CN203813450U - Electric power switching control system of household new energy - Google Patents

Abstract

The utility model provides an electric power switching control system of a household new energy. The system comprises an electric generating device, a generating end changeover switch in connection with the electric generating device, an energy storage end changeover switch in connection with the generating end changeover switch, an energy storage device in connection with the energy storage end changeover switch, a core load end changeover switch in connection with the energy storage device, a core load in connection with the core load end changeover switch, and a switching controller in connection with the energy storage end changeover switch, the generating end changeover switch and the core load end changeover switch. The switching controller is provided with a control information interface. The system aims to carry out electric switching control according to externally input control information.

Description

A kind of electric power handover control system of family expenses new forms of energy

Technical field

The utility model relates to electric power control field, particularly relates to a kind of electric power handover control system of family expenses new forms of energy.

Background technology

Along with the maturation gradually of the novel renewable energy technology such as photovoltaic, wind power generation, new forms of energy also start progressively to come into common huge numbers of families.With traditional supply of electric power, compare, it is clean, pollution-free that new energy has, the advantage that economic benefit is high.When utilizing generation of electricity by new energy, also need the use of institute's electricity to control.

In residents grid-connected power generation system, mainly electric power is taked to following control mode at present: generation of electricity by new energy is connected with electrical network, when the load of the enough families of generation of electricity by new energy is used, preferentially use new forms of energy electric power, remaining electricity online; When the load of new forms of energy power shortage is used, from electrical network power taking, use.Generation of electricity by new energy amount is subject to such environmental effects, there is obvious kurtosis in the energy output in a period of time, for example, the electric power of photovoltaic cell was exported from early morning, maximum to noon, at dusk, be down to zero, generation of electricity by new energy and household appliances electricity consumption be balance just, and sometimes residue appears in new forms of energy electric weight, and remaining electricity can be uploaded to electrical network, sometimes energy output is inadequate, again need to be from electrical network power purchase.In this electric power control mode, the procurement price of remaining electricity online is lower than from electricity rates, if therefore do not have energy storage device that remaining electricity is stored in control system, when inadequate in order to energy output, use, or control not meticulous to thermal energy storage process, the uneconomical of user power utilization can be caused, user's requirement cannot be met.Therefore be necessary to propose a kind of electric power and control switched system, the control signal that can send at any time according to user is carried out electric power control, meets user's electricity consumption requirement.

Utility model content

The purpose of this utility model is the electric power handover control system that a kind of family expenses new forms of energy will be provided, and can carry out electric power switching controls according to the control information of outside input.

To achieve these goals, the utility model provides a kind of electric power handover control system of family expenses new forms of energy, comprising:

Blast Furnace Top Gas Recovery Turbine Unit (TRT);

Generating end diverter switch, connects described Blast Furnace Top Gas Recovery Turbine Unit (TRT);

Energy storage end diverter switch, connects described generating end diverter switch;

Energy storage device, connects described energy storage end diverter switch;

Core load end diverter switch, connects described energy storage end diverter switch;

Core load, connects described core load end diverter switch;

Switch controller, connects described energy storage end diverter switch, described generating end diverter switch and described core load end diverter switch;

Described switch controller has control information interface.

Preferably, in above-mentioned electric power handover control system, described energy storage end diverter switch also connects electrical network.

Preferably, in above-mentioned electric power handover control system, described energy storage end diverter switch also connects non-core load end diverter switch, and described non-core load end diverter switch connects non-core load.

Preferably, in above-mentioned electric power handover control system, described electrical network is connected with described non-core load end diverter switch with described core load end diverter switch.

Preferably, in above-mentioned electric power handover control system, described switch controller also connects human-computer interaction device and non-core load end diverter switch.

Preferably, in above-mentioned electric power handover control system, described human-computer interaction device link information collector, described information acquisition device has network communication interface, and described information acquisition device is also connected with described Blast Furnace Top Gas Recovery Turbine Unit (TRT), described energy storage device, described core load and described non-core load.

Preferably, in above-mentioned electric power handover control system, described energy storage device is batteries.

Preferably, in above-mentioned electric power handover control system, described human-computer interaction device is display screen and keyboard or touch screen displays; Described Blast Furnace Top Gas Recovery Turbine Unit (TRT) is solar battery array or wind-driven generator.

Preferably, in above-mentioned electric power handover control system, described network communication interface is connected with mobile terminal, and described mobile terminal is computer or mobile phone.

Preferably, in above-mentioned electric power handover control system, described switch controller has clock trigger; Described energy storage end diverter switch, described generating end diverter switch and described core load end diverter switch all have electromagnetism operating valve.

At least there is following technique effect in the utility model:

1) in the utility model, control information interface is set on switch controller, by control information interface, receive user's control information, switch controller is controlled the operating state of energy storage end diverter switch according to control information, reach storage new forms of energy electric power or utilize the object of new forms of energy electric power to load supplying, thereby realize the switching controls of user to new forms of energy electric power, make the more intelligent hommization of use of new forms of energy electric power, avoided the waste of new forms of energy electric power, for user has realized more excellent economic benefit.

2) in the utility model, can be to switch controller input control information by human-computer interaction device user, obtain the implementation status of energy storage end diverter switch simultaneously, facilitate the working condition of user monitoring system, user can also carry out communication by mobile phone or computer and switch controller, facilitates user to carry out telemanagement to control system.

3) in the utility model, load is divided into two kinds of core load and non-core loads, when energy output has in limited time, the preferential core load supplying of giving, in core load electricity consumption, also energy saver mode can be set, when using energy saver mode, can disconnect where necessary non-core load to save electric energy.

4) in the utility model; by the break-make of core load end diverter switch and the electricity consumption of non-core load diverter switch control load is set; play the effect of saving electric energy; by generating end diverter switch is set; under extreme weather, Blast Furnace Top Gas Recovery Turbine Unit (TRT) and system are disconnected to electrical connection, play the effect that protection system is not destroyed because of weather conditions.

Accompanying drawing explanation

Hereinafter in exemplary and nonrestrictive mode, describe specific embodiments more of the present utility model in detail with reference to the accompanying drawings.In accompanying drawing, identical Reference numeral has indicated same or similar parts or part.It should be appreciated by those skilled in the art that these accompanying drawings may not draw in proportion.In accompanying drawing:

Fig. 1 is the electric power handover control system schematic diagram that the utility model provides;

Fig. 2 is the first electric power handover control system embodiment schematic diagram that the utility model provides;

Fig. 3 is the second electric power handover control system embodiment schematic diagram that the utility model provides.

Embodiment

For making the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing, specific embodiment is described in detail.

Fig. 1 is the electric power handover control system schematic diagram that the utility model provides.As shown in Figure 1, the utility model embodiment provides a kind of electric power handover control system of family expenses new forms of energy, comprising:

Blast Furnace Top Gas Recovery Turbine Unit (TRT);

Generating end diverter switch, connects described Blast Furnace Top Gas Recovery Turbine Unit (TRT);

Energy storage end diverter switch, connects described generating end diverter switch;

Energy storage device, connects described energy storage end diverter switch;

Core load end diverter switch, connects described energy storage end diverter switch;

Core load, connects described core load end diverter switch;

Switch controller, connects described energy storage end diverter switch, described generating end diverter switch and described core load end diverter switch;

Described switch controller has control information interface.

Visible, in the utility model embodiment, control information interface is set on switch controller, by control information interface, receive user's control information, switch controller is controlled the operating state of energy storage end diverter switch according to control information, reach storage new forms of energy electric power or utilize the object of new forms of energy electric power to load supplying, thereby realize the switching controls of user to new forms of energy electric power, make the more intelligent hommization of use of new forms of energy electric power, avoided the waste of new forms of energy electric power, for user has realized more excellent economic benefit.

As shown in Figure 1, solid line represents the electric power transfer relation in electric power handover control system, and dotted line represents the data communication relation in electric power handover control system.In the utility model embodiment, electric power transfer process is: Blast Furnace Top Gas Recovery Turbine Unit (TRT) becomes electric energy by clean energy resourcies such as wind and solar energies, through generating end diverter switch, be transferred to energy storage end diverter switch, energy storage end diverter switch again by core load end diverter switch by delivery of electrical energy to core load, reach and utilize new forms of energy electric power for the object of core load supplying.Core load is single or one group of load that user selectes, be must continued power in daily life electrical equipment, as refrigerator etc., electric energy is preferentially given core load supplying.When energy output is greater than power consumption, energy storage end diverter switch can also, by unnecessary delivery of electrical energy to energy storage device, reach the object of storage new forms of energy electric power; Energy storage end diverter switch and energy storage device are transmitted in both directions, when energy output is less than power consumption, can also from energy storage device, obtain electric energy and then for core load supplying.

In the utility model embodiment, process of data communication is: switch controller utilizes control information interface to receive user's control information, switch controller is also held diverter switch with generating simultaneously, energy storage end diverter switch and core load end diverter switch are carried out data communication, control the operating state of each diverter switch according to user's control information.When energy output is greater than power consumption, when user wishes to store unnecessary new forms of energy electric power, switch controller control energy storage end diverter switch communicates with the energy storage path of energy storage device, makes new forms of energy electric power when flowing to core load, also flow to energy storage device; When energy output is less than power consumption, when user wishes energy storage device also for core load supplying, switch controller control energy storage end diverter switch communicates with the discharge path of energy storage device, makes the electric energy in energy storage device flow to core load together with new forms of energy electric power.

In embodiment of the present utility model, user's control information comprises time period and toggle bit.For example: " 10-15,1 ".Wherein, 10-15 represents that at 10 in the morning, sunlight was the most sufficient during this period of time to point in afternoons 3, and generating exceeds power consumption, can store unnecessary electric weight, and toggle bit 1 represents that energy storage end-grain cutting changes switch connection energy storage device, stores unnecessary electric weight.

Switch controller can be realized by pure hardware configuration, and for example, it can comprise clock trigger, after reading current time and being at 10, sends triggering signal.And energy storage end diverter switch has electromagnetism operating valve, receive and produce respective action after triggering signal and connect energy storage device.

Therefore, all hardware of the present utility model can be realized by pure hardware cell and circuit, without any need for application software.

Switch controller can also comprise comparator.Such as user learns tomorrow cloudy day according to weather forecast, can reduce the energy output of Blast Furnace Top Gas Recovery Turbine Unit (TRT), therefore wish that control system can store the unspent dump energy of core load today, so that second day energy output is used when inadequate.At this moment user can send control information to switch controller " 24 ,+, 1; 24-48 ,-, 2 ".Control information comprises the time period, condition and toggle bit." 24 " representative is from now on till 24 of today, and "+" represents that energy output is greater than power consumption, and " 1 " representative is communicated with the energy storage path of energy storage device; " 24-48 " since 24 o'clock to 48 o'clock of today, and in following 24 hours, "-" represents that energy output is less than power consumption, and " 2 " representative is communicated with the discharge path of energy storage device.Switch controller has received after this control information of user by control information interface, start the energy output of comparison Blast Furnace Top Gas Recovery Turbine Unit (TRT) and the power consumption of core load, when energy output is greater than power consumption, comparator presents positive level, trigger energy storage end-grain cutting and change the energy storage path of switch connection energy storage device, remaining electric weight is stored in energy storage device, till this behavior is continued until 24 of today; Since 24 of today, switch controller starts the energy output of comparison Blast Furnace Top Gas Recovery Turbine Unit (TRT) and the power consumption of core load, when energy output is less than power consumption, comparator presents negative level, trigger energy storage end-grain cutting and change the discharge path of switch connection energy storage device, utilizing the electric energy in energy storage device is core load supplying, and this behavior is continued until 24 end of tomorrow.User can also send other forms of information.

Control information can only include condition and toggle bit.Such as user wants the exhaustless electric weight of core load to store, just can send control information "+, 1 ", the meaning is " when energy output is greater than power consumption, connecting the energy storage path of energy storage device ".This control information is not subject to time restriction, and continuously effective is until user inputs new control information.Switch controller has received after this control information of user by control information interface, start the energy output of comparison Blast Furnace Top Gas Recovery Turbine Unit (TRT) and the power consumption of core load, when energy output is greater than power consumption, comparator presents positive level, trigger energy storage end-grain cutting and change the energy storage path of switch connection energy storage device, remaining electric weight is stored in energy storage device, and user has just obtained more electric energy under the prerequisite of the normal work of proof load like this.

Except above two kinds of situations, user can also control the more mode of operation of energy storage end diverter switch, such as, control information " 0; ON ", is comprised of two toggle bits, and the first bit representation is closed all paths that are connected with energy storage device, second represents to open the path being connected with core load simultaneously, and electric power is power supply state always like this.Control information " 1, OFF ", the first bit representation is connected the energy storage path being connected with energy storage device, and second represents to stop to core load supplying simultaneously, and electric power is store status always like this.Control information " 2, ON " represents, when Blast Furnace Top Gas Recovery Turbine Unit (TRT) fault cannot be generated electricity, to connect the discharge path of energy storage device, and utilizing the electric energy in energy storage device is core load supplying.

In the utility model embodiment, the Blast Furnace Top Gas Recovery Turbine Unit (TRT) in control system can be solar battery array or wind-driven generator, and Blast Furnace Top Gas Recovery Turbine Unit (TRT) comprises corresponding electric conversion equipment, and as photovoltaic is connected to charge controller, wind-driven generator has blower fan charge controller etc.Energy storage device can be rechargeable batteries.

Generating end diverter switch is the protective device of electric power handover control system; there is electromagnetism operating valve; can under extreme weather, work, in case of dangerous thunderstorm weather or wind-force automatically disconnect and being electrically connected with system when excessive, thereby play the effect of protection system.Core load end diverter switch also has electromagnetism operating valve, break-make that can control core load supplying.

Fig. 2 is the first electric power handover control system embodiment schematic diagram that the utility model provides.As shown in Figure 2, in the utility model embodiment, energy storage end diverter switch is also connected with external electrical network, energy storage end diverter switch also connects non-core load end diverter switch, non-core load end diverter switch connects non-core load, and non-core load is selected for user, other single or one group of load that importance is lower, core load can be the electrical equipment that user uses once in a while, such as microwave oven or roaster etc.Electrical network, except same energy storage end diverter switch is connected, is also connected with non-core load end diverter switch with core load end diverter switch.Switch controller also connects human-computer interaction device and non-core load end diverter switch, human-computer interaction device link information collector, information acquisition device has network communication interface, and information acquisition device is also connected with Blast Furnace Top Gas Recovery Turbine Unit (TRT), energy storage device, core load and non-core load.

In the utility model embodiment, user can pass through human-computer interaction device input control information, switch controller utilizes human-computer interaction device to receive user's control information, and in human-computer interaction device, exports the implementation status of energy storage end diverter switch, is convenient to the working condition of user monitoring system.Human-computer interaction device can be display screen and keyboard or touch screen displays.

The utility model embodiment is also provided with information acquisition device, be connected with Blast Furnace Top Gas Recovery Turbine Unit (TRT), energy storage device, core load and non-core load, can obtain in family and generate electricity, the situation of accumulate and load power consumption, and these information are arranged, by human-computer interaction device, present to user.

Information acquisition device also has network communication interface, can with mobile terminal, as mobile phone or computer are connected.When user stays out, can also carry out communication by mobile terminal and switch controller, send control information, facilitate user's managing power control system whenever and wherever possible, when running into emergency case and can not go home, also can the electric power in family be managed.

In the utility model embodiment, user can select the exhaustless dump energy of load to be stored in energy storage device, can also select to be uploaded in electrical network.User utilize human-computer interaction device or mobile terminal input control information "+; SELL ", within the ensuing time, when Blast Furnace Top Gas Recovery Turbine Unit (TRT) electricity can be greater than the electric weight needing by electric loading, energy storage end diverter switch will be uploaded to remaining electric weight in electrical network automatically, for user obtains more economic benefit.Electrical network front end comprises corresponding parallel network reverse equipment.

In the utility model embodiment, load is divided into two kinds of core load and non-core loads, the electrical equipment that the needs such as refrigerator do not stop power supply for 24 hours is core load, the temporary electricity electrical equipment such as microwave oven, roaster be non-core load.User can be according to oneself need to select core load and non-core load.Non-core load and core load front end all have contravariant equipment.When energy output has in limited time, preferentially give core load supplying, in core load electricity consumption, also energy saver mode can be set, when using energy saver mode, can disconnect where necessary non-core load to save electric energy.

Before core load and non-core load, be provided with core load end diverter switch and non-core load diverter switch.Core load diverter switch and non-core load end diverter switch can control load the break-make of power supply, simultaneously when energy output has in limited time, can by non-core load end diverter switch, disconnect non-core load to save electric energy where necessary, can also select load supplying to derive from electrical network or energy storage end diverter switch by core load diverter switch and non-core load diverter switch.

Fig. 3 is the second electric power handover control system embodiment schematic diagram that the utility model provides.As shown in Figure 3, in the utility model embodiment, can also obtain more intelligent control system by the mode of software and hardware combining.

As shown in Figure 3, in the utility model embodiment, control system comprises following module:

Generation of electricity by new energy module, is converted into electric energy by clean energy resourcies such as solar energy, wind energies, and generating data are reported and submitted to central control module;

Intelligent predicting module, the data that data of weather forecast that can be based on meteorological department issue and the environment monitor in system gather, dope the generation of electricity by new energy amount of following a couple of days according to prediction algorithm;

Intelligence energy-storage module, comprise electric energy storing system and new forms of energy charge-discharge control system, new forms of energy institute electricity can be controlled and is stored in electric energy storing system by new forms of energy charge-discharge control system, and new forms of energy charge-discharge control system is accepted the order of central control module;

Central control module, " brain " of native system, its core is a microcomputer and attached communication device, the built-in computer program writing and control algolithm in this module, can collect, the resulting information of each transducer for the treatment of system, and the intelligent controlling device of whole system is sent to control command;

Load monitoring module, can pass through the equipment such as smart jack, Infrared remote controller able to programme, collects and report and submit the electricity consumption condition information of each electrical appliance, receives the control command that central control module is sent simultaneously, realizes the Based Intelligent Control to load;

Human-computer interaction module, by equipment combinations such as touch-screen, control panels, shows the information such as generating electricity consumption situation, electricity consumption plan of family intuitively to user, meanwhile, provide user to control and operation interface;

Network communication module, the microcomputer of central control module, by router connecting Internet, provides network communication interface, when user is stayed out, also can check household electricity information and send control command with mobile phone, panel computer etc.

As shown in Figure 3, wherein dotted line represents two-way data communication to relation between modules, thick arrow represent flow of power to.

Embodiment of the present utility model is by following works: (1) intelligent predicting module provides the generation of electricity by new energy amount prediction of several days from now on; (2) central control module, according to the generation of electricity by new energy amount predicted value of historical load power consumption data and intelligent predicting module, is presented to user by the electricity consumption plan target of the optimal economic benefit calculating in human-computer interaction module; (3) user revises and approves to execute electricity consumption plan target on human-computer interaction module; (4) central control module is carried out discharging and recharging of energy-storage system and load control according to final definite electricity consumption plan target.Wherein the control that discharges and recharges of energy-storage system is carried out by intelligent energy-storage module, and load is controlled and carried out by load monitoring module; (5) user outside electricity consumption plan directly or operate after electrical appliance by human-computer interaction module, the real time data that central control module can arrive by analyzing load monitoring module monitors, dynamically adjust energy storage and control, optimum to guarantee system economical operation benefit.

In the utility model embodiment, generation of electricity by new energy module comprises the renewable energy power generation devices such as solar battery array, wind-driven generator, and relevant attached electric equipment and monitoring, communication apparatus, the generating information such as generation of electricity by new energy module can also output current, voltage, power, gross generation.

Central control module is comprised of software and hardware two parts.Software section includes the software of implementation data collection, analysis, inquiry and Based Intelligent Control.Hardware device can be the miniature industrial control computer that possesses communication function, can be also the PC with a plurality of PORT COM.Central control module itself can be used as database server storage data, and as the command request of server process computer, mobile phone or panel computer, also data can be sent on other local servers, by other server stores data, and process the command request of computer, mobile phone or panel computer.Intrasystem each monitoring, control appliance can pass through communication modes and the central control module both-way communications such as serial communication, radio communication or infrared communication.

Intelligent predicting module is comprised of environment monitor (hardware) and intelligent predicting program (operating in the software on central control module).

Load monitoring module can gather the electricity consumption data of load, comprises the electric parameters such as load power consumption, electric power, electric current, voltage, active power, reactive power, power factor.Load monitoring module can be carried out by the switching between disconnection, closure or the different circuit of control circuit the switch of control load, or by equipment such as Infrared remote controller able to programme, some load is implemented to more complicated operation.

User can understand home energy source condition information by being arranged on the application client on computer, mobile phone or flat board, and sets electricity consumption plan, control model, sends control command.The application client moving on computer is supported Window operating system, and the application client on mobile phone or panel computer is supported IOS, Android and Windows Phone operating system.User can pass through browser access family power control center website, understands home energy source condition information, and sets electricity consumption plan, control model, sends control command.Family's power control center website can be placed on central control module, also can be placed on other server.

In the utility model embodiment, central control module can gather data message the storage of modules.The intelligent control software of moving on central control module is regularly sent the order of data query by wireless telecommunications to each electric equipment, after electric equipment receives orders, relevant electric power electric appliance data temporary in own internal memory is read to rear packing and by wireless telecommunications, send it back central control module again.Intelligent control software on central control module, by after data preparation, is kept in the database or the database on other servers on central control module.The data of central data module collection comprise: the real-time generating data of generation of electricity by new energy module, institute's storing electricity data of electric energy storing system, load electricity consumption data that load monitoring module records etc., Intelligent charging/discharging system are monitored Ge road electric current, voltage and power quality data etc.

Central control module can also calculate intelligent power plan according to the information gathering.After information gathering completes, the intelligent control software on central control module can be carried out intellectual analysis to the electric power reserves of the power generation features of generation of electricity by new energy equipment, energy-storage system, user's consumption habit etc. according to the data that gather.On the other hand, intelligent control software also can gather the Local Weather Report data of the issue of meteorological department on the Internet, the basic data of prediction using it as generation of electricity by new energy amount, and calculate accordingly the energy output data of new forms of energy in following a couple of days.In addition, the step price of electrical network or Spot Price factor also can be taken into account, and intelligent control software can be according to comprehensive electricity consumption suggested design of above-mentioned information setting, to user's economic interests are maximized.If user agrees to the power program that executive system is recommended, system can send fill order to each electric equipment by program.Detailed process is as follows: the intelligent control software of central control module is regularly sent the order of device action by wireless telecommunications to each electric equipment, each electric equipment is received after instruction by wireless telecommunications, carry out the described action of instruction, thereby completed the Based Intelligent Control of equipment.

In the utility model embodiment, client application on long-range computer, mobile phone or panel computer can pass through the Internet, data in database on request access central control module or other servers, this can realize by the network communication interface operating on central control module or other servers.Network communication interface is received after access request, and then the corresponding data in Query Database will send to the client application on long-range computer, mobile phone or panel computer after data packing.Client application is illustrated on screen with form intuitively after the packet received is resolved, and completes the telemonitoring of Liao Dui family electric power system.

Simultaneously, client application on long-range computer, mobile phone or panel computer also can pass through the Internet, request is implemented to control to the equipment in system, load, and this can realize by the network communication interface operating on central control module or other servers equally.First, user sends the control command to certain equipment or load by client application, client application can be issued the network communication interface on central control module or other servers by the Internet by this instruction, network communication interface is received after the request of control, call communication module and send control command to each electric equipment, each electric equipment can be carried out corresponding action after receiving control command, and feedback is sent back to central control module.Network communication interface can be pushed to feedback on the client application on computer, mobile phone or panel computer by the Internet subsequently, thereby completes Long-distance Control.

Therefore, the beneficial effect of the utility model embodiment: 1) control logic and algorithm with the economic interests that improve user for setting out, by the method for the energy storage of integrated use electric power and control load operation, reach the object of the maximum revenue of family expenses New-energy power system; 2) important foundation using the predicted value of generation of electricity by new energy as intelligent control algorithm, can access more optimal electricity consumption plan; 3) the detailed operation information of grid-connected power generation system and load is all collected in database, and as the data basis of intelligent management program, the control algolithm of exploitation is more efficient and accurate on this basis; 4) support by telemonitoring and the control of the Internet, and can operate by mobile devices such as mobile phone or panel computers, very convenient quick.

As from the foregoing, embodiment of the present utility model at least has following effect:

1) in the utility model, control information interface is set on switch controller, by control information interface, receive user's control information, switch controller is controlled the operating state of energy storage end diverter switch according to control information, reach storage new forms of energy electric power or utilize the object of new forms of energy electric power to load supplying, thereby realize the switching controls of user to new forms of energy electric power, make the more intelligent hommization of use of new forms of energy electric power, avoided the waste of new forms of energy electric power, for user has realized more excellent economic benefit.

2) in the utility model, can be to switch controller input control information by human-computer interaction device user, obtain the implementation status of energy storage end diverter switch simultaneously, facilitate the working condition of user monitoring system, user can also carry out communication by mobile phone or computer and switch controller, facilitates user to carry out telemanagement to control system.

3) in the utility model, load is divided into two kinds of core load and non-core loads, when energy output has in limited time, the preferential core load supplying of giving, in core load electricity consumption, also energy saver mode can be set, when using energy saver mode, can disconnect where necessary non-core load to save electric energy.

4) in the utility model; by the break-make of core load end diverter switch and the electricity consumption of non-core load diverter switch control load is set; play the effect of saving electric energy; by generating end diverter switch is set; under extreme weather, Blast Furnace Top Gas Recovery Turbine Unit (TRT) and system are disconnected to electrical connection, play the effect that protection system is not destroyed because of weather conditions.

So far, those skilled in the art will recognize that, although detailed, illustrate and described a plurality of exemplary embodiment of the present utility model herein, but, in the situation that not departing from the utility model spirit and scope, still can directly determine or derive many other modification or the modification that meets the utility model principle according to the disclosed content of the utility model.Therefore, scope of the present utility model should be understood and regard as and cover all these other modification or modifications.

Claims (10)

1. an electric power handover control system for family expenses new forms of energy, is characterized in that, comprising:

Blast Furnace Top Gas Recovery Turbine Unit (TRT);

Generating end diverter switch, connects described Blast Furnace Top Gas Recovery Turbine Unit (TRT);

Energy storage end diverter switch, connects described generating end diverter switch;

Energy storage device, connects described energy storage end diverter switch;

Core load end diverter switch, connects described energy storage end diverter switch;

Core load, connects described core load end diverter switch;

Switch controller, connects described energy storage end diverter switch, described generating end diverter switch and described core load end diverter switch;

Described switch controller has control information interface.

2. electric power handover control system according to claim 1, is characterized in that, described energy storage end diverter switch also connects electrical network.

3. electric power handover control system according to claim 1, is characterized in that, described energy storage end diverter switch also connects non-core load end diverter switch, and described non-core load end diverter switch connects non-core load.

4. electric power handover control system according to claim 1, is characterized in that, described electrical network is connected with described non-core load end diverter switch with described core load end diverter switch.

5. electric power handover control system according to claim 1, is characterized in that, described switch controller also connects human-computer interaction device and non-core load end diverter switch.

6. electric power handover control system according to claim 1, it is characterized in that, described human-computer interaction device link information collector, described information acquisition device has network communication interface, and described information acquisition device is also connected with described Blast Furnace Top Gas Recovery Turbine Unit (TRT), described energy storage device, described core load and described non-core load.

7. according to the electric power handover control system described in any one in claim 1-6, it is characterized in that, described energy storage device is batteries.

8. electric power handover control system according to claim 7, is characterized in that, described human-computer interaction device is display screen and keyboard or touch screen displays; Described Blast Furnace Top Gas Recovery Turbine Unit (TRT) is solar battery array or wind-driven generator.

9. electric power handover control system according to claim 8, is characterized in that, described network communication interface is connected with mobile terminal, and described mobile terminal is computer or mobile phone.

10. electric power handover control system according to claim 1, is characterized in that, described switch controller has clock trigger;

Described energy storage end diverter switch, described generating end diverter switch and described core load end diverter switch all have electromagnetism operating valve.