CN111182703A - Intelligent lighting terminal one-key general control system and control method - Google Patents

Abstract

The invention relates to the technical field of intelligent illumination, in particular to an intelligent illumination terminal one-key master control system and a control method, wherein the intelligent illumination terminal one-key master control system comprises a master control system, a regional sub-control center, intelligent illumination terminal nodes and a node confirmation module; the node confirmation module is electrically connected with the master control system; the master control system, the regional sub-control center and the intelligent lighting terminal nodes are electrically connected in sequence. Through the implementation of the technical scheme, all different intelligent lighting terminal area scene states and different intelligent lighting terminal types can be coordinated and controlled, different landscape effects can be displayed, the overall regulation and control and monitoring of the intelligent lighting terminals can also be realized, the operation is convenient, and the cost is saved.

Description

Intelligent lighting terminal one-key general control system and control method

Technical Field

The invention relates to the technical field of intelligent lighting terminal management control, in particular to a one-key master control system and a one-key master control method for an intelligent lighting terminal.

Background

Urban street lighting is an important public facility of modern cities and an important part of urban landscapes. The existing street lamp can only be opened on time, and can not generate other light display effects, so that the street lamp is not attractive, meanwhile, the existing street lamp is not provided with a master control system, can not well control and monitor the display effects of the graded street lamp, and sends a display effect regulation and control instruction from the master control system. Therefore, there is a need for an improvement and innovation on the street lamp, and a one-key master control system for street lamps is provided to coordinate master control of all different street lamp area scene states and different street lamp types, so as to show a desired landscape effect.

Disclosure of Invention

In order to solve at least one of the above technical problems, a primary object of the present invention is to provide a one-key master control system and method for intelligent lighting terminals, so as to achieve flexible on-off control of all intelligent lighting terminals, facilitate adjustment operation, and save a large amount of equipment cost.

In order to achieve the above object, a first aspect of the present invention is a one-key general control system for an intelligent lighting terminal, including: the system comprises a master control system, a regional sub-control center, intelligent lighting terminal nodes and a node confirmation module; the node confirmation module is electrically connected with the master control system; the master control system, the area sub-control center and the intelligent lighting terminal nodes are electrically connected in sequence; after the node confirmation module confirms the acquired information of the intelligent lighting terminal nodes, the master control system realizes one-key master control of the intelligent lighting terminal nodes through the mapping relation between the area sub-control center and the master control system and the mapping relation between the intelligent lighting terminal nodes and the area sub-control center.

Furthermore, the master control system comprises a light effect editing module, a master control communication module, a master control processing unit and a display module; the lamp effect editing module is connected with the master control processing unit and the display module, and the master control processing unit is connected with the master control communication module and the display module; the intelligent lighting terminal comprises a lighting effect editing module, a master control communication module, a regional branch control center, a master control processing unit and a display module, wherein the lighting effect editing module is used for presetting and editing lighting display effects of the intelligent lighting terminal, the master control communication module is used for communicating with the regional branch control center, the master control processing unit is used for outputting intelligent lighting terminal effect scheme instructions and processing data to the regional branch control center, and the display module is used for displaying the effect states of nodes of the intelligent lighting terminal.

Furthermore, the regional sub-control center comprises a sub-control processing unit and a sub-control communication module; the sub-control communication module is connected with the sub-control processing unit; the sub-control processing unit is used for processing and outputting instructions to the intelligent lighting terminal nodes, and the sub-control communication module is used for communicating with the master control system and the intelligent lighting terminal nodes.

Furthermore, the intelligent lighting terminal node comprises a control unit and an intelligent lighting terminal communication module, the intelligent lighting terminal communication module is connected with the control unit, the control unit is used for processing and outputting instructions of the intelligent lighting terminal node, and the intelligent lighting terminal communication module is used for communicating with the sub-control system and the intelligent lighting terminal node.

Further, the lamp effect detection device comprises an effect detection unit and a protection module, wherein the control unit is respectively connected with the protection module and the effect detection unit, the protection module is used for protecting the control unit, and the effect detection unit is used for detecting the lamp effect.

Further, the control unit comprises a power adjusting module and a switch module, the power adjusting module, the switch module and the control unit are sequentially connected, the power adjusting module is used for adjusting power, and the switch module is used for opening and closing the intelligent lighting terminal.

Further, the master control communication module comprises a GSM communication unit and an ethernet communication unit, the slave control communication module comprises a GSM communication unit, and the intelligent lighting terminal communication module comprises a GSM communication unit.

Further, the control unit adopts P89LPC938 as a core chip.

The second aspect of the invention provides a control method of an intelligent lighting terminal one-key master control system, which comprises the following steps:

acquiring state information of nodes of the intelligent lighting terminal;

communicating according to the mapping relation between the regional sub-control center and the master control center and the mapping relation between the intelligent lighting terminal nodes and the regional sub-control center, and activating the intelligent lighting terminal nodes;

acquiring node information of an intelligent lighting terminal in an activated state;

determining the mapping relation between the intelligent lighting terminal nodes in the activated state and the corresponding regional sub-control centers and the mapping relation between the regional sub-control centers and the master control center to form a master control mapping network;

responding to the operation of a user to generate a master control trigger request; and

and carrying out one-key regulation and control on the intelligent lighting terminal nodes according to the master control trigger request and the master control mapping network.

The invention has the beneficial effects that: different from the prior art, the intelligent lighting terminal can only be turned on time, and cannot generate other light display effects, so that the intelligent lighting terminal is not attractive. In the embodiment, the one-key master control system of the intelligent lighting terminal comprises a master control system, a regional sub-control center, intelligent lighting terminal nodes and a node confirmation module; the node confirmation module is electrically connected with the master control system; the general control system regional branch accuse center intelligent lighting terminal node electricity is connected in order, and general control system can control intelligent lighting terminal node through regional branch accuse center to coordinate the regional scene state of all different intelligent lighting terminals, different intelligent lighting terminal types, and show the view effect of settlement, so, can wholly regulate and control intelligent lighting terminal and monitor, have convenient operation, save the advantage of a large amount of equipment expenses.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, 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 the structures shown in the drawings without creative efforts.

Fig. 1 is a block diagram of a one-key general control system of an intelligent lighting terminal according to an embodiment of the present invention;

FIG. 2 is a block diagram of the modules of the central control system in an embodiment of the present invention;

FIG. 3 is a block diagram of a regional subcontrol center in an embodiment of the present invention;

fig. 4 is a block diagram of modules of an intelligent lighting terminal node in an embodiment of the invention;

FIG. 5 is a block diagram of the modules of the intelligent lighting terminal control unit in an embodiment of the present invention;

fig. 6 is a method step diagram of a control method of a one-key general control system of an intelligent lighting terminal according to an embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a block diagram of a one-key master control system of an intelligent lighting terminal according to an embodiment of the present invention. As shown in fig. 1, the invention provides a one-key master control system for an intelligent lighting terminal, which comprises a node confirmation module 1, a master control system 2, a regional sub-control center 3 and an intelligent lighting terminal node 5; the node confirmation module 1 is electrically connected with the master control system 2; the master control system 2, the regional sub-control center 3 and the intelligent lighting terminal node 5 are sequentially in signal connection; after the node confirmation module 1 confirms the acquired information of the intelligent lighting terminal nodes 5, the master control system 2 realizes one-key master control of the intelligent lighting terminal nodes 5 through the mapping relation between the regional sub-control centers 3 and the master control system 2 and the mapping relation between the intelligent lighting terminal nodes 5 and the regional sub-control centers 3.

Specifically, total control system 2 is total control center for having a plurality of servers, and total control system 2 can pass through GSM wireless connection with regional branch accuse center 3, intelligent lighting terminal node 5, and total control system 2 can implement a key regulation and control to all intelligent lighting terminal. For the intelligent lighting terminal node 5, the intelligent lighting terminal node has an identification ID, the identification ID indicates the position and the type of the specific intelligent lighting terminal, and the information is uploaded and stored in the master control system. In the operation of realizing one-key total control on all intelligent lighting terminal nodes 5 by using the total control system 2, the node confirmation module 1 firstly confirms the information of the intelligent lighting terminal nodes 5 acquired by the total control system 2, after confirmation, the lamp terminal nodes 5 activated by the total control system 2, then the total control system 2 determines the mapping relation between the regional sub-control center 3 and the total control system 2 and the mapping relation between the intelligent lighting terminal nodes 5 and the regional sub-control center 3, and finally, responds to the operation of a user on the total control system 2, generates a one-key total control instruction, and realizes the control on activating the intelligent lighting terminal nodes 5 according to the one-key total control instruction.

The intelligent lighting terminal node 5 comprises any one of an effect lamp, a street lamp, a night scene lamp, a multimedia lamp, a special effect lamp and a laser lamp and at least one combination.

The area sub-control center 3 is in a mapping relationship, can receive a one-key master control instruction of the master control system 2, and can send the one-key master control instruction of the master control system 2 to the intelligent lighting terminal nodes 5 controlled by the area sub-control center. All the intelligent lighting terminal nodes can be controlled by the regional sub-control center 3 through the mapping relation, the regional sub-control center 3 receives the control of the master control system 2, and the intelligent lighting terminal nodes 5 are controlled according to the mapping relation of the intelligent lighting terminal nodes 5. In summary, the one-key general control system for the intelligent lighting terminals of the invention realizes that the intelligent lighting terminal nodes 5 in each area receive the one-key general control instruction of the general control center, so that all different regional scene states of the intelligent lighting terminals and different intelligent lighting terminal types can be coordinated, a preset landscape effect is displayed, the intelligent lighting terminals can be integrally regulated, controlled and monitored, and the one-key general control system for the intelligent lighting terminals has the advantages of convenience in operation and substantial equipment cost saving.

Referring to fig. 2, fig. 2 is a block diagram of modules of a general control system in an embodiment of the present invention. Further, as shown in fig. 2, the total control system 2 includes a total control communication module 14, a total control processing unit 13, a display module 12, and a lamp effect editing module 11; the lamp effect editing module 11 is connected with the master control processing unit 13 and the display module 12, and the master control processing unit 13 is connected with the master control communication module 14 and the display module 12; the lamp effect editing module 11 is used for presetting and editing the light display effect of the intelligent lighting terminal, the master control communication module 14 is used for communicating with the regional branch control centers, the master control processing unit 13 is used for outputting an intelligent lighting terminal effect scheme instruction and processing data to the regional branch control centers, and the display module 12 is used for displaying the effect state of the intelligent lighting terminal nodes.

The lamp effect editing module 11 is used for presetting and editing the light display effect of the intelligent lighting terminal, the voltage, power and duration of the intelligent lighting terminal can be timely and properly adjusted through the preset and editing of a user, for example, the time in winter and summer is different, the starting time and time interval in winter and summer can be preset, manual secondary adjustment is not needed, the proper adjustment refers to that the intelligent lighting terminal is positioned, the general control system 2 can determine the position and type of the specific intelligent lighting terminal according to the identity identification ID of the intelligent lighting terminal node 5, for example, the intelligent lighting terminal in a busy city area should be started for a long time to keep mild light, a remote area can save energy and electricity and only start in corresponding time intervals of people flow, different light effects can be displayed on the intelligent lighting terminal, and different landscape lighting light shows are formed, the audience exhibition experience is improved.

The general control communication module 14 communicates with the regional branch control center 3, and uses GSM communication and ethernet communication, the GSM communication is wireless communication with the regional branch control center 3 to receive data, the ethernet communication is communication with the general control center device to receive and regulate instructions, the GSM communication can reuse the existing mobile communication network, and the GSM communication module 14 can also use corresponding models according to market products.

The master control processing unit 13 outputs or edits the intelligent lighting terminal effect scheme module, and can output or edit instructions in a key and touch screen mode, and the master control processing unit 13 has a CPU which can analyze the output or edit instructions and process various data of the system.

The display module 12 performs corresponding real-time data display on the display screen after the master control communication module 14 receives the data processing, displays a corresponding interface, and displays a statistical chart of the data, such as damage, power, display effect scheme, intelligent lighting terminal topological relation home location, and the like, so that a user can know the approximate situation of an intelligent lighting terminal in a region at a glance.

Referring to fig. 3, fig. 3 is a block diagram of a regional sub-control center according to an embodiment of the present invention. Further, as shown in fig. 3, the regional sub-control center 3 includes a sub-control processing unit 21 and a sub-control communication module 22; the sub-control communication module 22 is connected with the sub-control processing unit 21; the sub-control processing unit 21 is configured to process an output instruction to the intelligent lighting terminal node 5, and the sub-control communication module 22 is configured to communicate with the master control system 2 and the intelligent lighting terminal node 5.

The regional sub-control center 21 receives the one-key master control instruction regulation and control of the master control system 2 and can perform regional sub-control under the authorization of the master control system, so that the regulation and control of different types of intelligent lighting terminals in different regions and the one-key master control are solved, the instruction regulation and control of the one-key master control have priority over the regional sub-control instruction regulation and control, the regional sub-control center 3 is controlled according to the master control system 2 to control the regional sub-control center 3, and the regional sub-control center 3 controls the mapping relation of the intelligent lighting terminal nodes 5 to perform priority communication regulation and control, and meanwhile, regional and integral regulation and control are realized.

Further, as shown in fig. 4, the intelligent lighting terminal node includes a control unit 32 and an intelligent lighting terminal communication module 34, the intelligent lighting terminal communication module 34 is connected to the control unit 32, the control unit 32 is used for processing and outputting instructions of the intelligent lighting terminal node, and the intelligent lighting terminal communication module 34 is used for communicating with the sub-control system.

Referring to fig. 4, fig. 4 is a block diagram of modules of an intelligent lighting terminal node according to an embodiment of the present invention. Further, as shown in fig. 4, the lighting device further includes an effect detection unit 31 and a protection module 33, the control unit 32 is connected to the protection module 33 and the effect detection unit 31, the protection module 33 is used for protecting the control unit 32, and the effect detection unit 31 is used for detecting the light effect.

Control unit 32 is used for accepting total control effect instruction, control unit 32 is used for accepting the conversion signal of telecommunication of total control effect instruction, effect detecting element 31 is used for real-time detection intelligent lighting terminal light show effect, detects the luminous condition of intelligent lighting terminal and passes through intelligent lighting terminal communication module 34 be used for to regional branch accuse center communication sends light data, protection module 33 mainly used control unit 32's power consumption load, and the heat dissipation protection avoids control unit 32 to harm.

Here, the control unit 32 receives the instruction from the master control system obtained through the intelligent lighting terminal communication module 34, the instruction is converted into a corresponding electrical signal through logic, and the intelligent lighting terminal node 5 is electrically controlled, and the effect detection unit 31 detects the output and execution conditions of the effect instruction output unit, such as the power of the intelligent lighting terminal, and the intelligent lighting terminal can sense whether the intelligent lighting terminal is damaged or not.

Referring to fig. 5, fig. 5 is a block diagram of a control unit of an intelligent lighting terminal according to an embodiment of the present invention. Further, as shown in fig. 5, the control unit includes a power adjusting module 41 and a switch module 42, the power adjusting module 41, the switch module 42 and the control unit 43 are sequentially connected, the power adjusting module 42 is used for power adjustment, and the switch module 42 is used for turning on and off the intelligent lighting terminal.

In this embodiment, a built-in or external power supply may be used to supply power to the entire intelligent lighting terminal, the switch module 42 is used to switch on and off the intelligent lighting terminal, and the control unit 43 is used to process and coordinate the calling of each module and analyze the instruction from the master control system or the slave control system.

Further, the master control communication module comprises a GSM communication unit and an ethernet communication unit, the slave control communication module comprises a GSM communication unit, and the intelligent lighting terminal communication module comprises a GSM communication unit. The GSM communication unit adopts a mobile phone GSM card which is commonly used in the market for communication, and can be conveniently distributed and controlled on all equipment by means of wide coverage of the communication network of the existing mobile phone GSM card.

Further, the control unit adopts P89LPC938 as a core chip.

The P89LPC938 microcontroller is a core chip, and the periphery of the core chip is respectively connected with a voltage reduction chip SP6200, a light intensity sensor ISL29010 for realizing natural light detection, a clock chip PCF2129 for calibrating the system, and a singlechip P89LPC916 for communicating with a superior level. The voltage reduction chip SP6200 converts the power voltage into 3.3v voltage to supply power to the system; the light intensity sensor ISL29010 converts the collected real-time natural light intensity into a digital signal through an internally integrated photoelectric module and an AD converter and transmits the digital signal to a P89LPC938 chip in an IIC communication mode; the clock chip PCF2129 is an RTC real-time clock chip; the P89LPC938 chip is a powerful industrial microcontroller produced by NXP (enzimum) corporation, which is the core of the control host. The P89LPC938 chip analyzes and arranges the collected information such as the ambient light intensity and the real-time, simultaneously, according to the switch light illumination value of receiving higher level's setting, the switch of the control system intelligent lighting terminal, and with the switch light time, the time point of adjusting luminance, each period of time adjusts luminance the information transmission of proportion and gives each extension, simultaneously the P89LPC938 chip analyzes and arranges the lamp working condition and the time information that each extension transmitted again, transmit to higher level and show.

Referring to fig. 6, fig. 6 is a flowchart illustrating method steps of a control method of a one-key master control system of an intelligent lighting terminal according to an embodiment of the present invention. As shown in fig. 6, the control method of the one-key master control system of the intelligent lighting terminal of the present invention includes the following steps:

s1, acquiring state information of the intelligent lighting terminal node;

s2, communicating according to the mapping relation between the regional sub-control center and the main control center and the mapping relation between the intelligent lighting terminal nodes and the regional sub-control center, and activating the intelligent lighting terminal nodes;

s3, acquiring the intelligent lighting terminal node information in an activated state;

s4, determining the mapping relation between the intelligent lighting terminal nodes in the activated state and the corresponding regional sub-control centers and the mapping relation between the regional sub-control centers and the master control center to form a master control mapping network;

s5, generating a master control trigger request in response to the operation of a user;

s6, and performing one-key regulation and control on the intelligent lighting terminal nodes according to the master control trigger request and the master control mapping network.

By applying the method, the master control system implements one-key regulation and control and monitoring on the regional sub-control center and the intelligent lighting terminal node. The intelligent lighting terminal nodes have identity identification IDs, the identity identification IDs indicate specific intelligent lighting terminal positions and types, the intelligent lighting terminal nodes can firstly confirm activation with a master control system under a one-key master control system, determine a regional sub-control center and the master control system and determine the mapping relation between the intelligent lighting terminal nodes and the regional sub-control center, respond to the operation of a user on the master control system, generate a one-key master control instruction, and realize one-key control on the activated intelligent lighting terminal nodes according to the one-key master control instruction.

In conclusion, the intelligent lighting terminal one-key master control system adopts a master control system, a regional sub-control center, intelligent lighting terminal nodes and a node confirmation module; the node confirmation module is electrically connected with the master control system; the general control system regional branch accuse center intelligent lighting terminal node electricity is connected in order, and general control system can control intelligent lighting terminal node through regional branch accuse center to coordinate the regional scene state of all different intelligent lighting terminals, different intelligent lighting terminal types, and show the view effect of settlement, so, can wholly regulate and control intelligent lighting terminal and monitor, have convenient operation, save the advantage of a large amount of equipment expenses.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents made by the contents of the specification and drawings or directly/indirectly applied to other related technical fields within the spirit of the present invention are included in the scope of the present invention.

Claims (9)

1. A one-key master control system of an intelligent lighting terminal is characterized by comprising a master control system, a regional sub-control center, intelligent lighting terminal nodes and a node confirmation module; the node confirmation module is electrically connected with the master control system; the master control system, the area sub-control center and the intelligent lighting terminal nodes are electrically connected in sequence; after the node confirmation module confirms the acquired information of the intelligent lighting terminal nodes, the master control system realizes one-key master control of the intelligent lighting terminal nodes through the mapping relation between the area sub-control center and the master control system and the mapping relation between the intelligent lighting terminal nodes and the area sub-control center.

2. The one-key master control system of the intelligent lighting terminal as claimed in claim 1, wherein the master control system comprises a light effect editing module, a master control communication module, a master control processing unit and a display module; the lamp effect editing module is connected with the master control processing unit and the display module, and the master control processing unit is connected with the master control communication module and the display module; the intelligent lighting terminal comprises a lighting effect editing module, a master control communication module, a regional branch control center, a master control processing unit and a display module, wherein the lighting effect editing module is used for presetting and editing lighting display effects of the intelligent lighting terminal, the master control communication module is used for communicating with the regional branch control center, the master control processing unit is used for outputting intelligent lighting terminal effect scheme instructions and processing data to the regional branch control center, and the display module is used for displaying the effect states of nodes of the intelligent lighting terminal.

3. The one-key general control system of the intelligent lighting terminal as claimed in claim 1, wherein the regional sub-control center comprises a sub-control processing unit and a sub-control communication module; the sub-control communication module is connected with the sub-control processing unit; the sub-control processing unit is used for processing and outputting instructions to the intelligent lighting terminal nodes, and the sub-control communication module is used for communicating with the master control system and the intelligent lighting terminal nodes.

4. The key total control system of the intelligent lighting terminal as claimed in claim 1, wherein the intelligent lighting terminal node comprises a control unit and an intelligent lighting terminal communication module, the intelligent lighting terminal communication module is connected with the control unit, the control unit is used for processing and outputting instructions of the intelligent lighting terminal node, and the intelligent lighting terminal communication module is used for communicating with the sub-control system.

5. The one-key general control system for the intelligent lighting terminals as claimed in claim 4, further comprising an effect detection unit and a protection module, wherein the control unit is respectively connected with the protection module and the effect detection unit, the protection module is used for protecting the control unit, and the effect detection unit is used for detecting light effects.

6. The total control system according to claim 4, wherein the control unit includes a power adjusting module and a switch module, the power adjusting module, the switch module and the control unit are sequentially connected, the power adjusting module is used for power adjustment, and the switch module is used for turning on and off the intelligent lighting terminal.

7. The total control system according to claim 1, wherein the total control communication module comprises a GSM communication unit and an ethernet communication unit, the branch control communication module comprises a GSM communication unit, and the intelligent lighting terminal communication module comprises a GSM communication unit.

8. The total control system according to claim 1, wherein the control unit uses P89LPC938 as a core chip.

9. A control method of an intelligent lighting terminal one-key master control system is characterized by comprising the following steps:

acquiring state information of nodes of the intelligent lighting terminal;

communicating according to the mapping relation between the regional sub-control center and the master control center and the mapping relation between the intelligent lighting terminal nodes and the regional sub-control center, and activating the intelligent lighting terminal nodes;

acquiring node information of an intelligent lighting terminal in an activated state;

determining the mapping relation between the intelligent lighting terminal nodes in the activated state and the corresponding regional sub-control centers and the mapping relation between the regional sub-control centers and the master control center to form a master control mapping network;

responding to the operation of a user to generate a master control trigger request; and

and carrying out one-key regulation and control on the intelligent lighting terminal nodes according to the master control trigger request and the master control mapping network.

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