CN201726167U

CN201726167U - Intelligent control device of wind and solar energy-complementary generating system

Info

Publication number: CN201726167U
Application number: CN201020247418XU
Authority: CN
Inventors: 陈鹏; 陈中
Original assignee: Individual
Current assignee: Individual
Priority date: 2010-06-28
Filing date: 2010-06-28
Publication date: 2011-01-26
Anticipated expiration: 2020-06-28

Abstract

The utility model discloses an intelligent control device of a wind and solar energy-complementary generating system, mainly comprising a central processing controller, a communication receiving module, a signal conversion circuit, a power consumption analyzing module, an inverter, a battery capacity monitoring module, a first power supply detecting module and a second power supply detecting module. The central processing controller can comprehensively analyze effective information comprising real-time weather information, the averaged power consumption of loads, the remaining power of a storage battery and the compensatory electric quantity of wind energy and solar energy and achieves the purposes of improving the power-utilizing efficiency of power-utilizing loads and reducing the charging and discharging time of the storage battery in an intelligent control method so that the utilization efficiency and the service life of the whole wind and solar energy-complementary generating system can be effectively improved, and the intelligent control device solves the problem of power consumption of the wind and solar energy-complementary generating system for families, industries, municipal administrations and the like.

Description

The intelligence controlling device of wind and solar hybrid generating system

Technical field

The utility model relates to a kind of control device that is used for wind and solar hybrid generating system, specifically relates to a kind of intelligence controlling device that can improve load and whole generating system useful life and service efficiency.

Background technology

As everyone knows, solar energy and wind energy are as green novel energy source, inexhaustible, pollution-free with it, not be subject to people's attention by advantages such as region restriction, though they temporarily can not replace coal and oil fully as the environmental protection new forms of energy, but can reduce the consumption of coal and oil to a certain extent, be the new forms of energy that adapt to era development and environmental protection demand.In recent years, the small-sized solar energy and the application of wind energy have obtained development apace, and application prospect is widely more arranged.

Abundant wind and solar hybrid generating system in conjunction with solar energy and wind energy advantage has appearred in recent years, this class wind and solar hybrid generating system utilizes solar power generation when sunny by day, utilize wind power generation at night or rainy weather and when wind is arranged, electricity can be able to directly be supplied with electrical appliance or charge in the storage battery.Generally there is following defective in employed on the market now this class wind and solar hybrid generating system: battery is neither one battery intelligent analytical system in charging and discharging process, has very big waste in the use proportioning of street lamp, blower fan, battery with on useful life.

The utility model content

In order to address the above problem, the utility model provides a kind of intelligence controlling device of wind and solar hybrid generating system, and the intelligence controlling device of this wind and solar hybrid generating system can improve the power consumption efficiency of load, the useful life that prolongs storage battery and the service efficiency and the useful life of improving whole wind and solar hybrid generating system.

The utility model for the technical scheme that solves its technical problem and adopt is:

A kind of intelligence controlling device of wind and solar hybrid generating system, comprise central processing controller, the communication receiver module, power consumption analysis module and battery capacity monitoring module, described central processing controller is electrically connected with first, two power supply detection modules, described first, two power supply detection modules electrically connect with photovoltaic generation plate and wind-driven generator respectively, described central processing controller is electrically connected with the signal conversion circuit, described signaling conversion circuit electrically connects described communication receiver module, described communication receiver module can receive the real time information that comprises Weather information that the external world is transmitted, described central processing controller and described power consumption analysis module electrically connect, described power consumption analysis module is electrically connected with inverter, described inverter and load electrically connect, described central processing controller and described battery capacity monitoring module electrically connect, and described battery capacity monitoring module and storage battery electrically connect.

Described communication receiver module be wire communication receiver module and wireless telecommunications receiver module one of at least, as GPRS module, gsm module, bluetooth module etc.

The core of described central processing controller is a single-chip microcomputer.

Described load be illuminating lamp and electrical equipment one of at least, also can be other power consumption equipment.

The control method of the intelligence controlling device of this wind and solar hybrid generating system is as follows:

The real time information that comprises Weather information that described signaling conversion circuit receives described communication receiver module changes into the information that central processing controller can be discerned, described first, two power supply detection modules detect the power supply information of described photovoltaic generation plate and described wind-driven generator respectively, described coulometric analysis module detects the power information of load, described battery capacity monitoring module detects the information about power of storage battery, described signaling conversion circuit, first, two power supply detection modules, coulometric analysis module and battery capacity monitoring module pass to central processing controller with information, and central processing controller carries out information to control behind the confluence analysis:

When accumulator electric-quantity greater than load average power consumption and following Weather information satisfy set power generation conditions (as several days future for fine or wind etc. arranged) time, central processing controller control electricity can supply load and is not charged a battery;

When not satisfying greater than load average power consumption and following Weather information, accumulator electric-quantity sets power generation conditions when (as being several days future overcast and rainy or calm etc.), judge again whether load moves, if load moves, central processing controller is controlled the storage battery powering load so, after storage battery fully discharged, central processing controller control electricity can charge in the storage battery; If load is not in operation, central processing controller control electricity can directly charge in the storage battery so;

When accumulator electric-quantity is not more than load average power consumption, judge whether load moves, if load moves, central processing controller is controlled the storage battery powering load so again, after storage battery fully discharged, central processing controller control electricity can charge in the storage battery; If load is not in operation, central processing controller control electricity can directly charge in the storage battery so.

The beneficial effects of the utility model are: the intelligence controlling device of wind and solar hybrid generating system of the present utility model is mainly by central processing controller, the communication receiver module, signaling conversion circuit, the power consumption analysis module, inverter, battery capacity monitoring module and first, two power supply detection modules constitute, real time information such as the enough analysis-by-synthesis Weather informations of central processing controller, the average use power consumption of load, these several groups of effective informations of the compensation electric weight of the dump energy of storage battery and wind energy and luminous energy, and pass through intelligence control method, reach and improve with the power consumption efficiency of electric loading and the purpose that reduces the accumulator cell charging and discharging number of times, can effectively improve the utilization ratio and the useful life of whole wind and solar hybrid generating system, solve family expenses, industrial, municipal administration usefulness waits the electricity consumption power saving of wind and solar hybrid generating system.

Description of drawings

Fig. 1 is the theory diagram of the intelligence controlling device of wind and solar hybrid generating system of the present utility model.

Embodiment

Embodiment: a kind of intelligence controlling device of wind and solar hybrid generating system, comprise central processing controller 1, communication receiver module 2, power consumption analysis module 3 and battery capacity monitoring module 4, described central processing controller 1 is electrically connected with first, two power

supply detection modules

5,6, described first, two power supply detection modules electrically connect with photovoltaic generation plate 10 and wind-driven generator 11 respectively, described central processing controller 1 is electrically connected with signal conversion circuit 7, described signaling conversion circuit 7 electrically connects described communication receiver module 2, described communication receiver module 2 can receive the real time information that comprises Weather information that the external world is transmitted, described central processing controller 1 electrically connects with described power consumption analysis module 3, described power consumption analysis module 3 is electrically connected with inverter 8, described inverter 8 electrically connects with load 12, described central processing controller 1 electrically connects with described battery capacity monitoring module 4, and described battery capacity monitoring module 4 electrically connects with storage battery 9.

Described communication receiver module 2 be wire communication receiver module and wireless telecommunications receiver module one of at least, as GPRS module, gsm module, bluetooth module etc.

The core of described central processing controller 1 is a single-chip microcomputer.

The real time information that comprises Weather information that described signaling conversion circuit 7 receives described communication receiver module 2 changes into 1 information that can discern of central processing controller, described first, two power

supply detection modules

5,6 detect the power supply information of described photovoltaic generation plate 10 and described wind-driven generator 11 respectively, described coulometric analysis module 3 detects the power information of load, described battery capacity monitoring module 4 detects the information about power of storage battery, described signaling conversion circuit 7, first, two power

supply detection modules

5,6, coulometric analysis module 3 and battery capacity monitoring module 4 pass to central processing controller 1 with information, and central processing controller 1 carries out information to control behind the confluence analysis:

When accumulator electric-quantity greater than load average power consumption and following Weather information satisfy set power generation conditions (as several days future for fine or wind etc. arranged) time, central processing controller 1 control electricity can supply load and not accumulators 9 chargings;

When not satisfying greater than load average power consumption and following Weather information, accumulator electric-quantity sets power generation conditions when (as being several days future overcast and rainy or calm etc.), judge again whether load moves, if load moves, central processing controller 1 control storage battery 9 gives load 12 power supplies so, after storage battery fully discharged, central processing controller 1 control electricity can charge in the storage battery; If load is not in operation, central processing controller 1 control electricity can directly charge in the storage battery so;

When accumulator electric-quantity is not more than load average power consumption, judge again whether load moves, if load moves, central processing controller 1 control storage battery 9 gives load 12 power supplies so, after storage battery fully discharged, central processing controller 1 control electricity can charge in the storage battery; If load is not in operation, central processing controller 1 control electricity can directly charge in the storage battery so.

Claims

1. the intelligence controlling device of a wind and solar hybrid generating system, it is characterized in that: comprise central processing controller (1), communication receiver module (2), power consumption analysis module (3) and battery capacity monitoring module (4), described central processing controller (1) is electrically connected with first, two power supply detection modules (5,6), described first, two power supply detection modules electrically connect with photovoltaic generation plate (10) and wind-driven generator (11) respectively, described central processing controller (1) is electrically connected with signal conversion circuit (7), described signaling conversion circuit (7) electrically connects described communication receiver module (2), described communication receiver module (2) can receive the real time information that comprises Weather information that the external world is transmitted, described central processing controller (1) electrically connects with described power consumption analysis module (3), described power consumption analysis module (3) is electrically connected with inverter (8), described inverter (8) electrically connects with load (12), described central processing controller (1) electrically connects with described battery capacity monitoring module (4), and described battery capacity monitoring module (4) electrically connects with storage battery (9).

2. the intelligence controlling device of wind and solar hybrid generating system as claimed in claim 1 is characterized in that: described communication receiver module (2) for wire communication receiver module and wireless telecommunications receiver module one of at least.

3. the intelligence controlling device of wind and solar hybrid generating system as claimed in claim 1, it is characterized in that: the core of described central processing controller (1) is a single-chip microcomputer.

4. the intelligence controlling device of wind and solar hybrid generating system as claimed in claim 1 is characterized in that: described load be illuminating lamp and electrical equipment one of at least.