CN104345740A - Power building door window control system based on multi-power supply complementation - Google Patents

Power building door window control system based on multi-power supply complementation Download PDF

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Publication number
CN104345740A
CN104345740A CN201410595338.6A CN201410595338A CN104345740A CN 104345740 A CN104345740 A CN 104345740A CN 201410595338 A CN201410595338 A CN 201410595338A CN 104345740 A CN104345740 A CN 104345740A
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China
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module
power supply
circuit
solar
power
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CN201410595338.6A
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Chinese (zh)
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CN104345740B (en
Inventor
刘瑞安
陈文清
彭传相
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State Grid Corp of China SGCC
State Grid Fujian Electric Power Co Ltd
Economic and Technological Research Institute of State Grid Fujian Electric Power Co Ltd
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State Grid Corp of China SGCC
State Grid Fujian Electric Power Co Ltd
Economic and Technological Research Institute of State Grid Fujian Electric Power Co Ltd
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Abstract

The invention relates to a power building door window control system based on multi-power supply complementation. The power building door window control system comprises a door window control unit, a power supply unit, a driving unit for driving the door window to open and close and a sensor unit, wherein the power supply unit, the driving unit and the sensor unit are connected with the door window control unit; the power supply unit comprises a solar power supply module, a high voltage electricity taking module, a wind power supply module and a commercial power supply module; the solar power supply module comprises a first single-chip microcomputer control module, a solar orientation detection circuit, a solar angle tracing circuit, a solar photovoltaic array, a motor and a first power switching circuit, wherein the solar orientation detection circuit, the solar angle tracing circuit, the solar photovoltaic array, the motor and the first power switching circuit are connected with the first single-chip microcomputer control module; the high voltage electricity taking module comprises a high voltage electricity taking coil arranged on a high voltage cable in a sleeving mode, a second single-chip microcomputer control module and a second power switching circuit; the sensor unit is used for detecting the weather situation of the outside world and the power supply condition of the power supply unit. Through the adoption of the multi-power supply complementation, uninterruptible power supply of power building door windows is realized, and intelligent switching for the door windows is realized.

Description

Based on the electric power building door and window control system of many power supplys complementation
Technical field
The present invention relates to a kind of electric power building door and window control system based on the complementation of many power supplys.
Background technology
Traditional electric power building door and window, all adopts manual control opening and closing or adopts civil power single power supply, once commercial power interruption, namely needs artificial oneself closedown, takes time and effort, and the rainy day, when it is cold and wind is large, can not realize the automatic closedown of door and window.
Summary of the invention
The object of the present invention is to provide the many power supplys of a kind of employing complementary, achieve the uninterrupted power supply of electric power building door and window, achieve the electric power building door and window control system based on the complementation of many power supplys of the intelligent switch for door and window.
For achieving the above object, technical scheme of the present invention is: a kind of electric power building door and window control system based on the complementation of many power supplys, comprises door and window control module and the power supply unit be connected with this door and window control module, for driving driver element and the sensor unit of door and window opening and closing; Described power supply unit comprises solar-electricity source module, high pressure electricity-fetching module, wind power supply module and mains-supplied module; Described solar-electricity source module comprise the first single chip control module and be connected with this first single chip control module for realize fine day solar tracking sun power orientation detection circuit, to follow the trail of circuit, photovoltaic array for the solar angle realizing rainy day solar tracking, for the motor that drives described photovoltaic array to rotate and the first power-switching circuit, described sun power orientation detection circuit and solar angle follow the trail of the middle part that circuit is all arranged at described photovoltaic array; Described sun power orientation detection circuit comprises disk, cover a top of this disk have light hole hollow circuit cylinder cover, be arranged on this disk and with disc centre be the center of circle first to N photodiode ring and the center photodiode being positioned at disc centre; Described first increases progressively successively to the radius of N photodiode ring, wherein, N be greater than 1 natural number; Described solar angle is followed the trail of circuit and is comprised for calculating sun altitude and azimuthal solar angle computing module; Described high pressure electricity-fetching module comprises the high pressure electricity taking coil, second singlechip control module and the second source change-over circuit that are sheathed on high-tension cable; Described sensor unit is for detecting the electric power thus supplied of ambient weather situation and described solar-electricity source module, high pressure electricity-fetching module, wind power supply module and mains-supplied module.
In embodiments of the present invention, described first include to N photodiode ring the some photodiodes equidistantly distributed in circumferentially.
In embodiments of the present invention, described light hole makes to inject sun beam sizes in disk and photodiode size matches.
In embodiments of the present invention, the principle of work of described sun power orientation detection circuit is: when fine day, the sun exposes to the photodiode be arranged on disk by the light hole of hollow circuit cylinder cover, if sunshine does not expose to center photodiode, then adjust photovoltaic array, to make sun light beam expose to center photodiode, now, sunshine is directed to photovoltaic array.
In embodiments of the present invention, the principle of work that described solar angle follows the trail of circuit is: when the rainy day, according to current real-time time and longitude and latitude, sun altitude and position angle is calculated by solar angle computing module, and according to the current location of photovoltaic array length and photovoltaic array, the adjustment angle of adjustment photovoltaic array, is directed to photovoltaic array to make sunshine.
In embodiments of the present invention, described sensor unit comprises the rainwater testing circuit, wind speed measurement circuit, the temperature sensing circuit that are arranged at each door and window and is arranged at voltage and the current detection circuit of described solar-electricity source module, high pressure electricity-fetching module, wind power supply module and mains-supplied module output terminal.
In embodiments of the present invention, described rainwater testing circuit two pieces be stacked together and between there is the current-carrying plate in gap and the signal emission module be connected in series with this two current-carrying plate and lithium battery.
Compared to prior art, the present invention has following beneficial effect: the present invention adopts many power supplys complementary, achieves the uninterrupted power supply of electric power building door and window, achieves the intelligent switch for door and window, ensure that the rainy day, when temperature is low and wind is large, the automatic closedown of door and window.
Accompanying drawing explanation
Fig. 1 is the system chart of the electric power building door and window control system that the present invention is based on the complementation of many power supplys.
Fig. 2 is the schematic configuration diagram of sun power orientation detection circuit of the present invention.
Embodiment
Below in conjunction with accompanying drawing, technical scheme of the present invention is specifically described.
As Figure 1-Figure 2, a kind of electric power building door and window control system based on the complementation of many power supplys of the present invention, comprises door and window control module and the power supply unit be connected with this door and window control module, for driving driver element and the sensor unit of door and window opening and closing; Described power supply unit comprises solar-electricity source module, high pressure electricity-fetching module, wind power supply module and mains-supplied module; Described solar-electricity source module comprise the first single chip control module and be connected with this first single chip control module for realize fine day solar tracking sun power orientation detection circuit, to follow the trail of circuit, photovoltaic array for the solar angle realizing rainy day solar tracking, for the motor that drives described photovoltaic array to rotate and the first power-switching circuit, described sun power orientation detection circuit and solar angle follow the trail of the middle part that circuit is all arranged at described photovoltaic array; Described sun power orientation detection circuit comprises disk, cover a top of this disk have light hole hollow circuit cylinder cover, be arranged on this disk and with disc centre be the center of circle first to N photodiode ring and the center photodiode being positioned at disc centre; Described first increases progressively successively to the radius of N photodiode ring, wherein, N be greater than 1 natural number; Described solar angle is followed the trail of circuit and is comprised for calculating sun altitude and azimuthal solar angle computing module; Described high pressure electricity-fetching module comprises the high pressure electricity taking coil, second singlechip control module and the second source change-over circuit that are sheathed on high-tension cable; Described sensor unit is for detecting the electric power thus supplied of ambient weather situation and described solar-electricity source module, high pressure electricity-fetching module, wind power supply module and mains-supplied module.
As shown in Figure 2, described first include to N photodiode ring the some photodiodes equidistantly distributed in circumferentially.Described light hole makes to inject sun beam sizes in disk and photodiode size matches.
The principle of work of described sun power orientation detection circuit is: when fine day, the sun exposes to the photodiode be arranged on disk by the light hole of hollow circuit cylinder cover, if sunshine does not expose to center photodiode, then adjust photovoltaic array, center photodiode is exposed to make sun light beam, now, sunshine is directed to photovoltaic array.
The principle of work that described solar angle follows the trail of circuit is: when the rainy day, according to current real-time time and longitude and latitude, sun altitude and position angle is calculated by solar angle computing module, and according to the current location of photovoltaic array length and photovoltaic array, the adjustment angle of adjustment photovoltaic array, is directed to photovoltaic array to make sunshine.
Described sensor unit comprises the rainwater testing circuit, wind speed measurement circuit, the temperature sensing circuit that are arranged at each door and window and is arranged at voltage and the current detection circuit of described solar-electricity source module, high pressure electricity-fetching module, wind power supply module and mains-supplied module output terminal.Described rainwater testing circuit two pieces be stacked together and between there is the current-carrying plate in gap and the signal emission module be connected in series with this two current-carrying plate and lithium battery.
Be more than preferred embodiment of the present invention, all changes done according to technical solution of the present invention, when the function produced does not exceed the scope of technical solution of the present invention, all belong to protection scope of the present invention.

Claims (7)

1. based on an electric power building door and window control system for many power supplys complementation, it is characterized in that: the power supply unit comprising door and window control module and be connected with this door and window control module, for driving driver element and the sensor unit of door and window opening and closing; Described power supply unit comprises solar-electricity source module, high pressure electricity-fetching module, wind power supply module and mains-supplied module; Described solar-electricity source module comprise the first single chip control module and be connected with this first single chip control module for realize fine day solar tracking sun power orientation detection circuit, to follow the trail of circuit, photovoltaic array for the solar angle realizing rainy day solar tracking, for the motor that drives described photovoltaic array to rotate and the first power-switching circuit, described sun power orientation detection circuit and solar angle follow the trail of the middle part that circuit is all arranged at described photovoltaic array; Described sun power orientation detection circuit comprises disk, cover a top of this disk have light hole hollow circuit cylinder cover, be arranged on this disk and with disc centre be the center of circle first to N photodiode ring and the center photodiode being positioned at disc centre; Described first increases progressively successively to the radius of N photodiode ring, wherein, N be greater than 1 natural number; Described solar angle is followed the trail of circuit and is comprised for calculating sun altitude and azimuthal solar angle computing module; Described high pressure electricity-fetching module comprises the high pressure electricity taking coil, second singlechip control module and the second source change-over circuit that are sheathed on high-tension cable; Described sensor unit is for detecting the electric power thus supplied of ambient weather situation and described solar-electricity source module, high pressure electricity-fetching module, wind power supply module and mains-supplied module.
2. the electric power building door and window control system based on the complementation of many power supplys according to claim 1, is characterized in that: described first includes to N photodiode ring the some photodiodes equidistantly distributed in circumferentially.
3. the electric power building door and window control system based on the complementation of many power supplys according to claim 1, is characterized in that: described light hole makes to inject sun beam sizes in disk and photodiode size matches.
4. the electric power building door and window control system based on the complementation of many power supplys according to claim 2, it is characterized in that: the principle of work of described sun power orientation detection circuit is: when fine day, the sun exposes to the photodiode be arranged on disk by the light hole of hollow circuit cylinder cover, if sunshine does not expose to center photodiode, then adjust photovoltaic array, to make sun light beam expose to center photodiode, now, sunshine is directed to photovoltaic array.
5. the electric power building door and window control system based on the complementation of many power supplys according to claim 1, it is characterized in that: the principle of work that described solar angle follows the trail of circuit is: when the rainy day, according to current real-time time and longitude and latitude, sun altitude and position angle is calculated by solar angle computing module, and according to the current location of photovoltaic array length and photovoltaic array, the adjustment angle of adjustment photovoltaic array, is directed to photovoltaic array to make sunshine.
6. the electric power building door and window control system based on the complementation of many power supplys according to claim 1, is characterized in that: described sensor unit comprises the rainwater testing circuit, wind speed measurement circuit, the temperature sensing circuit that are arranged at each door and window and is arranged at voltage and the current detection circuit of described solar-electricity source module, high pressure electricity-fetching module, wind power supply module and mains-supplied module output terminal.
7. the electric power building door and window control system based on the complementation of many power supplys according to claim 6, is characterized in that: described rainwater testing circuit two pieces be stacked together and between there is the current-carrying plate in gap and the signal emission module be connected in series with this two current-carrying plate and lithium battery.
CN201410595338.6A 2014-10-30 2014-10-30 Power building door window control system based on multi-power supply complementation Active CN104345740B (en)

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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN201075729Y (en) * 2007-08-03 2008-06-18 浙江省能源研究所 Solar energy photovoltaic power generation and commercial power complementation apparatus
US20110035071A1 (en) * 2010-07-02 2011-02-10 David Sun System tools for integrating individual load forecasts into a composite load forecast to present a comprehensive synchronized and harmonized load forecast
CN102097854A (en) * 2010-12-31 2011-06-15 广东美的电器股份有限公司 Multi-power supply feed system and control method thereof
CN102801208A (en) * 2012-08-31 2012-11-28 安徽工业大学 Multi-path power supply intelligent scheduling manager and control method thereof
CN203312656U (en) * 2013-05-17 2013-11-27 宁波天安智能电网工程技术有限公司 An intelligent energy-saving-type outdoor switching station
CN203759552U (en) * 2014-04-14 2014-08-06 国家电网公司 Efficient solar automatic tracking device

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN201075729Y (en) * 2007-08-03 2008-06-18 浙江省能源研究所 Solar energy photovoltaic power generation and commercial power complementation apparatus
US20110035071A1 (en) * 2010-07-02 2011-02-10 David Sun System tools for integrating individual load forecasts into a composite load forecast to present a comprehensive synchronized and harmonized load forecast
CN102097854A (en) * 2010-12-31 2011-06-15 广东美的电器股份有限公司 Multi-power supply feed system and control method thereof
CN102801208A (en) * 2012-08-31 2012-11-28 安徽工业大学 Multi-path power supply intelligent scheduling manager and control method thereof
CN203312656U (en) * 2013-05-17 2013-11-27 宁波天安智能电网工程技术有限公司 An intelligent energy-saving-type outdoor switching station
CN203759552U (en) * 2014-04-14 2014-08-06 国家电网公司 Efficient solar automatic tracking device

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Title
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