CN105867205A - Panoramic holographic building energy efficiency information collection system based on internet of things - Google Patents

Abstract

The invention relates to the fields of environment, communication, power and the like, and discloses a panoramic holographic building energy efficiency information collection system based on internet of things. The energy efficiency information collection system comprises a panoramic holographic electric energy efficiency information collection system, a panoramic holographic water energy efficiency information collection system, a panoramic holographic environment parameter collection system and a building gateway. Through mixed networking of a wireless network and wired communication, identification of a terminal device and energy consumption of an actor is acquired, the building energy efficiency information is collected truly and high efficiently, and an effective database based on action energy consumption is built. Based on analysis on the energy consumption data in the database, a management system supporting flexible, quick, accurate and automatic feedback decision making is supported, a training mechanism for the energy consumption actions becomes possible, the energy efficiency of the energy consumption device and the energy consumption use actions is finally improved, and meanwhile, the user can carry out external access and remote control via the building gateway, and the energy consumption setting is timely adjusted to realize advanced business such as real energy conservation and emission reduction.

Description

A kind of panorama holography building efficiency information acquisition system based on Internet of Things

Technical field

The present invention relates to the fields such as environment, communication, electric power, be related specifically to a kind of panorama holography building efficiency information acquisition system based on Internet of Things.

Background technology

The increase to energy demand due to energy resource consumption aggravation and social development, improves efficiency and has become as the focus in current energy source use field.Along with sensor technology, the development of the basic technologies such as computer technology and its cross discipline--the development of technology of Internet of things, the efficiency data monitoring of single angle and the research of energy efficiency management technology have been widely applied, especially for the monitoring and control of electric energy in Smart Home.But the energy consumption within building, is not only the consumption of electric energy, further comprises water energy, luminous energy etc..Control simultaneously for electric energy energy consumption, mainly by information gathering based on electricity and control.But for the control of power consumption, need other parameter to carry out the decision-making of high energy efficiency.Such as control decision backlighted to building, it is necessary to the ambient parameter of inside and outside illumination.At present the senior control to energy consumption equipment, the most systematic energy efficiency management proposed according to different scene demands are depended on for energy efficiency management.The most important thing is, at present the most not the behavior of the raiser of manned system to the administrative model of energy consumption and mechanism, how by energy consumption data acquisition based on people's behavior, analyze and management, set up energy efficiency management model based on people's behavior, thus for realizing the purpose of energy-saving and emission-reduction to guide behavior correct, high energy efficiency the most very meaningful.

Summary of the invention

It is an object of the invention to provide a kind of panorama holography building efficiency information acquisition system based on Internet of Things, defined by system scenarios formula, carry out the consumption information that efficient and system acquisition is useful, set up scene-type efficiency database；Obtain terminal device energy consumption and the identification of actor's energy consumption by combining, set up Behavior-based control energy consumption efficiency database；Arranged net by the mixing of wireless network and wire communication, both wire communication mode had been utilized to improve the reliability of critical data, there is the communication feature without geographical restrictions that make use of advanced radio network, simultaneously by the definition of scene, reasonably select parameter and the communication protocol of required transmission, thus reduce the power consumption of wireless network further.Based on system energy consumption data acquisition, real-time Transmission, the communication network of high reliability low-power consumption simultaneously, for supporting that the management system of the most accurate sensitive automation feedback decision-making provides strong support, by the judgement to behavior high energy consumption, the training airplane making energy consumption behavior is made for possibility, final raising energy consumption equipment and the efficiency of energy consumption usage behavior, realizes the higher level services such as real energy-saving and emission-reduction.The data of internal system are processed and analyze by building gateway simultaneously, provide external interface simultaneously, support the Premium Features such as outside access and long-range control.

In order to realize goal of the invention, the solution of the present invention is: a kind of panorama holography building efficiency information acquisition system based on Internet of Things, including panorama holography electric energy efficiency information acquisition system, panorama holography water energy efficiency information acquisition system, panorama holographic environment parameter acquisition system and building gateway system.

Accompanying drawing explanation

Accompanying drawing is a kind of panorama holography building efficiency information acquisition system structural representation based on Internet of Things.

Detailed description of the invention

The panorama holography building energy efficiency management system of this invention is as it can be seen, be made up of panorama holography electric energy efficiency information acquisition system, panorama holography water energy efficiency information acquisition system, panorama holographic environment parameter acquisition system and building gateway.The data that each system acquisition is corresponding, and it is uploaded to building gateway, provide, for high-level service such as energy efficiency managements, functions such as supporting and support outside access.

Panorama holography electric energy efficiency information acquisition system includes smart jack and electric energy efficiency information collecting center.Electric energy efficiency gathers the communication network being responsible for being formed smart jack in center and is managed and controls；Smart jack information is received, analyzes and process, is used for supporting high-level service；Simultaneously with building gateway interaction data, thus support that external user passes through public network for the access of data and use.

Smart jack includes acquiring electric energy information unit, energy information communication unit and the hard control unit of electric energy (hard control unit).

Described acquiring electric energy information unit includes smart jack identity information module, electric energy energy consumption identification module and electric energy energy consumption measurement module.Smart jack identity information module is this unique encodings within efficiency information acquisition system of the RFID internal memory of write jack configurations, comprises the electric parameter of this socket, positional information and Asset Attributes, meeting write into Databasce when native system initializes.Notice that this positional information supports two kinds of forms, the geographical location information that socket is actual, such as precision and latitude etc., and location based on system information, such as layer position, office location, station position etc..

Described electric energy energy consumption identification module is the RFID reader of jack configurations, is used for identifying power consumption terminal identity information, electric energy energy consumption behavioural information.Described power consumption terminal identity information includes the electric parameter of power consumption terminal belonging to native system, Asset Attributes etc., writes the unique encodings within this efficiency information acquisition system of the RFID internal memory of this power consumption terminating plug configuration；Described electric energy energy consumption behavioural information includes energy consumption behavioral agent information and energy consumption behavioural information, and wherein energy consumption behavioral agent information is by obtaining the RFID of the unique encodings of this internal system that energy consumption user is configured；When plug inserts smart jack, smart jack can read the RFID of plug, and is returned to gather center according to electric energy efficiency information, and performs the order of electric energy efficiency information collecting center passback.

Energy consumption behavioural information is by energy consumption main body, power consumption end message, and the information etc. such as power consumption state combines judgement.Such as it is charged when user carries a power consumption terminal not with plug RFID, user needs to use the public card with RFID of self on smart jack, after the label of legal RFID is identified, smart jack starts power supply, now according to electric current and the voltage of the power supply of power consumption terminal, estimate the behavior that user is charged, such as charging object judgement etc..

Voltage sensor, current sensor and the power calculators etc. that power consumption information can be configured by smart jack, obtain electric current, voltage and power etc. in real time at interior electric information.

Described smart jack is not limited only to a jack, and each jack can have unique coding, but can share reader and the electric energy energy consumption measurement sensor of the RFID of same smart jack.Simultaneously can be by inserting other smart jack, can be with the good measuring unit of shared with electric energy information communication unit or electric energy consumption between extension socket, but the identity information of socket is unique.

Energy information communication unit supports wired (electric power modem or fiber optic communication) and wireless (zigbee, wifi or bluetooth) two kinds of communication patterns and panorama holography energy efficiency management central control system interaction data.

The hard control unit of electric energy can perform to open and cut off the control function of power supply.

The function support of the hard control unit of electric energy of described smart jack supports that, based on two kinds of control models, contact starts and contactless startup.

Contact startup is inserted directly into this socket for power consumption object, obtain electric energy, when electrical equipment inserts jack, before starting power supply, the reader of RFID can start to read the RFID label tag of appliance plug, the electrical equipment identity information obtained, the i.e. coding information of plug, the coding information of self returns to acquiring electric energy information center or building gateway (if necessary) simultaneously, if center or gateway are recorded as legal use, after authentication is correct, start power supply, and measure in real time, record power consumption information.If illegal RFID label tag, more out of date than the identity of such label, or without label etc., by answering control unit to cut off circuit, stop power supply.

Contactless startup, the power consumption behavior startup of being suitable for is not from power consumption terminal, but third party such as power consumption actor triggers, infrared triggering.When this socket receives trigger command, start the RFID that RFID reader environs is newly-increased.And the electronic tag that will obtain, return to acquiring electric energy information center or building gateway (if necessary), confirm as replying.If authentication is correct, start power supply process by the hard control unit of controlling electric energy.

Described panorama holography water energy efficiency information acquisition system includes water energy efficiency collecting unit, water energy efficiency data communication units and water energy efficiency information collecting center.Water energy efficiency gathers center and is responsible for being received the data of water energy efficiency collecting unit collection, analyzes and support other high-level service, simultaneously with building gateway interaction data.

Described water energy efficiency information acquisition system includes water energy efficiency data acquisition unit, water energy efficiency data communication units and the water energy hard control unit of efficiency data.

Described water energy efficiency data acquisition unit includes water energy efficiency data acquisition unit identity information module, water energy energy consumption identification module and water energy consumption information measurement module.

Described water energy efficiency data acquisition unit identity information module is to write this unique encodings within efficiency information acquisition system of the built-in RFID internal memory of this module, comprises the technical parameter of this module, positional information and Asset Attributes etc..This positional information supports two kinds of forms, the geographical location information that collecting unit is actual, such as precision and latitude etc., and location based on system information, such as layer position, office location, station position etc..

Described water energy energy consumption identification is the RFID reader that this module is built-in, is used for identifying that water consumes terminal identity information, water energy usage behavior identity information.Described water consumption terminal identity information includes technical parameter, Asset Attributes etc., the unique encodings within this efficiency information acquisition system of the corresponding RFID internal memory writing this water consumption terminal interface；Described electric energy energy consumption behavioural information includes energy consumption behavioral agent information and energy consumption behavioural information, and wherein energy consumption behavioral agent information is by obtaining the RFID of the unique encodings of this internal system that energy consumption user is configured；Energy consumption behavioural information is by combining judgement to energy consumption actor's identity, energy consumption end message, power consumption state and other consumption information.

Described water energy consumption information obtains the water consumption data including including discharge, hydraulic pressure and water quality etc. by sensor measurement.

Described water energy efficiency information communication unit supports wired (electric power modem or fiber optic communication) and wireless (ZigBee, WIFI or bluetooth) two kinds of communication patterns and electric energy efficiency information collecting center interaction data, according to different water consumption terminal requirements and energy efficiency management requirement, water energy information is sent feedwater and consumption information can gather center.In order to reduce the cost of whole system, water energy efficiency information communication unit can share communication unit with neighbouring smart jack.

Described water hard control unit can perform to open and cut off the control function of water supply.

During described panorama holographic environment parameter acquisition system includes that ambient parameter collecting unit and ambient parameter gather.

The communication network that wherein ambient parameter collection center is responsible for being formed ambient parameter collecting unit is managed and controls；Ambient parameter collecting unit is gathered data receiver, analyzes and process, be used for supporting high-level service；Simultaneously with building gateway interaction data, thus support that external user passes through public network for the access of data and use.

Described panorama holographic environment monitoring subsystem includes ambient parameter collecting unit, ambient parameter data communication unit.

Described ambient parameter collecting unit collecting temperature, humidity, illumination, oxygen content etc. are in the ambient parameter of interior sign air quality.The corresponding unique encodings within a native system of the sensor that each ambient parameter is measured, comprises the identity information of sensor, positional information and use status information.This positional information supports two kinds of forms, the geographical location information that sensor is actual, such as precision and latitude etc., and location based on system information, such as layer position, office location, station position etc..

Described ambient parameter communication unit supports wired (electric power modem or fiber optic communication) and wireless (ZigBee, WIFI or bluetooth) two kinds of communication patterns and electric energy efficiency information collecting center interaction data.Communication unit can be shared with neighbouring smart jack.

Above content is to combine the further description that the present invention is done by concrete preferred embodiment; it cannot be assumed that the present invention be embodied as be only limitted to these explanations; for general technical staff of the technical field of the invention; without departing from the inventive concept of the premise; it is all right that many changes may be made, simple deduction or replace; it is regarded as being included within the scope of the claims contained, belongs to protection scope of the present invention.

Claims (13)

1. a panorama holography building efficiency information acquisition system based on Internet of Things, it is characterised in that described system includes:

Panorama holography electric energy efficiency information acquisition system: include within building and internal relevant building external panoramic view holographic Electric energy consumption information gathers, and provides major parameter to building electric energy energy efficiency management；

Panorama holography water energy efficiency information acquisition system: include within building and internal relevant building external panoramic view holographic Water energy consumption information gathers, and provides major parameter to building water energy energy efficiency management；

Panorama holographic environment parameter acquisition system: include within building and internal relevant building external panoramic view holography energy consumption The ambient parameter information collection that information gathering is relevant, such as luminous energy, temperature, humidity and air quality etc., it is used for as building efficiency The high-level service such as management provide necessary parameter；

Building gateway: to above-mentioned panorama holography efficiency information acquisition system interconnection networking, obtain above-mentioned panorama holography consumption information, Support the high-level service such as internal energy efficiency management control；Simultaneously as external interface, support and extraneous network interaction data.

A kind of panorama holography building efficiency information acquisition system based on Internet of Things the most according to claim 1, it is characterised in that:

Described panorama holography is defined as:

Based on personal behavior: consumption information produced by the behavior of Real-time Collection individual, set up based on personal behavior in administrative center Energy efficiency management database, statistics and analysis based on data, set up energy efficiency management model based on personal behavior, it is provided that energy-conservation The data source of the high-level service such as reduction of discharging；

Based on area of space: definition socket, station, office, Administrative Area and the consumption information collection of non-Administrative Area, pass Defeated and management system, by the statistics and analysis for region energy consumption data, set up energy efficiency management model based on region and efficiency Management database, it is provided that the data source of the high-level service such as energy-saving and emission-reduction；

Based on time zone: be defined as working time region, working time discontiguous area, the consumption information in non-working time region Gather, transmit and management system, according to different time zones, define different Real-time Collection frequencies, gather range of information, The network architectures etc., by the statistics and analysis for region energy consumption data, set up energy efficiency management model based on region and efficiency pipe Reason database, it is provided that the data source of the high-level service such as energy-saving and emission-reduction.

A kind of panorama holography building efficiency information acquisition system based on Internet of Things the most according to claim 1, it is characterised in that:

Described panorama holography electric energy efficiency information acquisition system includes smart jack and electric energy efficiency information collecting center.Electric energy efficiency The communication network that information collecting center is responsible for being formed smart jack is managed and controls；Smart jack information is received, divides Analysis and process, be used for supporting high-level service；Simultaneously with building gateway interaction data, thus support that external user passes through public network Access and use for data.

A kind of panorama holography building efficiency information acquisition system based on Internet of Things the most according to claim 3, it is characterised in that:

Described smart jack includes acquiring electric energy information unit, energy information communication unit and electric energy hard control unit (hard control unit)；

Described acquiring electric energy information unit includes smart jack identity information module, electric energy energy consumption identification module and electric energy energy consumption Measurement module；

Described smart jack identity information module is the unique encodings within electric energy efficiency information acquisition system, comprises the electricity of this socket Gas parameter, positional information and Asset Attributes.This positional information supports two kinds of forms, the geographical location information that socket is actual, such as Precision and latitude etc., and location based on system information, such as layer position, office location and station position etc.；

Described electric energy energy consumption identification module is the RFID reader of jack configurations, is used for identifying power consumption terminal identity Information, electric energy energy consumption behavioural information；

Described power consumption terminal identity information includes the electric parameter of power consumption terminal belonging to building inside, Asset Attributes etc., for write The unique encodings within this efficiency information acquisition system of the RFID internal memory of this power consumption terminating plug configuration；Described electric energy Energy consumption behavioural information includes energy consumption behavioral agent information and energy consumption behavioural information, and wherein energy consumption behavioral agent information is by making energy consumption The RFID of the unique encodings of this internal system that user is configured obtains；Energy consumption behavioural information by energy consumption main body, The information consolidations such as power consumption end message and power consumption state judge；

Described power consumption information including electric current, voltage and power etc. including electric information；

Described smart jack can expand to Intelligent socket, can be with shared with electric energy information communication unit between socket, but the body of socket Part information is unique.

A kind of panorama holography building efficiency information acquisition system based on Internet of Things the most according to claim 4, it is characterised in that:

Described energy information communication unit support wired (electric power modem or fiber optic communication) and wireless (ZigBee, WIFI or Bluetooth) two kinds of communication patterns and electric energy efficiency information collecting center interaction data.

A kind of panorama holography building efficiency information acquisition system based on Internet of Things the most according to claim 4, it is characterised in that:

The hard control unit of described electric energy can perform to open and cut off the control function of power supply.

A kind of panorama holography building efficiency information acquisition system based on Internet of Things the most according to claim 1, it is characterised in that:

Described panorama holography water energy efficiency information acquisition system include water energy efficiency collecting unit, water energy efficiency data communication units and Water energy efficiency information collecting center.Water energy efficiency gathers center and is responsible for being received the data of water energy efficiency collecting unit collection, Analyze and support other high-level service, simultaneously with building gateway interaction data.

A kind of panorama holography building energy efficiency management system based on Internet of Things the most according to claim 7, it is characterised in that:

Described water energy efficiency information acquisition system includes water energy efficiency data acquisition unit, water energy efficiency data communication units and water energy The hard control unit of efficiency data；

Described water energy efficiency data acquisition unit includes that water energy efficiency data acquisition unit identity information module, water energy energy consumption identity are known Other module and water energy consumption information measurement module；

Described water energy efficiency data acquisition unit identity information module is the unique volume within write this module efficiency information acquisition system Code, comprises the technical parameter of this module, positional information and Asset Attributes etc..This positional information supports two kinds of forms, collecting unit Actual geographical location information, such as precision and latitude etc., and location based on system information, such as layer position, office position Put, station position etc.；

Described water energy energy consumption identification is the RFID reader that this module is built-in, is used for identifying water consumption terminal identity letter Breath, water energy usage behavior identity information. described water consumption terminal identity information includes that technical parameter, Asset Attributes etc., correspondence write this The unique encodings within this efficiency information acquisition system of the RFID internal memory of water consumption terminal interface；Described electric energy energy consumption row Including energy consumption behavioral agent information and energy consumption behavioural information for information, wherein energy consumption behavioral agent information is by energy consumption user institute The RFID of the unique encodings of this internal system of configuration obtains；Energy consumption behavioural information is by energy consumption main body, power consumption End message, the information consolidation such as power consumption state judges；

Described water energy consumption information is obtained by sensor measurement and includes discharge, hydraulic pressure, and the time etc. consumes data at interior water.

9. a kind of panorama holography building energy efficiency management system based on Internet of Things according to claim 4 described in, it is characterised in that:

Described water energy efficiency information communication unit supports wired (electric power modem or fiber optic communication) and wireless (ZigBee, WIFI Or bluetooth) two kinds of communication patterns and electric energy efficiency information collecting center interaction data.Communication unit can be shared with neighbouring smart jack Unit.

10. a kind of panorama holography building energy efficiency management system based on Internet of Things according to claim 4 described in, it is characterised in that:

Described water hard control unit can perform to open and cut off the control function of water supply.

11. a kind of panorama holography building efficiency information acquisition systems based on Internet of Things according to claim 1, it is characterised in that:

Described panorama holographic environment parameter acquisition system includes that ambient parameter collecting unit and ambient parameter gather center.Wherein environment The communication network that parameter acquisition center is responsible for being formed ambient parameter collecting unit is managed and controls；To ambient parameter collection Unit gathers data receiver, analyzes and process, and is used for supporting high-level service；Simultaneously with building gateway interaction data, thus support External user by public network for the access of data and use.

12. a kind of panorama holography building efficiency information acquisition systems based on Internet of Things according to claim 11, it is characterised in that:

Described panorama holographic environment monitoring subsystem includes ambient parameter collecting unit, ambient parameter data communication unit；

Described ambient parameter collecting unit collecting temperature, humidity, illumination and oxygen content etc. are joined at the environment of interior sign air quality Number.The corresponding unique encodings within a native system of the sensor that each ambient parameter is measured, comprises the identity letter of sensor Breath, positional information and use status information.This positional information supports two kinds of forms, the geographical location information that sensor is actual, example Such as precision and latitude etc., and location based on system information, such as layer position, office location, station position etc..

13. a kind of panorama holography building efficiency information acquisition systems based on Internet of Things according to claim 11, it is characterised in that:

Described ambient parameter communication unit support wired (electric power modem or fiber optic communication) and wireless (ZigBee, WIFI or Bluetooth) two kinds of communication patterns and electric energy efficiency information collecting center interaction data.Communication unit can be shared with neighbouring smart jack.