CN1163499A - System joint network generater - Google Patents

Abstract

A system-interconnected generator permits effective use of surplus power generated by a solar battery for operating electric equipment. The system-interconnected generator is equipped with: a storing section for storing an integrated value of the AC power which has been converted from solar energy by the power converter; a correcting section for subtracting a value of power, which is consumed by particular electric equipment receiving power supplied from the system, from the integrated value stored in the storing section; and a demanding section for enabling a demanding function of the electric equipment when the integrated value stored in the storing section becomes smaller than a predetermined value.

Description

System joint network generater

The present invention relates to solar energy converting become alternating current, with the system joint network generater of industrial alternating current system networking, particularly as the system joint network generater in the generation power that can through the accumulative total during the regulation time, be suppressed at power consumption this system joint network generater with the electrical equipment of this system networking.

As the existing Blast Furnace Top Gas Recovery Turbine Unit (TRT) of utilizing solar energy, have the spy and open the device of putting down in writing in the flat 6-74522 communique.

The device of putting down in writing in this communique is the device that solar cell and air conditioner are made up, and when solar cell is worked effectively, preferably utilizes the output operation air conditioner of solar cell.

In the existing air conditioner with solar cell that constitutes like this, the generating efficiency of solar cell is subjected to the restriction of weather and time, and the power that it is not enough obtains from the industrial power system.On the contrary, when not moving air conditioner, then do not utilize the output of solar cell, thereby the utilance of solar cell reduces just.

Purpose of the present invention aims to provide the system joint network generater that is used for the power of electrical equipment consumption such as air conditioner is effectively utilized the last power of solar cell.

System joint network generater of the present invention is a kind of power conversion unit that solar energy converting is become alternating current that has, and thereby the alternating current of above-mentioned conversion and industrial AC power supply system networking can be to the system joint network generater of system's sale of electricity, comprise that storage is by the memory cell of above-mentioned power conversion unit from the aggregate-value of the alternating current of solar energy converting, deduct the effective requirement unit of appellative function that when said system receives the correcting unit of power consumption value of specific electrical equipment of power supply and the aggregate-value when being stored in said memory cells less than setting, makes above-mentioned electrical equipment in the aggregate-value from be stored in said memory cells, by having such structure, appellative function is worked, thereby specific electrical equipment is turned round less than the accumulative total of the sale of electricity power of system joint network generater the time.

In addition, system joint network generater of the present invention is a kind of power conversion unit that solar energy converting is become alternating current that has, and thereby the alternating current of above-mentioned conversion and industrial AC power supply system networking can be to the system joint network generater of system's sale of electricity, comprise that storage is by the memory cell of above-mentioned power conversion unit from the aggregate-value of the alternating current of solar energy converting, deduct the requirement unit that when said system receives the correcting unit of power consumption value of specific electrical equipment of power supply and the aggregate-value whenever being stored in said memory cells less than the setting of a plurality of settings, just sends desired signal in the aggregate-value from be stored in said memory cells to above-mentioned electrical equipment, by having such structure, can be according to the minimizing output desired signal of sale of electricity electric power aggregate-value, regulate the power consumption of electrical equipment, so that electrical equipment turns round less than the accumulative total of the sale of electricity electric power of system joint network generater the time.

In addition, system joint network generater of the present invention is a kind of power conversion unit that solar energy converting is become alternating current that has, and thereby the alternating current of above-mentioned conversion and industrial AC power supply system networking can be to the system joint network generater of system's sale of electricity, comprise that storage is by the memory cell of above-mentioned power conversion unit from the aggregate-value of the alternating current of solar energy converting, just deduct when said system receives the correcting unit of power consumption value of specific air conditioner of power supply and the aggregate-value whenever being stored in said memory cells less than the setting of a plurality of settings in the requirement unit that sends the signal that makes it to reduce successively running ability to above-mentioned air conditioner in the aggregate-value from be stored in said memory cells greater than the scope of the running ability that presets, by having such structure, can be according to the minimizing output desired signal of the aggregate-value of generation power, regulate the running ability of air conditioner, so that air conditioner turns round less than the accumulative total of the sale of electricity electric power of system joint network generater the time.

In addition, system joint network generater of the present invention is a kind of power conversion unit that solar energy converting is become alternating current that has, and the system joint network generater of the alternating current of above-mentioned conversion and industrial AC power supply system networking, comprise that storage is by the memory cell of above-mentioned power conversion unit from the aggregate-value of the alternating current of solar energy converting, deduct the effective requirement unit of appellative function that when said system receives the correcting unit of power consumption value of specific electrical equipment of power supply and the aggregate-value when being stored in said memory cells less than setting, just makes above-mentioned electrical equipment in the aggregate-value from be stored in said memory cells, by having such structure, appellative function is worked, so that electrical equipment turns round less than the accumulative total of the generation power of system joint network generater the time.

In addition, system joint network generater of the present invention is a kind of power conversion unit that solar energy converting is become alternating current that has, and thereby the alternating current of above-mentioned conversion and industrial AC power supply system networking can be to the system joint network generater of system's sale of electricity, comprise that storage is by the memory cell to the electric power aggregate-value of alternating current system sale of electricity of above-mentioned power conversion unit from solar energy converting, from the aggregate-value that is stored in said memory cells, deduct by the correcting unit of the power consumption value of the specific electrical equipment of said system power supply and the control unit that during the aggregate-value of storing in the said memory cells is greater than 0, above-mentioned electrical equipment is turned round, electrical equipment is turned round less than the generation power of system joint network generater the time.

And then system joint network generater of the present invention also comprises such structure: if every the above-mentioned aggregate-value of cycle of regulation greater than 0, just make begin the to turn round operation of beginning of above-mentioned electrical equipment; By comprising such structure, can make electrical equipment running automatically termly the time less than the generation power of system joint network generater.

Fig. 1 is the skeleton diagram of the relation of expression system joint network generater of the present invention and air conditioner;

Fig. 2 is the block diagram of control circuit of the use side unit of air conditioner;

Fig. 3 is the circuit diagram of the relation of expression serial power supply, serial circuit and microcomputer;

Fig. 4 is the control circuit figure of the heat source side unit 4 of air conditioner;

Fig. 5 is the control circuit figure of system joint network generater;

Fig. 6 is the circuit diagram of U phase system voltage detecting circuit, V phase system voltage detecting circuit;

Fig. 7 is the circuit diagram of the zero crossing input circuit of system voltage;

Fig. 8 is the circuit diagram of solar cell current detection circuit;

Fig. 9 is the circuit diagram of solar array voltage testing circuit;

Figure 10 is the key diagram of expression from the plan sine wave of single-phase negative circuit output;

Figure 11 is used to produce the flow chart of intending sine waveform;

Figure 12 is the key diagram that the waveform in two sinusoidal wave cycles is intended in expression;

Figure 13 is the flow chart of the operation of the expression correction that is used to carry out current waveform;

Figure 14 is the variation of aggregate-value of generation power of expression solar cell and the key diagram of demand relation;

Figure 15 is the flow chart that is used to carry out demand control;

Figure 16 is the flow chart of other embodiment of expression;

Figure 17 is the skeleton diagram of the relation of expression system joint network generater of the present invention and other electrical equipment;

Figure 18 is the flow chart of the main operation of expression adapter and system joint network generater.

Embodiment of the present invention are described below with reference to the accompanying drawings.

Fig. 1 is the skeleton diagram of the relation of expression system joint network generater of the present invention (being made of solar cell and system joint network generater) and air conditioner (by using side unit and heat source side unit to constitute).

In the figure, the 1st, solar cell, system joint network generater 2 become the solar energy converting from this solar cell 1 gained alternating current (the single-phase 3 line formula 200V) back and industrial power system networking of regulation.

3 are to use the side unit, are arranged on the inboard, air conditioning chamber, constitute split type air conditioner with heat source side unit 4.From using side unit 3 thermotropism source units 4 that alternating current is provided, in addition, between use side unit 3 and heat source side unit 4, carry out the transmitting-receiving of mutual control data by holding wire.In addition, the holding wire of embedded system joint network generater 2 in this holding wire, the result has constituted can carry out the transmitting-receiving of data mutually between system joint network generater 2, use side unit 3, heat source side unit 4.

Purchasing electric instrument 5 and sale of electricity instrument 6 is connected in series by lead-in and industrial AC power supply system (for example being installed in the transformer on the electric pole), purchase electric instrument 5 and show the user from the electric weight that system purchased, sale of electricity instrument 6 shows the electric weight that the user sells to system side.

Household switchboard successively with purchase electric instrument 5, sale of electricity instrument 6 is connected in series, to each electrical equipment distribution of user's premises.And this household switchboard converts the alternating current of single-phase 3 line system 200V to the alternating current of single-phase 100V.

The output of system joint network generater 2 outputs to household switchboard (coming down to purchase between electric instrument 5 and the household switchboard 7), by sale of electricity instrument 6, purchase electric instrument 5 with untapped residue generation power feed system in the dwelling house.In addition, voltage ratio system voltage from the alternating current of system joint network generater output is also high just can be purchased to system by making.

Fig. 2 is to use the block diagram of the control circuit of side unit 3.In the figure, the 11st, plug links to each other with household switchboard 7, accepts the supply of the alternating current of single-phase 100V.

13a is a connector, can from use side unit 3 thermotropism source units 4 to supply with alternating currents and receive-transmit system joint network generater 2, use side unit 3, the control data of 4 of heat source side units.That is connector 13a, connector 13b (carrying on the heat source side unit) are the connectors that connects between the same terminal sequence number.Connect between the terminal (2) that makes connector 13c (stretching out), the terminal (3) that terminal (3) is inserted into connector 13a, connector 13b from system joint network generater.

The 14th, power relay 15 often open contact pin, by closed this contact pin 14, between the terminal (1) of connector 13a and terminal (2), export alternating current from plug 11 gained.

The 16th, utilize the output of microcomputer 17 (having the universal microcomputer of a plurality of analog/digital conversion inputs and input/output terminal etc. etc.) and the drive circuit (general buffer circuit or drive circuit etc.) of working, the output of response microcomputer 17 makes power relay 15 energisings.In addition, this energising judges that at microcomputer air conditioner carries out when normally turning round.

The 18th, last lower baffle plate motor (stepping motor etc.) is used in change from using side unit 3 consistent with number of steps and change to the angle of the last lower baffle plate of the dispatch direction of the Air Conditioning of indoor dispatch.That is this stepping motor response is rotated in the forward with pulse/counter-rotating pulse from microcomputer 17 outputs, is rotated in the forward step by step/counter-rotating, can obtain the corresponding anglec of rotation (angle of baffle plate) of output number with microcomputer 17 storages.

Microcomputer 17 is at first exported the required umber of pulse of design angle that stepping motor 18 reaches initial position, and the later baffle plate angle and the relation of umber of pulse as benchmark, are set in the position that makes the fully open/closed baffle plate of baffle plate.

When the baffle plate angle initialization was desired angle, microcomputer 17 was just exported pulse, when the baffle plate angle becomes angle with the remote controller operating and setting till.In addition, when setting automatically, microcomputer 17 automatically makes the number of steps increase and decrease, the result, and baffle plate is just swung.And when cooling operation and warming operation, the scope of swing is set at difference.

The 19th, left baffle motor (stepping motor etc.) is used in change from using side unit 3 consistent with number of steps and change to the angle of the left baffle of the dispatch direction of the Air Conditioning of indoor dispatch.The operation of stepping motor 19 is identical with the operation of stepping motor 18.

Therefore, by control baffle plate motor 18 and baffle plate motor 19, can at random control up and down from the dispatch direction of the Air Conditioning of using 3 dispatch of side unit.

The 20th, motor power, the 21st, the control circuit power supply, the 22nd, current fuse is connected in series with the industrial AC power that links to each other by plug 11.The 22nd, temperature fuse, the fusing when atmosphere temperature of electronic units such as the temperature in using side unit 3, microcomputer 17 uprises is cut off from control circuit power supply 21 and is supplied with the operation electricity consumption to microcomputer 17.

Motor power 20 is exported for example constant voltage of direct current 48V, direct current 12V.Direct current 48V being supplied with drive circuit 24, direct current 12V is outputed to control circuit with power supply 21, also is the driving power of power relay 15 and stepping motor 18,19 simultaneously.The direct current 5V that control circuit power supply 21 output electronic components are used is a constant voltage.

Drive circuit 24 fan motor 25 (driving is used for the brshless DC motor to the fan of indoor dispatch Air Conditioning), by six switch elements (power transistor, power field effect transistor (FET) etc.) are connected into three-phase bridge, make each switch element on/off, just exportable 120 ° of energisings, 60 ° of cold three-phase alternating currents of taking place repeatedly.

This three-phase alternating current is divided into six kinds of step modes in one-period, per 60 ° a kind of.Switch step mode in proper order accordingly for 60 ° with the every rotation of rotor, rotor revolves and turns around, and just exports the three-phase alternating current of one-period.That is, switching the step mode corresponding by order with the position of rotation of rotor, rotor continues rotation.

Because this motor 25 is direct current machines etc., so, can be by changing the revolution that the direct current applied voltage changes this fan electromotor 25.If improve applied voltage, then revolution uprises, if reduce applied voltage, then revolution descends.Specifically, can copped wave change applied voltage from the voltage of the direct current 48V of motor power 20 gained, also can with the conducting duty ratio copped wave of regulation supply with 120 ° of the three-phase alternating currents of fan electromotor 25 energising, recently change actual applied voltage by changing this conducting duty.At this moment, increase the conducting duty ratio, applied voltage just increases, and reduces the conducting duty ratio, and applied voltage just diminishes.

In addition, the position probing of rotor uses the output of magnetic detecting element to judge, or the variation of the induced voltage that produces according to the rotation by rotor is judged.

Microcomputer 17 to obtain the step mode of above-mentioned correspondence, simultaneously, is the rotation number that obtains stipulating according to the break-make of the switch element of the position of rotation control Driver Circuit 24 of the rotor of this detection, regulates applied voltage, so that apply required voltage on fan electromotor 25.

In addition, as the control of this fan electromotor 25, have based on room temperature and design temperature (preferred temperature) poor, according to the predetermined specific manual operation etc. that automatically changes the automatic running of revolution and be fixed as the revolution of expectation.

Fig. 3 is the circuit diagram of the relation of expression serial power supply 28, serial circuit 29 and microcomputer 17.In the figure, also show the relation of serial circuit 40 with serial circuit 70 with the microcomputer 71 of microcomputer 41 and system joint network generater 2 of heat source side unit 4 with the connection of each connector 13a-13c.

Serial power circuit 28 comprises the constant-voltage circuit 28 of the output direct current 5V that links to each other with the industrial AC power of 100V by current fuse 22.This constant-voltage circuit 28 can use general constant voltage to wait with IC to constitute.

The diode 29 of the output of this constant-voltage circuit 28 by linking to each other along direction, resistance 30, signal output are connected in series with the light-emitting component of the photoelectrical coupler 32 of the photo detector of photoelectrical coupler 31, signal reception usefulness and the terminal (3) of connector 13a.In addition, the terminal of connector 13b (2) is an end of electric wire, links to each other with the terminal (2) of connector 13a, is used as the output of the earth terminal of constant-voltage circuit 28 jointly.

Because this serial circuit 27 and the serial circuit 70 of interconnection generator, the serial circuit 40 of heat source side unit 4 have identical structure, so three serial circuits and constant-voltage circuit 28 are connected in series.

The light-emitting component of the photoelectrical coupler 31 of the signal output usefulness of serial circuit 28 comes on/off according to the output of microcomputer 17, and (when being in holding state for received signal) is conducting usually.In addition, signal receive with the photo detector of photoelectrical coupler 32 with export with resistance this on/off is exported change over the variation of voltage after, output to microcomputer 17.Usually when received signal (not) is conducting, to microcomputer 17 be output as high voltage (in the present embodiment for+5V).

Therefore, when microcomputer 17 output signals,, use the on/off signal to make the light-emitting component conduction and cut-off of photoelectrical coupler 31 according to common protocol and data format.This on/off conversion of signals becomes the on/off of the output of constant-voltage circuit 28, and the on/off of photo detector that the signal by each serial circuit 29,40,70 receives the photoelectrical coupler of usefulness passes to each microcomputer.

During received signal, all the signal of serial circuit receives with photoelectrical coupler and receives the on/off of exporting the output of the constant-voltage circuit 28 of using photoelectrical coupler on/off gained by the signal that makes arbitrary serial circuit, to each microcomputer output signal, specified the code that receives the destination owing in this signal, set, so, the signal that only corresponding with this code microcomputer is accepted is judged as effectively, and uses in this control.

In addition, in serial circuit 27, be provided with the electric capacity that absorption of noise uses, the Zener diode and the resistance of photoelectrical coupler protection usefulness.

In addition, in Fig. 2, the 33rd, receiving circuit, reception is from the signal of radio remote controller (use infrared signal and wireless signals such as electric wave, sound wave) (signal of the signal of the control signal of the air output of the Air Conditioning of the running/stop signal of air conditioner, fan electromotor 25, the baffle plate motor 18 that changes air supply direction and 19 control signal, expression design temperature, the room temperature that expression detects, make the effective signal of demand, send the signal of other signals etc. according to operation), gives microcomputer 17 after this received signal being converted to the serial code of regulation.Microcomputer 17 is controlled according to this signal when this serial code is effective.

The 34th, show the LED unit, be configured in receiving circuit 33 light receiving unit near, be used to show and turn round/stop and the operating condition of air conditioner such as running grade regularly.

35, the 36th, temperature sensor, the temperature and being installed in that is used to detect the heat exchanger of the kind of refrigeration cycle that constitutes idle call use side unit 3 around room temperature.As these temperature sensors, use negative-characteristic thermistor etc.; The corresponding voltage of the resistance value that microcomputer 17 will change with varying with temperature carries out A/D conversion (analog/digital conversion), is used to read in control.

The 37th, service shows uses the LED unit, is used for restoring the exception record when being presented at air conditioner generation abnormal conditions.

The 38th, switch element has the test running/drive manner switch that runs well/stop and the demonstration of exception record with switch etc.

Fig. 4 is the control circuit of heat source side unit 4, the alternating current of terminal (1) by connector 13b, the single-phase 100V of terminal (2) gained is by current fuse 42, noise filter 43, choke 44, converts the direct currents of 280V to by four rectifier diodes and two voltage doubling rectifing circuits 45 that smoothly constitute with electric capacity.This direct current is supplied with the anti-phase bridge circuit 49 of three-phase that is made of six switch elements (power transistor, power fet constant power control switch element) by noise filter 48, smoothing capacity 47, current fuse 48.

The 50th, coolant compressor constitutes the part that above-mentioned air conditioner refrigerating circulates.This compressor for example comprises three phase induction motor in its drive source, comprise three-phase direct-current brushless motor etc. in addition.

When using three phase induction motor, microcomputer 41 can obtain intending the sinusoidal wave compressor 50 of supplying with for the three-phase of the voltage/frequency value of predefined each frequency of running efficiency of improving compressor 50.That is such plan sine wave is that the size according to the modulating wave of expected frequency and carrier wave obtains six switch element on/off of the anti-phase bridge circuit 49 of three-phase, and this on/off can be calculated in theory by microcomputer 41 and obtain.In addition, the frequency of the three-phase alternating current of supply compressor 50 depends on the modulation wave frequency.

In addition, the 51st, drive circuit is the power amplification circuit that is used for being made by the output of microcomputer 41 six switch element on/off of the anti-phase bridge circuit 49 of three-phase.The 52nd, Switching Power Supply is from exporting power supply, the power supply of microcomputer 41 usefulness and the constant voltage electric power that other electrical equipment is used of performance element 51 usefulness by the direct current of noise filter 53, current fuse 54 gained.Can use general constant voltage IC etc.

In addition, when the drive source of compressor 50 uses the three-phase direct-current brushless motor (embodiment shown in Figure 4), position detecting circuit 55 detects the position of the rotor of compressor 50, for the step mode that the position of rotation that obtains with this rotor adapts, microcomputer 41 is set the combination of on/off of each switch element of three-phase negative circuits 49.

The variation of the induced voltage that position detecting circuit 55 will produce on stator winding according to the rotation of rotor be greater than or supply with microcomputer 41 less than the output that the voltage suitable with the neutral point voltage of three-phase alternating current changes.Microcomputer 41 calculates the position of rotation of the rotor of compressor 50 according to the variation moment of the output of this position detector 55.

Secondly, judge the position of rotation of rotor is in which interval of Jiang Yiquan (360 °) six five equilibriums (being separated into each interval of 60 °), in order (for example in compressor 50, to obtain the three-phase step mode corresponding with this interval, the three-phase alternating current step mode that each carries out 120 ° of energisings, 60 ° of non-energisings mutually repeatedly), make each switch element on/off of three-phase negative circuit 49.

In addition, the rotation number of this compressor 50 is not the rotation number of 120 ° continuous energising, but with the regulation cycle copped wave, recently change the actual rotation number that is applied to the voltage on the stator winding by the conducting duty that changes this copped wave simultaneously.

56,57,58 is respectively the temperature sensor that is made of negative-characteristic thermistor, the voltage corresponding with the resistance that changes with temperature is supplied with the A/D input of microcomputer 41.Temperature sensor 56 detects outside air temperature, and temperature sensor 57 detects the temperature of compressor 50, and temperature sensor 58 detects the temperature of the heat source side heat exchanger that constitutes kind of refrigeration cycle, and microcomputer 41 is used to control the temperature that these temperature sensors detect.

The 59th, stepping motor has the rotation step-length in about 500 steps, prescribed stroke can be controlled to be 500 grades.Constitute the decompression amount (swell increment) of the decompressor (expansion valve) of kind of refrigeration cycle by stroke adjustment.In addition, the rotation stepping of this stepping motor 59 is carried out according to the output of the microcomputer 41 by drive circuit 60.As this control, there is revolution with compressor to utilize the method for predetermined characteristics control step-length accordingly and makes the evaporating temperature of the cold-producing medium in the kind of refrigeration cycle or condensing temperature becomes the constant method etc. that like that the rotation step-length is increased and decreased control usually.

The 61st, fan electromotor is used to drive the locational propeller fan that is located at the air-supply of thermotropism source heat exchanger.Identical with fan electromotor 25, in this propeller fan motor 61, also used dc brushless motor.Equally, can be by drive circuit 62 by microcomputer 41 its revolutions of control.

The 63rd, the refrigerant flow path transfer valve switches the flow direction of cold-producing medium, so that the refrigeration modes that uses the side heat exchanger to play the evaporator effect becomes possibility with the heating system that uses the side heat exchanger to play the condenser effect.Can use the cross valve of common name etc.

64a, 64b are toggle slices, switch this toggle slices by each output of microcomputer 41 by power relay.State shown in Figure 4 is the state that power relay is not switched on.

When toggle slices 64a was switched to diode bridge 65a one side, electric current switched to a side from toggle slices 64a one side direction toggle slices 64b one side flow with refrigerant flow path transfer valve 63.On the contrary, when toggle slices 64b was switched to diode bridge 65b one side, electric current switched to opposite side from toggle slices 64b one side direction toggle slices 64a one side flow with refrigerant flow path transfer valve 63.In case because comprising, this refrigerant flow path transfer valve 63 switches the self-sustaining mechanism that just keeps this state, so, when being necessary to switch refrigerant flow path, as long as carry out the energising of stipulated time to prescribed direction.In addition, switch on repeatedly, prevent to depart from the self-sustaining state of stream with the interval of stipulating.

The 66th, current transformer is installed on the position that can measure heat source side unit 4 consumed current.In the cycle of each regulation, directly the instantaneous value to the current waveform of this current transformer output carries out the A/D conversion, is taken in the microcomputer 41.Microcomputer 41 calculates effective value in the sequence of each specified period according to the value that quantizes from current waveform, uses in Current Control.

The rotation number of Current Control control compressor 50 is the refrigerating capacity of air conditioner, so that this heat source side unit consumed current is no more than set point.The revolution of compressor 50 according in using side unit 2 with the difference of room temperature and design temperature and change as input, determine by the variable value of the refrigerating capacity of the current refrigerating capacity of the fuzzy operation gained of adjustment, make room temperature reach design temperature.This variable value sends by serial circuit 40 from using side unit 2.

The setting of the rotation number of compressor 50 is except adding in current revolution this variable value, and then also utilizes the revolution after proofreading and correct to upgrade.Microcomputer 41 makes each switch element on/off of three-phase negative circuit 49 so that compressor 50 becomes this revolution.And compressor 50 is set the revolution of regulation as initial value when starting.

Here, above-mentioned calibration setup is for the scope that approaches set point along with power consumption and do not proofread and correct, for not producing the rise scope of proofreading and correct and for reducing the scope that rotation number is proofreaied and correct of rotation number, is no more than set point so that the current sinking of compressor 50 is the current sinking of heat source side unit.And, when this current sinking surpasses set point, just being considered as air conditioner and entering abnormality, air conditioner is out of service, and carries out abnormal show.

Therefore, by changing this set point, can limit the current sinking of air conditioner basically.Set this set point in from the signal that uses the side unit, for example in general domestic air conditioner, set point is the value of 20A, 17A, 15A, 10A etc.

By using side unit 3 and send and the function of demand when becoming effective, can be that unit changes this set point with 1A at the signal that sends from remote controller according to the increase and decrease signal from aftermentioned system joint network generater 2.

Fig. 5 is the control circuit of system joint network generater 2, and microcomputer 71 carries out the transmitting-receiving of signal by serial circuit 70 and microcomputer 17, microcomputer 41.In this circuit, the 72nd, solar energy is transformed into the solar cell of electric energy, the diode 73 by protection usefulness should generate electricity to export and be stored in the electric capacity 74.

The 75th, single-phase negative circuit, four switch elements (IGBT constant power switch element) connect into bridge circuit, make each switch element on/off by the mode with regulation, can obtain the plan sine wave of the single-phase 100V of 50Hz (or 60Hz).The sinusoidal wave low pass filter through being made of inductance 76,77, electric capacity 78 of this plan, boosting at step-up transformer 79 is the alternating current of the single-phase 200V+ α (α is for producing to the required voltage of the surge of system) of 50Hz.This alternating current offers the electric wire of system by household switchboard shown in Figure 17.

80a, 80b be interlock often open contact pin, by to power relay 81 energisings and closed.This power relay 81 is controlled energising/non-energising by drive circuit (power amplification circuit) 82 by microcomputer 71 (the system U83C196MH of Intel company), microcomputer 71 is just opened when judging that solar cell 72 does not generate electricity or when detecting certain fault and is often opened contact pin 80a, 80b, system joint network generater and system's disconnection.

The 83rd, the primary current detection circuit, detecting and flowing to the elementary of step-up transformer 79 is the electric current of solar cell 72 1 sides.This electric current as alternating current output, directly offers the A/D conversion port of microcomputer 71 at centre cap (C.T.).Microcomputer 71 carries out the A/D conversion every specified period (for example every 200US) to this waveform, and the current instantaneous value input as time to time change is used for control.

At first the current value during with the same-phase that is stored in the ideal current waveform data (sine-wave current waveform) in the memory cell (ROM) as list data compares the current value after the A/D conversion by microcomputer 71 in this control, the correction that makes the synchronous voltage in following one-period rise or descend, make the waveform of output current approach the waveform of ideal current, suppress the wave distortion of output current.

Owing to be the sampling of 20US when 50Hz,, when 60H 84 data so the list data of ideal current waveform is 20ms/200us=100 data.

The ideal waveform data can be according to predefined reference data, and the effective value of required electric current be multiply by reference data with the ratio of regulation respectively.

The 84th, the transformer secondary output current detection circuit, detecting the primary side that flows to step-up transformer 79 is the electric current of system's one side.This circuit by full-wave rectifying circuit (using the circuit of general purpose I C such as the system LA6324 of Sanyo Electric Co., Ltd), offers the effective value computing to the current waveform that detects at C.T. with IC (for example New Japan Radio Co's system NJM4200).After the effective value of the electric current that this IC detects C.T. is transformed into the variation of voltage, offer the A/D input port of microcomputer 71.Microcomputer 71 from this voltage ask for the effective value of electric current and system joint network generater output power value, and show at display unit.

85,86 is respectively U phase system voltage detecting circuit and V phase system voltage detecting circuit, when producing the variation greater than setting in the voltage of the system of outputing to, just stops the supply capability to system.This circuit detects neutral point voltage, neutral point and the V alternate voltage alternate with U according to the alternating current of the single-phase three-wire formula 200V of system joint network generater output.These testing circuits are identical, and circuit shown in Figure 6 is shared.

In Fig. 6, the variation of the voltage between terminals that obtains from system's one side offers the ICNJM4200 that effective value calculates usefulness through the IC (LA6324) that constitutes the whole circuit of all-wave, will the direct voltage corresponding with effective value offers the A/D conversion port of microcomputer 71.Microcomputer 71 is used to control the effective value of the voltage after A/D changes.

The 87th, the zero crossing input circuit of system voltage outputs to microcomputer 71 with this signal when the zero cross signal of system's of being judged as (alternating current).

Fig. 7 is a system voltage zero crossing input circuit, and system voltage is supplied with comparator 88, and when the voltage of the input that is applied to this comparator 88 positive and negative anti-phase, its output is also anti-phase.The output of comparator 88 offers photoelectrical coupler 89, offers microcomputer 71 after removing denoising, carrying out voltage transformation and electric insulation.Microcomputer 71 is judged the zero cross point of system according to the variation of this output, the output timing of the on/off signal of control switch element, make from the zero cross point of the alternating current of single-phase negative circuit 75 outputs consistent with the zero cross point of system, in addition, also as fiducial time of the phase place of the voltage correction that is used to obtain above-mentioned ideal current waveform.

The 88th, have personal computer is used to connect holding wire with I/F (interface), when personal computer is connected with the outside interface circuit.This circuit is the circuit that can standard (for example RS-232C) in accordance with regulations communicates, and constitutes with the general purpose I C that can carry out communication such as MAX 232 RS-232C such as grade.By using this personal computer I/F88, can utilize personal computer from the external control system joint network generater.

89, the 90th, display unit is combined into three with 8 sections demonstrations respectively, the demonstration of the lead adjusted value when demonstration, the expression of carrying out the generation power of solar cell 72 produces the demonstration of code of the unusual kind when unusual and initial setting etc.After carrying out power amplification from the output signal of microcomputer 71 by display driver circuit (general driving IC) 91, offer this display unit 89,90, display unit 89,90 is lighted dynamically according to this signal.

The 92nd, show and use LED, dynamically light by the output signal of microcomputer 71 by display driver circuit 91.As this demonstration, have the operation of green of the operation of expression system joint network generater to show, the green that is illustrated in the open and-shut mode of opening when unusual of often opening contact pin 80a, 80b shows, produces the yellow demonstration of the generation power of the red display lighted when unusual and the expression solar cell state when not enough etc.

The 93rd, switch element is that the input/output port with microcomputer 71 connects into rectangular push-button switch or locking-type push-button switch, and the key scanning by microcomputer 71 is taken into the state of these switches in the microcomputer 71, uses in control.As the function of switch, the switch of the data that make the unusual experience of expression that changes the effective switch of adjusted value mode, cancellation storage is arranged and make switch that system joint network generater moves/stop etc.

The 94th, EEPROM is the memory of storage adjusted value and unusual simple experience.Adjusted value is the value that is used for setting respectively because of the fiducial value of the different unusual judgement of each system.

The 95th, the solar cell current detection circuit detects from the magnitude of current of solar cell 72 outputs, is input to microcomputer 71.

Fig. 8 is the circuit diagram of solar cell current detection circuit 95, the 96th, and DCCT (direct current current sense transformer), output and the corresponding voltage of exporting from solar cell 72 of electric current.This output is offered the IC (NJM4200) that the effective value computing is used, in this IC, obtain the voltage corresponding with the effective value of electric current.The output current of solar cell 72 is not pure direct current, also contains the pulsating current composition, and therefore carrying out the effective value computing obtains correct current value.Microcomputer 71 is taken into this voltage from the A/D input port, and the storage current value corresponding with voltage uses in control in the memory location of regulation.

The 97th, the solar array voltage testing circuit, the voltage between the terminal of detection solar cell 72 outputs to this voltage in the microcomputer 71.Fig. 9 is the solar array voltage testing circuit, and 98 is IC (for example New Japan Radio Co's system NJM4151) that V/F (voltage/frequency) conversion is used among the figure.

With resistance the voltage between terminals of solar cell 72 is carried out dividing potential drop, improve specified amount after, carry out stabilisation by electric capacity 99, be applied to the voltage input end of the IC98 that the V/F conversion uses.This IC sends with the frequency corresponding with added voltage, should send to use output resistance 100 outputs, offers the light-emitting component of photoelectrical coupler 101.The output of photoelectrical coupler 101 is offered microcomputer 71, and microcomputer 71 is measured the frequency of this output, asks for corresponding voltage.

The 102nd, the IGBT drive circuit is the drive circuit that is used for driving the switch element (in the present embodiment, being respectively transistor driver circuit, FET drive circuit) that constitutes single-phase negative circuit 75 when using IGBT, power transistor and power fet.Specifically, exactly the on/off signal of microcomputer 71 outputs is amplified to the power amplification circuit of the level that can drive IGBT, constitutes, can use the general driving circuit by photoelectrical coupler, amplifying circuit etc.

The 103rd, the triple-frequency harmonics testing circuit utilizes the power failure, broken string etc. of the increase detection system of triple-frequency harmonics unusual, cuts off the connection of homologous ray joint network generater.Constitute (with reference to the flat 7-146599 of patent application number) by band pass filter, V/F (voltage/frequency) translation circuit etc.

If the detection voltage of solar array voltage testing circuit 97 is greater than assigned voltage (greater than the value of taking out generation power), then the system joint network generater that constitutes so just utilizes single-phase negative circuit 75 the generating output transform of solar cell 72 to be become the single-phase alternating current of the plan sine wave of 100V, 50Hz or 60Hz.This single-phase alternating current is transformed into the single-phase alternating current of 200V by step-up transformer 79, and Ruo Changkai contact pin 80a, 80b closure just offer system.In fact,, should be set at highlyer slightly, but still be assumed to 200V in the following description than 200V for making flow of power to system.

At this moment, the generation power of above-mentioned solar cell dynamically shows at display unit 89 by microcomputer 71.

Figure 10 is the key diagram of expression from the plan sine wave (sine wave is a current waveform) of single-phase negative circuit 75 outputs.In the figure, for the purpose of being easy to explanation, one-period is divided into 16 parts (interval 1～interval 16).In fact, when 50Hz, one-period is 20ms, and the sampling period is 200us, is divided into the 20ms/200us=100 part.Equally, when 60Hz, be divided into 84 parts.

The beginning of one-period is with from the zero cross signal of system voltage zero crossing input circuit 87 output synchronously, and from obtaining the moment of zero cross signal, output is divided into the waveform of 16 parts successively.And Vcc is a terminal voltage of smoothly using electric capacity 74.

Per 180 ° of twice output zero cross signals in each cycle, therefore, can be with eight partitioning portions of half period (interval 1～interval 8) as a circulation.At this moment, second cycle is anti-phase to the output of above-mentioned eight partitioning portions (interval 1～interval 8).

Three current potential positions of this waveform (+Vcc, 0 ,-Vcc) be that the combination of the on/off of the switch element by selecting single-phase negative circuit 75 comes given.Therefore, by changing the combination of on/off successively, it is sinusoidal wave to obtain this plan.

Constitute a interval in 16 partitioning portions (for example with reference to from zero crossing position to the four intervals 4) during arbitrary in during three of TA, TB, the TC, during TA with during time of TC identical.

Therefore, corresponding to each interval (1～16),, can during this value (time), keep the combination of the on/off of selection in the interval of each setting at cell stores and frequency F (50Hz, 60Hz), the corresponding data form of TB value (time).The value of TA, TC is (200us-TB)/2.

Figure 11 is used to produce the flow chart of intending sine waveform.In this flow chart, in step S1, carry out various initial settings after, microcomputer 71 begin the operation.Then, in step S2, from the data form that is stored in ROM94, read the data corresponding, make new data form with required frequency.

Then, in step S3, judge it is the output that respectively has from system voltage zero crossing input circuit 87, when the input that zero cross signal is arranged, enter step S5 after when step S4, making " N=1 ".When step S3 does not detect zero cross signal, just directly enter step S5.And, because the judgement of this zero cross signal is to be handled by the interruption of microcomputer 71, so, at any time,, then carry out the processing of step S3 if produce zero cross signal.

In step S5, from new form, read data by the interval TB of variable N appointment.Then, in step S6, to the generating voltage of solar cell, the data based predetermined form of this TB is proofreaied and correct, and makes the current value of solar cell at the plan sine wave of best operating point generating so that obtain being set at.

In step S7, obtain the value of TA, TC by the value of the TB of this correction, then, in step S8, S9, S10, during this value, keep the combination of the regulation of on/off signal.Like this, produce the waveform in an interval shown in Figure 10.

In addition, in step S8-S10, for the timing of time of the combination of keeping the regulation on/off, owing to use by the timer of timing, so before promptly producing interrupt signal during the timing of timer, microcomputer 71 can carry out other controls to the generation interrupt signal.

Then, in step S11, make " N=N+1 ",, when in step S12, being judged as " N＞10 ", just in step S13, make " N=1 ", and make the interval turn back to foremost interval next interval counting.

Then, turn back to step S5, generated continuous plan sine wave.

Figure 12 represents the waveform in two cycles of the plan sine wave of generation like this.In the figure, the 110th, the true part of the husband of current waveform, sinusoidal wave to theoretic plan, be to produce by the charge inducing that electronic unit is held.This distortion is by relatively the instantaneous value and the theoretic current value of the electric current by transformer's primary current testing circuit 83 gained are judged.

The value of the TB in the same interval of this distortion by proofread and correct constituting following one-period (interval of representing with symbol 111) and proofreading and correct in following one-period.That is, because the distorted portion 110 of the current waveform of actual measurement is littler than theoretic current value, so, in interval 111, the value of TB proofreaied and correct for " TB=TB+ α " (α be on the occasion of).In addition, when the distorted portion 110 of the current waveform of actual measurement is bigger than theoretic current value, the value of α can be taken as negative.In addition, this correction is carried out in the current value of all actual measurements interval different with theoretical value; For each cycle, always proofread and correct the value of following one-period successively.

" the reading in data form " of step S2 by being updated in the flow chart shown in Figure 11 and value of the data that TB value after will proofreading and correct is read in can be carried out this processing.

Figure 13 is the flow chart of this operation of expression, carries out concurrently during the step S8, the S9 that carry out flow chart shown in Figure 11, S10.If the processing speed of microcomputer 71 has nargin, then also can constitute when the switching in interval and carry out.

At first read in the electric current I G that primary current detection circuit 83 detects in step S20, this electric current also can be the current value as the interval that becomes object of having read in.

Relatively this current value I G and being set at makes the size of solar cell in the theoretical current value of the plan sine wave of best operating point generating in step S21, step S23, when " theoretical current value＞IG ", just after proofreading and correct the value of the data form TB in corresponding interval for " TB=TB+ β ", upgrades step S22, when " theoretical current value＜IG ", after proofreading and correct the value of the data form TB in corresponding interval for " TB=TB-γ ", step 24 upgrades.Suitably set owing to the value of these β, γ is corresponding with the maximum output of solar cell 72, so, can be β=γ, in addition, be the amplitude of variation that reduces electric current, the value of these β, γ is to make IG become the numerical value of theoretical current value after proofreading and correct for several times.

By carrying out such correction to intending each sinusoidal wave interval, can make solar cell always with the state generating of the best, simultaneously, intending sinusoidal wave current waveform can be undistorted basically, and the alternating current of waveform stabilization can be provided to system.

In the above embodiments, though proofread and correct earlier the value of the data form of the distortion of current waveform, be used to obtain the correction of the optimum operation of solar cell again, also can be used to obtain the correction of the optimum operation of solar cell earlier, carry out correction again the distortion of current waveform.At this moment, the data form of the distortion of current waveform being proofreaied and correct usefulness can be set individually, each cycle be upgraded this form, and this corrected value is added in the next one table that the optimum operating state of solar cell is proofreaied and correct.

And then, the magnitude of voltage that current value that microcomputer 71 usefulness solar cell current detection circuits 95 detect and solar array voltage testing circuit 87 detect is asked for the generated output of solar cell 72, the signal (desired signal) that can be moved by the consumed power output control load of this integral power and corresponding load.

At first, the generated output with solar cell 72 stores in the memory cell.Then, obtain the power consumption value of heat source side unit 43 consumption of air conditioner (characteristic load) by serial circuit 70.This power consumption value is the integrated value of the current value that uses in Current Control of heat source side unit 4, is equivalent to the power consumption of load (air conditioner) substantially.

Then, by serial circuit 70, the integral power value according to deduct this power consumption value from above-mentioned integral power value sends to heat source side unit 4 with desired signal, limits the running ability of air conditioner.When the integral power value is restored fully, just remove desired signal.

Figure 14 is the key diagram of this relation of expression.In the figure, P represents the aggregate-value of the generated output of solar cell 72, P3 is the value that is equivalent to power consumption in three days of load (air conditioner), P2 is the value that is equivalent to power consumption in two days of load (air conditioner), P1 is the value that is equivalent to power consumption in a day of load (air conditioner), suitably selects to set this value according to the running ability of air conditioner, the maximum generation power of solar cell etc.

Zone A～zone C uses P3, P2, P1 to set as shown in Figure 14.And then, suitably set differential values with decline and the rising of this aggregate-value P.

At regional A, thermotropism source unit 4 sends 2/3 the desired signal of maximum running current being changed into set point; In area B, thermotropism source unit 4 sends 1/2 the desired signal of maximum running current being changed into set point; In zone C, thermotropism source unit 4 sends 1/3 the desired signal of maximum running current being changed into set point.In addition, aggregate-value does not belong to arbitrary when zone, just removes desired signal.Be set at when effective at the appellative function with air conditioner, these signals are just effective.

By such control, can be suppressed at the annual power consumption of air conditioner in the generated output of solar cell.That is to say that the dump power when turning round to the generated output on date of not needing operation of air-conditioner with small-power adds up,, can make the generated output of the power consumption of air conditioner less than solar cell by using this accumulative total part when the needs air-conditioning.

That is to say that the aggregate-value of these power is the parts to system's sale of electricity, in fact do not spend the air-conditioning expense when in the power of this sale of electricity, moving air conditioner.Easy speech, by sale of electricity, can be with the storing machine of system as electric power, the utilance of solar cell can effectively be utilized on 100% ground basically.

Figure 15 is the flow chart that is used to carry out this operation (demand control).At first, in step S30, system joint network generater brings into operation, and in step S31, sets initial value in aggregate-value P.This initial value can be selected with switch, this selective value is value, the value that is equivalent to air conditioner power consumption in seven days, the value that is equivalent to air conditioner power consumption in five days that is equivalent to ten days power consumption of air conditioner, the value that is equivalent to air conditioner power consumption in three days, selects season according to the setting (bringing into operation) of system joint network generater.Be preferably in power consumptions such as summer and winter and set initial value greatly for a long time, set initial value little, but also can uniformly be set at identical value at interims such as spring and autumns.

In step S32, the power of solar cell power generation is added among the aggregate-value P, in step.Deduct the power consumption of air conditioner among the S33 from aggregate-value P, ask for aggregate-value used in the control.

Judge in step S34～S36 aggregate-value is whether in which zone in regional A～zone C, when aggregate-value P is in regional A, just enter step S37, heat source side unit 4 outputs to air conditioner are used for the set point of Current Control is changed into its desired signal of 2/3, when aggregate-value P is in area B, just enter step S38, heat source side unit 4 outputs to air conditioner are used for the set point of Current Control is changed into its desired signal of 1/2, when aggregate-value P is in zone C, just enter step S39, heat source side unit 4 outputs to air conditioner are used for the set point of Current Control is changed into its desired signal of 1/3, when aggregate-value P is not in the arbitrary zone in regional A-C, just enter step S40, make the signal of the setting recovery of Current Control to heat source side unit 4 outputs of air conditioner.

Figure 16 is the flow chart of other embodiment of expression, in this embodiment, utilizes aggregate-value P whether to change the set point of Current Control greater than P1.

To with flow chart identical operations shown in Figure 15, add identical step, explanation is omitted.At first, judge that in step S41 whether aggregate-value P is greater than P1.When " P＜P1 ", the value after the current setting value of just using from the Current Control of heat source side unit 4 gained in step S42 deducts 1A is as new current setting value.At this moment, when in step S43, being judged as " Current Control value＞5 ", just in step S44, make " Current Control value=5A ", make the Current Control value be not less than 5A.In addition, this lower limit can be set at any suitable value.

When in step S41, not satisfying " P＜P1 ", in step S45, just will add that value behind the 1A is as new current setting value from the current setting value that the Current Control of heat source side unit 4 gained is used.At this moment, when in step S46, being judged as " Current Control value＞set point " (set point is the value that the Current Control value of initial setting in the heat source side unit is promptly set) in using side unit 3, in step S47, make " Current Control value=set point ", make the Current Control value be no more than set point.

In step S48, the Current Control value of setting is like this sent to the heat source side unit, the running ability of control heat source side unit.

The judged result that only also can constitute step S41 sends to heat source side unit 4, the function suitable with step S42～step S47 is all entrusted to heat source side unit 4.At this moment, need heat source side unit 4 corresponding with this function.In the superincumbent explanation, to illustrating system joint network generater and being connected of air conditioner, but be not limited to this, can be corresponding with various electrical equipment with appellative function.

Therefore, constitute though system joint network generater and air conditioner are split ground, air conditioner also can constitute when special-purpose integratedly.

In addition, when being applicable to electrical equipment, electrical equipment can be linked to each other with the adapter of can the on/off power supply supplying with, by the on/off of adapter control apparatus with appellative function.At this moment, can make appellative function directly corresponding with the on/off of electrical equipment, the power consumption of electrical equipment can be detected by adapter, or selects close value from the selective value that adapter is set.

Figure 17 is other embodiment, and the construction unit identical with Fig. 1 adds identical symbol.In the figure, the 200th, adapter apparatus, the 201st, electrical equipment, the 202nd, timer arrangement, the 203rd, the normally closed contact pin that opens and closes by adapter control, the 204th, be used to detect the current detector of the electric current that flows to electrical equipment.

Electrical equipment 201 for example is arranged under roof, the floor and the ventilation fan in long-term obsolete house or the space, and its driving power provides from household switchboard 7 by normally closed contact pin 203.

Timer arrangement 202 makes ventilation fan 201 running certain hours constantly in each specified period or regulation, to ventilation fan 201 output CRANK PULSES.

The operation of adapter 200 usefulness current detectors 204 judgement ventilation fans 201/stop to detect the current sinking of ventilation fan 201 simultaneously, and this state is sent to system joint network generater 2.Adapter 200 responses are from the desired signal of system joint network generater 2, and the switching of contact pin 203 is often opened in control.

In the electrical equipment that constitutes like this, as long as the aggregate-value of electric power of the generating of solar cell is arranged, ventilation fan 201 just can move a period of time with certain interval.

That is, in fact, the operation of ventilation fan only utilizes solar cell to carry out, and does not need to purchase to system.

The electrical equipment corresponding with such adapter in addition,, is not limited to ventilation fan, so long as can use as electrical equipment.

Figure 18 is the flow chart of the main operation of this adapter 200 of expression and system joint network generater 2.In this flow chart, in step S50, ask the aggregate-value P of the energy output of accumulative total solar cell.Then, judge in step S51 whether ventilation fan 201 moves, whether this judgement detects to ventilation fan 201 inflow currents (whether flowing through the electric current greater than setting) according to adapter 200 is judged.When ventilation fan 201 does not turn round, just turn back to step S50, carry out the accumulative total of generation power.

When ventilation fan 201 runnings, enter step S52, according to the current sinking of the ventilation fan 201 that sends from adapter 200, ask for the current sinking of ventilation fan 201, from aggregate-value P, deduct this power consumption.

Then, in step S53, carry out the judgement of aggregate-value P " P＞0 ", enter into step S54 when " P＞0 ", do not make the auxiliary relay action, contact pin 203 former state closures commonly used just can make ventilation fan 201 runnings.When not satisfying " P＞0 ", just enter into step S55, make the auxiliary relay action, normally closed contact pin 203 is opened, and stops the running of ventilation fan 201.

After this, turn back to step S50, repeat the accumulative total of generation power.

As above, relevant a first aspect of the present invention, tired according to by the electric power of solar cell power generation The power consumption of meter value and electrical equipment makes the demand function of electrical equipment effective, can suppress electrical equipment from the consumption of system Electricity.

In addition, relevant a second aspect of the present invention is divided into multistage carrying with the minimizing of accumulative total value consistently Go out demand, by the operation of demand function, can suppress the intensity of variation of electrical equipment ability.

In addition, relevant a third aspect of the present invention is by arranging when the demand function operates effectively The minimum operation ability of electrical equipment has been guaranteed the minimum ability operation of electrical equipment. By making the accumulative total value be Negative, the power consumption when storing this minimum ability operation is advanced when producing residue electric power from solar cell The row compensation can make the year power consumption of electrical equipment less than the generation power of solar cell.

In addition, relevant a fourth aspect of the present invention, tired according to by the electric power of solar cell power generation The power consumption of meter value and electrical equipment makes the demand function of electrical equipment effective, can suppress electrical equipment from the consumption of system Electricity.

In addition, relevant a fifth aspect of the present invention, tired according to by the electric power of solar cell power generation Whether the meter value surpasses 0 operation of controlling electrical equipment, therefore, even do not comprise the electricity of demand function Device has also obtained actual demand effect by repeatedly operating of on/off.

In addition, relevant a sixth aspect of the present invention makes electrical equipment automatically move with the interval of regulation The time, also can make the year power consumption of electrical equipment less than the generation power of solar cell.

Claims (6)

1. one kind has the power conversion unit that solar energy converting is become alternating current, thereby and can be to the system joint network generater of system's sale of electricity with the alternating current and the industrial AC power supply system networking of above-mentioned conversion, it is characterized in that, comprise memory cell, correcting unit and requirement unit, memory cell is used to store by the aggregate-value of described power conversion unit from the alternating current of solar energy converting, correcting unit is used for deducting the power consumption value that receives the specific electrical equipment of power supply from described system from the aggregate-value that is stored in said memory cells, the aggregate-value of requirement unit in being stored in said memory cells just makes the appellative function of above-mentioned electrical equipment effective during less than setting.

2. one kind has the power conversion unit that solar energy converting is become alternating current, thereby and can be to the system joint network generater of system's sale of electricity with the alternating current and the industrial AC power supply system networking of above-mentioned conversion, it is characterized in that, comprise memory cell, correcting unit and requirement unit, memory cell is used to store by the aggregate-value of described power conversion unit from the alternating current of solar energy converting, correcting unit is used for deducting the power consumption value that receives the specific electrical equipment of power supply from described system from the aggregate-value that is stored in said memory cells, the aggregate-value of requirement unit in being stored in said memory cells just sends desired signal to above-mentioned electrical equipment during less than setting.

3. one kind has the power conversion unit that solar energy converting is become alternating current, thereby and can be to the system joint network generater of system's sale of electricity with the alternating current and the industrial AC power supply system networking of above-mentioned conversion, it is characterized in that, comprise memory cell, correcting unit and requirement unit, memory cell is used to store by the aggregate-value of described power conversion unit from the alternating current of solar energy converting, correcting unit is used for deducting the power consumption value that receives the specific electrical equipment of power supply from described system from the aggregate-value that is stored in said memory cells, the aggregate-value of requirement unit in being stored in said memory cells be during less than the setting of a plurality of settings, just in greater than the scope of the running ability that presets to the signal that above-mentioned air conditioner is sent make it to reduce successively running ability.

4. one kind has the power conversion unit that solar energy converting is become alternating current, and with the alternating current of above-mentioned conversion and the system joint network generater of industrial AC power supply system networking, it is characterized in that, comprise memory cell, correcting unit and requirement unit, memory cell is used to store by the aggregate-value of described power conversion unit from the alternating current of solar energy converting, correcting unit is used for deducting the power consumption value that receives the specific electrical equipment of power supply from described system from the aggregate-value that is stored in said memory cells, the aggregate-value of requirement unit in being stored in said memory cells just makes the appellative function of above-mentioned electrical equipment effective during less than setting.

5. one kind has the power conversion unit that solar energy converting is become alternating current, and with the alternating current of above-mentioned conversion and the system joint network generater of industrial AC power supply system networking, it is characterized in that, comprise memory cell, correcting unit and control unit, memory cell is used to be stored in the electric power aggregate-value to alternating current system sale of electricity of above-mentioned power conversion unit by solar energy converting, correcting unit deducts the power consumption value that receives the specific electrical equipment of power supply from said system from the aggregate-value that is stored in said memory cells, the aggregate-value of storing in said memory cells was greater than 0 o'clock, and control unit just can make above-mentioned electrical equipment running.

6. the described system joint network generater of claim 5 is characterized in that, if every the above-mentioned aggregate-value of cycle of regulation greater than 0, just begin the to turn round operation of beginning of above-mentioned electrical equipment.

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