CN109756576B - Photoelectric network system - Google Patents

Abstract

The application relates to an optical-electric network system, which comprises a central subsystem, a network subsystem and a terminal subsystem; the central subsystem is respectively connected with a superior energy network, a superior information network and a superior sensor network, and is respectively used for energy transfer and control, information transfer, control and management among the information networks, and sensor data transfer, control, storage, analysis, calculation and management; the central subsystem is also used for transmitting energy, information and sensing data to the terminal subsystem; the terminal subsystem is used for acquiring the energy transmitted by the central subsystem, providing the energy for the energy-using equipment and uploading and storing the capacity of the external capacity-generating equipment; acquiring information transmitted by the central subsystem through the network subsystem, and realizing the transmission of the information; acquiring and transmitting sensing data in the photoelectric network system; and the network subsystem is used for transmitting energy, information and sensing data between the central subsystem and the terminal subsystem.

Description

Photoelectric network system

Technical Field

The application relates to the technical field of photoelectric network equipment, in particular to a photoelectric network system.

Background

The traditional power and information network all accomplish specific functions, and with the implementation of smart systems such as smart cities, smart enterprises and the like, the systems related to the wisdom can not take away from the electric energy, communication and perception, but at the present stage, an independent system which can give consideration to the electric energy, communication and perception is not provided, so that the field needs to provide a photoelectric network system which combines the perception, the electric energy and the communication together.

Disclosure of Invention

To overcome, at least to some extent, the problems in the related art, the present application provides an optical grid system.

In order to achieve the purpose, the invention adopts the following technical scheme:

an optical-electrical network system comprises a central subsystem, a network subsystem and a terminal subsystem; the central subsystem is connected with the terminal subsystem through the network subsystem;

the central subsystem is respectively connected with a superior energy network, a superior information network and a superior sensing network, and is respectively used for energy transfer and control with the superior energy network, information transfer, control and management with the superior information network, and sensing data transfer, control, storage, analysis, calculation and management with the superior sensing network; the central subsystem is also used for transmitting energy, information and sensing data to the terminal subsystem through the network subsystem;

the terminal subsystem is used for acquiring the energy transmitted by the central subsystem through the network subsystem, providing the energy for the energy utilization equipment and uploading and storing the capacity of the external capacity equipment; the network subsystem is also used for acquiring the information transmitted by the central subsystem and realizing the transmission of the information; the photoelectric network system is also used for collecting and transmitting sensing data in the photoelectric network system;

and the network subsystem is used for transmitting energy, information and sensing data between the central subsystem and the terminal subsystem.

Optionally, the central subsystem includes an energy central device, a signal central device, and a center sensing device, where the energy central device, the signal central device, and the center sensing device are connected to each other by a central cable, and are used for data transmission or information exchange, and/or energy transmission between each other; one end of the energy center device is connected to a higher-level energy network, and the other end of the energy center device is connected with a photoelectric network interface device A, and the energy center device is used for inputting the energy of a previous-level energy network into the photoelectric network system, outputting the energy of the photoelectric network system to the higher-level energy network, controlling the input or output energy of the photoelectric network system, and controlling the on-off of the internal energy transmission of the photoelectric network system; one end of the information center equipment is connected to a superior information network, and the other end of the information center equipment is connected with the photoelectric network interface equipment A, and the information center equipment is used for transmitting the communication information of the superior information network to the photoelectric network system, transmitting the communication information of the photoelectric network system to the superior information network, and controlling the on-off of the communication information in the photoelectric network system and managing the equipment; one end of the sensing center equipment is connected to a superior sensing network, and the other end of the sensing center equipment is connected with the photoelectric network interface equipment A, and is used for transmitting a sensing signal of the superior sensing network to the photoelectric network system, transmitting the sensing signal of the photoelectric network system to the superior sensing network, and analyzing, calculating, controlling, storing and managing the sensing signal or information data in the photoelectric network system;

the network subsystem comprises an energy cable, a signal cable, a sensing cable, optical network interface equipment A and optical network interface equipment B, wherein the signal cable and the sensing cable are arranged in the energy cable in parallel or in a spiral mode and used for cable transmission of energy, communication, information and sensing signals, one end of the energy cable is connected with the optical network interface equipment A, and the other end of the energy cable is connected with the optical network interface equipment B;

the photoelectric network terminal system comprises an energy terminal device, a communication terminal device and a sensing terminal device, wherein the energy terminal device, the communication terminal device and the sensing terminal device are mutually connected through terminal cables and are used for mutual data transmission or information exchange and/or energy transmission; one end of the energy terminal equipment is connected with the optical network interface equipment B or the optical network interface equipment A through the energy cable, and the other end of the energy terminal equipment is connected with energy utilization equipment and/or energy generation equipment and is used for providing energy for the energy utilization equipment and/or uploading generated energy; one end of the information terminal device is connected with the optical network interface device B through the information cable, the other end of the information terminal device is connected with the information terminal interface device for transmission of communication information of the optical network system, one end of the sensing terminal device is connected with the optical network interface device B through the terminal energy cable, and the other end of the sensing terminal device is connected with the sensing terminal interface sensor for acquisition and/or transmission of sensing signals or information of the optical network system.

Optionally, the network subsystem has a plurality of energy cables and a plurality of optical-electrical network interface devices a and/or optical-electrical network interface devices B, which are connected or cross-connected with each other, and are used to form a chain network, a tree network, a ring network, or a hybrid network; the optical network interface device a is connected to the optical network interface device B through an energy cable, and represents the network subsystem composed of a plurality of energy cables and a plurality of optical network home devices a and/or optical network interface devices B.

Optionally, the energy center device includes an energy center transmission device and an energy center control device, one end of the energy center transmission device is connected to a primary power grid or an energy grid, and the other end of the energy center transmission device is connected to an optical power grid interface device a for transmitting and providing energy to the optical power grid system, the energy center transmission device is provided with a control port ZK, the control port ZK is connected to the energy center control device through a center energy cable or bus, and is used for the energy center control device to control the energy center transmission device in real time,

the energy center control equipment comprises an energy center data module and an energy center interface module, the energy center data module comprises a photoelectric network data chip, the energy center data module is used for running the energy unit system program, managing the energy terminal data, storing and analyzing the energy unit data, generating energy unit data tables such as equipment serial number, voltage, current, electric quantity, power, time, cost and the like, and running the photoelectric network system software program; the energy center interface module comprises an optical-electric network interface chip, the energy center interface module is used for analyzing an optical-electric network communication protocol, analyzing and converting an energy unit data table and inputting or outputting data, and the energy center interface module is mutually connected with the energy center data module through a bus and used for transmitting the energy unit data table to the energy center interface module through the bus; the energy center interface module is connected to the energy terminal equipment or the information center equipment or the sensing center equipment through a center energy cable to realize bidirectional transmission of communication information or data between the energy unit and the energy terminal equipment or the information center equipment or the sensing center equipment;

optionally, the information center device includes an information center data module and an information center interface module, the information center data module includes an optical network data chip, the information center data module is used for operating the information unit system program, managing information terminal data, storing and analyzing information unit data, generating information unit data tables such as name, serial number, address, duration, flow, time, cost, and the like, and operating an optical network system software program; the letter center interface module comprises an optical network interface chip, the letter center interface module is used for communication protocol analysis, letter unit data table analysis and data input or output, the letter center interface module and the letter center data module are mutually connected through a bus and used for transmitting the letter unit data table to the letter center interface module through the bus, and the letter center interface module is outwards connected to the letter terminal equipment or the letter center equipment or the sensing center equipment through a center cable to realize bidirectional transmission of mutual communication information or data;

optionally, the sensing center device includes a sensing center data module and a sensing center interface module, the sensing center data module includes a data chip of the photoelectric network, the sensing center data module is used for running the sensing unit system program, managing data of the sensing terminal, storing and analyzing the sensing unit data, generating sensing unit data tables of name, serial number, address, location, sensing quantity, time, duration, type, grade, and the like, and running a software program of the photoelectric network system; the sensing center interface module comprises a photoelectric network interface chip, the sensing center interface module is used for communication protocol analysis, sensing unit data table analysis and data input or output, the sensing center interface module is mutually connected with the sensing center data module through a bus and used for transmitting the sensing unit data table to the sensing center interface module through the bus, and the sensing center interface module is outwards connected to the sensing terminal equipment or the energy center equipment or the information center equipment through a center energy cable so as to realize the bidirectional transmission of mutual communication information or sensing data;

the energy center control equipment, the information center equipment and the sensing center equipment are mutually connected through the center energy cable and are used for mutual communication, information transmission, instruction receiving and sending or data exchange.

Optionally, the optical-electrical-network system software program is configured to perform unified management on the energy unit system program, the information unit system program, the sensing unit system program, and the device, and further configured to perform unified management, analysis, statistics, storage, input, and output on the energy unit data table, the information unit data table, and the sensing unit data table, and further configured to generate an optical-electrical-network system data table of the optical-electrical-network system; the data sheet of the photoelectric network system comprises data lists of date, time, address, duration, name, serial number, category, level, expense, quantity, voltage, current, electric quantity, power, flow, sensing quantity, temperature, humidity, pressure, switching quantity, analog quantity, stress-strain quantity and the like.

Optionally, the energy terminal device includes an energy terminal transmission device and an energy terminal control device, one end of the energy terminal transmission device is connected to the optical network interface device B or the optical network interface device a, and the other end of the energy terminal transmission device is connected to an energy consumption device or an energy generation device or an energy storage device, and is used for transmitting or storing energy of the optical network system, the energy terminal transmission device is provided with a control port DK, the control port DK is connected to the energy terminal control device through the terminal energy cable or bus, and is used for controlling the energy terminal control device to switch or transmit or store energy of the energy terminal transmission device,

the terminal-capable control equipment comprises a terminal-capable data module and a terminal-capable interface module, wherein the terminal-capable data module comprises a photoelectric network terminal data chip and is used for realizing program operation, data analysis, operation and storage of the terminal-capable control equipment, the terminal-capable interface module comprises a photoelectric network terminal interface chip, one end of the terminal-capable interface module is connected with a terminal-capable cable, the other end of the terminal-capable interface module is connected with the terminal-capable data module through a bus and is used for realizing input or output of data of the terminal-capable control equipment, and the terminal-capable data generated by operation of the terminal-capable data module is transmitted to the terminal-capable interface module through the bus and is used for realizing input or output or exchange of data or information with the terminal-capable central equipment or with the information terminal equipment and the terminal-sensing equipment;

the energy terminal transmission equipment is connected with energy utilization equipment and/or energy production equipment, the energy production equipment is used for producing energy, the produced energy is electric energy and/or optical energy, and the energy utilization equipment is electric equipment and/or optical equipment;

the information terminal equipment comprises an information terminal data module and an information terminal interface module, the information terminal data module comprises an optical network terminal data chip and is used for realizing program operation, data analysis, operation and storage of the information terminal equipment, the information terminal interface module comprises an optical network terminal interface chip, one end of the information terminal interface module is connected with a terminal cable, the other end of the information terminal interface module is connected with the information terminal data module through a bus and is used for realizing input or output of the information terminal equipment data, the information terminal data generated by operation of the information terminal data module is transmitted to the information terminal interface module through the bus and is used for realizing data or information transceiving or exchange with the information center equipment or the energy terminal equipment and the information sensing terminal equipment;

the communication terminal equipment is wired transceiving equipment and/or wireless transceiving equipment, and the wireless transceiving equipment is used for being connected with the wireless terminal equipment through a wireless signal;

the sensing terminal device comprises a sensing terminal data module and a sensing terminal interface module, wherein the sensing terminal data module comprises a photoelectric network terminal data chip and is used for realizing program operation, data analysis, operation and storage of the sensing terminal device, the sensing terminal interface module comprises a photoelectric network terminal interface chip, one end of the sensing terminal interface module is connected with a terminal energy cable, the other end of the sensing terminal interface module is connected with the sensing terminal data module through a bus and is used for realizing input or output of a plurality of data of the sensing terminal device, and the sensing terminal data generated by the operation of the sensing terminal data module is transmitted to the sensing terminal interface module through the bus and is used for realizing input or output or exchange of data or information between the sensing terminal device and the sensing center device or between the sensing terminal device and the information terminal device;

the sensing terminal equipment is wired transceiving equipment and/or wireless transceiving equipment, and the wireless transceiving equipment is used for being connected with the sensor of the wireless terminal equipment through a wireless signal.

Optionally, the energy cable includes a signal cable and a sensing cable, and may further include a cable and an optical cable, where the signal cable includes an energy optical fiber and an information optical fiber, the energy optical fiber is used to transmit high-level laser energy, the information optical fiber is used to transmit an optical signal, and the energy optical fiber and the information optical fiber may be disposed in different beam tubes; the sensing cable comprises a plurality of sensing optical fibers, the sensing optical fibers are distributed sensors and are used for sensing the change of temperature, stress strain, current and a magnetic field of each point around the sensing cable, the sensing elements can be connected in series or in parallel in the middle or the tail end of the sensing optical fibers or the information optical fibers and are used for sensing the change of the current or the temperature or the magnetic field or the gas of the position mainly through the sensing elements, the cable is used for transmitting electric energy, and the signal cable, the sensing cable and the cable can be arranged in the same sheath in parallel to each other and used for realizing the cable transmission of optical energy, electric energy, communication information and sensing signals; the energy cable is used for transmitting high-power high-intensity light energy and/or high-voltage large-current electric energy, and/or simultaneously transmitting communication signal information and/or sensing signals, and can also be used as a distributed sensor;

the central energy cable is used for electric energy and/or optical energy transmission and/or communication information transmission;

the terminal energy cable is used for electric energy andor optical energy andor communication and information transmission, and can also be used as a distributed sensor;

the bus is a multi-core conductive cable or an optical fiber cable or a plurality of wires printed on a circuit board and is used for digital signal communication or information transmission or data information exchange between equipment and equipment or between an interface module and the interface module or between the equipment and the interface module;

the signal cable in the energy cable and part of the fiber cores in the sensing cable can be mutually cross-connected;

the sensing cable is a distributed sensor, the sensing cable is arranged in the energy cable to sense the state change of the energy cable in real time and form a plurality of sensing monitoring data mm, the sensing terminal equipment acquires the operation change states of a plurality of terminal equipment of the system through the sensing terminal interface sensor and forms a plurality of sensing monitoring data mm1, when the temperature, pressure, vibration, current, voltage, power, gas and the like of the energy cable or the optical network terminal equipment in the system change, the generated sensing monitoring data mm and sensing monitoring data mm1 are transmitted to the energy center equipment, the information center equipment and the sensing center equipment through the energy cable or a bus to be analyzed and compared, and the operation result is displayed or alarmed and is fed back to the optical network terminal equipment through the energy cable to ensure that the system is at the specified temperature, Pressure, vibration, current, voltage, power, gas within threshold stable operation.

Optionally, the optical network data chip is configured to process execution, timing distribution, information storage, data processing of a communication protocol of the optical network system, control of the optical network system, and device management of a corresponding unit;

the data chip of the photoelectric network is used for time sequence distribution of information flow receiving and sending, generation and analysis of information flow according with a protocol of the photoelectric network, and analysis and processing of the information flow, wherein the analysis and processing of the information flow refers to classification processing of information flow types, and is used for analysis processing of unit equipment management information, analysis processing of sensing information, analysis processing of control information, and storage or forwarding of other information, and the analysis processing is used for storage control, calculation, judgment, response, conversion, forwarding and marking;

the photoelectric network interface chip is used for equipment control, interface format conversion and data input or output;

the communication protocol of the photoelectric network system is a specific meaning data table containing instruction identification codes, protocol codes, data, check codes and end symbols;

the photoelectric network terminal data chip is used for analyzing a communication protocol of a photoelectric network system, responding in time sequence, running in a program, operating data, analyzing data, storing data and intelligently controlling and managing terminal equipment, and is also used for processing or storing data of voltage, current, electric quantity, power, magnetic field, pressure, temperature, humidity, flow, speed, image, gas, inductance, time, duration, input, output, on and off, marking the data and forming a data table according with the stipulations of the energy unit, the information unit and the inductance unit.

The technical scheme provided by the embodiment of the application can have the following beneficial effects: the photoelectric network system provided by the invention can be used for public security special systems, mobile special systems, traffic special systems, radio and television special systems or other special systems. The invention can be used as a private network networking solution of a public security system, a mobile communication system, a traffic system, an army system and a power system to provide an independent and safe private network solution for users so as to meet the strict requirements of a special system on information communication safety. The network access is provided for medium enterprise groups through the connection of the cable and the user end equipment, an independent environment can be designed for users through software, and enterprises and small groups can use the network simply and conveniently like local networks. And the environment control, safety monitoring and reliable energy supply guarantee are provided.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

Fig. 1 is a structural diagram of an optical electrical network system according to an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

As shown in fig. 1, the optical-electrical network system provided by this embodiment includes a central subsystem, a network subsystem, and a terminal subsystem; the central subsystem is connected with the terminal subsystem through the network subsystem;

the central subsystem is respectively connected with a superior energy network, a superior information network and a superior sensing network, and is respectively used for energy transfer and control with the superior energy network, information transfer, control and management with the superior information network, and sensing data transfer, control, storage, analysis, calculation and management with the superior sensing network; the central subsystem is also used for transmitting energy, information and sensing data to the terminal subsystem through the network subsystem;

the terminal subsystem is used for acquiring the energy transmitted by the central subsystem through the network subsystem, providing the energy for the energy utilization equipment and uploading and storing the capacity of the external capacity equipment; the network subsystem is also used for acquiring the information transmitted by the central subsystem and realizing the transmission of the information; the photoelectric network system is also used for collecting and transmitting sensing data in the photoelectric network system;

and the network subsystem is used for transmitting energy, information and sensing data between the central subsystem and the terminal subsystem.

The central subsystem comprises energy central equipment, information central equipment and sensing central equipment, wherein the energy central equipment, the information central equipment and the sensing central equipment are connected with each other by a central line cable and are used for data transmission or information exchange and/or energy transmission among the energy central equipment, the information central equipment and the sensing central equipment; one end of the energy center device is connected to a superior energy network, and the other end of the energy center device is connected with a photoelectric network interface device A, and the energy center device is used for inputting the energy of the superior energy network into the photoelectric network system, outputting the energy of the photoelectric network system to the superior energy network, controlling the input or output energy of the photoelectric network system, and controlling the on-off of the energy transmission in the photoelectric network system; one end of the information center equipment is connected to a superior information network, and the other end of the information center equipment is connected with the photoelectric network interface equipment A, and the information center equipment is used for transmitting the communication information of the superior information network to the photoelectric network system, transmitting the communication information of the photoelectric network system to the superior information network, and controlling the on-off of the communication information in the photoelectric network system and managing the equipment; one end of the sensing center equipment is connected to a superior sensing network, and the other end of the sensing center equipment is connected with the photoelectric network interface equipment A, and is used for transmitting a sensing signal of the superior sensing network to the photoelectric network system, transmitting the sensing signal of the photoelectric network system to the superior sensing network, and analyzing, calculating, controlling, storing and managing the sensing signal or information data in the photoelectric network system;

the network subsystem comprises an energy cable, a signal cable, a sensing cable, optical network interface equipment A and optical network interface equipment B, wherein the signal cable and the sensing cable are arranged in the energy cable in parallel or in a spiral mode and used for cable transmission of energy, communication, information and sensing signals, one end of the energy cable is connected with the optical network interface equipment A, and the other end of the energy cable is connected with the optical network interface equipment B;

the photoelectric network terminal system comprises energy terminal equipment, information terminal equipment and sensing terminal equipment, wherein the energy terminal equipment, the information terminal equipment and the sensing terminal equipment are mutually connected through terminal cables and are used for data transmission or information exchange and/or energy transmission among the energy terminal equipment, the information terminal equipment and the sensing terminal equipment; one end of the energy terminal equipment is connected with the optical network interface equipment B or the optical network interface equipment A through the energy cable, and the other end of the energy terminal equipment is connected with energy utilization equipment and/or energy generation equipment and is used for providing energy for the energy utilization equipment and/or uploading generated energy; one end of the information terminal device is connected with the optical network interface device B through the information cable, the other end of the information terminal device is connected with the information terminal interface device for transmission of communication information of the optical network system, one end of the sensing terminal device is connected with the optical network interface device B through the terminal energy cable, and the other end of the sensing terminal device is connected with the sensing terminal interface sensor for acquisition and/or transmission of sensing signals or information of the optical network system.

The network subsystem is provided with a plurality of energy cables and a plurality of optical network interface devices A and/or optical network interface devices B which are connected with each other or crossed with each other and are used for forming a chain network, a tree network, a ring network or a mixed network; the optical network interface device a is connected to the optical network interface device B through an energy cable, and represents the network subsystem composed of a plurality of energy cables and a plurality of optical network home devices a and/or optical network interface devices B.

The energy center equipment comprises energy center transmission equipment and energy center control equipment, one end of the energy center transmission equipment is connected with a primary power grid or an energy grid, the other end of the energy center transmission equipment is connected with a photoelectric grid interface equipment A and used for transmitting and providing energy for the photoelectric grid system, the energy center transmission equipment is provided with a control port ZK, the control port ZK is connected with the energy center control equipment through a center energy cable or a bus and used for the energy center control equipment to control the energy center transmission equipment in real time,

the energy center control equipment comprises an energy center data module and an energy center interface module, the energy center data module comprises a photoelectric network data chip, the energy center data module is used for running the energy unit system program, managing the energy terminal data, storing and analyzing the energy unit data, generating energy unit data tables such as equipment serial number, voltage, current, electric quantity, power, time, cost and the like, and running the photoelectric network system software program; the energy center interface module comprises an optical-electric network interface chip, the energy center interface module is used for analyzing an optical-electric network communication protocol, analyzing and converting an energy unit data table and inputting or outputting data, and the energy center interface module is mutually connected with the energy center data module through a bus and used for transmitting the energy unit data table to the energy center interface module through the bus; the energy center interface module is connected to the energy terminal equipment or the information center equipment or the sensing center equipment through a center energy cable to realize bidirectional transmission of communication information or data between the energy unit and the energy terminal equipment or the information center equipment or the sensing center equipment;

the information center equipment comprises an information center data module and an information center interface module, the information center data module comprises an optical network data chip, the information center data module is used for operating the information unit system program, managing information terminal data, storing and analyzing information unit data, generating information unit data tables such as names, serial numbers, addresses, duration, flow, time and expense and the like, and can be used for operating an optical network system software program; the information center interface module comprises an optical network interface chip, the information center interface module is used for communication protocol analysis, information unit data table analysis and data input or output, the information center interface module and the information center data module are mutually connected through a bus and used for transmitting the information unit data table to the information center interface module through the bus, and the information center interface module is outwards connected to the information terminal equipment or the information center equipment or the sensing center equipment through a center cable to realize bidirectional transmission of mutual communication information or data;

the sensing center equipment comprises a sensing center data module and a sensing center interface module, the sensing center data module comprises a photoelectric network data chip, the sensing center data module is used for the operation of the sensing unit system program, the data management of a sensing terminal, the data storage and analysis of the sensing unit and the generation of sensing unit data tables of name, serial number, address, place, sensing quantity, time, duration, type, grade and the like, and the data storage and analysis of the sensing unit are also used for the operation of a photoelectric network system software program; the sensing center interface module comprises a photoelectric network interface chip, the sensing center interface module is used for communication protocol analysis, sensing unit data table analysis and data input or output, the sensing center interface module is mutually connected with the sensing center data module through a bus and used for transmitting the sensing unit data table to the sensing center interface module through the bus, and the sensing center interface module is outwards connected to the sensing terminal equipment or the energy center equipment or the information center equipment through a center energy cable so as to realize the bidirectional transmission of mutual communication information or sensing data;

the energy center control equipment, the information center equipment and the sensing center equipment are mutually connected through the center energy cable and are used for mutual communication, information transmission, instruction receiving and sending or data exchange.

The photoelectric network system software program is used for uniformly managing the energy unit system program, the information unit system program, the sensing unit system program and the equipment, also used for uniformly managing, analyzing, counting, storing, inputting and outputting the energy unit data table, the information unit data table and the sensing unit data table, and also used for generating a photoelectric network system data table of the photoelectric network system; the data sheet of the photoelectric network system comprises data lists of date, time, address, duration, name, serial number, category, level, expense, quantity, voltage, current, electric quantity, power, flow, sensing quantity, temperature, humidity, pressure, switching quantity, analog quantity, stress-strain quantity and the like.

The energy terminal device comprises an energy terminal transmission device and an energy terminal control device, one end of the energy terminal transmission device is connected with the optical network interface device B or the optical network interface device A, the other end of the energy terminal transmission device is connected with an energy utilization device or an energy generation device or an energy storage device and is used for transmitting or storing energy of the optical network system, the energy terminal transmission device is provided with a control port DK, the control port DK is connected with the energy terminal control device through a terminal energy cable or a bus and is used for realizing the control of the energy terminal control device on the switching or the transmission or the storage of the energy terminal transmission device,

the energy terminal control equipment comprises an energy terminal data module and an energy terminal interface module, wherein the energy terminal data module comprises a photoelectric network terminal data chip and is used for realizing program operation and data analysis, operation and storage of the energy terminal control equipment, the energy terminal interface module comprises a photoelectric network terminal interface chip, one end of the energy terminal interface module is connected with a terminal energy cable, the other end of the energy terminal interface module is connected with the energy terminal data module through a bus and is used for realizing input or output of data of the energy terminal control equipment, and the energy terminal data generated by operation of the energy terminal data module is transmitted to the energy terminal interface module through the bus and is used for realizing input or output or exchange of data or information with the energy center equipment or the information terminal equipment and the information terminal equipment;

the energy terminal transmission equipment is connected with energy utilization equipment and/or energy production equipment, the energy production equipment is used for producing energy, the produced energy is electric energy and/or optical energy, and the energy utilization equipment is electric equipment and/or optical equipment;

the information terminal equipment comprises an information terminal data module and an information terminal interface module, the information terminal data module comprises an optical network terminal data chip and is used for realizing program operation, data analysis, operation and storage of the information terminal equipment, the information terminal interface module comprises an optical network terminal interface chip, one end of the information terminal interface module is connected with a terminal cable, the other end of the information terminal interface module is connected with the information terminal data module through a bus and is used for realizing input or output of the information terminal equipment data, the information terminal data generated by operation of the information terminal data module is transmitted to the information terminal interface module through the bus and is used for realizing data or information transceiving or exchange with the information center equipment or the energy terminal equipment and the information sensing terminal equipment;

the communication terminal equipment is wired transceiving equipment and/or wireless transceiving equipment, and the wireless transceiving equipment is used for being connected with the wireless terminal equipment through a wireless signal;

the sensing terminal device comprises a sensing terminal data module and a sensing terminal interface module, wherein the sensing terminal data module comprises a photoelectric network terminal data chip and is used for realizing program operation, data analysis, operation and storage of the sensing terminal device, the sensing terminal interface module comprises a photoelectric network terminal interface chip, one end of the sensing terminal interface module is connected with a terminal energy cable, the other end of the sensing terminal interface module is connected with the sensing terminal data module through a bus and is used for realizing input or output of a plurality of data of the sensing terminal device, and the sensing terminal data generated by the operation of the sensing terminal data module is transmitted to the sensing terminal interface module through the bus and is used for realizing input or output or exchange of data or information between the sensing terminal device and the sensing center device or between the sensing terminal device and the information terminal device;

the sensing terminal equipment is wired transceiving equipment and/or wireless transceiving equipment, and the wireless transceiving equipment is used for being connected with the wireless terminal equipment sensor through a wireless signal.

The cable comprises a signal cable, a sensing cable, a cable and an optical cable, wherein the signal cable comprises an energy optical fiber and an information optical fiber, the energy optical fiber is used for transmitting high-level laser energy, the information optical fiber is used for transmitting optical signals, and the energy optical fiber and the information optical fiber can be arranged in different beam tubes; the sensing cable comprises a plurality of sensing optical fibers, the sensing optical fibers are distributed sensors and are used for sensing the change of temperature, stress strain, current and a magnetic field of each point around the sensing cable, the sensing elements can be connected in series or in parallel in the middle or the tail end of the sensing optical fibers or the information optical fibers and are used for sensing the change of the current or the temperature or the magnetic field or the gas of the position mainly through the sensing elements, the cable is used for transmitting electric energy, and the signal cable, the sensing cable and the cable can be arranged in the same sheath in parallel to each other and used for realizing the cable transmission of optical energy, electric energy, communication information and sensing signals; the energy cable is used for transmitting high-power high-intensity light energy and/or high-voltage large-current electric energy, and/or simultaneously transmitting communication signal information and/or sensing signals, and can also be used as a distributed sensor;

the central energy cable is used for electric energy and/or optical energy transmission and/or communication information transmission;

the terminal energy cable is used for electric energy andor optical energy andor communication and information transmission and can also be used as a distributed sensor;

the bus is a multi-core conductive cable or an optical fiber cable or a plurality of wires printed on a circuit board and is used for digital signal communication or information transmission or data information exchange between equipment and equipment or between an interface module and the interface module or between the equipment and the interface module;

the signal cable in the energy cable and part of the fiber cores in the sensing cable can be mutually cross-connected;

the sensing cable is a distributed sensor, the sensing cable is arranged in the energy cable to sense the state change of the energy cable in real time and form a plurality of sensing monitoring data mm, the sensing terminal equipment acquires the operation change states of a plurality of terminal equipment of the system through the sensing terminal interface sensor and forms a plurality of sensing monitoring data mm1, when the temperature, pressure, vibration, current, voltage, power, gas and the like of the energy cable or the optical network terminal equipment in the system change, the generated sensing monitoring data mm and sensing monitoring data mm1 are transmitted to the energy center equipment, the information center equipment and the sensing center equipment through the energy cable or a bus to be analyzed and compared, and the operation result is displayed or alarmed and is fed back to the optical network terminal equipment through the energy cable to ensure that the system is at the specified temperature, Pressure, vibration, current, voltage, power, gas within threshold stable operation.

The photoelectric network data chip is used for processing the execution, time sequence distribution, information storage and data processing of a communication protocol of the photoelectric network system, the control of the photoelectric network system and the equipment management of corresponding units;

the data chip of the photoelectric network is used for time sequence distribution of information flow receiving and sending, generation and analysis of information flow according with a protocol of the photoelectric network, and analysis and processing of the information flow, wherein the analysis and processing of the information flow refers to classification processing of information flow types, and is used for analysis processing of unit equipment management information, analysis processing of sensing information, analysis processing of control information, and storage or forwarding of other information, and the analysis processing is used for storage control, calculation, judgment, response, conversion, forwarding and marking;

the photoelectric network interface chip is used for equipment control, interface format conversion and data input or output;

the communication protocol of the photoelectric network system is a specific meaning data table containing an instruction identification code, a protocol code, data, a check code and an end character;

the photoelectric network terminal data chip is used for analyzing a communication protocol of a photoelectric network system, responding in time sequence, running in a program, operating data, analyzing data, storing data and intelligently controlling and managing terminal equipment, and is also used for processing or storing data of voltage, current, electric quantity, power, magnetic field, pressure, temperature, humidity, flow, speed, image, gas, inductance, time, duration, input, output, on and off, marking the data and forming a data table according with the stipulations of the energy unit, the information unit and the inductance unit.

It is understood that the same or similar parts in the above embodiments may be mutually referred to, and the same or similar parts in other embodiments may be referred to for the content which is not described in detail in some embodiments.

It should be noted that, in the description of the present application, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Further, in the description of the present application, the meaning of "a plurality" means at least two unless otherwise specified.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and the scope of the preferred embodiments of the present application includes other implementations in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the present application.

It should be understood that portions of the present application may be implemented in hardware, software, firmware, or a combination thereof. In the above embodiments, various steps or methods may be implemented in software or firmware stored in a memory and executed by a suitable instruction execution system. For example, if implemented in hardware, as in another embodiment, any one or combination of the following technologies, which are well known in the art, may be used: a discrete logic circuit having a logic gate circuit for implementing a logic function on a data signal, an application specific integrated circuit having an appropriate combinational logic gate circuit, a Programmable Gate Array (PGA), a Field Programmable Gate Array (FPGA), or the like.

It will be understood by those skilled in the art that all or part of the steps carried by the method for implementing the above embodiments may be implemented by hardware related to instructions of a program, which may be stored in a computer readable storage medium, and when the program is executed, the program includes one or a combination of the steps of the method embodiments.

In addition, functional units in the embodiments of the present application may be integrated into one processing module, or each unit may exist alone physically, or two or more units are integrated into one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode. The integrated module, if implemented in the form of a software functional module and sold or used as a stand-alone product, may also be stored in a computer readable storage medium.

The storage medium mentioned above may be a read-only memory, a magnetic or optical disk, etc.

In the description herein, reference to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present application have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present application, and that variations, modifications, substitutions and alterations may be made to the above embodiments by those of ordinary skill in the art within the scope of the present application.

Claims (9)

1. The photoelectric network system is characterized by comprising a central subsystem, a network subsystem and a terminal subsystem; the central subsystem is connected with the terminal subsystem through the network subsystem;

the central subsystem is respectively connected with a superior energy network, a superior information network and a superior sensing network, and is respectively used for energy transfer and control with the superior energy network, information transfer, control and management with the superior information network, and sensing data transfer, control, storage, analysis, calculation and management with the superior sensing network; the central subsystem is also used for transmitting energy, information and sensing data with the terminal subsystem;

the terminal subsystem is used for acquiring the energy transmitted by the central subsystem through the network subsystem, providing the energy for the energy utilization equipment and uploading and storing the capacity of the external capacity equipment; the central subsystem is used for acquiring information transmitted by the central subsystem through the network subsystem and realizing the transmission of the information; the photoelectric network system is also used for collecting and transmitting sensing data in the photoelectric network system;

the network subsystem is used for transmitting and sensing energy, information and sensing data between the central subsystem and the terminal subsystem;

the central subsystem comprises energy central equipment, information central equipment and sensing central equipment, wherein the energy central equipment, the information central equipment and the sensing central equipment are connected with each other by a central line cable and are used for data transmission or information exchange and/or energy transmission among the energy central equipment, the information central equipment and the sensing central equipment; one end of the energy center device is connected to a higher-level energy network, and the other end of the energy center device is connected with a photoelectric network interface device A, and the energy center device is used for inputting the energy of a previous-level energy network into the photoelectric network system, outputting the energy of the photoelectric network system to the higher-level energy network, controlling the input or output energy of the photoelectric network system, and controlling the on-off of the internal energy transmission of the photoelectric network system; one end of the information center equipment is connected to a superior information network, and the other end of the information center equipment is connected with the photoelectric network interface equipment A, and is used for transmitting the communication information of the superior information network to the photoelectric network system, transmitting the communication information of the photoelectric network system to the superior information network, and controlling the on-off of the communication information in the photoelectric network system and managing the equipment; one end of the sensing center equipment is connected to a superior sensing network, and the other end of the sensing center equipment is connected with the photoelectric network interface equipment A, and is used for transmitting a sensing signal of the superior sensing network to the photoelectric network system, transmitting the sensing signal of the photoelectric network system to the superior sensing network, and analyzing, calculating, controlling, storing and managing the sensing signal or information data in the photoelectric network system;

the network subsystem comprises an energy cable, a signal cable, a sensing cable, optical network interface equipment A and optical network interface equipment B, wherein the signal cable and the sensing cable are arranged inside or outside the energy cable and used for cable transmission of energy, communication, information and sensing signals, one end of the energy cable is connected with the optical network interface equipment A, and the other end of the energy cable is connected with the optical network interface equipment B;

the photoelectric network terminal system comprises energy terminal equipment, information terminal equipment and sensing terminal equipment, wherein the energy terminal equipment, the information terminal equipment and the sensing terminal equipment are mutually connected through terminal cables and are used for data transmission or information exchange and/or energy transmission among the energy terminal equipment, the information terminal equipment and the sensing terminal equipment; one end of the energy terminal equipment is connected with the optical network interface equipment B or the optical network interface equipment A through the energy cable, and the other end of the energy terminal equipment is connected with energy utilization equipment and/or energy generation equipment and is used for providing energy for the energy utilization equipment and/or uploading generated energy; one end of the information terminal device is connected with the optical network interface device B through the information cable, the other end of the information terminal device is connected with the information terminal interface device for transmission of communication information of the optical network system, one end of the information terminal device is connected with the optical network interface device B through the terminal cable, and the other end of the information terminal device is connected with the information terminal interface sensor for acquisition and/or transmission of sensing signals or information of the optical network system.

2. The photovoltaic grid system according to claim 1,

the network subsystem is provided with a plurality of energy cables and a plurality of optical-electric network interface equipment A and/or optical-electric network interface equipment B which are connected with each other or are in cross connection with each other and are used for forming a chain network, a tree network, a ring network or a mixed network; the optical network interface device a is connected to the optical network interface device B via an energy cable, which represents the network subsystem consisting of a plurality of energy cables and a plurality of optical network interface devices a and/or optical network interface devices B.

3. The optical-electrical network system according to claim 1, wherein the energy-centric device includes an energy-centric transmission device and an energy-centric control device, one end of the energy-centric transmission device is connected to a primary electrical network or an energy network, and the other end of the energy-centric transmission device is connected to an optical-electrical network interface device a for transmitting and providing energy for the optical-electrical network system, the energy-centric transmission device is provided with a control port ZK, and the control port ZK is connected to the energy-centric control device through a central energy cable or a bus for the energy-centric control device to control the energy-centric transmission device in real time;

the energy center control equipment comprises an energy center data module and an energy center interface module, wherein the energy center data module comprises a photoelectric network data chip, and the energy center data module is used for running an energy unit system program, managing terminal data, storing and analyzing energy unit data, generating an equipment serial number, voltage, current, electric quantity, power, time and expense energy unit data table and running a photoelectric network system software program; the energy center interface module comprises a photoelectric network interface chip, the energy center interface module is used for photoelectric network communication protocol analysis, unit capable data table analysis and conversion, and data input or output, and the energy center interface module is mutually connected with the energy center data module through a bus and used for transmitting the unit capable data table to the energy center interface module through the bus; the energy center interface module is connected to the energy terminal equipment or the information center equipment or the sensing center equipment through a center energy cable, so that the bidirectional transmission of communication information or data between the energy unit and the energy terminal equipment or the information center equipment or the sensing center equipment is realized.

4. The photovoltaic grid system according to claim 1,

the letter center equipment comprises a letter center data module and a letter center interface module, the letter center data module comprises an optical network data chip, the letter center data module is used for operating letter unit system programs, is also used for managing letter terminal data, is also used for storing and analyzing letter unit data and generating letter unit data tables of names, serial numbers, addresses, duration, flow, time and expense, and can also be used for operating optical network system software programs; the information center interface module comprises an optical network interface chip, the information center interface module is used for communication protocol analysis, information unit data table analysis and data input or output, the information center interface module and the information center data module are mutually connected through a bus and used for transmitting the information unit data table to the information center interface module through the bus, and the information center interface module is outwards connected to the information terminal equipment or the energy center equipment or the sensing center equipment through a center cable so as to realize bidirectional transmission of mutual communication information or data.

5. The photovoltaic grid system according to claim 1,

the sensing center equipment comprises a sensing center data module and a sensing center interface module, the sensing center data module comprises a photoelectric network data chip, the sensing center data module is used for sensing unit system program operation, sensing terminal data management, sensing unit data storage analysis and generation of a sensing unit data table with name, serial number, address, place, sensing quantity, time, duration, type and grade, and the sensing unit data table is also used for operating a photoelectric network system software program; the sensing center interface module comprises a photoelectric network interface chip, the sensing center interface module is used for communication protocol analysis, sensing unit data table analysis and data input or output, the sensing center interface module is mutually connected with the sensing center data module through a bus and used for transmitting the sensing unit data table to the sensing center interface module through the bus, and the sensing center interface module is outwards connected to the sensing terminal equipment or the energy center equipment or the information center equipment through a center energy cable so as to realize the bidirectional transmission of mutual communication information or sensing data;

the energy center control equipment, the information center equipment and the sensing center equipment are mutually connected through the center energy cable and are used for mutual communication, information transmission, instruction receiving and sending or data exchange.

6. The optoelectronic grid system according to claim 3, wherein the optoelectronic grid system software program is used for unified management of the energy unit system program, the information unit system program, the sensing unit system program and the equipment, and also used for unified management, analysis, statistics, storage, input and output of the energy unit data table, the information unit data table and the sensing unit data table, and also used for generating the optoelectronic grid system data table of the optoelectronic grid system; the data table of the photoelectric network system comprises a data list of date, time, address, duration, name, serial number, category, level, expense, quantity, voltage, current, electric quantity, power, flow, sensing quantity, temperature, humidity, pressure, switching quantity, analog quantity and stress-dependent quantity.

7. The photovoltaic grid system according to claim 1,

the energy terminal equipment comprises energy terminal transmission equipment and energy terminal control equipment, wherein one end of the energy terminal transmission equipment is connected with the optical power network interface equipment B or the optical power network interface equipment A, the other end of the energy terminal transmission equipment is connected with energy utilization equipment or energy generation equipment or energy storage equipment and is used for transmitting energy of the optical power network system, the energy terminal transmission equipment is provided with a control port DK, and the control port DK is connected with the energy terminal control equipment through a terminal energy cable or bus and is used for realizing the control of the energy terminal control equipment on the switching, transmission or storage of the energy terminal transmission equipment;

the energy terminal control equipment comprises an energy terminal data module and an energy terminal interface module, wherein the energy terminal data module comprises a photoelectric network terminal data chip and is used for realizing program operation and data analysis, operation and storage of the energy terminal control equipment, the energy terminal interface module comprises a photoelectric network terminal interface chip, one end of the energy terminal interface module is connected with a terminal energy cable, the other end of the energy terminal interface module is connected with the energy terminal data module through a bus and is used for realizing input or output of data of the energy terminal control equipment, and the energy terminal data generated by operation of the energy terminal data module is transmitted to the energy terminal interface module through the bus and is used for realizing input or output or exchange of data or information with the energy center equipment or the information terminal equipment and the information terminal equipment;

the energy terminal transmission equipment is connected with energy utilization equipment and/or energy production equipment, the energy production equipment is used for producing energy, the produced energy is electric energy and/or optical energy, and the energy utilization equipment is electric equipment and/or optical equipment;

the information terminal equipment comprises an information terminal data module and an information terminal interface module, the information terminal data module comprises an optical network terminal data chip and is used for realizing program operation, data analysis, operation and storage of the information terminal equipment, the information terminal interface module comprises an optical network terminal interface chip, one end of the information terminal interface module is connected with a terminal cable, the other end of the information terminal interface module is connected with the information terminal data module through a bus and is used for realizing input or output of the information terminal equipment data, the information terminal data generated by operation of the information terminal data module is transmitted to the information terminal interface module through the bus and is used for realizing data or information transceiving or exchange with the information center equipment or the energy terminal equipment and the information sensing terminal equipment;

the communication terminal equipment is wired transceiving equipment and/or wireless transceiving equipment, and the wireless transceiving equipment is used for being connected with the wireless terminal equipment through a wireless signal;

the sensing terminal device comprises a sensing terminal data module and a sensing terminal interface module, wherein the sensing terminal data module comprises a photoelectric network terminal data chip and is used for realizing program operation, data analysis, operation and storage of the sensing terminal device, the sensing terminal interface module comprises a photoelectric network terminal interface chip, one end of the sensing terminal interface module is connected with a terminal energy cable, the other end of the sensing terminal interface module is connected with the sensing terminal data module through a bus and is used for realizing input or output of a plurality of data of the sensing terminal device, and the sensing terminal data generated by the operation of the sensing terminal data module is transmitted to the sensing terminal interface module through the bus and is used for realizing input or output or exchange of data or information between the sensing terminal device and the sensing center device or between the sensing terminal device and the information terminal device;

the sensing terminal equipment is wired transceiving equipment and/or wireless transceiving equipment, and the wireless transceiving equipment is used for being connected with the sensor of the wireless terminal equipment through a wireless signal.

8. The optical networking system of claim 1, wherein the energy cable comprises a signal cable, a sensing cable, and further comprises a cable and an optical cable, the signal cable comprises an energy fiber and an information fiber, the energy fiber is used for transmitting high-level laser energy, the information fiber is used for transmitting optical signals, and the energy fiber and the information fiber can be arranged in different beam tubes; the sensing cable comprises a plurality of sensing optical fibers, the sensing optical fibers are distributed sensors and are used for sensing the change of temperature, stress strain, current and magnetic field of each point around the sensing cable, a sensing element can be connected in series or in parallel in the middle or the tail end of the sensing optical fibers or the information optical fibers and is used for sensing the change of current or temperature or magnetic field or gas of the middle or the tail end of the sensing optical fibers or the information optical fibers in a key way through the sensing element, the cable is used for transmitting electric energy, and the signal cable, the sensing cable and the cable can be arranged in the same sheath in parallel to each other and used for realizing one-cable transmission of optical energy, electric energy, communication information and sensing signals; the energy cable is used for transmitting high-power high-intensity light energy and/or high-voltage high-current electric energy and/or simultaneously transmitting communication signal information and/or sensing signals, and can also be used as a distributed sensor;

the central energy cable is used for electric energy and/or optical energy transmission and/or communication information transmission;

the terminal energy cable is used for electric energy and/or optical energy and/or communication and information transmission, and can also be used as a distributed sensor;

the bus is a multi-core conductive cable or an optical fiber cable or a plurality of wires printed on a circuit board and is used for digital signal communication or information transmission or data information exchange between equipment or between an interface module and the interface module or between the equipment and the interface module;

the signal cable in the energy cable and part of the optical fiber cores in the sensing cable can be mutually crossed and connected;

the sensing cable is a distributed sensor, the sensing cable is arranged in the energy cable to sense the state change of the energy cable in real time and form a plurality of sensing monitoring data mm, the sensing terminal equipment acquires the operation change states of a plurality of terminal equipment of the system through the sensing terminal interface sensor and forms a plurality of sensing monitoring data mm1, when the temperature, pressure, vibration, current, voltage, power and gas of the energy cable or the optical network terminal equipment in the system change, the generated sensing monitoring data mm and the generated sensing monitoring data mm1 are transmitted to the energy center equipment, the information center equipment and the sensing center equipment through the energy cable or a bus to be analyzed and compared, and the operation result is displayed or alarmed and simultaneously fed back to the optical network terminal equipment through the energy cable for ensuring that the system is at the specified temperature, Pressure, vibration, current, voltage, power, gas within threshold stable operation.

9. The optoelectronic network system of claim 3, wherein the optoelectronic network data chip is used for processing the execution of communication protocol of the optoelectronic network system, time sequence distribution, information storage, data processing, optoelectronic network system control and device management of corresponding units;

the data chip of the photoelectric network is used for time sequence distribution of information flow receiving and sending, generation and analysis of information flow according with a protocol of the photoelectric network, and analysis and processing of the information flow, wherein the analysis and processing of the information flow refers to classification processing of information flow types, and is used for analysis processing of unit equipment management information, analysis processing of sensing information, analysis processing of control information, and storage and/or forwarding of other information, and the analysis processing is used for storage control, calculation, judgment, response, conversion, forwarding and marking;

the photoelectric network interface chip is used for equipment control, interface format conversion and data input or output;

the communication protocol of the photoelectric network system is a specific meaning data table containing instruction identification codes, protocol codes, data, check codes and end symbols;

the photoelectric network terminal data chip is used for analyzing a communication protocol of a photoelectric network system, responding in time sequence, running programs, calculating data, analyzing data, storing data and intelligently controlling and managing terminal equipment, and is also used for processing or storing data of voltage, current, electric quantity, power, magnetic field, pressure, temperature, humidity, flow, speed, image, gas, induction quantity, time, duration, input, output, on and off, marking the data and forming a data table which is in accordance with the stipulation of the energy unit, the signal unit and the induction unit.

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