does not have a signal source of difference, and by amplifying circuit output high-frequency impulse.

Description of drawings

Fig. 1 is an overall structure block diagram of the present utility model.

Fig. 2 is circuit theory diagrams one of the present utility model.

Fig. 3 is circuit theory diagrams two of the present utility model.

Fig. 4 is IGBT driver module circuit theory diagrams of the present utility model.

The beneficial effects of the utility model are:

1, the utility model is compared with existing electromagnetic induction heat energy conversion, and electric arc occurrence frequency, efficiency of heating surface height adopt pid algorithm to be operated on the optimum by product, and synchronism is good.

2, of the present utility model simple in structure, make the life-span long, firing rate is fast, and is more energy-conservation, reliability is stronger.

3, energy converter of the present utility model can be to the interference because of supply voltage owing to adopt the control main part, the fluctuation of voltage and situation such as unusual, by calculating the self-correcting of operating voltage is regulated, energy converter is operated under the state of stability and high efficiency, makes its normally moving commentaries on classics, improve system effectiveness.

3, the structure of heat converter of the present utility model adopts special design, and heating liquid is heated evenly, and heating is fast, and thermal loss is littler, has improved thermal conversion efficiency.

Embodiment

Show that as Fig. 1-3 the electromagnetic induction high-frequency impulse does not have the self-correcting of differing efficient energy conversion system, comprising: microprocessor, power module; Described microprocessor is connected with control circuit module mutual communication; Described microprocessor signals output is connected with PWM modulation module signal input part; Described PWM modulation module signal output part is connected with oscillating circuit module by signal input; Described oscillating circuit module by signal input also is connected with synchronous circuit; Described oscillating circuit module by signal output is connected with the IGBT driver module; Described IGBT driver module signal output part is connected with the major loop coil; Described power module outlet is connected with the major loop coil power supply.Described IGBT driver module is connected with temperature detecting module.Described major loop coil becomes electromagnetic field effect in heating object the voltage transitions of power module output.

Described IGBT driver module is an igbt.Described microprocessor adopts ATMEGA-AVRM16.Described control circuit module is an input terminal, i.e. keyboard or touch screen.Described oscillating circuit module adopts switching power source chip.Described synchronous circuit is the current transformer driving current signal.

Described IGBT driver module is two a full-bridges symmetry drive circuit, described IGBT driver module is according to microprocessor control signal, by control chip and logical circuit mating reaction, producing self-correcting does not have a signal source of difference, and by amplifying circuit output high-frequency impulse.

As shown in Figure 4, described IGBT driver module is input to power module by 220V or 380V power supply, adjustable 50HZ electric current, through the direct current of rectification full-bridge that first～the 4th diode is formed, adjust frequency the polarity free capacitor cooperation by first～the 4th for pulsing, inductance produces high-frequency impulse, and produce heat energy between the medium, carry out pid algorithm, make it be operated in best heated condition object is heated by application software.

When the working power abnormal show, the IGBT driver module is adjusted power supply automatically, makes its work in the best condition, is under the stable operating state to guarantee product.Native system is faster to liquid heat, and thermal loss is little, conducts fast degree, energy savings.

Claims (4)

1. the electromagnetic induction high-frequency impulse does not have the self-correcting of differing efficient energy conversion system, it is characterized in that:

Comprise: microprocessor, power module;

Described microprocessor is connected with control circuit module mutual communication;

Described microprocessor signals output is connected with PWM modulation module signal input part;

Described PWM modulation module signal output part is connected with oscillating circuit module by signal input;

Described oscillating circuit module by signal input also is connected with synchronous circuit;

Described oscillating circuit module by signal output is connected with the IGBT driver module;

Described IGBT driver module signal output part is connected with the major loop coil;

Described power module outlet is connected with the major loop coil power supply.

2. electromagnetic induction high-frequency impulse according to claim 1 does not have the self-correcting of differing efficient energy conversion system, it is characterized in that:

Described IGBT driver module is connected with temperature detecting module.

3. electromagnetic induction high-frequency impulse according to claim 1 does not have the self-correcting of differing efficient energy conversion system, it is characterized in that:

Described major loop coil becomes electromagnetic field effect in heating object the voltage transitions of power module output.

4. electromagnetic induction high-frequency impulse according to claim 1 does not have the self-correcting of differing efficient energy conversion system, it is characterized in that:

Described IGBT driver module is two a full-bridges symmetry drive circuit, described IGBT driver module is according to microprocessor control signal, by control chip and logical circuit mating reaction, producing self-correcting does not have a signal source of difference, and by amplifying circuit output high-frequency impulse.

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