CN212086556U - Street lamp centralized controller - Google Patents

Abstract

The utility model relates to a street lamp centralized control ware, include: the device comprises a microprocessor, a display circuit, a USB interface, a Bluetooth module, a clock circuit and a memory; the microprocessor is respectively and electrically connected with the display circuit, the USB interface, the Bluetooth module, the clock circuit and the memory; the USB interface is configured to be externally connected with USB equipment to realize the import and export of information; the Bluetooth module is configured to communicate the street lamp integrated controller with an external mobile terminal; the clock circuit is configured to provide a real-time calendar clock function for the microprocessor and provide a clock reference for the street lamp integrated controller to realize an intelligent dimming strategy; and the memory is configured to store the configuration information of the street lamp centralized controller. The street lamp centralized controller can be conveniently and rapidly configured on the spot by maintenance personnel, the configuration information of the first street lamp centralized controller can be copied by using the USB flash disk and copied to other street lamp centralized controllers, and the configuration efficiency of the street lamp centralized controller is saved.

Description

Street lamp centralized controller

Technical Field

The utility model belongs to the street lamp field, concretely relates to street lamp centralized control ware.

Background

Along with the expansion of smart cities and smart lighting systems and the development of refined power consumption management, the urban road lighting controller is developed into an intelligent street lamp centralized controller with a networking communication function, a metering function, a control function and a strategy configuration function from an original traditional single-function time control module.

The centralized controller is installed in the street lamp regulator cubicle, and every regulator cubicle generally has a plurality of return circuits, and the return circuit quantity differs. Each relay of the centralized controller corresponds to one loop or a plurality of loops, and may not correspond. The number and the type of the street lamps mounted on each loop are different, and the actual road names corresponding to each loop are different or correspond to different road sections of the same road. The control strategies configured for each loop are different, for example, the control strategies for the main loop and the loop may be different, and the control strategies for the main loop and the loop may be different. The position information (longitude and latitude) of each power distribution cabinet is not the same, and the position not only relates to asset management but also influences the control strategy (sunrise and sunset time calculated according to the longitude and latitude). Therefore, when the integrated controller is installed, a large amount of field information needs to be configured or recorded, the information is generally difficult to obtain in advance, and particularly, the integrated controller is configured according to the actual situation of the field power distribution cabinet when the integrated controller is installed on the field after the power distribution cabinets of some old roads are transformed. When a general centralized controller is configured, a field installer needs to communicate with a platform manager of a remote control room remotely, the field administrator transmits information to the remote platform manager, and the remote platform manager configures the concentrator remotely through a network port of the centralized controller or communication modes such as GPRS (general packet radio service), 3G (third generation telecommunication), 4G (4G) and the like, so that the configuration process is complicated and errors are easy to occur.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a purpose is the remote configuration street lamp centralized control ware who solves among the prior art, and the problem of configuration flow numerous and diverse, make mistakes easily provides a neotype street lamp centralized control ware.

The technical scheme of the utility model: a street light centralized controller, comprising: the device comprises a microprocessor, a display circuit, a USB interface, a Bluetooth module, a clock circuit and a memory; the microprocessor is respectively and electrically connected with the display circuit, the USB interface, the Bluetooth module, the clock circuit and the memory; the USB interface is configured to be externally connected with USB equipment to realize the import and export of information; the Bluetooth module is configured to communicate the street lamp integrated controller with an external mobile terminal; the clock circuit is configured to provide a real-time calendar clock function for the microprocessor and provide a clock reference for the street lamp integrated controller to realize an intelligent dimming strategy; and the memory is configured to store the configuration information of the street lamp centralized controller.

Furthermore, the street lamp integrated controller also comprises an electrical parameter acquisition metering circuit; the electrical parameter acquisition metering circuit is electrically connected with the microprocessor; the electric parameter acquisition metering circuit is configured to acquire electric power information of each loop in loops between the street lamp centralized controller and the street lamps and send the acquired electric power information to the microprocessor.

Further, the power information includes one or more of voltage, current, power, and electric energy.

Furthermore, the street lamp integrated controller also comprises a switching value input circuit; the switching value input circuit is electrically connected with the microprocessor; and the switching value input circuit is configured to collect an external input dry contact signal, send the collected information to the microprocessor, and judge whether the external input information is abnormal or not by the processor.

Furthermore, the external input dry contact signals comprise one or more of water sensor signals, door sensor signals, manual and automatic switching signals and contactor action feedback signals.

Furthermore, the street lamp integrated controller also comprises a loop control circuit; the loop control circuit is electrically connected with the microprocessor; and the loop control circuit is configured to receive a control command of the microprocessor and output a switch control signal.

Furthermore, the switch control signal controls the on-off of the external contactor, so that the control of the loop switch is realized.

Furthermore, the Bluetooth module of the street lamp centralized controller is configured with a Bluetooth account and a password, and when the street lamp centralized controller is configured on the spot of a user, the Bluetooth account and the password are acquired from the street lamp centralized controller, so that the mobile terminal is connected with the Bluetooth of the street lamp centralized controller.

Furthermore, the USB interface may copy information of one centralized controller to a plurality of centralized controllers by externally connecting a USB device.

The utility model has the advantages that: the utility model discloses a street lamp centralized control ware is last to set up bluetooth module and USB interface circuit, can make things convenient for the on-the-spot quick configuration street lamp centralized control ware of maintainer, and if a plurality of street lamp centralized control ware configuration is the same or when close, can use the USB flash disk to duplicate the configuration information of first street lamp centralized control ware to on copying other street lamp centralized control ware, practice thrift the configuration efficiency of street lamp centralized control ware.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive effort.

Fig. 1 is a schematic circuit structure diagram of an integrated controller for a preferred street lamp according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a preferred street lamp control system according to an embodiment of the present invention;

fig. 3 is a flow chart of the field configuration of the street lamp centralized controller according to the embodiment of the present invention;

fig. 4 is a schematic diagram of the two street lamp centralized controllers preferably performing data transmission through the usb disk.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The present invention will be further explained with reference to the accompanying drawings.

Example one

Fig. 1 is the circuit structure schematic diagram of the preferred street lamp centralized controller of the embodiment of the utility model, as shown in fig. 1, the street lamp centralized controller 1 includes, microprocessor 11, display circuit 12, bluetooth module 13, USB interface circuit 14, clock circuit 15, memory 16, electrical parameter gathers metering circuit 17, switching value input circuit 18, and return circuit control circuit 19. The display circuit 12, the bluetooth module 13, the USB interface 14, the clock circuit 15, the memory 16, the electrical parameter acquisition and measurement circuit 17, the switching value input circuit 18, and the loop control circuit 19 are all electrically connected to the microprocessor 11.

And the microprocessor 11 is configured to realize control of the street lamp centralized controller 1.

The display circuit 12, preferably a touch display, may be used to display device information to a user, and may also be used to receive input information from the user, so that the user may query the actual state of the concentrator, parameter information, etc. via the display circuit 12.

The USB interface circuit 14 may be externally connected to USB storage devices such as a USB disk, and may copy the configuration information of the street lamp centralized controller 1 to the USB disk so that a user can read the configuration information of the street lamp centralized controller 1 on site or at a later stage, and may also import the configuration information in the USB disk to the street lamp centralized controller 1 for information configuration.

The bluetooth module 13 is configured to communicate the centralized street lamp controller 1 with a mobile terminal (a mobile phone, a tablet personal computer, or the like), so that a user can locally configure the centralized street lamp controller 1, and accordingly, the user, especially a field maintainer, does not need to connect a background to configure the centralized street lamp controller 1, and only needs to connect to the centralized street lamp controller 1 through bluetooth on site to implement the field configuration of the centralized street lamp controller 1.

And the clock circuit 15 is configured to provide a real-time calendar clock function for the microprocessor 11, and provide a clock reference for the street lamp centralized controller 1 to realize an intelligent dimming strategy.

And a memory 16 configured to store configuration information of the street lamp centralized controller 1 and the like.

The electric parameter acquisition metering circuit 17 is configured to acquire information of three-phase voltage, current, power, electric energy and the like of each loop, send the acquired information to the microprocessor 11, and judge whether abnormality exists or not by the microprocessor 11 and whether alarm information needs to be sent to the remote control platform or not.

The switching value input circuit 18 is configured to collect external input dry contact signals such as a water sensor, a door sensor, a manual/automatic change switch, a contactor action feedback and the like, send the collected information to the microprocessor 11, and judge whether an abnormality exists or not by the microprocessor 11 and send alarm information to a background or not.

And the loop control circuit 19 is configured to receive a control command of the microprocessor 11, output a switch control signal, control the on-off of the external contactor, and realize loop switch control.

Example two

Fig. 2 is the preferred street lamp control system of embodiment structural schematic diagram, as shown in fig. 2, street lamp centralized control ware 1 is connected through the thing networking with remote control platform 2, and remote control platform 2 is connected with a plurality of street lamp centralized control ware 1 to the realization is to a plurality of street lamp centralized control ware 1's control. The remote control platform 2 and the mobile terminal 3 are connected through a mobile network, for example, a 4G mobile network, and the mobile terminal 3 can access the remote control platform 2 through authorization to realize operations such as reading and modifying data of the remote control platform 2. The mobile terminal 3 and the street lamp integrated controller 1 can be connected through the Bluetooth module, and the field configuration of the mobile terminal 3 to the street lamp integrated controller 1 is realized.

Fig. 3 is a flow chart of the field configuration of the street lamp centralized controller according to the embodiment of the present invention. As shown in fig. 3, after the street lamp centralized controller 1 is installed, a button on the street lamp centralized controller 1 is pressed to activate the bluetooth module 13 of the street lamp centralized controller 1, and a user can read out a bluetooth name and a bluetooth password from a display on the street lamp centralized controller 1, or scan a two-dimensional code on the display to acquire the bluetooth name and the bluetooth password information.

The user opens the special configuration APP of the street lamp centralized controller on the mobile terminal 3, connects the street lamp centralized controller 1 with the Bluetooth and inputs a password, and establishes Bluetooth connection with the street lamp centralized controller 1. And reading the UID number of the street lamp centralized controller 1. The configuration parameters input into the street lamp centralized controller 1 comprise the name of the street lamp centralized controller 1, the domain name or IP and port number of the remote control platform 2, corresponding information of a relay, a switching value and a road, strategy information, range information, alarm enabling and threshold information and the like; the position information is acquired by the self-contained positioning function of the mobile terminal 3.

And clicking to send the configuration information to transmit to the street lamp centralized controller 1, and registering the street lamp centralized controller 1 into the remote control platform 2. After receiving the configuration information, the street lamp centralized controller 1 stores the configuration information into the internal memory 16, and connects the configuration information to the corresponding remote control platform 2 by using the communication interface (internet access or GPRS, 3G, 4G, etc.) of the street lamp centralized controller 1, and controls the operation according to the configuration information.

EXAMPLE III

After the street lamp centralized controller 1 is configured in a bluetooth or other mode, if the same application scene as the street lamp centralized controller 1 exists in the field, the configuration may be different.

Fig. 4 is a schematic diagram of the two street lamp centralized controllers preferably performing data transmission through the usb disk. As shown in fig. 4, the USB disk is inserted into the USB interface of the street lamp centralized controller 1, the configuration parameter "export" button is pressed, and the "export" button is clicked to export the configuration parameters into the USB disk. The U disk containing the configuration parameters is inserted into the street lamp centralized controllers 1 in other same application scenes, a key of the configured street lamp centralized controller 1 is pressed to turn over to a configuration parameter import interface, import is clicked, the configuration parameters of the U disk are imported into the street lamp centralized controller 1, and the purpose of rapid configuration is achieved. The U disk can also be inserted into the street lamp centralized controller 1 in a similar application scene to perform introduction of configuration participation, and then the APP on the mobile terminal is used for configuring other different configuration parameters through the Bluetooth interface.

While the preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the appended claims be interpreted as including the preferred embodiment and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (9)

1. A street light centralized controller, comprising: the device comprises a microprocessor, a display circuit, a USB interface, a Bluetooth module, a clock circuit and a memory; it is characterized in that the preparation method is characterized in that,

the microprocessor is respectively and electrically connected with the display circuit, the USB interface, the Bluetooth module, the clock circuit and the memory;

the USB interface is configured to be externally connected with USB equipment to realize the import and export of information;

the Bluetooth module is configured to communicate the street lamp integrated controller with an external mobile terminal;

the clock circuit is configured to provide a real-time calendar clock function for the microprocessor and provide a clock reference for the street lamp integrated controller to realize an intelligent dimming strategy;

and the memory is configured to store the configuration information of the street lamp centralized controller.

2. The centralized street lamp controller of claim 1,

the street lamp integrated controller also comprises an electrical parameter acquisition metering circuit;

the electrical parameter acquisition metering circuit is electrically connected with the microprocessor;

the electric parameter acquisition metering circuit is configured to acquire electric power information of each loop in loops between the street lamp centralized controller and the street lamps and send the acquired electric power information to the microprocessor.

3. The centralized street lamp controller of claim 2,

the power information comprises one or more of voltage, current, power and electric energy.

4. The centralized street lamp controller of claim 1,

the street lamp integrated controller also comprises a switching value input circuit;

the switching value input circuit is electrically connected with the microprocessor;

and the switching value input circuit is configured to collect an external input dry contact signal, send the collected information to the microprocessor, and judge whether the external input information is abnormal or not by the processor.

5. The centralized street lamp controller of claim 4,

the external input dry contact signals comprise one or more of water immersion sensor signals, door magnetic sensor signals, manual and automatic replacement switch signals and contactor action feedback signals.

6. The centralized street lamp controller of claim 1,

the street lamp integrated controller also comprises a loop control circuit;

the loop control circuit is electrically connected with the microprocessor;

and the loop control circuit is configured to receive a control command of the microprocessor and output a switch control signal.

7. The centralized street lamp controller of claim 6,

and the switch control signal controls the on-off of the external contactor to realize the control of the loop switch.

8. The centralized street lamp controller of claim 1,

the Bluetooth module of the street lamp centralized controller is configured with a Bluetooth account and a password, and when the street lamp centralized controller is configured on a user site, the Bluetooth account and the password are acquired from the street lamp centralized controller, so that the Bluetooth connection between the mobile terminal and the street lamp centralized controller is realized.

9. The centralized street lamp controller of claim 1,

the USB interface can copy the information of one centralized controller to a plurality of centralized controllers through externally connecting USB equipment.

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