CN111736509A - Wisdom building control system based on thing networking - Google Patents

Abstract

The invention discloses an intelligent building control system based on the Internet of things, which comprises a cloud platform, an edge computing server layer, an edge control layer and a basic scene layer, wherein the cloud platform is used for storing a plurality of cloud computing servers; the cloud platform is communicated with the edge computing server layer, so that data interaction and whole-process tracing are realized; the edge calculation server layer is communicated with the edge control layer to acquire various equipment data of the edge control layer, process and analyze the equipment data and send out control signals to equipment in a basic scene layer; the edge control layer is communicated with the basic scene layer to acquire data of equipment in the basic scene and control the equipment in the basic scene; the basic scene layer comprises control modules of all areas in the building. According to the intelligent building control system based on the Internet of things, the control of the edge-side general equipment is realized on the basis of the Internet of things, the real-time control and remote control of the equipment can be facilitated, the expandability is large, and the remote control is convenient.

Description

Wisdom building control system based on thing networking

Technical Field

The invention belongs to the technical field of Internet of things, and particularly relates to an intelligent building control system based on the Internet of things technology.

Background

The industrial Internet of things aims at promoting the traditional industry to a new networking and intelligent stage, has the characteristics of real-time performance, openness and the like in application, and has the principle that different equipment machines are networked, the working condition state or the environmental information of the equipment is respectively obtained through a sensor or a controller on the equipment machines, the work efficiency and the energy consumption of the equipment are analyzed and optimized, and the equipment management and the feedback control are carried out; how to conveniently and effectively realize the remote control to equipment in the industry thing networking becomes a key problem, and traditional equipment control technology carrier, either software and hardware need special development and the singlechip controller of closely binding equipment, or the general PLC that but control software need special development of hardware, or the upper control machine that also needs the customization development control algorithm, the remote control of equipment has following shortcoming under this kind of industry internet environment:

1. the control algorithm of the equipment is solidified, the expandability is poor, the control algorithm is compiled aiming at specific equipment in advance, the control algorithm is solidified, once the control logic of the equipment is changed or new equipment is accessed, the control program needs to be rewritten, and therefore, the dynamic application requirement of the industrial Internet of things is difficult to adapt;

2. the remote cooperative control of multiple devices is difficult to realize, the compatibility is poor, the control of multiple devices in a single or limited area is realized by the traditional method that an upper computer sends a control instruction, the closed-loop control is usually performed in a local area network, the devices have discreteness and dynamics (new types of devices are added at any time) under the open environment of the industrial internet of things, and how to aim at mass sensors and devices is the current challenge in the cloud remote cooperative control of the devices;

3. the continuity of the remote control of the equipment is difficult to guarantee, the remote control mode of the equipment in the industrial internet of things at present is that a cloud server sends an equipment control instruction to a controller of the equipment, such as a single chip microcomputer controller or a PLC or a controller, so as to realize the control of a specific piece of equipment, and the control mode has poor interactivity and is difficult to realize the continuous remote control of the equipment.

Disclosure of Invention

The purpose of the invention is as follows: the invention aims to solve the defects in the prior art, and provides an intelligent building control system based on the Internet of things, which realizes edge-side universal equipment control on the basis of the Internet of things, can conveniently control equipment in real time and remotely, and has the advantages of high expandability and convenient remote control.

The technical scheme is as follows: the invention relates to an intelligent building control system based on the Internet of things, which comprises a cloud platform, an edge computing server layer, an edge control layer and a basic scene layer, wherein the cloud platform is used for storing a plurality of cloud computing servers;

the cloud platform is communicated with the edge computing server layer, so that data interaction and whole-process tracing are realized;

the edge calculation server layer is communicated with the edge control layer to acquire various equipment data of the edge control layer, process and analyze the equipment data and send out control signals to equipment in a basic scene layer;

the edge control layer is communicated with the basic scene layer to acquire data of equipment in the basic scene and control the equipment in the basic scene;

the basic scene layer comprises control modules of all areas in the building.

Further, the edge computing server layer comprises an edge computing server and basic data management tool software of the internet of things.

Further, the edge computing server layer and the edge control layer are communicated with each other through an MQTT internet of things protocol.

Further, the edge control layer includes a plurality of edge calculation control electronic box, thing networking frequency conversion module and thing networking block terminal.

Further, an edge computing control electric box is installed in the internet of things frequency conversion module and the internet of things distribution box.

Furthermore, the edge computing control electric box comprises a multifunctional Internet of things edge control module adopting an MQTT protocol, and the control module comprises an acquisition circuit, a communication circuit, a main control circuit and a power circuit.

Furthermore, the edge calculation control electronic box adopts a high-protection-level metal shell, and the spring terminal can be quickly plugged and pulled out, can reliably work in a complex electromagnetic environment, is used for intelligent monitoring, data acquisition and networked operation management of large electromechanical equipment and power distribution equipment, has a programmable function, and supports cloud program downloading.

Furthermore, the edge calculation control electronic box is also connected with a sensor, an intelligent control ball valve, an intelligent angular travel actuator, a touch panel, an NFC communication module and a remote control module.

Further, the basic scene layer comprises an air conditioning unit module, a refrigerating station module, an intelligent low-voltage distribution box, a ventilation and water supply and drainage module and an environment and safety management module.

Furthermore, the basic data management tool software of the internet of things realizes real-time data display, authority setting, safety management, individualized alarm rule customization and alarm processing flow of equipment, and can set a timed task to automatically schedule a preset event.

Has the advantages that: the invention has the following beneficial effects:

(1) the edge control equipment with unified universal standard is adopted to realize data transparency, and an Internet of things control scene is quickly built according to the equipment management requirements through modular control products with different functions, so that the Internet of things transformation of various electromechanical equipment is facilitated;

(2) the edge control equipment supports an MQTT protocol, has remote programming capability and high reliability, can run in a complex environment (such as near a frequency conversion or other strong interference sources), realizes control management on large electromechanical equipment such as a frequency converter, an intelligent instrument, a cold machine, a boiler, an elevator, a heat exchange unit and the like through an industrial field bus (such as MODBUS), and can realize control management on complex equipment or an equipment group by matching with other intelligent components;

(3) data with data labels directly generated by the edge control equipment thoroughly realize data transparency on the equipment facility level, facilitate cloud automation and high-efficiency data processing, and reduce the working strength of various application cleaning data;

(4) the system provides a professional Internet of things basic data management tool and corresponding local edge computing equipment, and the software can be deployed in the cloud and also supports local deployment;

(5) the intelligent processing system is adopted to organically combine the building electromechanical equipment, the low-voltage power distribution system and the intelligent control system together through a factory and intelligent production mode, the current electromechanical equipment power distribution facility and the intelligent control device are integrally designed and intelligently and quickly processed, and the debugging, cloud pre-deployment, intelligent assembly data integration, performance test and cloud pre-deployment of the control system are completed in the factory production stage, so that the current traditional engineering construction mode is changed into a standardized, modularized, productized and assembled construction mode, and the engineering quality and the production efficiency are revolutionarily improved;

(6) the method adopts a rich cloud environment project cooperation platform, which is a multidimensional cooperation space integrating design, production, engineering, debugging, operation and maintenance and management, and the platform can be used for realizing complete transparent management of projects and tracing the whole process of design, purchase, production, construction, delivery and operation and maintenance.

Drawings

FIG. 1 is a schematic diagram of the overall topology of one embodiment of the present invention;

FIG. 2 is a diagram illustrating an overall architecture of a data analysis management tool of a cloud platform according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of an edge control module according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of an edge control module according to an embodiment of the present invention;

FIG. 5 is a schematic diagram illustrating a control of an intelligent fan control box according to an embodiment of the present invention;

fig. 6 is a control schematic diagram of the intelligent water pump control distribution box in the embodiment of the invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

As shown in fig. 1, the smart building control system based on the internet of things in the present embodiment includes a cloud platform, an edge computing server layer, an edge control layer, and a basic scene layer. The intelligent building control system is an autonomous controllable new-generation Internet of things control system developed aiming at the requirements of future intelligent buildings and intelligent cities; the cloud-based internet of things management platform supports standard internet of things protocols, has good cloud adaptability, and can be fused with various cloud-based internet of things management platforms. The system provides a comprehensive solution of the Internet of things in the field of intelligent building control management.

The cloud platform is communicated with the edge computing server layer, and data interaction and whole-process tracing are achieved. The cloud platform adopts a rich cloud environment project cooperation platform, integrates multi-dimensional cooperation space of design, production, engineering, debugging, operation and maintenance and management, and can realize completely transparent management of projects, and the whole process of design, purchase, production, construction, delivery and operation and maintenance is traced by utilizing the platform.

In this embodiment, preferably, the edge computing server layer and the edge control layer communicate with each other through an MQTT internet of things protocol to acquire various device data of the edge control layer, process and analyze the device data, and send out a control signal for devices in the basic scene layer.

In this embodiment, the edge computing server layer includes a server and basic data management tool software of the internet of things. The intelligent building field edge computing device is software and hardware integrated intelligent building field edge computing equipment and is composed of professional Internet of things data processing software prefabricated by a locally deployed server, and the software acquires Internet of things control equipment data and has the data processing capacity according to various scene requirements. The tool software can realize control and coordination management among the Internet of things devices by creating data and objects and establishing logic relations among related data and objects, or exchange data with other cloud special applications. The method comprises the steps of realizing interface functions such as real-time table management, event management, alarm management and the like, providing report and chart establishing capabilities required by users, realizing visual monitoring requirements of the users by adopting a preset visual interface mode, and uniformly setting operation permissions of data according to the management requirements of different roles which may appear in the future.

The cloud platform and each application realize the association with data in the basic data management software in an object form through an interface function. Under the premise of not changing the data operation mode of the basic data processing software, the application can work within the authority range given by the basic data processing tool software. The tool software is a tool for implementing projects by professionals and a management tool for user management personnel.

The cloud platform provides a visual operation tool for the Internet of things control equipment for a user by butting equipment data information of the edge controller. The method mainly realizes real-time data display, authority setting, safety management, individualized alarm rules and alarm processing flows of the equipment, and can set the preset events (such as periodic report making, timed start and stop equipment and the like) of automatic scheduling of the timed tasks. In addition, the method supports the display and query of various charts, operation data, processing events and the like, is a convenient configuration tool and complete management application, and provides support for the control capability of the riser and the safety level of equipment.

The overall architecture of the data analysis management tool of the cloud platform is shown in fig. 2, and the main modules include the following parts:

a stream calculation engine: and receiving a message notification from the platform message queue to pull equipment data, processing the stream data in a multi-machine memory in a distributed manner, and performing real-time analysis, index statistics and report data generation. In addition, the stream engine and the rule engine are seamlessly integrated, and the data are matched with the rules configured in the rule engine to generate corresponding alarm and event information. Typical stream computation engines include Apache Flink and Spark.

A rule engine: the rule engine based on Apache Drools is used for configuring rules for generating alarms and events, and separating the rules from programs, thereby facilitating the customization and modification of the rules.

A workflow engine: the workflow engine based on Apache Activiti provides various functions such as timing, notification sending, receipt confirmation and the like according to different decision information, events, alarms and other processing flows and transfer routes of roles, division and conditions, and supports the BPMN standard, including important functions such as node management, flow direction management, flow sample management and the like of the flows.

Message queue: based on Kafka message queues, the publishing and subscribing of events and messages are provided, the decoupling of interaction relation among all components in the system is realized, and meanwhile, the functions of persistence and playback of the messages are provided.

A micro-service framework: the micro-service framework based on Spring Cloud provides multiple functions of micro-service registration, calling, management, routing, fusing and the like, the system micro-service mainly comprises three types of business micro-services, analysis micro-services and API micro-services, wherein the business micro-services are associated with business processing, such as energy consumption management, temperature control and the like, the analysis micro-services provide real-time analysis of data, batch statistics, report data generation and the like, and the API micro-services provide API interfaces for functions of equipment state query, event notification registration, equipment information acquisition and the like. The micro service gateway provides a secure connection based on HTTPS and realizes load balance of multiple connections.

A safety management module: and user authentication, authorization management and Session management functions are provided, and unified identity management and secondary authentication management of users among systems are realized.

A client: two client access modes of a browser and mobile equipment are provided, and various browsers and mobile phone platforms such as Chrome and Android are supported.

A storage system: a MongoDB database is adopted to support flexible change of schemas, and meanwhile, a relational database related to MySQL storage is also adopted. The data analysis management tool can directly subscribe equipment data and states, inquire a database and send and control commands in a downlink mode, and unified identity authentication and secondary authority management of users are achieved.

The software adopts the design idea of micro-service, selects Spring Cloud as a micro-service framework, and provides a whole set of solution for the architecture problem in the development of the micro-service system based on Spring Boot, such as service registration and discovery, service consumption, service protection and fusing, gateway, distributed calling and tracking, distributed configuration management and the like.

According to the design concept of the micro-services and the functional requirements of the platform, the platform is divided into 19 background micro-services, which comprise the following steps: the system comprises a data subscription consumption service, a real-time equipment data processing service, a real-time index calculation and display service, an equipment data management service, an object management service, an event management service, a data analysis service, a point location monitoring service, a rule configuration management service, a time scheduling service, a workflow service, an event processing service, an instruction issuing service, a clock synchronization service, an alarm notification service, a message service, a file uploading service, a log service and an authority control service.

In this embodiment, the edge control layer communicates with the basic scene layer to obtain data of devices in the basic scene, so as to control the devices in the basic scene.

In this embodiment, as shown in fig. 1, according to the setting of the basic scene, the edge control layer includes a plurality of edge calculation control electronic boxes, an internet of things frequency conversion module, and an internet of things power distribution box. Wherein, all install the edge calculation control electronic box in thing networking frequency conversion module and the thing networking block terminal, in short, according to the basic scene control requirement of matching, can select directly to carry out direct control through the edge calculation control electronic box to equipment in the scene, also can adopt and combine together the control that realizes the pluralism with block terminal or frequency conversion module.

In this embodiment, preferably, the edge computing control electronic box includes a multifunctional internet of things edge control module using MQTT protocol, and the control module includes an acquisition circuit, a communication circuit, a main control circuit, and a power circuit.

The multi-functional Internet of things edge control module supports an MQTT protocol and has remote programming capability, the multi-functional Internet of things edge control module can run in a complex environment (such as near frequency conversion or other strong interference sources) due to high-reliability design, control and management of large electromechanical equipment such as a frequency converter, an intelligent instrument, a cold machine, a boiler, an elevator, a heat exchanger set and the like can be realized through an industrial field bus (such as MODBUS), and control and management of complex equipment or equipment groups can be realized by matching with other intelligent components. The product adopts a high-protection-level metal shell, quickly plugs and unplugs the spring terminal, can reliably work in a complex electromagnetic environment, and is mainly used for intelligent monitoring, data acquisition and networked operation management of large electromechanical equipment and power distribution equipment.

As shown in fig. 3 and fig. 4, one of the edge control module structures is a schematic diagram, which has a dedicated HMI interface and a network interface, and a user can implement a control operation on a device in situ through a touch liquid crystal screen. Through a plurality of RS485 interfaces and a plurality of I/O and electrical fire sensor interfaces, intelligent monitoring management of electromechanical devices such as a water chilling unit, a boiler and other heat source devices, an air conditioning unit, a fresh air handling unit, an elevator, a frequency converter, a low-voltage distribution panel cabinet, lighting equipment, a multi-parameter power instrument and the like can be realized.

In this embodiment, the main control circuit of the edge control module adopts an STM32 series chip, and for control needs, edge control modules of other models can also adopt an STM32 series chip as the main control circuit. The main control circuit is further respectively connected with an acquisition circuit, a power supply circuit and a relay control circuit, wherein the acquisition circuit is connected with a communication circuit, the communication circuit comprises an uplink communication circuit and a downlink communication circuit, the uplink communication circuit adopts an MQTT communication protocol circuit to carry out two-way communication with the server, and the downlink communication circuit adopts an RS485 communication circuit.

In this embodiment, to different basic scenes, the edge computing control electronic box still needs adaptation connection to have sensor, intelligent control ball valve, intelligent angle stroke executor, touch panel, NFC communication module and remote control module etc. to control specific scene equipment. For example, the temperature sensor connected to the temperature sensor may monitor the temperature sensor in the building space, and the current sensor connected to the temperature sensor may monitor the current of the electric device in the building space.

In this embodiment, the edge control in the air conditioner ventilation fan, the air conditioner/fresh air handling unit fan, the fire fighting fan adopts the intelligent fan control box. The automatic fan control box is specially designed for various fan control scenes in a building, can be used for adopting a direct-starting type air feeder, an exhaust fan, fresh air, an air conditioning fan, fire-fighting positive pressure air supply, a smoke exhaust fan and the like, has multiple protection functions of overload, short circuit, open-phase protection, water leakage of a pump body, motor overtemperature, electric leakage and the like and complete state display, can detect a large amount of real-time operation data of current, voltage, power factor, power consumption, operation time, load change and the like of the fan in real time due to the adoption of the Internet of things control technology, and is characterized in that a control schematic diagram is shown in figure 5.

In this embodiment, adopt intelligent water pump control block terminal to water pump plumbing control, it has included intelligent blowdown pump control box, sewage pump control box, drain pump control box. The automatic control box of the series of water pumps is specially designed for automatically supplying water to the water pumps, is suitable for automatic control of pipeline water pumps, deep well water pumps and sewage pumps besides being suitable for general water pumps, and is used for detecting the water level change conditions of an upper water pool and a lower water pool (a water well or a sewer pipe), so that the stopping or starting of the water pumps is automatically controlled, the water pumps can work safely and reliably under the condition of no supervision, and electricity is saved. The device is widely applicable to automatic water supply of high-rise pools, enterprise water supply systems, industrial automatic drainage equipment, pipeline water pumps and deep well water pumps. The intelligent water pump has multiple protection functions of overload, short circuit, open-phase protection, water leakage of a pump body, motor overtemperature, electric leakage and the like, and complete state display, and has a single-pump and multi-pump control working mode, multiple main and standby pump switching modes and various starting modes, and due to the adoption of the Internet of things control technology, a large amount of real-time operation data such as current, voltage, power factor, power consumption, operation time, load change and the like of the operation of the water pump can be detected in real time, and a control schematic diagram is shown in fig. 6.

In this embodiment, adopt thing networking frequency conversion module promptly intelligent frequency conversion new trend/air conditioner block terminal to air conditioning unit, new fan group, air supply and exhaust fan etc. and control. The intelligent variable-frequency distribution box is designed for dragging control of a fresh air conditioning unit of a building central air conditioning system, can be applied to equipment such as an air supply and exhaust fan and the like besides the air conditioning fresh air unit, is used for dragging, controlling and managing energy consumption of the fan of the fresh air conditioning unit, and can form a perfect intelligent Internet of things control scene of the fresh air conditioning unit by matching with an intelligent sensor and an actuating mechanism.

An edge computing Internet of things integration/control module is configured in the distribution box, a frequency converter is adopted, deep fusion of the frequency converter and an Internet of things controller is realized in a bus layer data integration mode, a user can acquire massive operation and energy consumption data of the frequency converter through a network and control the data, the edge computing Internet of things integration/control module can be freely programmed, the user can select corresponding control logic according to equipment and application process data of an air conditioning fresh air handling unit to realize a control function, the control logic can be automatically developed, and control requirements under certain special conditions are met.

Through matching the intelligent sensor and the corresponding intelligent actuating mechanism, a user can quickly set up a control scene of the fresh air/air conditioning unit, and field layout work of the control equipment is quickly completed at low cost through simple construction and intelligent auxiliary debugging tools. The edge computing Internet of things integration/control module supports cloud control logic management, professionals and cloud AI applications can analyze operation data at any time, correct control logic, continuously improve the operation state of equipment and realize intelligent real-time operation and maintenance of the whole life cycle of each equipment.

As shown in fig. 1, the basic scene layer includes control modules of various areas in a building, which in this embodiment includes but is not limited to an air conditioning unit module, a freezing station module, a low voltage distribution box module, a ventilation and water supply and drainage module, and an environment and security management module. The building space module can realize the control of safety, air conditioning, entrance guard, illumination and the like; the air conditioning unit module can realize the control of temperature and humidity, air quality, air speed, filtration, disinfection and the like; the refrigerating station module can realize the control of a water chilling unit, a circulating water pump, a cooling tower, a sensor and an actuating mechanism; the intelligent low-voltage distribution box module can realize control on electric parameters, electric fire, power supply safety and illumination; the ventilation and water supply and drainage module can realize the control of domestic water, sewage, an air supply and exhaust fan and the like; the environment and safety management module can realize control of pollutant monitoring, haze monitoring, entrance and exit management, security alarm and the like.

The invention is based on the technology of the Internet of things, and realizes the monitoring and control of different basic scenes of the building by combining the cloud platform, the edge computing server and the edge computing control component. The edge control equipment with unified universal standards is adopted, data transparency is achieved, the internet of things control scene is quickly built according to equipment management requirements through modular control products with different functions, and internet of things transformation is conveniently carried out on various electromechanical equipment.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides an wisdom building control system based on thing networking which characterized in that: the system comprises a cloud platform, an edge computing server layer, an edge control layer and a basic scene layer;

the cloud platform is communicated with the edge computing server layer, so that data interaction and whole-process tracing are realized;

the edge calculation server layer is communicated with the edge control layer to acquire various equipment data of the edge control layer, process and analyze the equipment data and send out control signals to equipment in a basic scene layer;

the edge control layer is communicated with the basic scene layer to acquire data of equipment in the basic scene and control the equipment in the basic scene;

the basic scene layer comprises control modules of all areas in the building.

2. The intelligent building control system based on the internet of things as claimed in claim 1, wherein: the edge computing server layer comprises an edge computing server and Internet of things basic data management tool software.

3. The intelligent building control system based on the internet of things as claimed in claim 1, wherein: the edge computing server layer and the edge control layer are communicated with each other through an MQTT Internet of things protocol.

4. The intelligent building control system based on the internet of things as claimed in claim 1, wherein: the edge control layer comprises a plurality of edge calculation control electric boxes, an Internet of things frequency conversion module and an Internet of things distribution box.

5. The intelligent building control system based on the internet of things as claimed in claim 4, wherein: all install marginal calculation control electronic box in thing networking frequency conversion module and the thing networking block terminal.

6. The intelligent building control system based on the internet of things as claimed in claim 4 or 5, wherein: the edge computing control electric box comprises a multifunctional Internet of things edge control module adopting an MQTT protocol, and the control module comprises an acquisition circuit, a communication circuit, a main control circuit and a power circuit.

7. The intelligent building control system based on the internet of things as claimed in claim 4 or 5, wherein: the edge calculation control electric box adopts a high-protection-level metal shell, is capable of quickly plugging and unplugging a spring terminal, can reliably work in a complex electromagnetic environment, is used for intelligent monitoring, data acquisition and networked operation management of large electromechanical equipment and power distribution equipment, has a programmable function and supports cloud program downloading.

8. The intelligent building control system based on the internet of things as claimed in claim 4 or 5, wherein: the edge calculation control electronic box is further connected with a sensor, an intelligent control ball valve, an intelligent angular travel actuator, a touch panel, an NFC communication module and a remote control module.

9. The intelligent building control system based on the internet of things as claimed in claim 1, wherein: the basic scene layer comprises an air conditioning unit module, a refrigerating station module, an intelligent low-voltage distribution box, a ventilation and water supply and drainage module and an environment and safety management module.

10. The intelligent building control system based on the internet of things as claimed in claim 2, wherein: the basic data management tool software of the Internet of things realizes real-time data display, authority setting, safety management, individualized alarm rule customization and alarm processing flow of equipment, and can set a preset event for automatic scheduling of a timing task.

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