CN210469832U - Industrial lamp networking intelligent control system - Google Patents

Abstract

The utility model discloses an industry lamp networking intelligence control system, including lighting terminal, centralized control ware, platform control system and repeater, intelligence lighting terminal includes one set of above lamps and lanterns, and every set of lamps and lanterns all have independent address, and the centralized control ware corresponds intelligent lighting terminal according to address control, and platform control system includes the server, and the server is used for generating control command and issues intelligent lighting terminal through the centralized control ware, and the repeater is used for the communication between centralized control ware and the platform control system. The utility model provides an industrial lamp networking intelligent control system, each set of lamps and lanterns in the industrial lamp networking intelligent control system have independent addresses, thereby can carry out independent and accurate control to one set of lamps and lanterns, control by the platform control system through the repeater through the centralized controller; or the control range can be used as a control range according to the geographical area, and the lamp can be turned on or turned off according to the operation requirement; the lighting control may also be performed in other ways.

Description

Industrial lamp networking intelligent control system

Technical Field

The utility model relates to an industry lamp networking intelligence control system.

Background

At present, the automation degree of the existing lighting system in the lighting place is generally low, the lighting system is simply used for realizing the switching function, the traditional mode is adopted for lighting management, namely, the lamp is turned on and turned off at the time through a timing switch, and no matter whether workers exist at night or not, the lighting system is full-value lighting, and a large amount of electric energy is wasted. Meanwhile, the maintenance of the lighting product is mainly manually inspected at present, and due to the fact that the lighting device needs a large amount of time, even if the lighting device is in a problem, timely maintenance is difficult to achieve, and certain influence is brought to the operation safety of lighting places such as ports or wharfs. Therefore, how to control and manage the lighting devices becomes a problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem how to control and manage lighting equipment provides an industrial lamp networking intelligence control system.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes:

the utility model provides an industry lamp networking intelligence control system, includes intelligent lighting terminal, centralized control ware, platform control system and repeater, intelligent lighting terminal includes more than one set lamps and lanterns, every the lamps and lanterns all have independent address, the centralized control ware basis address control corresponds intelligent lighting terminal, platform control system includes the server, the server is used for generating control command and passes through the centralized control ware is issued intelligent lighting terminal, the repeater be used for the centralized control ware with communication between the platform control system.

According to one embodiment of the present invention, a wired communication networking mode and/or a wireless communication networking mode are/is adopted between the repeater and the centralized controller; and a wired communication networking mode and/or a wireless communication networking mode are/is adopted between the centralized controller and the intelligent lighting terminal.

According to the utility model discloses an embodiment, centralized controller includes communication module, detection module and little the control unit main chip, communication module is used for signal communication, detection module includes photosensitive detecting element and alternating current signal detection circuitry unit, photosensitive detecting element is used for detecting the luminance of lighting apparatus application environment, alternating current signal detection circuitry unit is used for detecting the interchange power consumption condition, little the control unit main chip handle communication module with detection module's data information.

According to the utility model discloses an embodiment, centralized controller still includes storage module, storage module is used for the storage data information that detection module detected.

According to the utility model discloses an embodiment, communication module includes first communication unit and second communication unit, first communication unit is communication unit commonly used, second communication unit is reserve communication unit.

According to the utility model discloses an embodiment, communication module has first antenna interface and second antenna interface, first antenna interface is used for the mutual communication with lighting terminal, second antenna interface is used for the mutual communication with the transponder.

According to the utility model discloses an embodiment, communication module realizes calling conveying, timing conveying, warning and remote control command function through wired communication network deployment mode and/or wireless communication network deployment mode.

According to the utility model discloses an embodiment, the data information that detection module detected includes on off state, electric current, voltage, power, electric energy, power factor and frequency.

According to the utility model discloses an embodiment, platform control system still includes operation platform, operation platform is used for visiting the server carries out parameter setting.

According to an embodiment of the present invention, the operation platform includes one or more of a tablet computer, a mobile phone, a computer, or a cloud platform.

According to the utility model discloses an embodiment, industry lamp networking intelligence control system still includes relay controller, centralized control ware passes through relay controller connects the repeater, relay controller is used for the compensation centralized control ware passes through the repeater arrives communication between the platform control system.

According to one embodiment of the present invention, a wired and/or wireless communication networking mode is adopted between the relay controller and the repeater; and a wired and/or wireless communication networking mode is adopted between the relay controller and the centralized controller.

According to an embodiment of the present invention, the wired communication networking mode includes one or more modules of ethernet, KNX, ABB, LON, EIB, CAN, RS485, RS232, and MBUS.

According to the utility model discloses an embodiment, wireless communication networking mode includes one or more modules in loRa, zigBee, wifi, lifi, NBIOT, Winson, Sixfox, Z-ware, SUB-1 GHz, SUB-433 MHz, SUB-2.4 GHz, ZETA, Thread, NFC, UWB, bluetooth, 4G, 5G.

According to the utility model discloses an embodiment, centralized controller with intelligent lighting terminal adopts one-to-one and/or one-to-many cooperation communication mode.

According to an embodiment of the present invention, the centralized controller can control all the lamps at the same time; the centralized controller can also control part of the lamps.

The utility model provides an industrial lamp networking intelligent control system, each set of lamps and lanterns in the industrial lamp networking intelligent control system have independent addresses, thereby can carry out independent and accurate control to one set of lamps and lanterns, control by the platform control system through the repeater through the centralized controller; the first communication unit in the area can be turned on or off according to the geographical area, and part of lamps in the area can be turned on or off according to the operation requirement; the lighting control may also be grouped in other combinations.

Meanwhile, the photosensitive detection unit and the alternating current signal detection circuit unit of the detection module are used for detecting the illumination terminal and the application environment thereof, the main chip of the micro control unit is used for processing the data detected by the detection module, the detected data and basic data in a conventional state can be analyzed and judged to determine the occurrence and the corresponding position of a fault, and the communication module is used for receiving and sending corresponding data information and control signals, so that the interactive work of monitoring, operating and managing the illumination terminal is realized.

Furthermore, each set of lamps with independent addresses can be independently dimmed according to requirements; the lighting device in the independent communication unit can be wholly dimmed, and the dimming of the lighting device can be partially performed. Based on the detection function, the energy consumption, voltage and current data, switching, fault state, operation record and the like of each set of lamp can be classified and counted and stored in the system, and a corresponding statistical table can be output.

Drawings

FIG. 1 is a schematic block diagram of an industrial networked intelligent control system of an embodiment;

FIG. 2 is a block diagram of the centralized controller according to an embodiment;

fig. 3 is a schematic diagram of a communication manner of the centralized controller according to the embodiment.

Detailed Description

With the wide development of communication technology, "connecting all devices to a network" has become a common consensus of enterprises all over the world. In order to keep up with the trend of network automation and avoid losing competitive advantages, a high-grade networking system for data acquisition, production monitoring and instant cost management must be established, and industrial lamps are networked accordingly. The industrial lamp networking is that all lamps and lanterns in a lighting place such as a port or a wharf are connected and networked by using a communication networking technology to form the industrial lamp networking of the port or the wharf, wherein the industrial lamp networking of the port or the wharf is realized by the communication networking technology. The industrial lamp network performs switching, dimming and positioning control on each set of intelligent lamps in the control range, and can monitor the running state of each set of lamps.

The present invention will be described in detail with reference to the accompanying drawings:

as shown in fig. 1, the present embodiment provides an industrial lamp networking intelligent control system, which includes an industrial lamp networking intelligent control system including an intelligent lighting terminal, an integrated controller, a platform control system, and a repeater, where the intelligent lighting terminal includes more than one set of lamps, each set of lamps has an independent address (ID), the integrated controller controls the intelligent lighting terminal according to the address, the platform control system includes a server, the server is configured to generate a control instruction and issue the control instruction to the intelligent lighting terminal through the integrated controller, the repeater is configured to communicate between the integrated controller and the platform control system, the integrated controller realizes independent control of the lamps of the intelligent lighting terminal under the instruction of the platform control system, and the intelligent lighting terminal is connected to networking lighting devices having a communication function, the light fixture may be an LED light fixture.

In the connection mode, a wired communication networking mode and/or a wireless communication networking mode are/is adopted between the repeater and the centralized controller; and a wired communication networking mode and/or a wireless communication networking mode are/is adopted between the centralized controller and the intelligent lighting terminal. The repeater is a gateway, the repeater realizes network interconnection on a network layer, the network interconnection is realized by using different communication protocols, data formats or languages, the repeater can be used for wide area interconnection and local area network interconnection, the repeater is equipment serving as a conversion function, and the repeater can be in butt joint with a platform control system through a WAN interface.

In this embodiment, the platform control system further includes an operation platform, where the operation platform is configured to access the server to perform parameter setting, the server may respond to the service request and perform processing for a device providing computing service, and the server may be accessible to a worker through a network and may perform remote operation and control on the operation platform. The server is used for generating a control instruction for the lamp on one hand and issuing the control instruction for the lamp to the centralized controller on the other hand; the server supports local office work and remote office work, a user can access the server through the operation platform to directly set the illumination parameters, and the server generates a control instruction according to the illumination parameters set by the user, so that interactive work of monitoring, operating and managing the illumination parameters of the intelligent illumination terminal is realized.

The operation platform comprises one or more of a tablet personal computer (PAD), a mobile phone, a computer or a cloud platform, wherein the tablet personal computer is a small and Portable personal computer, a touch screen is used as basic input equipment, and the operation is conveniently carried out in each equipment of the operation platform through a corresponding software interface.

On the network connection, the industrial networked intelligent control system further comprises a relay controller, also called a repeater, the relay controller is used for compensating the communication between the centralized controller and the platform control system, the relay controller is a connection device working on a physical layer and is suitable for the connection of two types of networks which are completely the same, the main function is to expand the distance of network transmission by resending or forwarding data signals, and the relay controller has the function of amplifying and regenerating signals on a line, so that the signal attenuation is compensated, and the long-distance communication is realized. The industrial lamp networking intelligent control system further comprises an electrical system, and the electrical system can supply power for the centralized controller, the repeater, the platform control system and the intelligent lighting terminal.

On connection, a wired and/or wireless communication networking mode is adopted between the relay controller and the repeater; and a wired and/or wireless communication networking mode is adopted between the relay controller and the centralized controller.

As shown in fig. 2, the centralized Controller provided in this embodiment is used for a lighting device, and includes a communication module, a detection module, and a Micro control Unit (MCU, Micro Controller Unit) main chip, where the communication module is used for signal communication, the detection module includes a photosensitive detection Unit and an Alternating Current (AC) signal detection circuit Unit, the photosensitive detection Unit is used for detecting illumination, the AC signal detection circuit Unit is used for detecting an Alternating Current power consumption condition, the Micro control Unit main chip processes data information of the communication module and the detection module, and the communication module and the Micro control Unit main chip may adopt products in the prior art to realize corresponding functions, the detection module is used for detecting the lighting device, the Micro control Unit main chip may perform signal processing, and the model of the Micro control Unit main chip may adopt STM32F107VCT 6.

The photosensitive detection circuit is used for detecting the brightness of the application environment of the lighting terminal, and a Light Dependent Resistor (LDR) can be used, for example, when the high level of the photosensitive Resistor is detected, the day time is provided, and the low level of the photosensitive Resistor is at night, the brightness of the application environment when the lamp is turned on can be further included; the alternating current signal detection circuit module detects the power supply condition of the system distribution box, namely the power utilization condition of the lamp. The data information detected by the detection module comprises a switching state, current, voltage, power, electric energy, a power factor and frequency, the server detects the voltage, current and energy consumption data of each intelligent lighting terminal through an internally set software program to realize independent dimming of the intelligent lighting terminal lamp, analyzes and judges the current, voltage and energy consumption conditions of the lamp and basic data in a conventional state, determines a fault position and alarms and displays in a software operation interface; the server classifies, counts and stores the energy consumption condition, the on-off and fault state and the operation record of the lamp in each independent communication unit, and outputs a statistical form.

In this embodiment, the centralized controller further includes a storage module, where the storage module is configured to store the data information detected by the detection module, and each module in the centralized controller is electrically connected through a corresponding input/output interface, so as to implement the functions of the centralized controller. Preferably, the storage module can adopt an F-RAM ferroelectric random access memory, can have the capacity of more than 256MB, and has higher speed and more erasable times compared with the common flash.

As shown in fig. 3, the communication module includes a first communication unit and a second communication unit, the first communication unit and the second communication unit can adopt different communication modes, the first communication unit is a common communication unit, the second communication unit is a standby communication unit, for example, the centralized controller has both a LoRa communication module and a zigbee communication module, and communicates with the transponder through the LoRa and the zigbee, and communicates with the intelligent lighting terminal through the zigbee, thereby realizing different communication requirements. The first communication unit or the second communication is used for transmitting a control command of a server of the industrial lamp networking system to the MCU main chip, transmitting the control command received by the MCU main chip to a terminal controller of the industrial lamp networking system, transmitting data information of the industrial lamp networking illumination terminal to the MCU main chip, and transmitting the data information of the industrial lamp networking illumination terminal received by the MCU main chip to the server.

In this embodiment, the communication module has a first antenna interface and a second antenna interface, where the first antenna interface is used for interactive communication with the lighting terminal, and the second antenna interface is used for interactive communication with the transponder.

The communication module realizes the functions of calling transmission, timing transmission, alarming and remote control command through a wired communication networking mode and/or a wireless communication networking mode. In the connection mode, the wired communication networking mode comprises one or more modules of Ethernet, KNX, ABB, LON, EIB, CAN, RS485, RS232 and MBUS; the wireless communication networking mode comprises one or more modules of LoRa, ZigBee, wifi, lifi, NBIOT, Winson, Sixfox, Z-ware, SUB-1 GHz, SUB-433 MHz, SUB-2.4 GHz, ZETA, Thread, NFC, UWB, Bluetooth, 4G and 5G. The communication module selects a proper type to be suitable for different working scenes, and the communication module can adopt the existing product module to realize the networking requirement.

In the control process, the centralized controller and the intelligent lighting terminals adopt a one-to-one and/or one-to-many matching communication mode, namely one set of intelligent lighting terminals can be controlled by one centralized controller, and a plurality of sets of intelligent lighting terminals can also be controlled by one centralized controller.

Further, the centralized controller can control all the lamps at the same time, and the centralized controller can also control part of the lamps, and finely control the illumination according to the addresses of the lamps and the requirements of realizing work. When the number of the lamps is more than or equal to two, the lamps can be grouped according to regions or quantity, the integrated controller can control the whole lamps in the same group, and can also control partial lamps in the same group.

The embodiment can connect and network all lamps with communication functions of wharf yard high-pole lamps, street lamps, yard RMGC, wharf STS and gate port street lamps to form an industrial lamp networking intelligent control system of a port. The industrial lamp networking intelligent control system of the port performs switching, dimming and positioning control on each set of lamps in a control range, and monitors the operation condition of each set of lamps.

Different applications of the networked intelligent control system for industrial lamps will be described below.

A purse seine lamp networking mode: the intelligent lighting terminal comprises 20 meters and 15 lamps of high-pole lamps and 40 meters and 22 lamps of high-pole lamps, 19 groups of 500W lamps of a lamp panel of each high-pole lamp are arranged, each group of lamps integrates a wireless communication function and independently serves as a wireless intelligent lighting terminal to form a small star-shaped network with the centralized controller. Each group of intelligent lamps has an independent ID address, and online lighting parameter query of each lamp is distinguished through the ID address and other related control settings in a grouping mode are met. The centralized controller transmits the received state data of the 19 groups of lamps to the repeater through the antenna radiation, and the repeater transmits the lighting parameters to the system control platform through the WAN port to carry out real-time state reporting and management.

A floodgate machine mouth street lamp network deployment mode: the gate port street lamp is usually far away from a master control room, the street lamp to be controlled is provided with 15 poles, the surrounding environment is simple and has no other interference sources, the networking coverage is easy to meet, an integrated controller and a 15-pole lamp group are adopted to form a star network, and the integrated controller uploads the gate port street lamp data to a system control platform through uplink signal coverage and transponder signal interaction so as to realize a remote control target.

A yard area street lamp and yard transverse street lamp networking mode: in the embodiment, the quantity of the street lamps in the yard area and the quantity of the street lamps in the transverse street lamps are 238, the distribution is relatively dispersed and is distributed in a mixed mode with the track crane and the container, in order to guarantee the reliability of signal wireless transmission and avoid interference between the track crane and the track crane, between the track crane and the yard and interference between the longitudinal street lamps and the transverse street lamps in a networking mode, a networking control scheme is adopted to divide the areas into a plurality of areas for star networking respectively, the street lamps are controlled to be divided into 12 areas, 16 street lamps and 1 centralized controller form one group in the networking mode, 12 areas are divided into 12 groups of wireless networks, due to the distribution direction of the street lamps and the interference factors of goods in the yard to signals, the transverse street lamp networking and the longitudinal street lamps are processed in a networking mode, the interference factors are avoided to guarantee the stability and the reliability of signal transmission.

The utility model provides an industrial lamp networking intelligent control system, each set of lamps and lanterns in the industrial lamp networking intelligent control system have independent addresses, thereby can carry out independent and accurate control to one set of lamps and lanterns, control by the platform control system through the repeater through the centralized controller; the first communication unit in the area can be turned on or off according to the geographical area, and part of lamps in the area can be turned on or off according to the operation requirement; the lighting control may also be grouped in other combinations.

Through the above embodiments, it is possible to realize:

1. the lamp is freely and flexibly turned on and off: each set of lamps in the industrial lamp networking intelligent control system has an independent ID address, and the system can independently and accurately switch each set of lamps; the geographical area can be used as a control range, and each independent communication unit in the area is subjected to lamp turning-on and lamp turning-off operation, or part of lamps in the area are subjected to lamp turning-on and lamp turning-off operation according to operation requirements; the illumination control can be carried out in groups in other combination modes;

2. multi-mode dimming function: independent electrodeless dimming of each set of lamps can be realized; each set of lamps in the intelligent lighting terminal has an independent ID address, and independent dimming is performed on each set of lamps according to operation requirements; carrying out integral dimming or partial dimming on the lighting equipment in the independent communication unit;

3. the lighting parameter monitoring function is as follows: each set of lamp has an independent ID address, the centralized controller can remotely detect parameters such as power, current, voltage, electric energy and the like of each set of lamp of the intelligent lighting terminal, and stores energy consumption, voltage and current data of each set of lamp in a system in a classified manner;

4. the functions of fault detection, fault positioning, fault early warning and active reporting are as follows: the system determines a fault and determines the fault position by detecting the voltage and current and energy consumption data of each set of lamps and analyzing and judging the current, voltage and energy consumption conditions of the lamps and basic data in a conventional state, and can alarm and display in a corresponding software operation interface;

5. the industrial lamp networking system can also form an independent database, carry out classified statistical storage on the energy consumption condition, the on-off and fault state and the operation record of the lamps in each independent communication network and output a statistical report.

The embodiments of the present invention are only used for illustration, and do not limit the scope of the claims, and other substantially equivalent alternatives that may be conceived by those skilled in the art are within the scope of the present invention.

Claims (16)

1. The utility model provides an industry lamp networking intelligence control system which characterized in that, industry lamp networking intelligence control system includes:

the intelligent lighting terminal comprises more than one set of lamps, and each set of lamps has an independent address;

the centralized controller controls the intelligent lighting terminal according to the address;

the platform control system comprises a server, and the server is used for generating a control instruction and issuing the control instruction to the intelligent lighting terminal through the centralized controller;

and the repeater is used for communication between the centralized controller and the platform control system.

2. The intelligent control system of industrial lamp networking according to claim 1, wherein wired communication networking mode and/or wireless communication networking mode is adopted between the repeater and the centralized controller; and a wired communication networking mode and/or a wireless communication networking mode are/is adopted between the centralized controller and the intelligent lighting terminal.

3. The networked intelligent control system of industrial lights of claim 1, wherein the centralized controller comprises:

the communication module is used for signal communication;

the detection module comprises a photosensitive detection unit and an alternating current signal detection circuit unit, the photosensitive detection unit is used for detecting the brightness of the application environment of the lighting equipment, and the alternating current signal detection circuit unit is used for detecting the alternating current power utilization condition;

and the micro control unit main chip processes the data information of the communication module and the detection module.

4. The networked intelligent control system of industrial lamps according to claim 3, wherein the centralized controller further comprises a storage module for storing the data information detected by the detection module.

5. The intelligent control system of claim 3, wherein the communication module comprises a first communication unit and a second communication unit, the first communication unit is a common communication unit, and the second communication unit is a standby communication unit.

6. The intelligent control system of industrial lamp networking according to claim 3, wherein the communication module has a first antenna interface and a second antenna interface, the first antenna interface is used for interactive communication with a lighting terminal, and the second antenna interface is used for interactive communication with the repeater.

7. The intelligent control system of claim 3, wherein the communication module implements functions of call transmission, timing transmission, alarm and remote control command via wired communication networking mode and/or wireless communication networking mode.

8. The intelligent networked industrial light control system of claim 3, wherein the data information detected by the detection module comprises switch state, current, voltage, power factor, and frequency.

9. The networked intelligent control system of industrial lamps according to claim 1, wherein the platform control system further comprises an operating platform for accessing the server for parameter setting.

10. The industrial networked intelligent control system of claim 9, wherein the operating platform comprises one or more of a tablet, a cell phone, a computer, or a cloud platform.

11. The intelligent networked industrial light control system of claim 1, further comprising a relay controller, wherein the centralized controller is connected to the repeater through the relay controller, and wherein the relay controller is configured to compensate for communication between the centralized controller and the platform control system through the repeater.

12. The intelligent networked industrial lamp control system according to claim 11, wherein the relay controller and the repeater are networked by wired and/or wireless communication; and a wired and/or wireless communication networking mode is adopted between the relay controller and the centralized controller.

13. The networked intelligent control system of industrial lamps according to claim 2, 7 or 12, wherein the wired communication networking means comprises one or more modules of ethernet, KNX, ABB, LON, EIB, CAN, RS485, RS232 and MBUS.

14. An intelligent control system for networking industrial lamps as claimed in claim 2, 7 or 12, wherein the wireless communication networking mode comprises one or more modules selected from LoRa, ZigBee, wifi, lifi, NBIOT, Winson, Sixfox, Z-ware, SUB-1 GHz, SUB-433 MHz, SUB-2.4 GHz, ZETA, Thread, NFC, UWB, Bluetooth, 4G and 5G.

15. The networked intelligent control system for industrial lamps according to claim 1, wherein the centralized controller and the intelligent lighting terminal adopt a one-to-one and/or one-to-many cooperative communication mode.

16. The intelligent networked industrial light control system of claim 15, wherein the centralized controller can control all of the light fixtures simultaneously; the centralized controller can also control part of the lamps.

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