CN211266591U - Photoelectric circuit breaker device system - Google Patents

Abstract

The utility model discloses a photoelectric circuit breaker device system, including energy stream module, information flow module and sensing stream module, the energy stream module is connected with the information flow module, the information flow module is connected with the sensing stream module, the sensing stream module is connected with the energy stream module; the energy source flow module is used for switching on or off energy source flow, the information flow module is used for transmitting communication information and information flow and controlling the energy flow module in real time, and the sensing flow module is used for sensing and monitoring the running state of the photoelectric circuit breaker and transmitting sensing flow; the utility model discloses a photoelectric circuit breaker device system can effectively improve the information interaction ability between energy source stream, information flow and the sensing stream, can carry out analysis processes according to information flow and sensing stream transmission's relevant data in real time, can guarantee that photoelectric circuit breaker has the running state of safety and stability in joining in marriage the net, can guarantee to join in marriage net operation security.

Description

Photoelectric circuit breaker device system

Technical Field

The utility model relates to a photoelectric circuit breaker field especially relates to a photoelectric circuit breaker device system.

Background

A photointerrupter is essentially a photoreceptor that integrates transmitting and receiving components in a single package, an infrared emitter generally serving as the transmitting element and an infrared detector as the receiving element, the detecting element being generally shielded to ensure that it can only detect the beam emitted by the coupling source, the two elements being arranged so that the detector can detect objects between it and the coupling source;

the problem that the information exchange is not timely enough exists in current photoelectric circuit breaker device system, has directly influenced the security of photoelectric circuit breaker device in joining in marriage the net, and the information interaction between energy source flow, information flow and the sensing flow is not comprehensive enough, arouses the unusual phenomenon of three-phase load easily, is unfavorable for joining in marriage net safe operation, consequently the utility model provides a photoelectric circuit breaker device system to solve the weak point among the prior art.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a photoelectric circuit breaker device system can effectively improve the information interaction ability between energy source stream, information flow and the sensing stream, can carry out analysis processes according to information flow and sensing stream transmission's relevant data in real time, can guarantee that photoelectric circuit breaker has the operating condition of safety and stability in joining in marriage the net, can guarantee to join in marriage net operational safety nature.

The utility model provides a photoelectric circuit breaker device system, including energy stream module, information flow module and sensing stream module, the energy stream module is connected information flow module, the information flow module is connected sensing stream module, the sensing stream module is connected energy stream module; the energy source flow module is used for switching on or off energy source flow, the information flow module is used for transmitting communication information and information flow, is used for controlling the energy source flow module in real time, is used for acquiring, transmitting and controlling data of the sensing flow module and is used for controlling a photoelectric circuit breaker, and the sensing flow module is used for sensing and monitoring the running state of the photoelectric circuit breaker and is used for transmitting sensing flow.

The further improvement lies in that: the energy source flow module is connected with an input end interface and an output end interface, the input end interface and the output end interface are photoelectric interfaces or non-photoelectric interfaces, and when the input end interface and the output end interface are photoelectric interfaces, the input end interface and the output end interface are used for simultaneously plugging and unplugging optical and electric; when the input end interface and the output end interface are non-photoelectric interfaces, the optical or electric plug-in connection is used;

the information flow module comprises a photoelectric network chip, and the photoelectric network chip is used for monitoring and/or controlling the running state of the photoelectric circuit breaker in real time, and is used for receiving and transmitting control of communication information data, acquisition of sensing data, control of on-off of the photoelectric circuit breaker and realization of external communication;

the sensing flow module comprises an optical network sensor which monitors the running state of the energy source flow module in real time on line;

the photoelectric circuit breaker is any one of a three-phase circuit breaker, a single-phase circuit breaker or a multi-phase circuit breaker, the photoelectric circuit breaker is a photoelectric network switch, and the photoelectric network switch is any one of a single-connection switch, a double-connection switch, a triple-connection switch or a multi-connection switch and is used for controlling the energy source flow in different scenes.

The further improvement lies in that: the information flow module can passively receive and execute the instruction data sent by the previous stage and actively collect the data sent by the next stage, and the information flow module is used for controlling the on/off of the photoelectric circuit breaker.

The further improvement lies in that: the photoelectric interfaces of the input end interface and the output end interface are connected with the photoelectric connector and used for simultaneously connecting the electric energy channel and the optical signal channel; the photoelectric connector is used for simultaneously connecting or disconnecting electricity and light, and comprises a metal conducting layer and an optical fiber core, is used for simultaneously connecting or disconnecting light and electricity in a plugging mode, and can also be used for simultaneously connecting the input end or the output end of the photoelectric circuit breaker with light and electricity.

The utility model has the advantages that: through the utility model discloses a photoelectric circuit breaker device system can effectively improve the information interaction ability between energy source stream, information flow and the sensing stream, can carry out analysis processes according to information flow and sensing stream transmission's relevant data in real time, can guarantee that photoelectric circuit breaker has safety and stability's running state in joining in marriage the net, can guarantee to join in marriage net operation security.

Drawings

FIG. 1 is a schematic diagram of the system of the present invention;

FIG. 2 is a schematic diagram of the system of the present invention;

fig. 3 is a schematic diagram of the structure of the photoelectric network chip of the present invention.

Detailed Description

In order to deepen the understanding of the present invention, the following embodiments will be combined to make the present invention do further details, and the present embodiment is only used for explaining the present invention, and does not constitute the limitation of the protection scope of the present invention.

According to fig. 1, 2, and 3, the present embodiment provides a photo interrupter device system, which includes an energy flow module, an information flow module, and a sensing flow module, where the energy flow module is connected to the information flow module, the information flow module is connected to the sensing flow module, and the sensing flow module is connected to the energy flow module; the energy source flow module is used for switching on or off energy source flow, the information flow module is used for transmitting communication information and information flow, is used for controlling the energy source flow module in real time, is used for acquiring, transmitting and controlling data of the sensing flow module and is used for controlling a photoelectric circuit breaker, and the sensing flow module is used for sensing and monitoring the running state of the photoelectric circuit breaker and is used for transmitting sensing flow.

The energy source flow module is connected with an input end interface and an output end interface, the input end interface and the output end interface are photoelectric interfaces or non-photoelectric interfaces, and when the input end interface and the output end interface are photoelectric interfaces, the input end interface and the output end interface are used for simultaneously plugging and unplugging optical and electric; when the input end interface and the output end interface are non-photoelectric interfaces, the optical or electric plug-in connection is used;

the energy source flow module is provided with a metal contact which is used for connecting or disconnecting the energy source flow, the metal contact is made of a metal conductive material, the metal conductive material is formed by mixing a graphene carbon nano material and a metal material or by penetrating the graphene carbon nano material into the metal material molecule, and the metal contact is used for improving the mechanical strength, the wear resistance, the corrosion resistance, the heat dissipation efficiency and the electric conductivity of the metal contact; the graphene carbon nanomaterial can also be coated on the outer surfaces of the input end interface and the output end interface and used for improving the heat dissipation performance of the input end interface and the output end interface;

the information flow module comprises a photoelectric network chip, and the photoelectric network chip is used for monitoring and/or controlling the running state of the photoelectric circuit breaker in real time, and is used for receiving and transmitting control of communication information data, acquisition of sensing data, control of on-off of the photoelectric circuit breaker and realization of external communication;

the sensing flow module comprises an optical network sensor which monitors the running state of the energy source flow module in real time on line;

the photoelectric circuit breaker is any one of a three-phase circuit breaker, a single-phase circuit breaker or a multi-phase circuit breaker, the photoelectric circuit breaker is a photoelectric network switch, and the photoelectric network switch is any one of a single-connection switch, a double-connection switch, a triple-connection switch or a multi-connection switch and is used for controlling the energy source flow in different scenes.

The information flow module can passively receive and execute the instruction data sent by the previous stage and actively collect the data sent by the next stage, and the information flow module is used for controlling the on/off of the photoelectric circuit breaker.

The photoelectric network chip is used for marking and setting the photoelectric circuit breakers into a plurality of different energy flow paths, also used for marking and setting 1 layer, 2 layers and N layers of each path of photoelectric circuit breaker, and also used for marking and setting the photoelectric circuit breakers of each layer into A level, B level, C level and N level according to the important degree, the secondary important degree and the non-important degree of the photoelectric circuit breaker, and each photoelectric circuit breaker is marked with a corresponding path level;

the photoelectric network chip is used for realizing automatic connection or disconnection control of energy source flow, realizing automatic protection of the photoelectric circuit breaker, calculating, storing and analyzing data of the current sensing module and judging whether the photoelectric circuit breaker is overloaded or not according to the marks and the settings of different road levels of the photoelectric circuit breaker;

according to the level marking setting of the photoelectric network chip, the photoelectric circuit breakers of different paths, layers and levels can be switched on or off, and when overcurrent and overload occur, the photoelectric circuit breakers begin to be switched off from the unimportant photoelectric circuit breakers of the lowest level of marking setting, so that the normal operation of the photoelectric circuit breakers of the important level is ensured.

When the photoelectric circuit breaker works in multiple paths, multiple layers and multiple stages, the photoelectric circuit breaker of the current stage can automatically disconnect the next stage to mark the other photoelectric circuit breaker with the lowest stage when the photoelectric network chip monitors overcurrent or overload, and the photoelectric circuit breaker is used for ensuring the stable and reliable work of the photoelectric circuit breaker of the current stage.

The photoelectric network chip is a multifunctional chip and is used for data operation, storage, analysis, input, output and communication, sensing, display and warning, external communication and internal management and control functions are realized, meanwhile, the metering function can be realized by collecting the value of the photoelectric network sensor, and meanwhile, whether protection control operation is needed or not can be judged by collecting the value of the photoelectric network sensor.

The photoelectric interfaces of the input end interface and the output end interface are connected with the photoelectric connector and used for simultaneously connecting the electric energy channel and the optical signal channel; the photoelectric connector is used for simultaneously connecting or disconnecting electricity and light, and comprises a metal conducting layer and an optical fiber core, is used for simultaneously connecting or disconnecting light and electricity in a plugging mode, and can also be used for simultaneously connecting the input end or the output end of the photoelectric circuit breaker with light and electricity.

The photoelectric network chip comprises photoelectric network software, and the photoelectric network software is used for data operation, storage, analysis, input and output of the photoelectric circuit breaker, is also used for communication of the photoelectric circuit breaker, and is also used for sensing, monitoring, controlling and managing of the photoelectric circuit breaker.

The photoelectric network software comprises a photoelectric network protocol, the photoelectric network protocol is used for making convention for communication, sensing and control of a photoelectric network system, the photoelectric network protocol is a set of communication format protocol, specifies transmission formats of energy source flow, information flow and data and instructions in the sensing flow in the photoelectric network, is used for information transmission and exchange between equipment in the photoelectric network system, is also used for realizing transmission, sensing and control of the energy source flow, the information flow and the sensing flow, is also used for digital management of the energy source flow, the information flow and the sensing flow, and is also used for control and management of the photoelectric circuit breaker.

The photoelectric network protocol comprises a starting field, an ending field and a data field, wherein the data field comprises a destination address field, a source address field, a frame type field, a frame length field, a frame number field, a data net kernel field and a frame check field; the starting field is used for receiving a starting position of a judging protocol, the destination address field is used for a receiving end to judge whether the data belongs to the destination address field, the source address field is used for knowing the source of the data, the frame type field is used for judging the type of the data of the frame, the frame number field is used for judging whether the data belongs to a single frame or a few frames in continuous frames, the data clear core field stores valid data, the frame check field is used for judging whether the transmitted data has errors, and the ending field is used for judging whether a subsequent frame exists; the frame type may be an energy type frame, an information type frame, or a sensing type frame;

the frame has the following definition:

header or start byte, three each of F6 and 28, F6F6282828, 6 bytes; destination address 128 bits, supporting IPV6, 16 bytes; source address 128 bits, supporting IPV6, 16 bytes; the frame type is 2 bytes, which are divided into an energy type, a signal type and a sense type, and are subdivided into a command type and a data type; the frame length is 2 bytes; frame number 1 byte; data clear checking; the frame checks for a 4 byte CRC 32; end of frame (F0 or 0F), 1 byte;

the frame type can be that the first bit of the first byte is an energy type command bit, the second bit is an energy type data bit, the third bit is a signal type command bit, the fourth bit is a signal type data bit, the fifth bit is a sensing type command bit, the sixth bit is a sensing type data bit, the other byte is the extension of the byte type, the extension can correspond to the corresponding data length, the longer data needs to be transmitted in frames, and the frame number can be set to show continuity; the checksum is used for verifying whether the data transmission has errors or not; when the frame end symbol is used for data framing, distinguishing whether a non-subsequent framing F0 ends, and whether a subsequent framing is available at 0F; the net kernel length of the data frame is controlled within 500 bytes.

The utility model has the advantages that: through the utility model discloses a photoelectric circuit breaker device system can effectively improve the information interaction ability between energy source stream, information flow and the sensing stream, can carry out analysis processes according to information flow and sensing stream transmission's relevant data in real time, can guarantee that photoelectric circuit breaker has safety and stability's running state in joining in marriage the net, can guarantee to join in marriage net operation security.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. A photo-interrupter device system, characterized by: the system comprises an energy flow module, an information flow module and a sensing flow module, wherein the energy flow module is connected with the information flow module, the information flow module is connected with the sensing flow module, and the sensing flow module is connected with the energy flow module; the energy source flow module is used for switching on or off energy source flow, the information flow module is used for transmitting communication information and information flow, is used for controlling the energy source flow module in real time, is used for acquiring, transmitting and controlling data of the sensing flow module and is used for controlling a photoelectric circuit breaker, and the sensing flow module is used for sensing and monitoring the running state of the photoelectric circuit breaker and is used for transmitting sensing flow.

2. The photo interrupter device system of claim 1, wherein: the energy source flow module is connected with an input end interface and an output end interface, the input end interface and the output end interface are photoelectric interfaces or non-photoelectric interfaces, and when the input end interface and the output end interface are photoelectric interfaces, the input end interface and the output end interface are used for simultaneously plugging and unplugging optical and electric; when the input end interface and the output end interface are non-photoelectric interfaces, the optical or electric plug-in connection is used;

the information flow module comprises a photoelectric network chip, and the photoelectric network chip is used for monitoring and/or controlling the running state of the photoelectric circuit breaker in real time, and is used for receiving and transmitting control of communication information data, acquisition of sensing data, control of on-off of the photoelectric circuit breaker and realization of external communication;

the sensing flow module comprises an optical network sensor which monitors the running state of the energy source flow module in real time on line;

the photoelectric circuit breaker is any one of a three-phase circuit breaker, a single-phase circuit breaker or a multi-phase circuit breaker, the photoelectric circuit breaker is a photoelectric network switch, and the photoelectric network switch is any one of a single-connection switch, a double-connection switch, a triple-connection switch or a multi-connection switch and is used for controlling the energy source flow in different scenes.

3. The photo interrupter device system of claim 1, wherein: the information flow module can passively receive and execute the instruction data sent by the previous stage and actively collect the data sent by the next stage, and the information flow module is used for controlling the on/off of the photoelectric circuit breaker.

4. The photo interrupter device system of claim 2, wherein: the photoelectric interfaces of the input end interface and the output end interface are connected with the photoelectric connector and used for simultaneously connecting the electric energy channel and the optical signal channel; the photoelectric connector is used for simultaneously connecting or disconnecting electricity and light, and comprises a metal conducting layer and an optical fiber core, is used for simultaneously connecting or disconnecting light and electricity in a plugging mode, and can also be used for simultaneously connecting the input end or the output end of the photoelectric circuit breaker with light and electricity.

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