CN205402894U - Electric energy heating device - Google Patents

Abstract

The utility model discloses an electric energy heating device, including heat carrier heating unit and power supply the control unit, power supply the control unit with heat carrier heating unit electricity is connected and is done the heat carrier heating unit provides power and right control is realized to the heat carrier heating unit, the heat carrier heating unit includes far infrared microwave heating unit and high frequency electric magnetism heating pipe unit, power supply the control unit includes power control cabinet, automatic intelligence control system unit and PCL intelligence operating system unit. The utility model has the advantages of rate of heating is fast, utilization rate of electrical energy is high, calorific loss is little, the toggle speed is fast, the heating is even, operate steadily, not scale deposit of water back, work noiselessness, maintain convenience, small removal convenience, environmental protection and energy saving, pollution -free. The effectual problem of having solved the energy consumption height that exists among current traditional electric energy heating technology, inefficiency, backward in technique, big, the intelligent degree low grade factor of heat energy loss.

Description

A kind of electric heating device

Technical field

This utility model relates to high-efficiency heating system support equipment technical field, particularly relates to the electric heating device of a kind of green, environmental protection, efficient, energy-conservation application far infrared microwave and high-frequency electromagnetic technology.

Background technology

After the mankind have grasped the technical ability drilled wood to make fire, eat raw from eating of past, drink cold-blooded, winter and suffer from cold, live ice-cold cellar, excessively to eating the food boiled, drinking the beverage of heat, winter lives in the house warmed up, and this has been mainly attributed to heat energy and has just been achieved！

Even to this day, the development of science and technology is maked rapid progress, the mode of various offer heat energy emerges in an endless stream, but, owing to being subject to the limitation of varying environment, different geographical, different condition, the impact of various odjective cause and technical bottleneck, making heat energy supply field also not all roses, mode of heating traditional at present has fire coal, fuel oil, combustion gas, liquefied gas etc..These traditional heat energy outputs also all also exist various different disadvantage, in order to contain the generation of haze and reduce the pollution of air, improve utilization efficiency of heat energy, it is necessary to use a kind of green, environmental protection, mode of heating energy-conservation, efficient to meet the needs of various job requirement.

High speed development along with the epoch, the application of electric energy is more and more extensive, all trades and professions have all be unable to do without electric energy, all outstanding contribution is done endlessly for the mankind by every days such as its kinetic energy of generation, heat energy, luminous energy, along with every profession and trade, the development of each field production and improving constantly of living standards of the people, it is badly in need of a kind of environmental protection, electric heating device energy-conservation, dynamical to meet the growing market demand.Existing electric energy firing equipment all also exists the problems such as energy consumption height, efficiency is low, backward in technique, heat energy loss is big, intelligence degree is low in the market.Under the operating mode premise needing the supply of a large amount of heat energy, improve heat energy delivery efficiency, then become solution current heat energy supply primary manner.

Utility model content

The purpose of this utility model is in that to provide a kind of novel super efficient electric heating device, thus solving the foregoing problems existed in prior art.

To achieve these goals, the technical solution adopted in the utility model is as follows:

A kind of electric heating device, supplies control unit including heat carrier heating unit and power supply, and described power supply supply control unit and described heat carrier heating unit electrically connect as described heat carrier heating unit and provide power supply and realize controlling to described heat carrier heating unit；Described heat carrier heating unit includes far infrared microwave heating unit and high-frequency electromagnetic adds heat pipe unit；Described power supply supply control unit includes electrical power control cabinet, automated intelligent controls system unit and PCL intelligent operating system unit；The power input of described electrical power control cabinet is connected with external power source, and the power output end of described electrical power control cabinet adds heat pipe unit respectively with described far infrared microwave heating unit, described high-frequency electromagnetic, described automated intelligent controls system unit and described PCL intelligent operating system unit is connected.

Preferably, also including heat carrier circulating pump unit, described heat carrier circulating pump unit includes pipeline and heat carrier circulating pump, and described heat carrier circulating pump is connected with described heat carrier heating unit by described pipeline；Described heat carrier circulating pump also controls system unit with described electrical power control cabinet, described automated intelligent respectively and described PCL intelligent operating system unit is connected.

Preferably, the electrical equipment structure of described power supply supply control unit specifically includes: main power system, commutation system, filtering system, booster system, inversion system, inspection streaming system, magnetic control system, to-go box system, module of adjusting, current limiting system, equalizing system, data collecting system, variable module, press filteration system, leveling system, Load Limit System, dual chip IGBT module, parameter setting system, trimming system, high frequency oscillation module, vector module, load system and intelligent temperature control system；

The power input of described main power system is connected with external power source；nullThe described commutation system function for exchange is adjusted as direct current，Described filtering system is used for filtering，Described booster system adds the voltage level required for heat pipe unit for low-voltage is lifted to described high-frequency electromagnetic，Described inversion system meets described high-frequency electromagnetic add the altofrequency operating mode of heat pipe unit job demand for low frequency operating mode is lifted to，Described inspection streaming system is examined from shunting for high-frequency electromagnetic is added the unwanted by-pass current of heat pipe unit，Described magnetic control system adds the mistake quantity of magnetism of heat pipe unit and ensures that described high-frequency electromagnetic adds best magnetic flux required during heat pipe unit work for controlling described high-frequency electromagnetic，Described to-go box system after being used for collecting the remaining residual magnetism of described magnetic control system economy-combat packet compression again slow release compensate，Described adjusting system is for arranging and reclaim the remanent magnetism overflowed by described to-go box system slow release，Described current limiting system goes to, for limiting, the pulse current that described equalizing system is unnecessary，Described equalizing system is for passing to described data collecting system by the pulse current after self equilibrium is adjusted，Described data collecting system obtains after the described pulse current finishing analysis to receiving and adds, for described high-frequency electromagnetic, the incoming frequency parameter that heat pipe unit provides best，Described variable module adds the parameter value of heat pipe unit and does not occur frequency hopping phenomenon to ensure stability when described high-frequency electromagnetic adds heat pipe unit work for controlling to flow through described high-frequency electromagnetic，Whether described press filteration system flows to described high-frequency electromagnetic and adds the running voltage of heat pipe unit for monitoring and bias，If have bias to produce, after comb filter will be repaired, deliver to rear class program，Described leveling system adds, for automatically adjusting and be optimized for described far infrared microwave heating unit and high-frequency electromagnetic, the stable voltage that heat pipe unit is supplied、Electric current and stable operating frequency，Described Load Limit System is used for protecting described far infrared microwave heating unit and high-frequency electromagnetic to add heat pipe unit and heats coil when maximum peak voltage passes through and will not transship，The core that described dual chip IGBT module is described electric heating device ensures stablizing when described electric heating device works，Described parameter setting system is for arranging working method and the parameter of described electric heating device，Described trimming system ensures the stability of its operation for the driving voltage and electric current automatically adjusting described far infrared microwave heating unit and described high-frequency electromagnetic heating unit，Described high frequency oscillation module is for producing the frequency of oscillation thermal load demands with the satisfied heat carrier to the quick heating of needs of high intensity，Described load system is described far infrared microwave heating unit and described high-frequency electromagnetic heating unit，Described intelligent temperature control system is used for the temperature controlling described heat carrier to ensure the work of described electric heating device safety and stability.

Preferably, described heat carrier periodic duty under the totally enclosed closed cycle operating mode mainly collectively constituted by described heat carrier circulating pump, described pipeline, described far infrared microwave heating unit and described high-frequency electromagnetic heating unit.

Preferably, described pipeline is also serially connected with heat abstractor.

Preferably, one group of inducer by alternating current circuit independence and the resonance circuit unit module of capacitor composition it are additionally provided with in described power supply supply control unit.

Preferably, described heat carrier selects fluid.

Preferably, described heat carrier selects liquid or gas.

Preferably, described heat carrier selects water or oil.

The beneficial effects of the utility model are:

Electric heating device of the present utility model has that firing rate is fast, utilization rate of electrical is high, thermal loss is little, toggle speed is fast, homogeneous heating, operate steadily, add hot channel non-scaling, work noiselessness, easy to maintenance, the little conveniently moving of volume, environmental protection and energy saving, the advantage such as pollution-free.The problem effectively solving the factors such as the energy consumption existed in existing tradition electric energy heating technique is high, efficiency is low, backward in technique, heat energy loss is big, intelligence degree is low.

Accompanying drawing explanation

Fig. 1 is electrical equipment organigram of the present utility model；

Wherein: 1 main power system；2 commutation systems；3 filtering systems；4 booster systems；5 inversion systems；6 inspection streaming systems；7 magnetic control systems；8 to-go box systems；9 adjust module；10 current limiting systems；11 equalizing systems；12 data collecting systems；13--variable module；14,15 press filteration system；16--leveling system；17--Load Limit System；18,19 high frequency oscillation module；20 trimming systems；21--parameter setting system；22,23 dual chip IGBT module；24 vector module；25 load systems；26 intelligent temperature control systems.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with accompanying drawing, this utility model is further elaborated.Should be appreciated that detailed description of the invention described herein is only in order to explain this utility model, be not used to limit this utility model.

The utility model discloses a kind of electric heating device, supplying control unit including heat carrier heating unit and power supply, described power supply supply control unit and described heat carrier heating unit electrically connect as described heat carrier heating unit and provide power supply and realize controlling to described heat carrier heating unit；Described heat carrier heating unit includes far infrared microwave heating unit and high-frequency electromagnetic adds heat pipe unit；Described power supply supply control unit includes electrical power control cabinet, automated intelligent controls system unit and PCL intelligent operating system unit；The power input of described electrical power control cabinet is connected with external power source, and the power output end of described electrical power control cabinet adds heat pipe unit respectively with described far infrared microwave heating unit, described high-frequency electromagnetic, described automated intelligent controls system unit and described PCL intelligent operating system unit is connected.Also including heat carrier circulating pump unit, described heat carrier circulating pump unit includes pipeline and heat carrier circulating pump, and described heat carrier circulating pump is connected with described heat carrier heating unit by described pipeline；Described heat carrier circulating pump also controls system unit with described electrical power control cabinet, described automated intelligent respectively and described PCL intelligent operating system unit is connected.

As shown in Figure 1, the electrical equipment structure of the supply of the described power supply in this utility model control unit specifically includes: main power system, commutation system, filtering system, booster system, inversion system, inspection streaming system, magnetic control system, to-go box system, module of adjusting, current limiting system, equalizing system, data collecting system, variable module, press filteration system, leveling system, Load Limit System, dual chip IGBT module, parameter setting system, trimming system, high frequency oscillation module, vector module, load system and intelligent temperature control system；

The power input of described main power system is connected with external power source；nullThe described commutation system function for exchange is adjusted as direct current，Described filtering system is used for filtering，Described booster system adds the voltage level required for heat pipe unit for low-voltage is lifted to described high-frequency electromagnetic，Described inversion system meets described high-frequency electromagnetic add the altofrequency operating mode of heat pipe unit job demand for low frequency operating mode is lifted to，Described is that inspection streaming system is examined from shunting for high-frequency electromagnetic is added the unwanted by-pass current of heat pipe unit，Described magnetic control system adds the mistake quantity of magnetism of heat pipe unit and ensures that described high-frequency electromagnetic adds best magnetic flux required during heat pipe unit work for controlling described high-frequency electromagnetic，Described to-go box system after being used for collecting the remaining residual magnetism of described magnetic control system economy-combat packet compression again slow release compensate，Described adjusting system is for arranging and reclaim the remanent magnetism overflowed by described to-go box system slow release，Described current limiting system goes to, for limiting, the pulse current that described equalizing system is unnecessary，Described equalizing system is for passing to described data collecting system by the pulse current after self equilibrium is adjusted，Described data collecting system obtains after the described pulse current finishing analysis to receiving and adds, for described high-frequency electromagnetic, the incoming frequency parameter that heat pipe unit provides best，Described variable module adds the parameter value of heat pipe unit and does not occur frequency hopping phenomenon to ensure stability when described high-frequency electromagnetic adds heat pipe unit work for controlling to flow through described high-frequency electromagnetic，Whether described press filteration system flows to described high-frequency electromagnetic and adds the running voltage of heat pipe unit for monitoring and bias，If have bias to produce, after comb filter will be repaired, deliver to rear class program，Described leveling system adds, for automatically adjusting and be optimized for described far infrared microwave heating unit and high-frequency electromagnetic, the stable voltage that heat pipe unit is supplied、Electric current and stable operating frequency，Described Load Limit System is used for protecting described far infrared microwave heating unit and high-frequency electromagnetic to add heat pipe unit and heats coil when maximum peak voltage passes through and will not transship，Described dual chip IGBT module (i.e. double; two IGBT module and dual chip module) is the core of described electric heating device，Ensure stablizing when described electric heating device works，Described parameter setting system is for arranging working method and the parameter of described electric heating device，Described trimming system ensures the stability of its operation for the driving voltage and electric current automatically adjusting described far infrared microwave heating unit and described high-frequency electromagnetic heating unit，Described high frequency oscillation module is for producing the vibration frequency thermal load demands with the satisfied heat carrier to the quick heating of needs of high intensity，Described load system is described far infrared microwave heating unit and described high-frequency electromagnetic heating unit，Described intelligent temperature control system is used for the temperature controlling described heat carrier to ensure the work of described electric heating device safety and stability.

Described heat carrier is circulation under the totally enclosed closed cycle operating mode mainly collectively constituted by described heat carrier circulating pump, described pipeline, described far infrared microwave heating unit and described high-frequency electromagnetic heating unit.Described pipeline is also serially connected with heat abstractor.Described heat carrier can be selected for various fluid, liquid, gas, such as water or wet goods.One group of inducer by alternating current circuit independence and the resonance circuit unit module of capacitor composition it is additionally provided with in described power supply supply control unit.Described external power source is the external power source of AC220V/AC380V power supply and/or other specifications.

This utility model adopts efficient far infrared microwave heating technique and high-frequency electromagnetic heating technique to organically combine, convert electrical energy into magnetic heat energy, by rectification circuit in controller, alternating voltage is become DC voltage, DC voltage is converted to high frequency voltage then through control circuit, the electric current of change can produce magnetic field at high speed by coil at high speed, countless little eddy current can be produced when the magnetic line of force within magnetic field is by canister, make canister heating at a high speed voluntarily, then again the heat carrier added in heat container is transported to the place needing heat, thus reaching the purpose quickly heated.This utility model is organically combined togather far infrared microwave heating and high-frequency electromagnetic mode of heating, after WBDC Technology Integration, heated heat carrier firing rate can be made more in hgher efficiency than traditional electromagnetic oven heating；It is tubulose that high-frequency electromagnetic in high-frequency electromagnetic heating unit of the present utility model adds heat pipe, and can realize heating process when heat carrier flows therethrough does not have any dead angle, makes heat carrier comprehensive be heated rapidly at 360 °；This utility model is in use, heat carrier, when flowing through high-frequency electromagnetic heating unit and far infrared microwave heating unit, not only will not produce dirt, but also heat carrier can be allowed to be magnetized fully, the strand making heat carrier obtains sufficient heat, and heat energy can obtain maximized lifting；Heat carrier flow in this utility model when described far infrared microwave heating unit and described high-frequency electromagnetic heating unit heat carrier be that the interior from heat carrier is quickly transmitted by hot mode, firing rate is very fast, and thermal conversion efficiency and heat utilization efficiency are all very high.

nullIn this utility model when the heat carrier needing heating adds heat pipe unit region by described far infrared microwave heating unit region and high-frequency electromagnetic，Heated heat carrier reaches its high specific thermal capacitance peak value，Heat carrier now has reached hot saturation，When described heat carrier reaches hot saturated state，The molecular motion velocities of described heat carrier now is very fast，The density of described heat carrier and viscosity also change to minimum therewith，Owing to microwave and high frequency magnetic field combined effect are on the described heat carrier of same density and viscosity，Wavelength and amplitude are subject to the impact of described heat carrier variable density，The microwave equivalent and the magnetic flux equivalent that pass through also can be decayed accordingly，When decay is lower than minimum extreme value，The magnitude of current that described IGBT module is passed through is minus flow，Namely power consumption also decreases to zero point，Now the temperature of described heat carrier and viscosity right through microwave equivalent and the minima of magnetic flux equivalent，Energy consumption now is down to minimum，Thus reaching to save the purpose of electric energy..

In alternating current circuit, inductance and electric capacity can produce resonance under certain condition, thus electromagnetic energy field reactive current formed is stored, discharged by electric capacity again and form new " power supply ", owing to this process curtage increases than original, load acting increases, and is equivalent to the reactive power of circuit has been compensated, thus reaching energy-conservation purpose.It is provided with one group of resonance circuit unit module by the inducer of alternating current circuit independence and capacitor composition based in this principle power supply supply control unit in this utility model, the electromagnetic energy field that reactive current that the power consumption of described heat carrier heating unit is passed through when zero point and the minimum microwave equivalent passed through and magnetic flux equivalent are formed can be stored by this unit module, electromagnetic energy field after storage defines again new power supply after discharging then through capacitor, in the process through the effect of described resonance circuit unit module, the value of electric current and voltage all increases a lot than original, therefore can be greatly improved the power for load to export, also it is equivalent to the reactive power in described resonance circuit unit module has been compensated, therefore reached to save the purpose of electric energy.Through actual verification, this utility model economizes on electricity than traditional electrical heating product, ratio natural gas saving.

Described electrical power control cabinet in this utility model is the core drive source ensureing this electric heating device safe and stable operation, and this electrical power control cabinet exports the unit of six tunnel independences and controls module:

First via unit controls module provides power source for described far infrared microwave heating unit；

Second road unit controls module and adds heat pipe unit offer power source for described high-frequency electromagnetic；

3rd road unit controls module provides power source for described heat carrier circulating pump unit；

4th road unit controls module provides power source for the special auxiliary supporting with this utility model；

5th road unit controls module and controls system unit offer power source for described automated intelligent；

6th road unit controls module provides power source for described PCL intelligent operating system unit；

This utility model six road power sources of described electrical power control cabinet output when normal operation arrive separately at respective described unit and control module, this six roads unit controls module and locks together, can work alone, can interlock again work, realize full-automatic intelligent of the present utility model operation by described PCL intelligent operating system unit and control.This utility model is by described PCL intelligent operating system unit, it is achieved far infrared microwave heating unit in this utility model and high-frequency electromagnetic add the overtemperature of heat pipe unit, superpressure, heating, cooling, the opening and stop and fault detect of the present utility model, the automatic leveling of flow, the automatic adjusting of duty, far infrared microwave heating unit and high-frequency electromagnetic add the full-automatic intelligents such as the intelligent Matching and modification of heat pipe unit, system releasing pressure automatically, the on-line monitoring of flow, over-temp and over-pressure automatic alarm and control the function of operation of described heat carrier circulating pump.

This utility model achieves the double goal of economize on electricity and reliability service and greatly reduces operation cost, can be widely applied to the fields such as middle and primary schools at different levels, medical and health organization, Saunas, bathing, villa, Ge great institution of higher learning, army, natatorium, hotel, hotel, private Residence, high-end commercial affairs club, business life hot water and heating aspect, and the production and processing of industrial and mining establishment.This utility model is described in detail below for application this utility model in heating project:

Electric heating device of the present utility model is in the present embodiment, being positioned to solve some can not the area of central heating, or this area utilizes the region of the too high problem of other energy side's heating cost, this utility model represents a new heat-supplying mode, energy-saving effect is obvious, higher than traditional electrically heating fractional energy savings.Reduce discharging at nowadays national energy-saving, under the big policy of environmental protection, heater of the present utility model, an environment-friendly energy-saving heater benefiting the people's livelihood can be become.The mode adopting this utility model heating is different from traditional central heating, it is particularly suitable for the central heating of only building, this mode advantage is the laying heat supply pipeline without distance, decreases the transport loss of heat energy, more flexible in management and control.Can realize and meet the demand of heating, heat supply, add heat pipe unit by far infrared microwave heating unit and high-frequency electromagnetic and water is heated to the preference temperature required for heat supply, heating place.

Actually used peripheral power supply input main power system；After main power system, it is transported to described commutation system, after described commutation system, delivers to described filtering system；Described booster system is delivered to again after described filtering system filters；Then through described inversion system after being boosted by described booster system；Described inspection streaming system is delivered to after described inversion system；Described magnetic control system is delivered to after described inspection streaming system inspection stream；Described to-go box system is delivered to again after magnetic control system；Described module of adjusting is delivered to again after to-go box system exports；Information parameter after being adjusted by described module of adjusting delivers to described current limiting system again；By delivering to described equalizing system after described current limiting system again；Described data collecting system is delivered to again by equalizing system；Load system is delivered to again after described variable module output；Described press filteration system is also configured with described leveling system and described Load Limit System；Described high frequency oscillation module delivers to described trimming system and described parameter setting system after sending information；Described dual chip IGBT module obtains after instruction vector module described in the warp let-off again, then delivers to described load system and do manual work；Described intelligent temperature control system can provide automatic intelligent to work for this utility model.Described data collecting system, is to add, to far infrared microwave heating unit and high-frequency electromagnetic, the incoming frequency parameter that heat pipe unit provides best, plays and discharges maximum thermal technology's usefulness when ensureing microwave heating pipe and electromagnetic heating tube work.

Considering from safe handling angle, this utility model is provided with all-around intelligent earth leakage circuit-breaker and reliable ground, without danger of hazardous electrical discharges.

By adopting technique scheme disclosed in this utility model, obtain following beneficial effect:

Electric heating device of the present utility model has that firing rate is fast, utilization rate of electrical is high, thermal loss is little, toggle speed is fast, homogeneous heating, operate steadily, add hot channel non-scaling, work noiselessness, easy to maintenance, the little conveniently moving of volume, environmental protection and energy saving, the advantage such as pollution-free.The problem effectively solving the factors such as the energy consumption existed in existing tradition electric energy heating technique is high, efficiency is low, backward in technique, heat energy loss is big, intelligence degree is low.

The above is only preferred implementation of the present utility model; it should be pointed out that, for those skilled in the art, under the premise without departing from this utility model principle; can also making some improvements and modifications, these improvements and modifications also should look protection domain of the present utility model.

Claims (9)

1. an electric heating device, it is characterized in that, supplying control unit including heat carrier heating unit and power supply, described power supply supply control unit and described heat carrier heating unit electrically connect as described heat carrier heating unit and provide power supply and realize controlling to described heat carrier heating unit；Described heat carrier heating unit includes far infrared microwave heating unit and high-frequency electromagnetic adds heat pipe unit；Described power supply supply control unit includes electrical power control cabinet, automated intelligent controls system unit and PCL intelligent operating system unit；The power input of described electrical power control cabinet is connected with external power source, and the power output end of described electrical power control cabinet adds heat pipe unit respectively with described far infrared microwave heating unit, described high-frequency electromagnetic, described automated intelligent controls system unit and described PCL intelligent operating system unit is connected.

2. electric heating device according to claim 1, it is characterized in that, also including heat carrier circulating pump unit, described heat carrier circulating pump unit includes pipeline and heat carrier circulating pump, and described heat carrier circulating pump is connected with described heat carrier heating unit by described pipeline；Described heat carrier circulating pump also controls system unit with described electrical power control cabinet, described automated intelligent respectively and described PCL intelligent operating system unit is connected.

3. electric heating device according to claim 1, it is characterized in that, the electrical equipment structure of described power supply supply control unit specifically includes: main power system, commutation system, filtering system, booster system, inversion system, inspection streaming system, magnetic control system, to-go box system, module of adjusting, current limiting system, equalizing system, data collecting system, variable module, press filteration system, leveling system, Load Limit System, dual chip IGBT module, parameter setting system, trimming system, high frequency oscillation module, vector module, load system and intelligent temperature control system；

The power input of described main power system is connected with external power source；nullThe described commutation system function for exchange is adjusted as direct current，Described filtering system is used for filtering，Described booster system adds the voltage level required for heat pipe unit for low-voltage is lifted to described high-frequency electromagnetic，Described inversion system meets described high-frequency electromagnetic add the altofrequency operating mode of heat pipe unit job demand for low frequency operating mode is lifted to，Described inspection streaming system is examined from shunting for high-frequency electromagnetic is added the unwanted by-pass current of heat pipe unit，Described magnetic control system adds the mistake quantity of magnetism of heat pipe unit and ensures that described high-frequency electromagnetic adds best magnetic flux required during heat pipe unit work for controlling described high-frequency electromagnetic，Described to-go box system after being used for collecting the remaining residual magnetism of described magnetic control system economy-combat packet compression again slow release compensate，Described adjusting system is for arranging and reclaim the remanent magnetism overflowed by described to-go box system slow release，Described current limiting system goes to, for limiting, the pulse current that described equalizing system is unnecessary，Described equalizing system is for passing to described data collecting system by the pulse current after self equilibrium is adjusted，Described data collecting system obtains after the described pulse current finishing analysis to receiving and adds, for described high-frequency electromagnetic, the incoming frequency parameter that heat pipe unit provides best，Described variable module adds the parameter value of heat pipe unit and does not occur frequency hopping phenomenon to ensure stability when described high-frequency electromagnetic adds heat pipe unit work for controlling to flow through described high-frequency electromagnetic，Whether described press filteration system flows to described high-frequency electromagnetic and adds the running voltage of heat pipe unit for monitoring and bias，If have bias to produce, after comb filter will be repaired, deliver to rear class program，Described leveling system adds, for automatically adjusting and be optimized for described far infrared microwave heating unit and high-frequency electromagnetic, the stable voltage that heat pipe unit is supplied、Electric current and stable operating frequency，Described Load Limit System is used for protecting described far infrared microwave heating unit and high-frequency electromagnetic to add heat pipe unit and heats coil when maximum peak voltage passes through and will not transship，The core that described dual chip IGBT module is described electric heating device ensures stablizing when described electric heating device works，Described parameter setting system is for arranging working method and the parameter of described electric heating device，Described trimming system ensures the stability of its operation for the driving voltage and electric current automatically adjusting described far infrared microwave heating unit and described high-frequency electromagnetic heating unit，Described high frequency oscillation module is for producing the frequency of oscillation thermal load demands with the satisfied heat carrier to the quick heating of needs of high intensity，Described load system is described far infrared microwave heating unit and described high-frequency electromagnetic heating unit，Described intelligent temperature control system is used for the temperature controlling described heat carrier to ensure the work of described electric heating device safety and stability.

4. electric heating device according to claim 2, it is characterized in that, the periodic duty under the totally enclosed closed cycle operating mode mainly collectively constituted by described heat carrier circulating pump, described pipeline, described far infrared microwave heating unit and described high-frequency electromagnetic heating unit of described heat carrier.

5. electric heating device according to claim 4, it is characterised in that be also serially connected with heat abstractor on described pipeline.

6. according to the arbitrary described electric heating device of claim 1-5, it is characterised in that be additionally provided with one group of inducer by alternating current circuit independence and the resonance circuit unit module of capacitor composition in described power supply supply control unit.

7. according to the arbitrary described electric heating device of claim 1-5, it is characterised in that described heat carrier selects fluid.

8. electric heating device according to claim 7, it is characterised in that described heat carrier selects liquid or gas.

9. electric heating device according to claim 8, it is characterised in that described heat carrier selects water or oil.