CN205725162U - Distributed power source parallel control system - Google Patents

Abstract

This utility model provides a kind of distributed power source parallel control system, including: generating Surveillance center and multiple generating watch-dog composition；Wherein, generating Surveillance center includes wireless communication unit and the first ZigBee communication unit；Multiple generating watch-dogs include: photovoltaic generation monitoring means and the second ZigBee communication unit；Wind power generation monitoring means and the 3rd ZigBee communication unit；Geother-mal power generation monitoring means and the 4th ZigBee communication unit；Biomass power generation monitoring means and the 5th ZigBee communication unit；First ZigBee communication unit wireless be connected to second and third, four, five ZigBee communication unit.Solve in prior art by this utility model, the problem that data transmission is unstable, efficiency is low and data are easily lost that distributed power source monitoring system exists, thus transmitted by ZigBee communication mode and receive data, it is achieved that the high efficiency of transmission data and stability.

Description

Distributed power source parallel control system

Technical field

This utility model relates to field of power, is specifically related to a kind of distributed power source parallel control system System.

Background technology

Distributed power source is usually located near user, is generated electricity and can be suitably used for local use, it is possible to 10 Kilovolt and following electric pressure access electrical network, including solar energy, natural gas, biomass energy, wind energy, The types such as geothermal energy, ocean energy, comprehensive utilization of resources generating.For making distributed power source is met electric power Access grid requirements, rational allocation, electrical network analysis, distribution automation and regular maintenance etc. to unify Management, needs various types of distributed power source parallel controls, but existing monitoring system exists The problems such as data transport inefficiencies, instability and easy loss.

For in prior art, the data transmission that distributed power source monitoring system exists is unstable, efficiency The problem that low and data are easily lost, does not also propose effective solution.

Utility model content

This utility model provides a kind of distributed power source parallel control system, at least to solve existing skill The data transmission that in art, distributed power source monitoring system exists is unstable, efficiency is low and data are easily lost Problem.

According to an aspect of the present utility model, it is provided that a kind of distributed power source parallel control system, Including: generating Surveillance center and multiple generating watch-dog composition；Wherein, described generating Surveillance center bag Include wireless communication unit and the first ZigBee communication unit being connected with described wireless communication unit；Described Multiple generating watch-dogs include at least one of: photovoltaic generation monitoring means and with described photovoltaic generation The second ZigBee communication unit that monitoring means connects, described photovoltaic generation monitoring means is used for will be to light The Monitoring Data of photovoltaic generating system sends to described second ZigBee communication unit；Wind power generation monitoring is single Unit and the 3rd ZigBee communication unit being connected with described wind power generation monitoring means, described wind power generation Monitoring means is for sending to described 3rd ZigBee communication list the Monitoring Data of wind power generation system Unit；Geother-mal power generation monitoring means and the 4th ZigBee being connected with described geother-mal power generation monitoring means Communication unit, described geother-mal power generation monitoring means is for by the Monitoring Data to geother-mal power generation system Send to described 4th ZigBee communication unit；Biomass power generation monitoring means and with described biomass The 5th ZigBee communication unit that energy generation monitoring unit connects, described biomass power generation monitoring means For the Monitoring Data of biomass power generation system being sent to described 5th ZigBee communication unit； Described first ZigBee communication unit wireless be connected to described second ZigBee communication unit, described Three ZigBee communication unit, described 4th ZigBee communication unit and described 5th ZigBee communication list Unit, for respectively from described second ZigBee communication unit, described 3rd ZigBee communication unit, Described 4th ZigBee communication unit and described 5th ZigBee communication unit receive Monitoring Data.

Alternatively, also including: main control chip unit, one end of described main control chip unit is connected to institute Stating the first ZigBee communication unit, the other end of described main control chip unit is connected to described radio communication Unit；Described main control chip unit is for the monitoring number that will receive from described first ZigBee communication unit According to sending to described wireless communication unit.

Alternatively, also including: A/D converter unit, one end of described A/D converter unit connects To described first ZigBee communication unit, the other end of described A/D converter unit is connected to described master Control chip unit；Described A/D converter unit, for connecing from described first ZigBee communication unit The Monitoring Data received is converted to digital signal, and sends the Monitoring Data for digital signal to described master Control chip unit.

Alternatively, described first ZigBee communication unit is electrically connected to described A/D converter unit； Described A/D converter unit is electrically connected to described main control chip unit.

Alternatively, photovoltaic generation monitoring means includes: the first energy monitor sensor and illumination monitoring pass Sensor；Wherein, described first energy monitor sensor is for gathering the electrical energy parameter of at least one of: The voltage of photovoltaic generating system, the electric current of photovoltaic generating system and the power of photovoltaic generating system；Described Illumination monitoring sensor is for gathering the Lighting information parameter of photovoltaic generating system.

Alternatively, described wind power generation monitoring means includes: the second energy monitor sensor and wind-force are strong Degree sensor；Wherein, described second energy monitor sensor is for gathering the electric energy of at least one of Parameter: the voltage of wind power generation system, the electric current of wind power generation system and the power of wind power generation system； Described wind intensity sensor is used for gathering wind intensity parameter.

Alternatively, described geother-mal power generation monitoring means includes: the 3rd energy monitor sensor and underground heat Parameter sensors；Wherein, described 3rd energy monitor sensor is for gathering the electricity of at least one of Energy parameter: the voltage of geother-mal power generation system, the electric current of geother-mal power generation system and geother-mal power generation system The power of system；Described underground heat parameter sensors is for locality thermal parameter.

Alternatively, described biomass power generation monitoring means includes: the 4th energy monitor sensor and life Material energy parameter sensors；Wherein, described 4th energy monitor sensor be used for gathering following at least it The electrical energy parameter of one: the voltage of biomass power generation system, the electric current of biomass power generation system and life The power of material energy electricity generation system；Described biomass energy parameter sensors is used for gathering biomass parameter.

Alternatively, also include: host computer and/or Cloud Server；Described host computer and described radio communication Unit connects, and described Cloud Server is connected with described wireless communication unit.

Alternatively, described wireless communication unit includes general packet radio service gprs cordless communication network Or CDMA cdma wireless communication network.

By this utility model, a kind of distributed power source parallel control system is used to include: generating monitoring Center and multiple generating watch-dog composition；Wherein, generating Surveillance center include wireless communication unit and with The first ZigBee communication unit that wireless communication unit connects；Multiple generating watch-dogs include following at least One of: photovoltaic generation monitoring means and the second ZigBee communication being connected with this photovoltaic generation monitoring means Unit, photovoltaic generation monitoring means is for sending to second the Monitoring Data of photovoltaic generating system ZigBee communication unit；Wind power generation monitoring means and be connected with this wind power generation monitoring means the 3rd ZigBee communication unit, wind power generation monitoring means is for sending out the Monitoring Data of wind power generation system Deliver to the 3rd ZigBee communication unit；Geother-mal power generation monitoring means and single with the monitoring of this geother-mal power generation The 4th ZigBee communication unit that unit connects, geother-mal power generation monitoring means is used for will be to geother-mal power generation The Monitoring Data of system sends to the 4th ZigBee communication unit；Biomass power generation monitoring means and with The 5th ZigBee communication unit that this biomass power generation monitoring means connects, biomass power generation is monitored Unit is for sending to the 5th ZigBee communication unit the Monitoring Data of biomass power generation system； First ZigBee communication unit wireless is connected to the second ZigBee communication unit, the 3rd ZigBee communication Unit, the 4th ZigBee communication unit and the 5th ZigBee communication unit, for respectively from second ZigBee communication unit, the 3rd ZigBee communication unit, the 4th ZigBee communication unit and the 5th ZigBee communication unit receives Monitoring Data.Solve in prior art, distributed power source monitoring system The problem that data transmission is unstable, efficiency is low and data are easily lost existed, thus pass through ZigBee Communication mode transmission and reception data, it is achieved that the high efficiency of transmission data and stability.

Accompanying drawing explanation

In order to be illustrated more clearly that this utility model detailed description of the invention or technical side of the prior art Case, will make simply the accompanying drawing used required in detailed description of the invention or description of the prior art below Introduce, it should be apparent that, the accompanying drawing in describing below is embodiments more of the present utility model, right From the point of view of those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to according to These accompanying drawings obtain other accompanying drawing.

Fig. 1 is one schematic diagram of distributed power source parallel control system according to this utility model embodiment；

Fig. 2 is a schematic diagram of the generating Surveillance center according to this utility model embodiment；

Fig. 3 is another schematic diagram of the generating Surveillance center according to this utility model embodiment；

Fig. 4 is another signal of the distributed power source parallel control system according to this utility model embodiment Figure.

Detailed description of the invention

Below in conjunction with accompanying drawing, the technical solution of the utility model is clearly and completely described, aobvious So, described embodiment is a part of embodiment of this utility model rather than whole embodiments. Based on the embodiment in this utility model, those of ordinary skill in the art are not making creative work The every other embodiment obtained under premise, broadly falls into the scope of this utility model protection.

In description of the present utility model, it should be noted that term " first ", " second ", " Three " it is only used for describing purpose, and it is not intended that indicate or hint relative importance.

In description of the present utility model, it should be noted that unless otherwise clearly defined and limited, Term " is installed ", " being connected ", " connection " should be interpreted broadly, for example, it may be fixing even Connect, it is also possible to be to removably connect, or be integrally connected；Can be to be mechanically connected, it is also possible to be electricity Connect；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, it is also possible to be two units Connection within part, can be wireless connections, it is also possible to be wired connection.Common for this area For technical staff, above-mentioned term concrete meaning in this utility model can be understood with concrete condition.

Additionally, technical characteristic involved in this utility model difference embodiment disclosed below is only The conflict of not constituting each other just can be combined with each other.

Embodiment 1

Providing a kind of distributed power source parallel control system in the present embodiment, Fig. 1 is according to this practicality One schematic diagram of distributed power source parallel control system of new embodiment, as it is shown in figure 1, this system Including: generating Surveillance center 12 and multiple generating watch-dog 14 form；Wherein, generating Surveillance center 12 include wireless communication unit 122 and the first ZigBee communication being connected with this wireless communication unit 122 Unit 124；The plurality of generating watch-dog 14 includes at least one of: photovoltaic generation monitoring means 142 And the second ZigBee communication unit 144 being connected with this photovoltaic generation monitoring means 142, photovoltaic generation Monitoring means 142 is for sending to the second ZigBee communication list the Monitoring Data of photovoltaic generating system Unit 144；Wind power generation monitoring means 146 and be connected with this wind power generation monitoring means 146 the 3rd ZigBee communication unit 148, wind power generation monitoring means 146 is for by the prison to wind power generation system Survey data to send to the 3rd ZigBee communication unit 148；Geother-mal power generation monitoring means 150 and with this The 4th ZigBee communication unit 152 that geother-mal power generation monitoring means 150 connects, geother-mal power generation is supervised Survey unit 150 for the Monitoring Data of geother-mal power generation system being sent to the 4th ZigBee communication list Unit 152；Biomass power generation monitoring means 154 and being connected with this biomass power generation monitoring means 154 The 5th ZigBee communication unit 156, biomass power generation monitoring means 154 is for will be to biomass The Monitoring Data of energy electricity generation system sends to the 5th ZigBee communication unit 156；First ZigBee communication Unit 124 be wirelessly connected to the second ZigBee communication unit the 144, the 3rd ZigBee communication unit 148, 4th ZigBee communication unit 152 and the 5th ZigBee communication unit 156, for respectively from second ZigBee communication unit the 144, the 3rd ZigBee communication unit the 148, the 4th ZigBee communication unit 152 and the 5th ZigBee communication unit 156 receive Monitoring Data.

By said system, all include ZigBee communication list at generating watch-dog and generating Surveillance center Unit, distributed power source parallel control system based on ZigBee, it is possible to efficiently monitor each distributed electrical The electrical energy parameter that source is grid-connected, the electrical energy parameter gathered by ZigBee high efficiency of transmission, stablize and be difficult to Lose, contribute to real-time analysis distribution formula power supply, rational allocation resource distribution.

Fig. 2 is a schematic diagram of the generating Surveillance center according to this utility model embodiment, such as Fig. 2 Shown in, generating Surveillance center also includes: main control chip unit 126, one end of main control chip unit 126 Being connected to the first ZigBee communication unit 124, the other end of main control chip unit 126 is connected to wireless Communication unit 122；Main control chip unit 126 will be for receiving from the first ZigBee communication unit 124 Monitoring Data send to wireless communication unit 122.Achieved from by main control chip unit 126 The Monitoring Data that one ZigBee communication unit 124 receives sends to wireless communication unit 122.

Fig. 3 is another schematic diagram of the generating Surveillance center according to this utility model embodiment, such as figure Shown in 3, generating Surveillance center also includes: A/D converter unit 128, this A/D converter unit 128 One end be connected to the first ZigBee communication unit 124, the other end of A/D converter unit 128 is even It is connected to main control chip unit 126；A/D converter unit 128, being used for will be from the first ZigBee communication list The Monitoring Data that unit 124 receives is converted to digital signal, and the Monitoring Data for digital signal is sent To main control chip unit 126.The analog digital conversion to data is realized, for master by A/D converter unit 128 Control chip unit 126 is read out.

Connected mode between first ZigBee communication unit 124 and A/D converter unit 128 is permissible Including a variety of, in one alternate embodiment, the first ZigBee communication unit 124 is electrically connected to A/D converter unit 128.Connection between A/D converter unit 128 and main control chip unit 126 Mode can also include a variety of, and in one alternate embodiment, A/D converter unit 128 electrically connects It is connected to main control chip unit 126.

In one alternate embodiment, photovoltaic generation monitoring means 142 includes: the first energy monitor passes Sensor and illumination monitoring sensor；Wherein, the first energy monitor sensor be used for gathering following at least it The electrical energy parameter of one: the voltage of photovoltaic generating system, the electric current of photovoltaic generating system and photovoltaic generation system The power of system；Illumination monitoring sensor is for gathering the Lighting information parameter of photovoltaic generating system.By upper State parameters to send further to wireless communication unit 122 as Monitoring Data.

In one alternate embodiment, wind power generation monitoring means 146 includes: the second energy monitor passes Sensor and wind intensity sensor；Wherein, the second energy monitor sensor be used for gathering following at least it The electrical energy parameter of one: the voltage of wind power generation system, the electric current of wind power generation system and wind power generation system The power of system；This wind intensity sensor is used for gathering wind intensity parameter.Above-mentioned parameters is made Send further to wireless communication unit 122 for Monitoring Data.

In one alternate embodiment, geother-mal power generation monitoring means 150 includes: the 3rd energy monitor Sensor and underground heat parameter sensors；Wherein, the 3rd energy monitor sensor for gather with down to One of few electrical energy parameter: the voltage of geother-mal power generation system, the electric current of geother-mal power generation system and ground The power of heat energy power-generating system；This underground heat parameter sensors is for locality thermal parameter.By above-mentioned each Parameter sends to wireless communication unit 122 further as Monitoring Data.

In one alternate embodiment, biomass power generation monitoring means 154 includes: the 4th electric energy prison Survey sensor and biomass energy parameter sensors；Wherein, the 4th energy monitor sensor is used for gathering The electrical energy parameter of at least one of: the voltage of biomass power generation system, biomass power generation system Electric current and the power of biomass power generation system；This biomass energy parameter sensors is used for gathering biology Matter parameter.Above-mentioned parameters is sent to wireless communication unit 122 further as Monitoring Data.

Fig. 4 is another signal of the distributed power source parallel control system according to this utility model embodiment Figure, as shown in Figure 4, distributed power source parallel control system also includes: host computer 130 and/or cloud clothes Business device 132；Host computer 130 is connected with wireless communication unit 122, Cloud Server 132 and radio communication Unit 122 connects.Host computer 130 and Cloud Server 132 receive above-mentioned Monitoring Data for staff Analysis distribution formula power supply, reasonable disposition resource in real time.

Above-mentioned wireless communication unit 122 can be a variety of communication network, in one alternate embodiment Can be general packet radio service gprs cordless communication network, in another alternative embodiment, also It can be CDMA cdma wireless communication network.

Relative to prior art, distributed power source based on ZigBee described in the utility model is grid-connected Monitoring system has the advantage that

Photovoltaic generation monitoring means includes energy monitor sensor and illumination monitoring sensor, energy monitor Sensor can gather the electrical energy parameters such as the voltage of photovoltaic generating system, electric current and power, and illumination is monitored Sensor can gather the Lighting information parameter of photovoltaic generating system, and photovoltaic generation monitoring means can be by The parameter gathered is transmitted by the second ZigBee communication unit wireless, by the first ZigBee communication unit Receive transmission data；Wind power generation monitoring means can gather the voltage of this electricity generation system, electric current, merit The parameter information such as rate and wind intensity, wind power generation monitoring means can pass through the 3rd ZigBee communication Unit wireless transmission information, is received transmission data by the first ZigBee communication unit；Geother-mal power generation Detector unit can gather voltage, electric current, power and underground heat parameter information, and geother-mal power generation monitoring is single Unit, by the 4th ZigBee communication unit wireless transmission data, is received by the first ZigBee communication unit Transmission data；Biomass power generation monitoring means can gather voltage, electric current, power and biomass ginseng Number information, biomass power generation monitoring means is by the 5th ZigBee communication unit wireless transmission information Data, are received transmission data by the first ZigBee communication unit；Photovoltaic generation monitoring means, wind energy Generation monitoring unit, geother-mal power generation monitoring means and biomass power generation monitoring means pass through ZigBee Communication mode transmission and reception data, have the advantage of data efficient transmission, and data transmission is stable, no Easily lose, the first ZigBee communication unit the transmission data received, by A/D converter list Unit can be converted into digital signal, is read out for main control chip unit, and main control chip unit can lead to Cross wireless communication unit and the data of each distributed power source are transferred to host computer and Cloud Server, help In real-time analysis distribution formula power supply, rational allocation resource distribution.

Obviously, above-described embodiment is only for clearly demonstrating example, and not to embodiment party The restriction of formula.For those of ordinary skill in the field, the most also may be used To make other changes in different forms.Here without also all of embodiment being given With exhaustive.And the obvious change thus extended out or variation are created still in this utility model Protection domain among.

Claims (10)

1. a distributed power source parallel control system, it is characterised in that including:

Generating Surveillance center and multiple generating watch-dog composition；

Wherein, described generating Surveillance center includes wireless communication unit and connects with described wireless communication unit The the first ZigBee communication unit connect；

The plurality of generating watch-dog includes at least one of:

Photovoltaic generation monitoring means and the second ZigBee communication being connected with described photovoltaic generation monitoring means Unit, described photovoltaic generation monitoring means is for sending to institute the Monitoring Data of photovoltaic generating system State the second ZigBee communication unit；

Wind power generation monitoring means and the 3rd ZigBee communication being connected with described wind power generation monitoring means Unit, described wind power generation monitoring means is for sending to institute the Monitoring Data of wind power generation system State the 3rd ZigBee communication unit；

Geother-mal power generation monitoring means and the 4th ZigBee being connected with described geother-mal power generation monitoring means Communication unit, described geother-mal power generation monitoring means is for by the Monitoring Data to geother-mal power generation system Send to described 4th ZigBee communication unit；

Biomass power generation monitoring means and be connected with described biomass power generation monitoring means the 5th ZigBee communication unit, described biomass power generation monitoring means is used for will be to biomass power generation system Monitoring Data send to described 5th ZigBee communication unit；

Described first ZigBee communication unit wireless is connected to described second ZigBee communication unit, institute State the 3rd ZigBee communication unit, described 4th ZigBee communication unit and described 5th ZigBee logical Letter unit, for respectively from described second ZigBee communication unit, described 3rd ZigBee communication list 4th ZigBee communication unit first, described and described 5th ZigBee communication unit receive Monitoring Data.

Distributed power source parallel control system the most according to claim 1, it is characterised in that also Including:

Main control chip unit, one end of described main control chip unit is connected to described first ZigBee communication Unit, the other end of described main control chip unit is connected to described wireless communication unit；Described master control core Blade unit is for sending the Monitoring Data received from described first ZigBee communication unit to described wireless Communication unit.

Distributed power source parallel control system the most according to claim 1, it is characterised in that also Including:

A/D converter unit, one end of described A/D converter unit is connected to a described ZigBee Communication unit, the other end of described A/D converter unit is connected to described main control chip unit；Described A/D converter unit, for the Monitoring Data conversion that will receive from described first ZigBee communication unit For digital signal, and the Monitoring Data for digital signal is sent to described main control chip unit.

Distributed power source parallel control system the most according to claim 1, it is characterised in that institute State the first ZigBee communication unit and be electrically connected to described A/D converter unit；Described A/D converter Unit is electrically connected to described main control chip unit.

Distributed power source parallel control system the most according to claim 1, it is characterised in that light Volt generation monitoring unit includes: the first energy monitor sensor and illumination monitoring sensor；Wherein, institute State the first energy monitor sensor for gathering the electrical energy parameter of at least one of: photovoltaic generating system Voltage, the electric current of photovoltaic generating system and the power of photovoltaic generating system；Described illumination monitoring sensing Device is for gathering the Lighting information parameter of photovoltaic generating system.

Distributed power source parallel control system the most according to claim 1, it is characterised in that institute State wind power generation monitoring means to include: the second energy monitor sensor and wind intensity sensor；Wherein, Described second energy monitor sensor is for gathering the electrical energy parameter of at least one of: wind power generation system Voltage, the electric current of wind power generation system and the power of wind power generation system of system；Described wind intensity passes Sensor is used for gathering wind intensity parameter.

Distributed power source parallel control system the most according to claim 1, it is characterised in that institute State geother-mal power generation monitoring means to include: the 3rd energy monitor sensor and underground heat parameter sensors；Its In, described 3rd energy monitor sensor is for gathering the electrical energy parameter of at least one of: geothermal energy The voltage of electricity generation system, the electric current of geother-mal power generation system and the power of geother-mal power generation system；Described Underground heat parameter sensors is for locality thermal parameter.

Distributed power source parallel control system the most according to claim 1, it is characterised in that institute State biomass power generation monitoring means to include: the 4th energy monitor sensor and biomass energy parameter sensing Device；Wherein, described 4th energy monitor sensor is for gathering the electrical energy parameter of at least one of: The voltage of biomass power generation system, the electric current of biomass power generation system and biomass power generation system Power；Described biomass energy parameter sensors is used for gathering biomass parameter.

Distributed power source parallel control system the most according to claim 1, it is characterised in that also Including:

Host computer and/or Cloud Server；

Described host computer is connected with described wireless communication unit, described Cloud Server and described radio communication Unit connects.

Distributed power source parallel control system the most according to any one of claim 1 to 9, its Be characterised by, described wireless communication unit include general packet radio service gprs cordless communication network or Person's CDMA cdma wireless communication network.