CN100391082C - Integration of wireless identification and distributed power supply management system and method - Google Patents

Abstract

The disclosed management system for wireless recognition and distributed power comprises: a power generation device, which includes an accumulator module with the first wireless recognition label and a power management module with both a wireless read-write device and a second wireless recognition label; and a central control center to receive management information from last device for real-time monitor. This invention is benefit to service period management of power device and save cost.

Description

Integration of wireless identification and distributed power supply management system and method

Technical field

The present invention relates to a kind of power-supply management system and method, relate in particular to and a kind ofly utilize the wireless technology of establishing frequently to carry out the life cycle management of information gathering with the spare part of being correlated with for each Blast Furnace Top Gas Recovery Turbine Unit (TRT); And when taking place, emergency situations makes judgement and a kind of integration of wireless identification of power supply order control and the management system and the method for distributed power source of emergency procedure to accumulating the battery that electric power is arranged.

Background technology

Because the progress of changes of environment and science and technology, modern's daily life is inseparable already with the use of electric energy, grass-roots electric energy uses and mostly relies on commercial power supply, but remote districts or Li Island, often can't arrival because of civil power or power supply instability causes life inconvenience.In addition, in the area that civil power can arrive, when meeting with natural disaster or artificial irresistible disaster, often interrupt or emergency power supply can't normally activate, produce problems such as disaster relief difficulty and communication inconvenience because of civil power.

And in the prior art, as the U.S.'s disclosed technology of publication US2003/0236593 is in the specific region, as inside, building, be provided with Blast Furnace Top Gas Recovery Turbine Unit (TRT) and heat source generator, utilize a Region control unit (dispatch controller) that the generating and the heat source generator in each place are controlled (for example regulating intensity, switch etc.) and maintenance management.Yet among this system, only there is generation to manage control, but there is no open for the setting and the management of stand-by power supply or reserve battery for electric power.In addition, when taking place for emergency, also do not have the mechanism of suitable power supply order or power supply dispatching, when therefore taking place if any situation, system also can't do optimized adjustment to distributing electric power.

And for example the disclosed technology of the disclosed WO2004/047215 of EUROPEAN PATENT OFFICE is the technology to battery condition management, and it is to monitor and the life cycle of battery is carried out tracking and managing for the electricity accumulating unit state of storage battery by transducer by the mode of wireless network.Yet this technology only is confined to the monitoring management of battery status, but the electric power that battery is accumulated is when emergency situations takes place, and can't do effective emergency procedure and judge with power supply order and control the electric power that uses storage battery to accumulate.

In addition, administrative skill in the existing distributed power-supply system, mostly be the behavior adjustment management pattern, when emergency takes place, reaction present situation that not only can't be continuous and real-time, when the distributed power supply system distributed quantity is crossed wide or quantity when excessive, a large amount of information by artificial management with communicate by letter, not only inefficent, more Chang Yin prime time of missing emergency response causes and can't remedy injury.In addition, if power-supply system belongs to the important element that needs regularly to replenish generating, the required important element of supply that can't be effective and real-time more is as the supply of the important elements such as hydrogen, water, liquefied petroleum gas (LPG) and natural gas of fuel cell generation.

Comprehensively above-mentioned, therefore being badly in need of a kind of integration of wireless identification and distributed power supply management system and method solves the problem that prior art causes.

Summary of the invention

Technical problem to be solved by this invention is to provide a kind of integration of wireless identification and distributed power supply management system and method, it is the power-supply system that has the twireless radio-frequency communication technology with middle control centre management, middle control center is when (natural disaster or artificial irresistible disaster) takes place in emergency situations, reception is by the real-time field data (as: illumination of the distributed power supply system of various places, livery, communication, various monitoring ... Deng), with the judgement of the emergency procedure of powering and power supply order control, reach the purpose of the situation of the real-time field data of grasping the power-supply system that is dispersed to various places and load consumption electric power.

Another object of the present invention provides the management system and the method for a kind of integration of wireless identification and distributed power supply system, it is the power-supply system that has the twireless radio-frequency communication technology with middle control centre management, middle control center receives the real-time field data by the distributed power supply system of various places, with important evidence, reach to connect and guarantee the fail safe of distributed power supply system and the purpose of reliability as logistics supply (as: judging important element increment and the supply number of times and the frequency of supply generating), maintenance, maintenance, correction and vitals life cycle management.

Another object of the present invention provides the management system and the method for a kind of integration of wireless identification and distributed power supply system, it is to be provided with wireless-identification device and various detector on the battery components of electricity generation system and power management component, reaches the purpose of real-time detection electricity generation system multidate information (as temperature, pressure, the concentration of system).

Another purpose of the present invention provides the management system and the method for a kind of integration of wireless identification and distributed power supply system, it utilizes radio read-write device on the power management component that a plurality of wireless identification circuit are carried out data read and writes, and then simultaneously or timesharing control a plurality of subordinate cell apparatus, reach the purpose that forms a kind of group type host-guest architecture battery module.

To achieve these goals, the invention provides a kind of integration of wireless identification and distributed power supply management system, comprise: at least one power generating device, this power generating device can be accumulated the electric power that produces at least one battery module, this battery module has one first wireless identification sign, this power generating device can be managed the state of this at least one battery module by the electrical management module with a radio read-write device and one second wireless identification sign; And control center in, it can receive a management information that is transmitted by this at least one power generating device, with the state of real-time this at least one power generating device of monitoring.

Preferably, this integration of wireless identification and distributed power supply management system, it also includes a wireless-communication-capable area, and it has a plurality of wireless network base stations (Wireless Access Point), in order to receive this management information by this at least one power generating device transmitted.This wireless network base stations can be selected with wire transmission or Wireless transmission mode this management information to be passed to control center in this.

Preferably, this at least one power generating device may be selected to be device of solar generating, wind power generation plant, hydroelectric installation, fuel cell, give birth to mass-energy Blast Furnace Top Gas Recovery Turbine Unit (TRT) and aforesaid combination in any one of them.

Information such as preferably, this management information comprises power supply situation, residual electric power, life cycle information, emm message, power consumption information and consumptive material supply.

Preferably, this battery module also has a sensing apparatus, and itself and this first wireless identification sign couples, to provide sensitive information to this wireless identification sign.Wherein this sensing apparatus may be selected to be a pressure sensor, a temperature sensor, a battery liquid level detecting device, a voltage sensor, a concentration sensor and aforementioned each transducer combination one of them.

Preferably, this power generating device also provides electric power at least one electrical installation.This electrical installation may be selected to be power set (as: various motor, pump, valve), lighting device, livery, aircondition, safety gate, communication system, safety monitoring device and aforesaid combination in any one of them.

In order to realize above-mentioned purpose, the invention provides a kind of integration of wireless identification and distributed power supply management method, it is to include the following step: at first, at least one power generating device is provided, this power generating device can be accumulated the electric power that produces at least one battery module, this battery module has one first wireless identification sign, this power generating device can be managed the state of this at least one battery module by the electrical management module with a radio read-write device and one second wireless identification sign.Then, this electrical management module reads the information in the first wireless identification sign in this at least one battery module with this radio read-write device and is stored in this second wireless identification sign.Next, with this at least one power generating device, a management information that is stored in this second wireless identification sign is reported to control center in; At last, the content that this management information is judged at control center in this with select to carry out a hypervisor and an emergency treatment program one of them.

Preferably, wherein this hypervisor also includes the following step: carry out life cycle management control according to this management information for each parts in this at least one power generating device; Whether needs carry out supply to judge at least one generating element of this power generating device according to this management information; And generating and the electric power storage situation of judging this power generating device according to this management information.

Preferably, this emergency treatment program also includes the following step: cut off the unnecessary power consumption circuit of this power generating device according to this management information; And the power supply order of giving at least one electrical installation according to the power supply that this management information is dispatched this power generating device.

Management system system provided by the invention and method except can to zones of different the electric power system system carry out electric power management and control and scheduling, more all right electric power monitoring system system inside form assembly and generating element state and generating, power consumption situation.

Describe the present invention below in conjunction with the drawings and specific embodiments, but not as a limitation of the invention.

Description of drawings

Fig. 1 is the management system preferred embodiment schematic diagram of integration of wireless identification of the present invention and distributed power source.

Fig. 2 is the power generating device preferred embodiment schematic diagram of the management system of integration of wireless identification of the present invention and distributed power source;

Fig. 3 is the power generating device block schematic diagram of the management system of integration of wireless identification of the present invention and distributed power source;

Fig. 4 is the preferred embodiment schematic flow sheet of the management method of integration of wireless identification of the present invention and distributed power source;

Fig. 5 A is the hypervisor block schematic diagram of the management method of integration of wireless identification of the present invention and distributed power source;

Fig. 5 B is the emergency treatment program circuit schematic diagram of the management method of integration of wireless identification of the present invention and distributed power source.

Wherein, Reference numeral:

The 1-management system

Control center among the 2-

The 3-power generating device

The 30-Blast Furnace Top Gas Recovery Turbine Unit (TRT)

The 31-electrical storage device

The 311-power storage module

The 3110-battery unit

The 3111-first wireless identification sign

The 3112-sensing apparatus

312-electrical management module

The 3121-wireless reader

The 3122-second wireless identification sign

The 32-electrical installation

The 4-wireless-communication-capable area

The 41-wireless network base stations

The 5-management method

Step 51 ~ 56-flow process

Step 550 ~ 552-flow process

Step 561 ~ 562-flow process

The 90-cable network

The 91-wireless network

Embodiment

For making your juror further cognitive and understanding be arranged to feature of the present invention, purpose and function, hereinafter the spy describes the relevant thin bilge construction of system of the present invention and the theory reason of design, so that the juror can understand characteristics of the present invention, detailed description is presented below:

As shown in Figure 1, this figure is the management system preferred embodiment schematic diagram of integration of wireless identification of the present invention and distributed power source.In a wireless-communication-capable area 4, be provided with a plurality of radio base stations 41 (WirelessAccess Point), in the communication possible range of each base station 41, have at least one power generating device 3.This at least one power generating device 3 can be device of solar generating, wind power generation plant, hydroelectric installation, fuel cell, give birth to mass-energy Blast Furnace Top Gas Recovery Turbine Unit (TRT) and aforesaid combination in any one of them, but not subject to the limits.This power generating device 3 is to connect each other in the mode that wireless network 91 is communicated by letter with 41 of this radio base stations, in the present embodiment, though the mode that this radio base station 41 and this power generating device 3 are communicated by letter for wireless network 91 also can be selected the mode of wired network communication.This radio base station 41 is to communicate with control center 2 in the mode (as ADSL) and of cable network 90 communications, in the present embodiment, though communicating by letter between this radio base station 41 and the middle control center 2 is the mode of cable network 90 communications, also can optionally select wireless mode.

As shown in Figure 2, this figure is the power generating device preferred embodiment schematic diagram of the management system of integration of wireless identification of the present invention and distributed power source.This power generating device 3 also includes a Blast Furnace Top Gas Recovery Turbine Unit (TRT) 30 and an electrical storage device 31.In the present embodiment, though this Blast Furnace Top Gas Recovery Turbine Unit (TRT) 30 is a wind power generation mode, but the also character in visual area, and be waterpower, solar energy or fuel cell, give birth to modes such as mass-energy generating.This electrical storage device 31 is formed by at least one battery module 311 (present embodiment is nine) tandem compound, to accumulate the electric power that is produced by this Blast Furnace Top Gas Recovery Turbine Unit (TRT) 30, can be used as general power supply and uses with the urgent non-firm power that happens suddenly.

This battery module 311 is by a battery unit 3110, a sensing apparatus 3112 and one first wireless identification sign 3111.This battery unit 3110 can be accumulated the electric power that is produced by this Blast Furnace Top Gas Recovery Turbine Unit (TRT) 30.But the state of this this battery unit 3110 of sensing apparatus 3112 sensings is as temperature, pressure, voltage or battery liquid status etc.This sensing apparatus 3112 can be chosen as a pressure sensor, a temperature sensor, a battery liquid level detecting device, a voltage sensor, a concentration sensor and aforementioned each transducer combination one of them.The importing of this first wireless identification sign 3111 by electromagnetic wave design and material technology reduces interference such as metal and moisture and is encapsulated on this battery unit.

This first wireless identification sign 3111 has the unique identifier of representing each battery unit 3110 and can store the information of 3112 sensings of this sensing apparatus of record.This electrical storage device 31 also includes an electrical management module 312, is packaged with one second a wireless identification sign 3122 and a radio read-write device 3121 on it.This second wireless identification sign 3122 and radio read-write device 3121 reduce interference such as metal and moisture by the importing of electromagnetic wave design and material technology.This wireless reader 3121 can be carried out data read to a plurality of first wireless identification signs 3111 on this electrical storage device 31 and be write, and with in the second wireless identification sign 3122 of data storing on this electrical management module 312 that reads, and then simultaneously or timesharing control a plurality of subordinate cell apparatus so can form a kind of type principal and subordinate of group battery modular structure, the technology of the type principal and subordinate of this group battery modular structure, be exposed in Chinese patent application number 200510105592.4 a cases, seldom do at this and give unnecessary details.

As shown in Figure 3, this figure is the power generating device block schematic diagram of the management system of integration of wireless identification of the present invention and distributed power source.This electrical storage device 31 uses in order to make emergency power supply, therefore also is connected with at least one electrical installation 32, in the present embodiment, enumerate seven kinds and implement aspect, but actual need being decided by situation is not limited to the scope that present embodiment is lifted.This electrical installation can be that power set (as: various motor, pump, valve), lighting device, livery indicate (such as the escape direction livery, unusually take place livery etc.), aircondition, safety gate, communication system or safety monitoring device.

As shown in Figure 4, this figure is the preferred embodiment schematic flow sheet of the management method of integration of wireless identification of the present invention and distributed power source.Utilize aforesaid device, the present invention also provides a kind of management method, and it includes the following step: shown in step 50, provide system as shown in Figure 2, that is, provide at least one power generating device, this power generating device can be accumulated electric power in battery module.Next carry out step 51, this electrical management module reads the information in the first wireless identification sign in this battery module with this radio read-write device and is stored in this second wireless identification sign to form a management information.Carry out this power generating device of step 52 then with stored management information, be reported to control center in this.Afterwards, carry out this step 53, analyzing and processing is carried out to received management information in control center in this, with the state of each power generating device of monitoring of dynamic real-time.

Shown in step 54, judged whether that emergency situations produces.When not having emergency situations, situation in order to ensure electrical storage device, make it be in complete stand-by state, therefore should can carry out step 55 in middle control center, the identification of dynamic data when carrying out for this power generating device, maintenance is proofreaied and correct, system management, data such as review at hypervisor, as step 550, because the information that each battery module is repaid, the situation of each parts can be understood in the control center in making, such as whether needing to be maintained correction, situations such as whether battery liquid needs to change or whether battery unit has worn out, with as logistics supply, maintenance and vitals life cycle management (as: power supply situation, residual electric power, the production of product, management, reclaim, utilize again, discarded resume) important management and control foundation is guaranteed the reliability of electrical storage device.And for example shown in the step 551, judge whether at least one generating element of this power generating device needs to carry out supply.If the Blast Furnace Top Gas Recovery Turbine Unit (TRT) of this power generating device is a fuel cell, then also can monitor the reserves situation of the important elements such as hydrogen, water, liquefied petroleum gas (LPG) and natural gas of fuel cell generation, with in good time supply.And shown in step 552, generate electricity and the control of powering, can and consume the situation of electric power and whether the system of Blast Furnace Top Gas Recovery Turbine Unit (TRT) runs well and control to the charge capacity of electrical storage device.

Shown in step 54, when emergency situations produced, step 56 can carry out in control center in this, and the emergency treatment program that enters into is to activate the electric power of battery module.For the electric power that will be accumulated in the battery module is done effectively to distribute, in this emergency treatment program, at first carry out step 561, the control center can be according to the situation of this management information repayment in being somebody's turn to do, to cut off the unnecessary power consumption circuit of this power generating device, to increase the consumption duration that electrical storage device is accumulated electric power.Carry out step 562 then, dispatch the power supply order of the power supply of this power generating device at least one electrical installation according to this management information.

For example, this power generating device is arranged in the building, then when emergency takes place, then middle control center can require electrical storage device only to supply the partly power supply of visual plant, for example the needed electric power of the inner correspondence with foreign country in building, emergency lighting or the electric power of livery and the electric power that safety gate is opened etc.To reduce the mood of resident family's uneasiness.And for example, if this power generating device is arranged on the suburb, then when emergency takes place, then in the control center electrical storage device that can control this power generating device only supply the strategic road cresset in this zone or the power supply of illuminating street lamp, to avoid unnecessary power wastage.

Comprehensively above-mentioned, the invention provides management system and method except carrying out electric power management and control and scheduling to the electric power system of zones of different, the inside composition assembly of all right electric power monitoring system and the state of generating element and generating, power consumption situation.

Certainly; the present invention also can have other various embodiments; under the situation that does not deviate from spirit of the present invention and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the present invention, but these corresponding changes and distortion all should belong to the protection range of the appended claim of the present invention.

Claims (18)

1. the management system of integration of wireless identification and distributed power source is characterized in that, comprising:

At least one power generating device, this power generating device is accumulated the electric power that produces at least one battery module, this battery module has one first wireless identification sign, and this power generating device is by the state of this at least one battery module of electrical management module management with a radio read-write device and one second wireless identification sign; And

Control center in one, it receives by the management information that this at least one power generating device transmitted, and distributes the state of this at least one power storage module power supply with this at least one power generating device of real-time monitoring and scheduling.

2. the management system of integration of wireless identification according to claim 1 and distributed power source, it is characterized in that, also include a wireless-communication-capable area, it has a plurality of wireless network base stations, in order to receive this management information by this at least one power generating device transmitted.

3. the management system of integration of wireless according to claim 2 identification and distributed power source is characterized in that, this wireless network base stations selects that one of them is passed to control center in this with this management information with the mode of wire transmission and wireless transmission method.

4. the management system of integration of wireless identification according to claim 1 and distributed power source, it is characterized in that, this at least one power generating device is chosen as device of solar generating, wind power generation plant, hydroelectric installation, fuel cell, give birth to mass-energy Blast Furnace Top Gas Recovery Turbine Unit (TRT) and aforesaid combination in any one of them.

5. the management system of integration of wireless according to claim 1 identification and distributed power source is characterized in that, this management information comprises power supply situation, the information of residual electric power, life cycle information, emm message, power consumption information and consumptive material supply.

6. the management system of integration of wireless identification according to claim 1 and distributed power source is characterized in that this battery module also has a sensing apparatus, and itself and this first wireless identification sign couples, to provide sensitive information to this wireless identification sign.

7. the management system of integration of wireless identification according to claim 6 and distributed power source, it is characterized in that this sensing apparatus is selected from the group that a pressure sensor, a temperature sensor, a battery liquid level detecting device, a voltage sensor and a concentration sensor are formed.

8. the management system of integration of wireless identification according to claim 1 and distributed power source, it is characterized in that, this power generating device also provides electric power at least one electrical installation, this at least one electrical installation be chosen as power set, lighting device, livery, aircondition, safety gate, communication system, safety monitoring device and aforesaid combination in any one of them.

9. the management method of integration of wireless identification and distributed power source is characterized in that, includes the following step:

At least one power generating device is provided, this power generating device is accumulated the electric power that produces at least one battery module, this battery module has one first wireless identification sign, and this power generating device is by the state of this at least one battery module of electrical management module management with a radio read-write device and one second wireless identification sign;

This electrical management module reads the information in the first wireless identification sign in this at least one battery module with this radio read-write device and is stored in this second wireless identification sign;

This at least one power generating device is reported to control center in a management information that is stored in this second wireless identification sign; And

Should in control center content of judging this management information with select to carry out a hypervisor and an emergency treatment program one of them.

10. the management method of integration of wireless identification according to claim 9 and distributed power source is characterized in that this hypervisor also includes the following step:

Carry out life cycle management control according to this management information for each parts in this at least one power generating device;

Whether needs carry out supply to judge at least one generating element of this power generating device according to this management information; And

Judge the generating and the electric power storage situation of this power generating device according to this management information.

11. the management method of integration of wireless identification according to claim 9 and distributed power source is characterized in that this emergency treatment program also includes the following step:

Cut off the unnecessary power consumption circuit of this power generating device according to this management information; And

Dispatch the power supply order of the power supply of this power generating device according to this management information at least one electrical installation.

12. the management method of integration of wireless identification according to claim 11 and distributed power source, it is characterized in that, this at least one electrical installation be chosen as power set, lighting device, livery, aircondition, safety gate, communication system, safety monitoring device and aforesaid combination in any one of them.

13. the management method of integration of wireless identification according to claim 9 and distributed power source, it is characterized in that, also include a wireless-communication-capable area, it has a plurality of wireless network base stations, in order to receive this management information by this at least one power generating device transmitted.

14. the management method of integration of wireless according to claim 13 identification and distributed power source is characterized in that, this wireless network base stations selects that one of them is passed to control center in this with this management information with the mode of wire transmission and wireless transmission method.

15. the management method of integration of wireless identification according to claim 9 and distributed power source, it is characterized in that, this at least one power generating device is chosen as device of solar generating, wind power generation plant, hydroelectric installation, fuel cell, give birth to mass-energy Blast Furnace Top Gas Recovery Turbine Unit (TRT) and aforesaid combination in any one of them.

16. the management method of integration of wireless identification according to claim 9 and distributed power source, it is characterized in that this management information comprises power supply situation, the information of residual electric power, life cycle information, emm message, power consumption information and consumptive material supply.

17. the management method of integration of wireless identification according to claim 9 and distributed power source is characterized in that this battery module also has a sensing apparatus, itself and this first wireless identification sign couples, to provide sensitive information to this wireless identification sign.

18. the management method of integration of wireless identification according to claim 17 and distributed power source, it is characterized in that this sensing apparatus is selected from the group that a pressure sensor, a temperature sensor, a battery liquid level detecting device, a voltage sensor and a concentration sensor are formed.

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