CN204000376U - A kind of electric iron wireless power supply system based on resonance magnetoresistive technologies - Google Patents

Abstract

The utility model relates to a kind of electric iron wireless power supply system based on resonance magnetoresistive technologies, belongs to wireless power field.Comprise electric iron and ironing board, ironing board comprises EMR electromagnetic resonance transmitting coil, EMR electromagnetic resonance radiating circuit unit, power interface; Described EMR electromagnetic resonance transmitting coil, EMR electromagnetic resonance radiating circuit unit, power interface connect successively; Electric iron comprises base plate, water tank, handle, wireless power receiving system, steam chamber; Described electric iron bottom is provided with base plate, and electric iron top is provided with handle, and electric iron inside is provided with water tank, wireless power receiving system, steam chamber.Compared to existing technology, the utlity model has the feature that utilization rate of electrical is high, simple to operate, efficiency is high, energy consumption is low, safe.

Description

A kind of electric iron wireless power supply system based on resonance magnetoresistive technologies

Technical field

The utility model belongs to wireless power field, and particularly a kind of electric iron wireless power supply system adopts resonance magnetoresistive technologies that magnetic energy is converted into heat energy to electric iron wireless power.

Background technology

Along with people improve gradually to dress code, electric iron has become the necessary article of people's life.Electric iron adopts wired connection mode conventionally, after utilizing electric energy to heat, produce the electrical equipment that heat presses clothes, but the mode of this wired connection is very dilatory, because need the moment to operate with a line, people's action is very restricted.And, plug frequently plug, easily cause the danger such as electric shock, use dangerous.On existing market, also occurred two kinds of radio flatirons, one is to utilize bracket first for electric iron is pressed end charging heating, and not charged work when ironing clothes is not pressed when temperature reaches job requirement at the end and electric iron placed on bracket for electrical heating again.So not only complex operation, even can be because of causing electric leakage and user is threatened safely with the plug of bracket plug frequently; One is to utilize high-frequency alternating magnetic field, makes magnetic field produce eddy current heat production on flatiron base plate.This electric iron is to be magnetic energy by electric energy conversion, and magnetic energy is converted into electric energy, then the mode that is heat energy by electric energy conversion is worked.Although the charged work of this class electric iron iron process, energy loss in mutually transforming is serious, and utilization rate of electrical is low.

So this area is needed a kind of new technical scheme badly and is changed such present situation.

Summary of the invention

Technical problem to be solved in the utility model: for shortcomings and deficiencies of the prior art, the utility model provides the non-radiative resonance magnetoresistive technologies of the employing of a kind of power supply and flatiron separate design magnetic energy to be converted into the wireless power electric iron of heat energy.Make more convenient to operate, quick, safety, and improve the thermal efficiency and reduce energy consumption.

The utility model is design like this: a kind of electric iron wireless power supply system based on resonance magnetoresistive technologies, is characterized in that: comprise electric iron and ironing board two parts.

Described ironing board comprises EMR electromagnetic resonance transmitting coil, EMR electromagnetic resonance radiating circuit unit, power interface, and wherein EMR electromagnetic resonance transmitting coil, EMR electromagnetic resonance radiating circuit unit, power interface connect successively; Described EMR electromagnetic resonance radiating circuit unit comprises input block, power supervisor, electromagnetic interface filter, bridge rectifier, power factor control circuit, oscillating circuit, power amplifier, microprocessor, EMR electromagnetic resonance inductance coil, and wherein input block, power supervisor, electromagnetic interface filter, bridge rectifier, power factor control circuit, oscillating circuit, power amplifier, EMR electromagnetic resonance inductance coil connect successively; Described microprocessor is connected with input block, power supervisor, power amplifier, EMR electromagnetic resonance transmitting coil respectively;

Described electric iron comprises base plate, water tank, handle, wireless power receiving system, steam chamber; Described electric iron bottom is provided with base plate, and electric iron top is provided with handle, and electric iron inside is provided with water tank, wireless power receives magnetoresistive devices, steam chamber;

Described base plate is provided with jetted hole; Described jetted hole is connected with steam chamber; Described handle top is provided with water filling port, water jet, spray vapour button; Described water filling port, water jet are connected by pipeline with water tank respectively; Described steam chamber top is provided with thermal insulation board, and steam chamber is provided with valve gear, and steam chamber is connected by steam bar with spray vapour button;

Described wireless power receiving system comprises EMR electromagnetic resonance heating magnetic resistance, receiving circuit unit; Described EMR electromagnetic resonance heating magnetic resistance is installed on steam chamber bottom, and EMR electromagnetic resonance heating magnetic resistance is connected with base plate; Described receiving circuit unit is installed on thermal insulation board top, and receiving circuit unit comprises current rectifying and wave filtering circuit, controlling circuit of voltage regulation.

Described EMR electromagnetic resonance radiating circuit unit is of a size of 170mm × 200mm × 10mm.

Described electric iron outside is provided with indicator lamp.

Described receiving circuit unit is of a size of 50mm × 75mm × 2mm.

Described receiving circuit unit and indicator lamp are connected in series.

Described current rectifying and wave filtering circuit and controlling circuit of voltage regulation are connected in series.

By above-mentioned design, the utility model can bring following beneficial effect:

1, a kind of electric iron wireless power supply system based on resonance magnetoresistive technologies of the utility model, can realize the wireless power to electric iron, there is no unnecessary wiring, solved power line and brought inconvenience because of distortion, winding and restraining function to user, make the operation of electric iron simpler.Wireless electric iron can more operate, and increases work efficiency.Meanwhile, wireless electric iron there will not be circuit to be wound around pin and situation that people is fallen down, operates safer.

2, a kind of electric iron wireless power supply system based on resonance magnetoresistive technologies of the utility model, can realize the charged work of electric iron, has avoided causing electric leakage and user being threatened safely with supply socket plug frequently, operates safer, also more convenient.

3, a kind of electric iron wireless power supply system based on resonance magnetoresistive technologies of the utility model, adopts non-radiative EMR electromagnetic resonance principle, utilizes magnetic resistance heat production after inductance magnetic saturation, and magnetic energy is converted into heat energy.Reduce energy conversion process, reduced the loss of energy in mutual conversion process, utilization rate of electrical has been improved more than 40% than common electrical heating electric iron.Make more convenient to operate, quick, safety, improve the thermal efficiency and reduce energy consumption.

Brief description of the drawings

Below in conjunction with brief description of the drawings and detailed description of the invention, the utility model is described in further detail:

Fig. 1 is the structural representation of the ironing board of a kind of electric iron wireless power supply system based on resonance magnetoresistive technologies of the utility model.

Fig. 2 is the external structure schematic diagram of the electric iron of a kind of electric iron wireless power supply system based on resonance magnetoresistive technologies of the utility model.

Fig. 3 is the internal structure schematic diagram of the electric iron of a kind of electric iron wireless power supply system based on resonance magnetoresistive technologies of the utility model.

Fig. 4 is the circuit structure block diagram of the EMR electromagnetic resonance radiating circuit unit of a kind of electric iron wireless power supply system based on resonance magnetoresistive technologies of the utility model.

In figure 1 be ironing board, 2 for EMR electromagnetic resonance inductance coil, 3 for EMR electromagnetic resonance radiating circuit unit, 4 for power interface, 5 for base plate, 6 for water tank, 7 for water filling port, 8 for water jet, 9 for spray vapour button, 10 for handgrip, 11 for electric iron, 12 for indicator lamp, 13 for jetted hole, 14 for EMR electromagnetic resonance heating magnetic resistance, 15 for steam chamber, 16 for thermal insulation board, 17 for receiving circuit unit, 18 for valve gear, 19 be steam bar.

Detailed description of the invention

A kind of electric iron wireless power supply system based on resonance magnetoresistive technologies as shown in the figure, is characterized in that: comprise electric iron 11 and ironing board 1 two parts.

Described ironing board 1 comprises EMR electromagnetic resonance inductance coil 2, EMR electromagnetic resonance radiating circuit unit 3, power interface 4; Described EMR electromagnetic resonance inductance coil 2, EMR electromagnetic resonance radiating circuit unit 3, power interface 4 connect successively; Described EMR electromagnetic resonance radiating circuit unit 3 comprises input block, power supervisor, electromagnetic interface filter, bridge rectifier, power factor control circuit, oscillating circuit, power amplifier, microprocessor, EMR electromagnetic resonance inductance coil; Described input block, power supervisor, electromagnetic interface filter, bridge rectifier, power factor control circuit, oscillating circuit, power amplifier, EMR electromagnetic resonance inductance coil connect successively; Described microprocessor is connected with input block, power supervisor, power amplifier, EMR electromagnetic resonance inductance coil 2 respectively;

Described electric iron 11 comprises base plate 5, water tank 6, handle 10, wireless power receiving system, steam chamber 17; Described electric iron 11 bottoms are provided with base plate 5, and electric iron 11 tops are provided with handle 10, and electric iron 11 inside are provided with water tank 6, wireless power receiving system, steam chamber 15, and electric iron 11 outsides are provided with indicator lamp 12;

Described base plate 5 is provided with jetted hole 13; Described jetted hole 13 is connected with steam chamber 15; Described handgrip 10 tops are provided with water filling port 7, water jet 8, spray vapour button 9; Described water filling port 7, water jet 8 are connected by pipeline with water tank 6 respectively; Described steam chamber 15 tops are provided with thermal insulation board 16, and steam chamber 15 is provided with valve gear 18, and steam chamber 15 is connected by steam bar 19 with spray vapour button 9;

Described wireless power receiving system comprises EMR electromagnetic resonance heating magnetic resistance 14, receiving circuit unit 17; Described EMR electromagnetic resonance heating magnetic resistance 14 is installed on steam chamber 15 bottoms, and EMR electromagnetic resonance heating magnetic resistance 14 is connected with base plate 5; Described receiving circuit unit 17 is installed on thermal insulation board 16 tops, and receiving circuit unit 17 comprises current rectifying and wave filtering circuit, controlling circuit of voltage regulation.

Described EMR electromagnetic resonance heating magnetic resistance 14 is a kind of devices that are formed by stacking by ferromagnetic material and nonferromagnetic material interlaminate, has three layers, and upper and lower two-layer is ferromagnetic material, and intermediate course is nonferromagnetic material.

Described EMR electromagnetic resonance radiating circuit unit 3 is of a size of 170mm × 200mm × 10mm.

Described electric iron 11 outsides are provided with indicator lamp 12.

Described receiving circuit unit 17 is of a size of 50mm × 75mm × 2mm.

Described receiving circuit unit and indicator lamp are connected in series.

Described current rectifying and wave filtering circuit and controlling circuit of voltage regulation are connected in series.

As shown in Figure 1, in a kind of electric iron wireless power supply system based on resonance magnetoresistive technologies, ironing board 1 is mainly by shell, EMR electromagnetic resonance inductance coil 2, power interface 4, design EMR electromagnetic resonance radiating circuit unit 3 in the enclosure, and input block, power supervisor, electromagnetic interface filter, bridge rectifier, power factor control circuit, oscillating circuit, power amplifier, microprocessor, EMR electromagnetic resonance inductance coil form.Wherein input block, power supervisor, electromagnetic interface filter, bridge rectifier, power factor control circuit, oscillating circuit, power amplifier, microprocessor, EMR electromagnetic resonance inductance coil are incorporated in the ultra-thin box body that a block size is 170mm × 200mm × 10mm and form EMR electromagnetic resonance radiating circuit unit 3, power interface 4 is connected with EMR electromagnetic resonance radiating circuit unit 3, and inductance coil 2 is connected with EMR electromagnetic resonance radiating circuit unit 3.

As shown in Figure 2, invent a kind of electric iron part of the electric iron wireless power supply system based on resonance magnetoresistive technologies for this.To water tank 6 water fillings, switch on power to after filling the power interface 4 of ironing board 1 by water filling port 7, electric iron 11 is positioned over ironing board 1 top, and indicator lamp 12 is bright, and ironing board 1 is powered to electric iron 11.After a period of time, indicator lamp 12 extinguishes, and illustrates and reaches serviceability temperature, can use.Use a period of time temperature to reduce, indicator lamp 12 is bright, and ironing board 1 continues to charge and make it reach operating temperature to electric iron 11.By pressing spray vapour button 9, can realize spraying function.After using, the water in water tank 6 can be discharged by water jet 8.

As shown in Figure 3, it is that EMR electromagnetic resonance radiating circuit unit 3 powers that ironing board 1 accesses 220V civil power by power interface 4, and emitter is in low current resting state.Electric iron 11 is placed on to ironing board 1 top, the interior EMR electromagnetic resonance heating of EMR electromagnetic resonance inductance coil 2 induced electricity flatiron 11 magnetic resistance 14, induced signal is sent to microprocessor by EMR electromagnetic resonance inductance coil 2, and power supply control microprocessor manager is to emitter normal power supply.In electric iron, EMR electromagnetic resonance heating magnetic resistance 14 is composed in series wireless power receiving system with the receiving circuit unit 17 being placed on thermal insulation board 16, receive the electromagnetic wave of the interior wireless power emitter transmitting of ironing board 1, produce EMR electromagnetic resonance with the inductance coil 2 in ironing board 1, after inductance magnetic saturation, utilize magnetic resistance heat production, magnetic energy is transformed on EMR electromagnetic resonance heating magnetic resistance 14 with the form of heat energy.Microprocessor in ironing board 1 in EMR electromagnetic resonance radiating circuit unit 3 carries out open loop control by algorithm to temperature, to reach A.T.C function.When reaching operating temperature, power supply control microprocessor manager is to the power supply of emitter low current, and ironing board 1 is stopped power supply to electric iron 11, and the indicator lamp 12 in electric iron 11 extinguishes.After work a period of time temperature reduces, power supply control microprocessor manager is to emitter normal power supply, and indicator lamp 12 is bright.Press spray vapour button 9, steam bar 19 is opened valve gear 18, and water splash into the indoor vaporization of steam chamber 15, and jetted hole 13 from base plate 5 sprays.Unclamp after hand, spray vapour button 9 automatically resets.The electric iron wireless power supply of resonance magnetoresistive technologies i.e. normal work.

As shown in Figure 4, the drive circuit in a kind of electric iron wireless power supply system based on resonance magnetoresistive technologies is made up of input block, power supervisor, electromagnetic interface filter, bridge rectifier, power factor control circuit, oscillating circuit, power amplifier, microprocessor and EMR electromagnetic resonance inductance coil.The civil power of wherein being introduced by power interface 4, enters input block, through in power supervisor, power supply is controlled, simultaneously to microprocessor power supply.Enter electromagnetic interface filter afterwards, bridge rectifier obtains direct current, ingoing power factor control circuit again, improve input side power factor, after this direct current obtaining vibrates through oscillating circuit, produce after required frequency of oscillation ingoing power amplifier again, its power is amplified to processing, and output required voltage makes the work of EMR electromagnetic resonance inductance coil.Wherein control electric current, the power of power amplifier amplification and the temperature of EMR electromagnetic resonance inductance coil of microprocessor control circuit to power supervisor detects, and plays the effect of temperature control automatically, overload protection and high temperature protection.

Claims (6)

1. the electric iron wireless power supply system based on resonance magnetoresistive technologies, is characterized in that: comprise electric iron (11) and ironing board (1) two parts,

Described ironing board (1) comprises EMR electromagnetic resonance transmitting coil (2), EMR electromagnetic resonance radiating circuit unit (3), power interface (4), and wherein EMR electromagnetic resonance transmitting coil (2), EMR electromagnetic resonance radiating circuit unit (3), power interface (4) connect successively; Described EMR electromagnetic resonance radiating circuit unit (3) comprises input block, power supervisor, electromagnetic interface filter, bridge rectifier, power factor control circuit, oscillating circuit, power amplifier, microprocessor, EMR electromagnetic resonance inductance coil, and wherein input block, power supervisor, electromagnetic interface filter, bridge rectifier, power factor control circuit, oscillating circuit, power amplifier, EMR electromagnetic resonance inductance coil connect successively; Described microprocessor is connected with input block, power supervisor, power amplifier, EMR electromagnetic resonance transmitting coil (2) respectively;

Described electric iron (11) comprises base plate (5), water tank (6), handgrip (10), wireless power receiving system, steam chamber (15); Described electric iron (11) bottom is provided with base plate (5), electric iron (11) top is provided with handgrip (10), and electric iron (11) inside is provided with water tank (6), wireless power receives magnetoresistive devices, steam chamber (15);

Described base plate (5) is provided with jetted hole (13); Described jetted hole (13) is connected with steam chamber (15); Described handgrip (10) top is provided with water filling port (7), water jet (8), spray vapour button (9); Described water filling port (7), water jet (8) are connected by pipeline with water tank (6) respectively; Described steam chamber (15) top is provided with thermal insulation board (16), steam chamber (15) is provided with valve gear (18), and steam chamber (15) is connected by steam bar (19) with spray vapour button (9);

Described wireless power receiving system comprises EMR electromagnetic resonance heating magnetic resistance (14), receiving circuit unit (17); Described EMR electromagnetic resonance heating magnetic resistance (14) is installed on steam chamber (15) bottom, and EMR electromagnetic resonance heating magnetic resistance (14) is connected with base plate (5); Described receiving circuit unit (17) is installed on thermal insulation board (16) top, and receiving circuit unit (17) comprises current rectifying and wave filtering circuit, controlling circuit of voltage regulation.

2. a kind of electric iron wireless power supply system based on resonance magnetoresistive technologies according to claim 1, is characterized in that: described EMR electromagnetic resonance radiating circuit unit (3) is of a size of 170mm × 200mm × 10mm.

3. a kind of electric iron wireless power supply system based on resonance magnetoresistive technologies according to claim 1, is characterized in that: described electric iron (11) outside is provided with indicator lamp (12).

4. a kind of electric iron wireless power supply system based on resonance magnetoresistive technologies according to claim 1, is characterized in that: described receiving circuit unit (17) is of a size of 50mm × 75mm × 2mm.

5. a kind of electric iron wireless power supply system based on resonance magnetoresistive technologies according to claim 1, is characterized in that: described receiving circuit unit (17) is connected in series with indicator lamp (12).

6. a kind of electric iron wireless power supply system based on resonance magnetoresistive technologies according to claim 1, is characterized in that: described current rectifying and wave filtering circuit and controlling circuit of voltage regulation are connected in series.