CN112213996A - Method for realizing master-controller-free heat exchange station house based on 5G communication - Google Patents
Method for realizing master-controller-free heat exchange station house based on 5G communication Download PDFInfo
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- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/418—Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS], computer integrated manufacturing [CIM]
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Abstract
The invention discloses a method for realizing a heat exchange station house without a main controller based on 5G communication, which belongs to the technical field of heating, wherein a single heat exchange station house is not taken as a minimum object, a single station house terminal device is taken as a minimum object, and the control can be realized without depending on a heat exchange station house centralized controller, and the method comprises a big data cloud platform, a 5G network and a station house terminal device; the big data cloud platform is constructed based on B/S, integrates open source big data assembly technologies such as HDFS, Yarn, Hive, Hbase, Spark, flash and Sqoop in a Hadoop system, and supports data access, storage and processing capabilities; the 5G network is used for high-speed transmission of signals between the station house terminal equipment and the big data cloud platform, and can realize high-speed transmission of control commands and state feedback; and the station house terminal equipment is used for receiving the control instruction sent by the big data cloud platform. According to the method for realizing the master-controller-free heat exchange station room based on the 5G communication, data interaction is directly carried out with a big data cloud platform through 5G network transmission, and equipment control of the heat exchange station room is realized.
Description
Technical Field
The invention belongs to the technical field of heating, and particularly relates to a method for realizing a master-controller-free heat exchange station house based on 5G communication.
Background
At present, a PLC (programmable logic controller) or an embedded board card is mostly used as a main controller for field control of a heat exchange station room to realize control of terminal equipment, and the control mode is limited by the expansion capability of the controller and has certain requirements on the number of control equipment.
In the prior art, when a plurality of devices are in a station, the main controller needs to be expanded through an industrial internet, so that the more point positions are, the more controllers are, the more complicated network is, and the failure rate is increased. In addition, when the whole device parameters are transmitted through communication, development technicians are required to do a large number of tables such as communication tables and point location tables, so that great workload is generated, and the error rate is increased.
5G is the latest generation of cellular mobile communications technology, and is also an extension following 4G (LTE-A, WiMax), 3G (UMTS, LTE) and 2G (gsm) systems. The performance goals of 5G are high data rates, reduced latency, energy savings, reduced cost, increased system capacity, and large-scale device connectivity.
Therefore, a method for realizing a master-controller-free heat exchange station house based on 5G communication is provided to solve the problems.
Disclosure of Invention
Aiming at the defects of the prior art, the invention provides a method for realizing a heat exchange station house without a main controller based on 5G communication, which aims to solve the problems in the background technology.
In order to achieve the purpose, the invention provides the following technical scheme: a method for realizing a master-controller-free heat exchange station room based on 5G communication does not use a single heat exchange station room as a minimum object, uses a single station room terminal device as a minimum object, and can realize control without depending on a heat exchange station room integrated controller, wherein the method comprises a big data cloud platform, a 5G network and station room terminal devices;
the big data cloud platform is constructed based on B/S, integrates open source big data assembly technologies such as HDFS, Yarn, Hive, Hbase, Spark, flash and Sqoop in a Hadoop system, and supports data access, storage and processing capabilities;
the 5G network is used for high-speed transmission of signals between the station house terminal equipment and the big data cloud platform, and can realize high-speed transmission of control commands and state feedback;
and the station house terminal equipment is used for receiving the control command sent by the big data cloud platform and feeding back an execution result and an equipment state to the big data cloud platform after execution, and comprises a control module, a storage module and a communication module.
Further optimizing the technical scheme, the big data cloud platform needs to be combined with hardware configured as follows for operation control, and the hardware configuration needs a CPU processor of Intel i59400F or more, a 4G DDR4 memory or more, an Intel HM65 mainboard chip or more, a 500G SATA 3.0 hard disk or more and an integrated graphics card carried by the CPU.
Further optimize this technical scheme, station room terminal equipment includes water pump, heat pump, hotlist, water gauge, ammeter, sensor, executor and automatic valve etc. directly do the data interaction through 5G network transmission and big data cloud platform, realize the equipment control to heat transfer station room.
Further optimizing the technical scheme, the big data cloud platform can simultaneously control the station room terminal equipment 1, the station room terminal equipment 2 and the station room terminal equipment 3 … … station room terminal equipment n through the 5G network, namely, the big data cloud platform can simultaneously control the single station room terminal equipment of a plurality of heat exchange station rooms through the 5G network, and the number of bridges and the like in the heat exchange station rooms is reduced.
Further optimizing the technical scheme, the system of the implementation method runs circularly after being started, a communication detection mechanism is arranged, and after the communication interruption between the terminal equipment in the heat exchange station room and the big data cloud platform is detected, the station room terminal equipment and the big data cloud platform start an emergency mechanism at the same time.
Further optimizing the technical scheme, the method for realizing the heat exchange station without the main controller comprises the following specific steps:
s1, the big data cloud platform issues an instruction to the station house terminal equipment through the 5G network;
s2, the station room terminal equipment receives a control instruction of the big data cloud platform, and an actuator in the station room terminal equipment executes the control instruction;
s3, the station room terminal equipment receives a control instruction of the big data cloud platform, and the running state of the station room terminal equipment is fed back by a sensor and an actuator in the station room terminal equipment;
s4, the big data cloud platform receives parameter data information and running state information of the station room terminal equipment through the 5G network;
s5, the big data cloud platform analyzes and calculates the data information based on big data technology;
and S6, issuing a command with pertinence by the big data cloud platform according to the result obtained by analysis, and entering the next control cycle.
Further optimizing the technical scheme, in S2, if the station terminal device does not receive the control instruction of the big data cloud platform, it indicates that communication is interrupted, and the station terminal device and the big data cloud platform start an emergency mechanism at the same time.
Compared with the prior art, the invention provides a method for realizing a heat exchange station house without a main controller based on 5G communication, which has the following beneficial effects:
1. according to the method for realizing the master-controller-free heat exchange station house based on 5G communication, the wireless communication capacity is expanded by enhancing the autonomous control capacity of the terminal equipment of the station house, so that the strong expansion capacity of equipment in the station house can be realized, and the equipment of different station houses is the equipment for a cloud platform, so that the station house has the strong expansion capacity, and the equipment control of the heat exchange station house is realized by directly performing data interaction with a big data cloud platform through 5G network transmission.
2. According to the method for realizing the master controller-free heat exchange station house based on the 5G communication, the 5G network is adopted to connect the station house terminal equipment and the big data cloud platform, so that high-speed transmission of control commands and state feedback can be realized, the laying quantity of weak current cables in the station can be reduced, the quantity of bridges and the like in the station house is further reduced, and the station house is more attractive.
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Fig. 1 is a schematic structural diagram of a method for implementing a master controller-free heat exchange station room based on 5G communication according to the present invention;
fig. 2 is a schematic flow chart of a method for implementing a master-controller-free heat exchange station room based on 5G communication according to the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The first embodiment is as follows:
a method for realizing a master-controller-free heat exchange station room based on 5G communication does not use a single heat exchange station room as a minimum object, uses a single station room terminal device as a minimum object, and can realize control without depending on a heat exchange station room integrated controller, wherein the method comprises a big data cloud platform, a 5G network and station room terminal devices;
the big data cloud platform is constructed based on B/S, integrates open source big data assembly technologies such as HDFS, Yarn, Hive, Hbase, Spark, flash and Sqoop in a Hadoop system, and supports data access, storage and processing capabilities;
the 5G network is used for high-speed transmission of signals between the station house terminal equipment and the big data cloud platform, and can realize high-speed transmission of control commands and state feedback;
and the station house terminal equipment is used for receiving the control command sent by the big data cloud platform and feeding back an execution result and an equipment state to the big data cloud platform after execution, and comprises a control module, a storage module and a communication module.
Specifically, the big data cloud platform needs to be operated and controlled by combining with hardware configured in the following ways, and the hardware configuration needs a CPU processor of Intel i59400F or more, a 4G DDR4 memory or more, an Intel HM65 motherboard chip or more, a 500G SATA 3.0 hard disk or more, and an integrated graphics card carried in the CPU.
Specifically, station room terminal equipment includes water pump, heat pump, hotlist, water gauge, ammeter, sensor, executor and automatic valve etc. directly does the data interaction through 5G network transmission and big data cloud platform, realizes the equipment control to heat transfer station room.
Specifically, the big data cloud platform can simultaneously control the station room terminal equipment 1, the station room terminal equipment 2 and the station room terminal equipment 3 … … station room terminal equipment n through the 5G network, that is, the big data cloud platform can simultaneously control a single station room terminal equipment of a plurality of heat exchange station rooms through the 5G network, thereby reducing the number of bridges and the like in the heat exchange station rooms.
Specifically, the system of the implementation method runs circularly after being started, a communication detection mechanism is arranged, and after the communication interruption between the terminal equipment in the heat exchange station room and the big data cloud platform is detected, the station room terminal equipment and the big data cloud platform start an emergency mechanism at the same time.
Specifically, the method for realizing the heat exchange station without the main controller comprises the following specific steps:
s1, the big data cloud platform issues an instruction to the station house terminal equipment through the 5G network;
s2, the station room terminal equipment receives a control instruction of the big data cloud platform, and an actuator in the station room terminal equipment executes the control instruction;
s3, the station room terminal equipment receives a control instruction of the big data cloud platform, and the running state of the station room terminal equipment is fed back by a sensor and an actuator in the station room terminal equipment;
s4, the big data cloud platform receives parameter data information and running state information of the station room terminal equipment through the 5G network;
s5, the big data cloud platform analyzes and calculates the data information based on big data technology;
and S6, issuing a command with pertinence by the big data cloud platform according to the result obtained by analysis, and entering the next control cycle.
Specifically, in S2, if the station terminal device does not receive the control instruction of the big data cloud platform, it indicates that communication is interrupted, and the station terminal device and the big data cloud platform start an emergency mechanism at the same time.
Example two:
a method for realizing a master-controller-free heat exchange station room based on 5G communication does not use a single heat exchange station room as a minimum object, uses a single station room terminal device as a minimum object, and can realize control without depending on a heat exchange station room integrated controller, wherein the method comprises a big data cloud platform, a 5G network and station room terminal devices;
the big data cloud platform is constructed based on B/S, integrates open source big data assembly technologies such as HDFS, Yarn, Hive, Hbase, Spark, flash and Sqoop in a Hadoop system, and supports data access, storage and processing capabilities;
the 5G network is used for high-speed transmission of signals between the station house terminal equipment and the big data cloud platform, and can realize high-speed transmission of control commands and state feedback;
and the station house terminal equipment is used for receiving the control command sent by the big data cloud platform and feeding back an execution result and an equipment state to the big data cloud platform after execution, and comprises a control module, a storage module and a communication module.
Specifically, the big data cloud platform needs to be operated and controlled by combining with hardware configured in the following ways, and the hardware configuration needs a CPU processor of an Intel i77700K or more, an 8G dual-channel DDR4 or more, an Intel HM65 motherboard chip or more, a 500G SATA 3.0 hard disk or more, and an integrated graphics card carried in the CPU.
Specifically, station room terminal equipment includes water pump, heat pump, hotlist, water gauge, ammeter, sensor, executor and automatic valve etc. directly does the data interaction through 5G network transmission and big data cloud platform, realizes the equipment control to heat transfer station room.
Specifically, the big data cloud platform can simultaneously control the station room terminal equipment 1, the station room terminal equipment 2 and the station room terminal equipment 3 … … station room terminal equipment n through the 5G network, that is, the big data cloud platform can simultaneously control a single station room terminal equipment of a plurality of heat exchange station rooms through the 5G network, thereby reducing the number of bridges and the like in the heat exchange station rooms.
Specifically, the system of the implementation method runs circularly after being started, a communication detection mechanism is arranged, and after the communication interruption between the terminal equipment in the heat exchange station room and the big data cloud platform is detected, the station room terminal equipment and the big data cloud platform start an emergency mechanism at the same time.
Specifically, the method for realizing the heat exchange station without the main controller comprises the following specific steps:
s1, the big data cloud platform issues an instruction to the station house terminal equipment through the 5G network;
s2, the station room terminal equipment receives a control instruction of the big data cloud platform, and an actuator in the station room terminal equipment executes the control instruction;
s3, the station room terminal equipment receives a control instruction of the big data cloud platform, and the running state of the station room terminal equipment is fed back by a sensor and an actuator in the station room terminal equipment;
s4, the big data cloud platform receives parameter data information and running state information of the station room terminal equipment through the 5G network;
s5, the big data cloud platform analyzes and calculates the data information based on big data technology;
and S6, issuing a command with pertinence by the big data cloud platform according to the result obtained by analysis, and entering the next control cycle.
Specifically, in S2, if the station terminal device does not receive the control instruction of the big data cloud platform, it indicates that communication is interrupted, and the station terminal device and the big data cloud platform start an emergency mechanism at the same time.
Example three:
a method for realizing a master-controller-free heat exchange station room based on 5G communication does not use a single heat exchange station room as a minimum object, uses a single station room terminal device as a minimum object, and can realize control without depending on a heat exchange station room integrated controller, wherein the method comprises a big data cloud platform, a 5G network and station room terminal devices;
the big data cloud platform is constructed based on B/S, integrates open source big data assembly technologies such as HDFS, Yarn, Hive, Hbase, Spark, flash and Sqoop in a Hadoop system, and supports data access, storage and processing capabilities;
the 5G network is used for high-speed transmission of signals between the station house terminal equipment and the big data cloud platform, and can realize high-speed transmission of control commands and state feedback;
and the station house terminal equipment is used for receiving the control command sent by the big data cloud platform and feeding back an execution result and an equipment state to the big data cloud platform after execution, and comprises a control module, a storage module and a communication module.
Specifically, the big data cloud platform needs to be operated and controlled by combining with hardware configured in the following ways, and the hardware configuration needs a CPU processor of Intel i78700K or more, an 8G DDR4 memory or more, an Intel HM65 motherboard chip or more, a 500G SATA 3.0 hard disk or more, and an integrated graphics card carried in the CPU.
Specifically, station room terminal equipment includes water pump, heat pump, hotlist, water gauge, ammeter, sensor, executor and automatic valve etc. directly does the data interaction through 5G network transmission and big data cloud platform, realizes the equipment control to heat transfer station room.
Specifically, the big data cloud platform can simultaneously control the station room terminal equipment 1, the station room terminal equipment 2 and the station room terminal equipment 3 … … station room terminal equipment n through the 5G network, that is, the big data cloud platform can simultaneously control a single station room terminal equipment of a plurality of heat exchange station rooms through the 5G network, thereby reducing the number of bridges and the like in the heat exchange station rooms.
Specifically, the system of the implementation method runs circularly after being started, a communication detection mechanism is arranged, and after the communication interruption between the terminal equipment in the heat exchange station room and the big data cloud platform is detected, the station room terminal equipment and the big data cloud platform start an emergency mechanism at the same time.
Specifically, the method for realizing the heat exchange station without the main controller comprises the following specific steps:
s1, the big data cloud platform issues an instruction to the station house terminal equipment through the 5G network;
s2, the station room terminal equipment receives a control instruction of the big data cloud platform, and an actuator in the station room terminal equipment executes the control instruction;
s3, the station room terminal equipment receives a control instruction of the big data cloud platform, and the running state of the station room terminal equipment is fed back by a sensor and an actuator in the station room terminal equipment;
s4, the big data cloud platform receives parameter data information and running state information of the station room terminal equipment through the 5G network;
s5, the big data cloud platform analyzes and calculates the data information based on big data technology;
and S6, issuing a command with pertinence by the big data cloud platform according to the result obtained by analysis, and entering the next control cycle.
Specifically, in S2, if the station terminal device does not receive the control instruction of the big data cloud platform, it indicates that communication is interrupted, and the station terminal device and the big data cloud platform start an emergency mechanism at the same time.
The test results of the three examples show that: according to the method for realizing the master-controller-free heat exchange station house based on 5G communication, the wireless communication capacity is expanded by enhancing the autonomous control capacity of the terminal equipment of the station house, so that the strong expansion capacity of equipment in the station house can be realized, and the equipment of different station houses is the equipment for a cloud platform, so that the station house has the strong expansion capacity, and the equipment control of the heat exchange station house is realized by directly performing data interaction with a big data cloud platform through 5G network transmission.
According to the method for realizing the master controller-free heat exchange station house based on the 5G communication, the 5G network is adopted to connect the station house terminal equipment and the big data cloud platform, so that high-speed transmission of control commands and state feedback can be realized, the laying quantity of weak current cables in the station can be reduced, the quantity of bridges and the like in the station house is further reduced, and the station house is more attractive.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (7)
1. A method for realizing a master-controller-free heat exchange station room based on 5G communication does not use a single heat exchange station room as a minimum object, uses a single station room terminal device as a minimum object, and can realize control without depending on a heat exchange station room integrated controller, and is characterized by comprising a big data cloud platform, a 5G network and station room terminal devices;
the big data cloud platform is constructed based on B/S, integrates open source big data assembly technologies such as HDFS, Yarn, Hive, Hbase, Spark, flash and Sqoop in a Hadoop system, and supports data access, storage and processing capabilities;
the 5G network is used for high-speed transmission of signals between the station house terminal equipment and the big data cloud platform, and can realize high-speed transmission of control commands and state feedback;
and the station house terminal equipment is used for receiving the control command sent by the big data cloud platform and feeding back an execution result and an equipment state to the big data cloud platform after execution, and comprises a control module, a storage module and a communication module.
2. The method as claimed in claim 1, wherein the big data cloud platform needs to be operated and controlled by hardware configured as follows, the hardware configuration needs a CPU processor of Intel i59400F or more, a 4G DDR4 memory or more, an Intel HM65 motherboard chip or more, a 500G SATA 3.0 hard disk or more, and an integrated graphics card carried in the CPU.
3. The method for realizing the heat exchange station house without the main controller based on the 5G communication is characterized in that the station house terminal equipment comprises a water pump, a heat meter, a water meter, an electric meter, a sensor, an actuator, an automatic valve and the like, and data interaction is directly carried out with a big data cloud platform through 5G network transmission to realize equipment control of the heat exchange station house.
4. The method for implementing the master-controller-free heat exchange station room based on the 5G communication as claimed in claim 1, wherein the big data cloud platform can simultaneously control the station room terminal device 1, the station room terminal device 2, and the station room terminal device 3 … … station room terminal device n through a 5G network, that is, the big data cloud platform can simultaneously control a single station room terminal device of a plurality of heat exchange station rooms through the 5G network, so as to reduce the number of bridges and the like in the heat exchange station rooms.
5. The method for implementing the master-controller-free heat exchange station room based on the 5G communication as claimed in claim 1, wherein the system of the implementation method is circularly operated after being started, a communication detection mechanism is provided, and after the communication interruption between the terminal equipment in the heat exchange station room and the big data cloud platform is detected, the emergency mechanism is simultaneously started by the terminal equipment in the station room and the big data cloud platform.
6. The method for realizing the master-controller-free heat exchange station room based on the 5G communication as claimed in claim 1, is characterized by comprising the following specific steps:
s1, the big data cloud platform issues an instruction to the station house terminal equipment through the 5G network;
s2, the station room terminal equipment receives a control instruction of the big data cloud platform, and an actuator in the station room terminal equipment executes the control instruction;
s3, the station room terminal equipment receives a control instruction of the big data cloud platform, and the running state of the station room terminal equipment is fed back by a sensor and an actuator in the station room terminal equipment;
s4, the big data cloud platform receives parameter data information and running state information of the station room terminal equipment through the 5G network;
s5, the big data cloud platform analyzes and calculates the data information based on big data technology;
and S6, issuing a command with pertinence by the big data cloud platform according to the result obtained by analysis, and entering the next control cycle.
7. The method for implementing the master-controller-free heat exchange station house based on the 5G communication as claimed in claim 6, wherein in S2, if the station house terminal device does not receive the control instruction of the big data cloud platform, it indicates that the communication is interrupted, and the station house terminal device and the big data cloud platform start an emergency mechanism at the same time.
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