CN204215232U - A kind of intelligent building energy-saving control system - Google Patents
A kind of intelligent building energy-saving control system Download PDFInfo
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- CN204215232U CN204215232U CN201420512176.0U CN201420512176U CN204215232U CN 204215232 U CN204215232 U CN 204215232U CN 201420512176 U CN201420512176 U CN 201420512176U CN 204215232 U CN204215232 U CN 204215232U
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Abstract
The utility model belongs to intelligent building technical field, particularly relate to a kind of intelligent building energy-saving control system, comprise wireless communication module, signal transacting and feedback circuit, power-switching circuit, described wireless communication module comprises chip U1, chip U2, chip U3, chip U4, chip U5, chip U6, resistance R1, resistance R2, resistance R3, described signal transacting and feedback circuit comprise chip U7, interface J1, resistance R4, resistance R5, resistance R6, resistance R7, resistance R8, resistance R9, resistance R10, resistance R11, resistance R12, resistance R13, electric capacity C1, electric capacity C2, electric capacity C3, electric capacity C4, electric capacity C5, electric capacity C6, described power-switching circuit comprises chip U39, chip U23, chip MI, interface J11, interface J22.
Description
Technical field
The utility model belongs to intelligent building technical field, particularly relates to a kind of intelligent building energy-saving control system.
Background technology
Along with the fast development of China's economic, energy resource consumption continues to increase, and energy problem more and more causes the concern of people.According to statistics, China builds the 27%-29% that total power consumption accounts for the total power consumption of entire society's terminal present stage, and building total energy consumption accounts for 20.7% of entire society's terminal energy consumption.Along with the adjustment of national industry structure and the development in city, building energy consumption will surmount other industry, finally occupy the first place of social energy consumption, and energy problem will become the key factor of restriction China's economic and social development.
Therefore, the energy consumption control system of research building building is important problems.First the monitoring of energy consumption of building and reducing energy consumption need to carry out real-time monitoring to building environment, to understand environmental aspect in building and energy service condition.To information and statistics such as institute roomed temperature, humidity, electricity, realize on-line monitoring and the dynamic statistics of building energy consumption.At present, the means of environment and consumption information collection mainly contain wired and wireless two kinds of modes.In wired mode, each sensor device just must can carry out collection and the transmission of data by wired connection, thus wiring amount is large, cost is high, is also difficult to meet baroque building environment simultaneously.Along with the fast development of wireless sensor network, extensive, low-power consumption, multi-functional sensor device complete the acquisition and processing of data by collaborative perception, distinctive wireless communication protocol.Therefore, low in energy consumption, networking flexibility, very large application market will be had based on the intelligent building energy pipe Ore-controlling Role of wireless sensor network without the need to wiring.
Summary of the invention
The utility model provides a kind of intelligent building energy-saving control system, to solve building system current in above-mentioned background technology, and the problems such as power consumption is high, and networking is dumb.
The technical matters that the utility model solves realizes by the following technical solutions: the utility model provides a kind of intelligent building energy-saving control system, it is characterized in that: comprise wireless communication module, signal transacting and feedback circuit, power-switching circuit, described wireless communication module comprises chip U1, chip U2, chip U3, chip U4, chip U5, chip U6, resistance R1, resistance R2, the pin 1 of resistance R3, described chip U1 connects the pin 2 of chip U4, one end of its pin 2 connecting resistance R1, the pin 1 of chip U5, its pin 3 connects the pin 1 of chip U3, one end of resistance R2, its pin 4 connects the pin 6 of chip U3, one end of resistance R3, its pin 5 connects the pin 2 of chip U2, its pin 6 connects the pin 1 of chip U2, pin 1 ground connection of described chip U4, and its pin 3 meets supply voltage VCC, the pin 2 of described chip U5 meets supply voltage VCC, the other end ground connection of described resistance R1, another termination supply voltage VCC of described resistance R2, pin 2 ground connection of described chip U3, its pin 5 connecting resistance be R3's and the other end and ground connection, and the pin 3 of described chip U2 connects its pin 4, its pin 5 and ground connection, its pin 6 connects the pin 1 of chip U6, and the pin 2 of described chip U6 connects its pin 3, its pin 4, its pin 5 and ground connection, described signal transacting and feedback circuit comprise chip U7, interface J1, resistance R4, resistance R5, resistance R6, resistance R7, resistance R8, resistance R9, resistance R10, resistance R11, resistance R12, resistance R13, electric capacity C1, electric capacity C2, electric capacity C3, electric capacity C4, electric capacity C5, the pin 1 of electric capacity C6, described chip U7 connects its pin 8, its pin 11, the pin 1 of interface J1, one end of resistance R4, one end of resistance R10, one end of resistance R9, the other end of its pin 2 connecting resistance R4, the other end of its pin 3 connecting resistance R5, one end of its pin 5 connecting resistance R6, the other end of its pin 6 connecting resistance R6, one end of resistance C1, the other end of its pin 9 connecting resistance R10, the other end of its pin 10 connecting resistance R9, one end of its pin 12 connecting resistance R8, one end of electric capacity C3, the other end of its pin 13 connecting resistance R8, one end of its pin 14 connecting resistance R11, one end of electric capacity C4, the pin 2 of interface J1, one end of resistance R13, one end of resistance C6, its pin 15 connects one end of electric capacity C7, and its pin 16 connects the other end of electric capacity C7, one end of another termination capacitor C2 of described resistance R5, the other end of another termination capacitor C1 of described electric capacity C2, one end of electric capacity C5, one end of resistance R13, one end of electric capacity C6, the pin 3 of interface J1, the other end of the other end connecting resistance R11 of described electric capacity C3, one end of the other end connecting resistance R7 of described electric capacity C4, the other end of the other end connecting resistance R12 of described resistance R7, the other end of another termination capacitor C5 of described resistance R12, described power-switching circuit comprises chip U39, chip U23, chip MI, interface J11, interface J22, the pin 1 of the pin 1 connection interface J11 of described chip U39, the pin 2 of its pin 2 connection interface J11 and pin 3, its pin 3 meets electric capacity C31, electric capacity C39, electric capacity C32, one end of electric capacity C33 and the pin 2 of chip U25, its pin 4 connects 1 end of fuse F1, and the pin 1 of described chip U25 meets electric capacity C31, electric capacity C39, electric capacity C32, the other end of electric capacity C33 and 2 ends of fuse F1 and connect 5V voltage, its pin 2 meets electric capacity C34, electric capacity C35, one end of electric capacity C36 and inductance R21 and ground connection, its pin 3 meets electric capacity C34, electric capacity C35, the other end of electric capacity C36, connect 5V voltage, the other end of another termination inductance R21 of described light emitting diode D23 with one end of light emitting diode D23.
Described chip U1 selects the radio frequency chip of CC2530 model.
Described chip U2 selects the chip of 2450BM model.
Described chip U3 selects the chip of SHT21 model.
Described chip U7 selects the chip of BIS0001 model.
Described chip U23 selects model to be MIC29150 chip.
The beneficial effects of the utility model are:
1 this patent is by the strict monitoring of energy consumption equipment and management, realizes the managing power consumption of modern city residential block and the energy consumption monitoring function of hommization robotization.
ZigBee wireless network in the wireless communication module of 2 this patents comprises a large amount of sensor nodes, and each node is substantially all power with the battery carrying finite energy, therefore for the hardware circuit of each design of node should reduce the consumption of electric energy as far as possible, and then the effect of low-power consumption is reached.
3 this patents establish ZigBee wireless sense network, its networking flexibility, are convenient to monitor in real time the environment of each position of building, and comprise temperature, humidity, intensity of illumination and human body infrared information, the parameter obtained comes optimal control central air conditioner and illuminator.
The design of 4 this patents, can greatly reduce the energy consumption of building, and working environment can be allowed more comfortable.And building low-carbon energy-saving more can be made, this will bring certain economic benefit.
The signal transacting of 5 this patents and feedback circuit conceptual design, can save the energy consumption of node on the one hand, can monitor the parameter of building environment on the other hand in real time, so that effective in real time control is carried out in the real-time central air conditioner to entire building space and illumination.
Accompanying drawing explanation
Fig. 1 is structural drawing of the present utility model;
Fig. 2 is wireless communication module circuit theory diagrams of the present utility model;
Fig. 3 is signal transacting of the present utility model and feedback circuit schematic diagram;
Fig. 4 is power-switching circuit schematic diagram of the present utility model.
Embodiment
Below in conjunction with accompanying drawing, the utility model is described further:
Embodiment:
The present embodiment comprises: wireless communication module (Fig. 2), signal transacting and feedback circuit (Fig. 3), power-switching circuit (Fig. 4).
In Fig. 2, wireless communication module comprises chip U1, chip U2, chip U3, chip U4, chip U5, chip U6, resistance R1, resistance R2, resistance R3, the pin 1 of chip U1 connects the pin 2 of chip U4, one end of its pin 2 connecting resistance R1, the pin 1 of chip U5, its pin 3 connects the pin 1 of chip U3, one end of resistance R2, its pin 4 connects the pin 6 of chip U3, one end of resistance R3, its pin 5 connects the pin 2 of chip U2, its pin 6 connects the pin 1 of chip U2, pin 1 ground connection of chip U4, its pin 3 meets supply voltage VCC, the pin 2 of chip U5 meets supply voltage VCC, the other end ground connection of resistance R1, another termination supply voltage VCC of resistance R2, pin 2 ground connection of chip U3, its pin 5 connecting resistance be R3's and the other end and ground connection, the pin 3 of chip U2 connects its pin 4, its pin 5 and ground connection, its pin 6 connects the pin 1 of chip U6, the pin 2 of chip U6 connects its pin 3, its pin 4, its pin 5 and ground connection.
In Fig. 3, signal transacting and feedback circuit comprise chip U7, interface J1, resistance R4, resistance R5, resistance R6, resistance R7, resistance R8, resistance R9, resistance R10, resistance R11, resistance R12, resistance R13, electric capacity C1, electric capacity C2, electric capacity C3, electric capacity C4, electric capacity C5, the pin 1 of electric capacity C6, chip U7 connects its pin 8, its pin 11, the pin 1 of interface J1, one end of resistance R4, one end of resistance R10, one end of resistance R9, the other end of its pin 2 connecting resistance R4, the other end of its pin 3 connecting resistance R5, one end of its pin 5 connecting resistance R6, the other end of its pin 6 connecting resistance R6, one end of resistance C1, the other end of its pin 9 connecting resistance R10, the other end of its pin 10 connecting resistance R9, one end of its pin 12 connecting resistance R8, one end of electric capacity C3, the other end of its pin 13 connecting resistance R8, one end of its pin 14 connecting resistance R11, one end of electric capacity C4, the pin 2 of interface J1, one end of resistance R13, one end of resistance C6, its pin 15 connects one end of electric capacity C7, and its pin 16 connects the other end of electric capacity C7, one end of another termination capacitor C2 of resistance R5, the other end of another termination capacitor C1 of electric capacity C2, one end of electric capacity C5, one end of resistance R13, one end of electric capacity C6, the pin 3 of interface J1, the other end of the other end connecting resistance R11 of electric capacity C3, one end of the other end connecting resistance R7 of electric capacity C4, the other end of the other end connecting resistance R12 of resistance R7, the other end of another termination capacitor C5 of resistance R12.
In Fig. 4, power-switching circuit comprises chip U39, chip U23, chip MI, interface J11, interface J22, the pin 1 of the pin 1 connection interface J11 of chip U39, the pin 2 of its pin 2 connection interface J11 and pin 3, its pin 3 meets electric capacity C31, electric capacity C39, electric capacity C32, one end of electric capacity C33 and the pin 2 of chip U25, its pin 4 connects 1 end of fuse F1, the pin 1 of chip U25 meets electric capacity C31, electric capacity C39, electric capacity C32, the other end of electric capacity C33 and 2 ends of fuse F1 and connect 5V voltage, its pin 2 meets electric capacity C34, electric capacity C35, one end of electric capacity C36 and inductance R21 and ground connection, its pin 3 meets electric capacity C34, electric capacity C35, the other end of electric capacity C36, connect 5V voltage with one end of light emitting diode D23, the other end of another termination inductance R21 of light emitting diode D23.
Utilize technical scheme described in the utility model, or those skilled in the art being under the inspiration of technical solutions of the utility model, designing similar technical scheme, and reach above-mentioned technique effect, is all fall into protection domain of the present utility model.
Claims (6)
1. an intelligent building energy-saving control system, is characterized in that: comprise wireless communication module, signal transacting and feedback circuit, power-switching circuit, described wireless communication module comprises chip U1, chip U2, chip U3, chip U4, chip U5, chip U6, resistance R1, resistance R2, the pin 1 of resistance R3, described chip U1 connects the pin 2 of chip U4, one end of its pin 2 connecting resistance R1, the pin 1 of chip U5, its pin 3 connects the pin 1 of chip U3, one end of resistance R2, its pin 4 connects the pin 6 of chip U3, one end of resistance R3, its pin 5 connects the pin 2 of chip U2, its pin 6 connects the pin 1 of chip U2, pin 1 ground connection of described chip U4, and its pin 3 meets supply voltage VCC, the pin 2 of described chip U5 meets supply voltage VCC, the other end ground connection of described resistance R1, another termination supply voltage VCC of described resistance R2, pin 2 ground connection of described chip U3, its pin 5 connecting resistance be R3's and the other end and ground connection, and the pin 3 of described chip U2 connects its pin 4, its pin 5 and ground connection, its pin 6 connects the pin 1 of chip U6, and the pin 2 of described chip U6 connects its pin 3, its pin 4, its pin 5 and ground connection, described signal transacting and feedback circuit comprise chip U7, interface J1, resistance R4, resistance R5, resistance R6, resistance R7, resistance R8, resistance R9, resistance R10, resistance R11, resistance R12, resistance R13, electric capacity C1, electric capacity C2, electric capacity C3, electric capacity C4, electric capacity C5, the pin 1 of electric capacity C6, described chip U7 connects its pin 8, its pin 11, the pin 1 of interface J1, one end of resistance R4, one end of resistance R10, one end of resistance R9, the other end of its pin 2 connecting resistance R4, the other end of its pin 3 connecting resistance R5, one end of its pin 5 connecting resistance R6, the other end of its pin 6 connecting resistance R6, one end of resistance C1, the other end of its pin 9 connecting resistance R10, the other end of its pin 10 connecting resistance R9, one end of its pin 12 connecting resistance R8, one end of electric capacity C3, the other end of its pin 13 connecting resistance R8, one end of its pin 14 connecting resistance R11, one end of electric capacity C4, the pin 2 of interface J1, one end of resistance R13, one end of resistance C6, its pin 15 connects one end of electric capacity C7, and its pin 16 connects the other end of electric capacity C7, one end of another termination capacitor C2 of described resistance R5, the other end of another termination capacitor C1 of described electric capacity C2, one end of electric capacity C5, one end of resistance R13, one end of electric capacity C6, the pin 3 of interface J1, the other end of the other end connecting resistance R11 of described electric capacity C3, one end of the other end connecting resistance R7 of described electric capacity C4, the other end of the other end connecting resistance R12 of described resistance R7, the other end of another termination capacitor C5 of described resistance R12, described power-switching circuit comprises chip U39, chip U23, chip MI, interface J11, interface J22, the pin 1 of the pin 1 connection interface J11 of described chip U39, the pin 2 of its pin 2 connection interface J11 and pin 3, its pin 3 meets electric capacity C31, electric capacity C39, electric capacity C32, one end of electric capacity C33 and the pin 2 of chip U25, its pin 4 connects 1 end of fuse F1, and the pin 1 of described chip U25 meets electric capacity C31, electric capacity C39, electric capacity C32, the other end of electric capacity C33 and 2 ends of fuse F1 and connect 5V voltage, its pin 2 meets electric capacity C34, electric capacity C35, one end of electric capacity C36 and inductance R21 and ground connection, its pin 3 meets electric capacity C34, electric capacity C35, the other end of electric capacity C36, connect 5V voltage, the other end of another termination inductance R21 of described light emitting diode D23 with one end of light emitting diode D23.
2. a kind of intelligent building energy-saving control system according to claim 1, is characterized in that: described chip U1 selects the radio frequency chip of CC2530 model.
3. a kind of intelligent building energy-saving control system according to claim 1, is characterized in that: described chip U2 selects the chip of 2450BM model.
4. a kind of intelligent building energy-saving control system according to claim 1, is characterized in that: described chip U3 selects the chip of SHT21 model.
5. a kind of intelligent building energy-saving control system according to claim 1, is characterized in that: described chip U7 selects the chip of BIS0001 model.
6. a kind of intelligent building energy-saving control system according to claim 1, is characterized in that: described chip U23 selects model to be MIC29150 chip.
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CN201420512176.0U CN204215232U (en) | 2014-09-05 | 2014-09-05 | A kind of intelligent building energy-saving control system |
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CN201420512176.0U CN204215232U (en) | 2014-09-05 | 2014-09-05 | A kind of intelligent building energy-saving control system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105204565A (en) * | 2015-10-13 | 2015-12-30 | 华北电力大学(保定) | Schedulable load high-grade measuring and controlling terminal |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105204565A (en) * | 2015-10-13 | 2015-12-30 | 华北电力大学(保定) | Schedulable load high-grade measuring and controlling terminal |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150318 Termination date: 20150905 |
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EXPY | Termination of patent right or utility model |