CN102866691A - Energy control system using internet of things - Google Patents
Energy control system using internet of things Download PDFInfo
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- CN102866691A CN102866691A CN 201210344869 CN201210344869A CN102866691A CN 102866691 A CN102866691 A CN 102866691A CN 201210344869 CN201210344869 CN 201210344869 CN 201210344869 A CN201210344869 A CN 201210344869A CN 102866691 A CN102866691 A CN 102866691A
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Abstract
The invention discloses an energy control system using an internet of things. The system comprises a monitoring module, a data processing central system and an energy control terminal; the monitoring module is connected with an energy dissipation device and used for timely monitoring and obtaining working parameter data of the energy dissipation device, and sending out the working parameter data according to a network transport protocol; the data processing central system is used for receiving, storing and analyzing the working parameter data and then sending out a working mode regulating command; and the energy control terminal is connected with the data processing central system and the energy dissipation device and used for receiving the working mode regulating command and controlling the working mode of the energy dissipation device. The data processing central system disclosed by the invention can timely receive the working parameter data collected by the monitoring module on multiple energy dissipation devices and timely monitor working parameters of the multiple energy dissipation devices, and is suitable for a central system formed through the combination of multiple energy dissipation devices, such as a central system of a central air-conditioner and the like.
Description
Technical field
The present invention relates to a kind of energy control system, particularly a kind of energy control system that uses technology of Internet of things.
Background technology
The definition of Internet of Things (Internet of Things) is by information sensing equipment such as radio-frequency (RF) identification (RFID), infrared inductor, GPS, laser scanners, agreement by agreement, any article are connected with the internet, carry out message exchange and communicate by letter, to realize a kind of network to intellectuality identification, location, tracking, monitoring and the management of article.By various information sensing equipment, such as various devices and technology such as sensor, radio-frequency (RF) identification (RFID) technology, GPS, infrared inductor, laser scanner, gas sensors, Real-time Collection is any to be needed to monitor, connect, interactive object or process, gather the information of the various needs such as its, light, heat, electricity, mechanics, chemistry, biology, position, agreement by agreement, any article are connected with the internet, carry out message exchange and communicate by letter, to realize a kind of network to intellectuality identification, location, tracking, monitoring and the management of article.
At present, the whole world all is in the state of energy scarcity, and energy savings has very important significance for the sustainable development of China.Want energy savings, just must reasonably utilize the limited energy, accomplish that with regard to requiring the waste with without reason reduces to minimum, need to carry out the power consumption Real-Time Monitoring and control in real time consumer, can be according to the required load of reality, intelligence is regulated the running status of energy consumption equipment, reaches energy-conservation purpose.
Energy-saving metering and Energy Saving Control are that Energy-saving Projects is achieved the key with sustainable development.For realizing that both are in conjunction with being used for a cover energy conserving system, Chinese utility model patent CN202331159U discloses a kind of intelligent and energy saving system based on Internet of Things, comprise energy management socket and energy monitor terminal, described energy management socket connects consumer and energy monitor terminal.Described energy management socket comprises power module, metering module, control module, communication module and data memory module; Described metering module, communication module, data memory module are connected with control module, and described power module connects metering module and control module.Described energy monitor terminal comprises main control module, interface module, wireless radio frequency modules, touch screen module, data memory module, GSM/GPRS module; Described interface module, wireless radio frequency modules, touch screen module, data memory module, GSM/GPRS module all connect main control module.This utility model is by the electricity consumption situation real time measure of energy management socket to consumer, and will measure the result and be uploaded to the energy monitor terminal, is convenient to user's inquiry and analysis; The user can assign the order that the mode of operation to consumer arranges to the energy management socket by the energy monitor terminal, and is energy-conservation to realize; This combines this utility model with in real time control with real time measure, really plays the purpose of energy efficient.But there is following shortcoming in this utility model: (1) energy management socket can only couple together a consumer and energy monitor terminal, the power consumption of a consumer of Real-Time Monitoring, be not suitable for the centring system that a plurality of consumers mutually combine and consist of, such as the centring system of central air conditioner; (2) metering module of energy management socket can only be to the electricity consumption situation real time measure of consumer, can not measure other operational factors of consumer, such as temperature (comprising environment temperature, device temperature etc.), humidity, frequency etc., Metrology Project is single, does not utilize the mode of operation of fine adjustment consumer; (3) this utility model is assigned energy-conservation instruction to the energy management socket by the user, to regulate the mode of operation of consumer, this just requires the user to keep before the energy monitor terminal always, the Real Time Observation monitoring result, then control, do not accomplish completely intelligent power saving, lose time and human cost.
For solving the problems of the technologies described above, but need to provide the operational factor of a plurality of energy consumption equipments of a kind of Real Time Monitoring, the energy control system of Based Intelligent Control energy consumption equipment mode of operation.
Summary of the invention
Technical matters for above-mentioned existence the objective of the invention is: proposed a kind of energy control system that uses technology of Internet of things, the operational factor of a plurality of energy consumption equipments of Real Time Monitoring, Based Intelligent Control energy consumption equipment mode of operation.
Technical solution of the present invention is achieved in that a kind of energy control system that uses technology of Internet of things, comprises the energy control terminal, also comprises:
The monitoring modular that is connected with energy consumption equipment, Real-Time Monitoring obtain the running parameter data of energy consumption equipment, and send described running parameter data according to the network transmission protocol;
The system of data processing centre (DPC) receives, stores and the described running parameter data of analyzing and processing, sends mode of operation and adjusts instruction;
Described energy control terminal connection data processing enter system and energy consumption equipment receive described mode of operation and adjust instruction, and the mode of operation of control energy consumption equipment.
The energy control system of above-mentioned utilization technology of Internet of things also comprises: the remote monitoring terminal by the wireless network transmissions agreement is connected with system of described data processing centre (DPC) receives the described running parameter data of being transmitted by data processing centre (DPC).
In the technique scheme, described monitoring modular comprises:
The sensor module, the running parameter signal of Real-time Collection energy consumption equipment generates running parameter data and output after processing;
Communication module is outwards sent described running parameter data according to the network transmission protocol.
In the technique scheme, described energy control terminal comprises:
Power module;
Communication module receives in real time and transmits described mode of operation and adjusts instruction;
Control module receives the mode of operation adjustment instruction that described communication module transmission comes, and the mode of operation of control energy consumption equipment.
In the technique scheme, system of described data processing centre (DPC) comprises:
Receiver module receives described running parameter data;
Data center is used for storage and the described running parameter data of pre-service;
Analyzing and alarming system, the data analysis to receiving from described data center carries out early warning to the non-normal working pattern of energy consumption equipment;
Responsing center generates described mode of operation according to the analysis result of analyzing and alarming system and adjusts instruction;
Communication interface sends described mode of operation to the energy control terminal and adjusts instruction, sends the data of described data center to remote monitoring terminal by the wireless network transmissions agreement.
Preferably, described energy consumption equipment comprises 1#, the 2# cooling tower in the Hotels with Central Air-Condition centring system, 1#, 2# cooling pump, 1#, 2# refrigerating water pump, 1#, 2# main frame.But energy consumption equipment is not limited to combinations thereof, can increase and decrease according to actual conditions.
In the technique scheme, with described 1#, 2# cooling tower, 1#, 2# cooling pump, the sensor of each monitoring modular that 1#, 2# refrigerating water pump connect comprises voltage sensor, current sensor, power sensor and frequency sensor; The energy control terminal that is connected with described 1#, 2# cooling pump is frequency converter.
Further technical scheme, described frequency converter is provided with the RS485 communication module, is connected with system of described data processing centre (DPC) by the MODBUS communications protocol.
In the technique scheme, the monitoring modular that is connected with described 1#, 2# main frame comprises the water trap water intake end on the cooling tower water side be located on the chilled(cooling) water return (CWR), cooling tower water intake end, the chilled water circuit, the temperature sensor of water collector water side.
In the technique scheme, be located at signal collection that each temperature sensor of cooling tower water side, cooling tower water intake end, water trap water intake end, water collector water side collects in the RIC vasculum, this RIC vasculum is connected with system of described data processing centre (DPC).
Because the utilization of technique scheme, the present invention compared with prior art has following advantages:
1, system of data processing centre (DPC) of the present invention receives the running parameter data that the monitoring modular on many energy consumption equipments gathers in real time, the running parameter of many energy consumption equipments of Real-Time Monitoring, be applicable to the centring system that a plurality of energy consumption equipments mutually combine and consist of, such as the centring system of central air conditioner etc.
2, the sensor of monitoring modular of the present invention can be to real time measures such as the voltage of energy consumption equipment, electric current, power, frequency, temperature, appropriateness, the Metrology Project variation, after being beneficial to the real work pattern of comprehensively, accurately analyzing energy consumption equipment, according to the required load of reality, intelligence is regulated the running status of energy consumption equipment, reaches energy-conservation purpose.
3, the present invention can be by the analyzing and alarming system of data processing centre (DPC), to the running parameter data analysis, and the responsing center by data processing centre (DPC) generates described mode of operation and adjusts instruction, then the communication interface by data processing centre (DPC) sends mode of operation adjustment instruction to the energy control terminal, realize the Based Intelligent Control of energy consumption equipment mode of operation, realize Real-Time Monitoring, in real time control fully, and greatly reduce human cost.
4, the present invention also comprises remote monitoring terminal, can be located at the present inventor place, and aspect inventor monitors ruuning situation of the present invention, and when breaking down, remote controlled client debugs, and it is convenient, rapid that fault solves.
Description of drawings
Below in conjunction with accompanying drawing technical solution of the present invention is described further:
Accompanying drawing 1 is the schematic diagram that the embodiment of the invention one is connected with energy consumption equipment;
Accompanying drawing 2 is the structured flowchart of embodiment one;
Accompanying drawing 3 is the embodiment block diagram of monitoring modular among the embodiment one;
Accompanying drawing 4 is the embodiment block diagram of energy control terminal among the embodiment one;
Accompanying drawing 5 is the embodiment block diagram of data processing centre (DPC) among the embodiment one.
Wherein, 1, monitoring modular; 10, sensor assembly; 11, communication module; 2, system of data processing centre (DPC); 20, receiver module; 21, data center; 22, analyzing and alarming system; 23, responsing center; 24, communication interface; 3, energy control terminal; 30, power module; 31, communication module; 32, control module; 4, remote monitoring terminal.
Embodiment
Below in conjunction with accompanying drawing the present invention is described.
Be depicted as a kind of energy control system that uses technology of Internet of things of the present invention such as accompanying drawing 1,2, be used for the energy control of each energy consumption equipment of Hotels with Central Air-Condition centring system, described energy consumption equipment comprises 1#, 2# cooling tower, 1#, 2# cooling pump, 1#, 2# refrigerating water pump, 1#, 2# main frame.
Described energy control system comprises:
The monitoring modular 1 that is connected with energy consumption equipment, Real-Time Monitoring obtain the running parameter data of energy consumption equipment, and send described running parameter data according to the network transmission protocol;
System of data processing centre (DPC) 2 receives, stores and the described running parameter data of analyzing and processing, sends mode of operation and adjusts instruction;
Energy control terminal 3, connection data processing enter system and energy consumption equipment receive described mode of operation and adjust instruction, and the mode of operation of control energy consumption equipment;
The environment monitoring module that is connected with system of described data processing centre (DPC), the outdoor weather parameters of Real-Time Monitoring is also sent described outdoor weather parameters data according to the network transmission protocol, comprises being installed on outdoor temperature sensor, humidity sensor and illuminance transducer;
Remote monitoring terminal 4 by the wireless network transmissions agreement is connected with system of described data processing centre (DPC) receives the described running parameter data of being transmitted by data processing centre (DPC).
As shown in Figure 3, described monitoring modular 1 comprises:
Sensor module 10, the running parameter signal of Real-time Collection energy consumption equipment generates running parameter data and output after processing;
Communication module 11 is outwards sent described running parameter data according to the network transmission protocol.
As shown in Figure 4, described energy control terminal 3 comprises:
Power module 30;
Communication module 31 receives in real time and transmits described mode of operation and adjusts instruction;
Control module 32 receives the mode of operation adjustment instruction that described communication module transmission comes, and the mode of operation of control energy consumption equipment.
As shown in Figure 5, system of described data processing centre (DPC) 2 comprises:
Receiver module 20 receives described running parameter data;
Data center 21 is used for storage and the described running parameter data of pre-service;
Analyzing and alarming system 22, the data analysis to receiving from described data center carries out early warning to the non-normal working pattern of energy consumption equipment;
Responsing center 23 generates described mode of operation according to the analysis result of analyzing and alarming system and adjusts instruction;
Communication interface 24 sends described mode of operation to the energy control terminal and adjusts instruction, sends the data of described data center to remote monitoring terminal by the wireless network transmissions agreement.
In the present embodiment, with described 1#, 2# cooling tower, 1#, 2# cooling pump, the sensor of each monitoring modular that 1#, 2# refrigerating water pump connect comprises voltage sensor, current sensor, power sensor and frequency sensor; The energy control terminal that is connected with described 1#, 2# cooling pump is frequency converter.Described frequency converter is provided with the RS485 communication module, is connected with system of described data processing centre (DPC) by the MODBUS communications protocol.
The monitoring modular that is connected with described 1#, 2# main frame comprises the water trap water intake end on the cooling tower water side be located on the chilled(cooling) water return (CWR), cooling tower water intake end, the chilled water circuit, the temperature sensor of water collector water side.
Be located at signal collection that each temperature sensor of cooling tower water side, cooling tower water intake end, water trap water intake end, water collector water side collects in the RIC vasculum, this RIC vasculum is connected with system of described data processing centre (DPC).
Because the utilization of technique scheme, the present invention compared with prior art has following advantages:
(1) system of data processing centre (DPC) of the present invention receives the running parameter data that the monitoring modular on many energy consumption equipments gathers in real time, the running parameter of many energy consumption equipments of Real-Time Monitoring, be applicable to the centring system that a plurality of energy consumption equipments mutually combine and consist of, such as the centring system of central air conditioner etc.
(2) sensor of monitoring modular of the present invention can be to real time measures such as the voltage of energy consumption equipment, electric current, power, frequency, temperature, appropriateness, the Metrology Project variation, after being beneficial to the real work pattern of comprehensively, accurately analyzing energy consumption equipment, according to the required load of reality, intelligence is regulated the running status of energy consumption equipment, reaches energy-conservation purpose.
(3) the present invention can be by the analyzing and alarming system of data processing centre (DPC), to the running parameter data analysis, and the responsing center by data processing centre (DPC) generates described mode of operation and adjusts instruction, then the communication interface by data processing centre (DPC) sends mode of operation adjustment instruction to the energy control terminal, realize the Based Intelligent Control of energy consumption equipment mode of operation, realize Real-Time Monitoring, in real time control fully, and greatly reduce human cost.
Above-described embodiment only is explanation technical conceive of the present invention and characteristics; its purpose is to allow the personage that is familiar with technique can understand content of the present invention and is implemented; can not limit protection scope of the present invention with this; all equivalences that Spirit Essence is done according to the present invention change or modify, and all should be encompassed in protection scope of the present invention.
Claims (10)
1. an energy control system that uses technology of Internet of things comprises the energy control terminal, it is characterized in that, also comprises:
The monitoring modular that is connected with energy consumption equipment, Real-Time Monitoring obtain the running parameter data of energy consumption equipment, and send described running parameter data according to the network transmission protocol;
The system of data processing centre (DPC) receives, stores and the described running parameter data of analyzing and processing, sends mode of operation and adjusts instruction;
Described energy control terminal connection data processing enter system and energy consumption equipment receive described mode of operation and adjust instruction, and the mode of operation of control energy consumption equipment.
2. the energy control system of utilization technology of Internet of things according to claim 1, it is characterized in that, also comprise: the remote monitoring terminal by the wireless network transmissions agreement is connected with system of described data processing centre (DPC) receives the described running parameter data of being transmitted by data processing centre (DPC).
3. the energy control system of utilization technology of Internet of things according to claim 1 and 2 is characterized in that, described monitoring modular comprises:
The sensor module, the running parameter signal of Real-time Collection energy consumption equipment generates running parameter data and output after processing;
Communication module is outwards sent described running parameter data according to the network transmission protocol.
4. the energy control system of utilization technology of Internet of things according to claim 1 and 2 is characterized in that, described energy control terminal comprises:
Power module;
Communication module receives in real time and transmits described mode of operation and adjusts instruction;
Control module receives the mode of operation adjustment instruction that described communication module transmission comes, and the mode of operation of control energy consumption equipment.
5. the energy control system of utilization technology of Internet of things according to claim 1 and 2 is characterized in that, system of described data processing centre (DPC) comprises:
Receiver module receives described running parameter data;
Data center is used for storage and the described running parameter data of pre-service;
Analyzing and alarming system, the data analysis to receiving from described data center carries out early warning to the non-normal working pattern of energy consumption equipment;
Responsing center generates described mode of operation according to the analysis result of analyzing and alarming system and adjusts instruction;
Communication interface sends described mode of operation to the energy control terminal and adjusts instruction; Send the data of described data center to remote monitoring terminal by the wireless network transmissions agreement.
6. the energy control system of utilization technology of Internet of things according to claim 1 is characterized in that, described energy consumption equipment comprises 1#, the 2# cooling tower in the Hotels with Central Air-Condition centring system, 1#, 2# cooling pump, 1#, 2# refrigerating water pump, 1#, 2# main frame.
7. the energy control system of utilization technology of Internet of things according to claim 6, it is characterized in that, with described 1#, 2# cooling tower, 1#, 2# cooling pump, the sensor of each monitoring modular that 1#, 2# refrigerating water pump connect comprises voltage sensor, current sensor, power sensor and frequency sensor; The energy control terminal that is connected with described 1#, 2# cooling pump is frequency converter.
8. the energy control system of utilization technology of Internet of things according to claim 7 is characterized in that, described frequency converter is provided with the RS485 communication module, is connected with system of described data processing centre (DPC) by the MODBUS communications protocol.
9. the energy control system of utilization technology of Internet of things according to claim 6, it is characterized in that, the monitoring modular that is connected with described 1#, 2# main frame comprises the water trap water intake end on the cooling tower water side be located on the chilled(cooling) water return (CWR), cooling tower water intake end, the chilled water circuit, the temperature sensor of water collector water side.
10. the energy control system of utilization technology of Internet of things according to claim 9, it is characterized in that, be located at signal collection that each temperature sensor of cooling tower water side, cooling tower water intake end, water trap water intake end, water collector water side collects in the RIC vasculum, this RIC vasculum is connected with system of described data processing centre (DPC).
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Cited By (7)
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CN103185372A (en) * | 2013-04-03 | 2013-07-03 | 谷振宇 | Internet of things heating and air conditioning energy-saving water-saving control system |
CN103236102A (en) * | 2013-05-02 | 2013-08-07 | 上海永天科技股份有限公司 | Intelligent building energy management system based on technology of internet of things |
WO2016116880A1 (en) * | 2015-01-22 | 2016-07-28 | Vijayakumar Prasanna Venkateswaran | INTERNET OF THINGS (IoT) LOAD ENERGY MANAGEMENT AND CONTROL BASED ON MULTI-DIMENSIONAL FREQUENCY SPECTRAL SIGNATURE |
CN107906687A (en) * | 2017-11-27 | 2018-04-13 | 中山路得斯空调有限公司 | A kind of central air-conditioning demand response control system based on local end's temperature adjustment |
CN109737490A (en) * | 2018-12-25 | 2019-05-10 | 浙江大学常州工业技术研究院 | A kind of wisdom heating system and heating method |
CN110988458A (en) * | 2019-12-18 | 2020-04-10 | 浙江图盛输变电工程有限公司温州科技分公司 | Energy consumption and energy efficiency analysis management platform based on Internet of things |
CN116795156A (en) * | 2023-08-28 | 2023-09-22 | 北京欧若拉极光科技有限公司 | Temperature control system of coffee cup |
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2012
- 2012-09-18 CN CN 201210344869 patent/CN102866691A/en active Pending
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103185372A (en) * | 2013-04-03 | 2013-07-03 | 谷振宇 | Internet of things heating and air conditioning energy-saving water-saving control system |
WO2014161505A1 (en) * | 2013-04-03 | 2014-10-09 | Gu Zhenyu | Internet of things control system for heating and energy and water saving of air conditioning |
CN103185372B (en) * | 2013-04-03 | 2015-06-10 | 谷振宇 | Internet of things heating and air conditioning energy-saving water-saving control system |
CN103236102A (en) * | 2013-05-02 | 2013-08-07 | 上海永天科技股份有限公司 | Intelligent building energy management system based on technology of internet of things |
WO2016116880A1 (en) * | 2015-01-22 | 2016-07-28 | Vijayakumar Prasanna Venkateswaran | INTERNET OF THINGS (IoT) LOAD ENERGY MANAGEMENT AND CONTROL BASED ON MULTI-DIMENSIONAL FREQUENCY SPECTRAL SIGNATURE |
CN107906687A (en) * | 2017-11-27 | 2018-04-13 | 中山路得斯空调有限公司 | A kind of central air-conditioning demand response control system based on local end's temperature adjustment |
CN109737490A (en) * | 2018-12-25 | 2019-05-10 | 浙江大学常州工业技术研究院 | A kind of wisdom heating system and heating method |
CN110988458A (en) * | 2019-12-18 | 2020-04-10 | 浙江图盛输变电工程有限公司温州科技分公司 | Energy consumption and energy efficiency analysis management platform based on Internet of things |
CN116795156A (en) * | 2023-08-28 | 2023-09-22 | 北京欧若拉极光科技有限公司 | Temperature control system of coffee cup |
CN116795156B (en) * | 2023-08-28 | 2024-03-12 | 北京欧若拉极光科技有限公司 | Temperature control system of coffee cup |
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