CN112801566A - Management system and management method for stage lamps - Google Patents

Abstract

A stage lighting management system relates to the field of wireless data communication, including a server, a communication device and a stage lighting, wherein the communication device is wirelessly connected with the server and the stage lighting; the server is used for running a database, providing data query and storage; the The communication device is used for acquiring lamp information, and after expanding the lamp information, the expanded data is transmitted to the server; the stage lamp is used for recording its own equipment information. Through the near field communication technology, the data information of the stage lamps can be obtained by approaching the stage lamps, and the information of the lamps can be viewed or modified without unpacking, wiring, and power-on, so as to improve the convenience of accessing and summarizing the data of the operation parameters of the lamps; According to its data information, the server manages batches of out-warehouses, in-warehouses and inquiries for stage lamps, improving the efficiency of out-warehouses, in-warehouses and inquiries.

Description

Management system and management method for stage lamps

Technical Field

The invention relates to the field of wireless data communication, in particular to a management system and a management method of a stage lamp.

Background

In the prior art, two modes are available for stage lamp management, one mode is that a special console modifies, queries and summarizes operation parameters of stage lamps based on an RDM communication protocol. The RDM protocol allows the dimming console and other control equipment to discover, configure and monitor line segment equipment through a DMX512 line, and realizes bidirectional communication on the DMX512 data line on the basis of not influencing the original DMX signals; the second is viewing or modification through the operating panel of the luminaire. At present, most lamps are equipped with a human-computer interaction interface, the running state of the lamps is checked through keys, knobs and an LCD display screen, and parameters of the lamps are configured. Even some lamps and lanterns still inside are equipped with the lithium cell to the user revises or reads relevant parameter under the circumstances of not switching on the commercial power, has improved the convenience to a certain extent.

Above prior art needs lamps and lanterns to switch on the commercial power or can accomplish the operation inside being equipped with the lithium cell, because the inside temperature of lamps and lanterns is higher, still can have certain potential safety hazard with the lithium cell. In addition to the lamps requiring power, the RDM scheme also requires wiring of the lamps. And the operation is directly carried out through the lamp panel, and the pure manual copying mode is not only low in efficiency, but also easy to make mistakes. For stage light renters, the above problems are further highlighted: the relevant information of the lamps (bulbs) can be checked or modified only by unpacking, connecting the power and even wiring before the renters borrow or return the equipment and get out of the warehouse or put in the warehouse, so that the services are not conveniently developed.

Therefore, there is a need for a new system that can manage the lamps without removing boxes, wiring, and powering on to obtain the lamp information.

Disclosure of Invention

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a stage lamps and lanterns management system which characterized in that: the system comprises a server, a communication device and a stage lamp, wherein the communication device is in wireless connection with the server and the stage lamp;

the server is used for operating a database and providing data query and storage;

the communication device is used for acquiring the lamp information, expanding the lamp information and transmitting the expanded data to the server;

the stage lamp is used for recording the equipment information of the stage lamp.

Furthermore, an electronic tag is arranged in the stage lamp.

Further, a lamp state parameter and a lamp unique identifier are arranged in the electronic tag.

Furthermore, a read-write module is arranged in the communication device and used for acquiring the lamp information and the expansion data.

Furthermore, the communication device comprises a communication positioning module, and the communication positioning module is used for acquiring geographic position information and communicating with the server.

A management method of stage lamps is characterized by comprising the following steps: comprises the following steps of (a) carrying out,

s1, arranging an electronic tag in the stage lamp;

s2, the communication device reads the data information in the electronic label;

s3, the communication device expands the read data information;

s4, the communication device uploads the expanded data to the server;

and S5, the server carries out batch warehouse-out, warehouse-in and query management on the uploaded stage lamp data.

Further, the warehouse-out management of the stage lamps comprises the following steps:

s1: the communication device acquires batch list information from the server;

s2: the user selects the delivery batch;

s3: the communication device reads the lamp information and expands the lamp information;

s4: judging whether the lamp information meets the batch requirements of the warehouse-out; if the lamp reading information is consistent with the preset lamp reading information, storing the data information and submitting the data information to a server for completion, otherwise, reading the next information until all lamps are completely read;

s5: and printing out the delivery bill.

Further, the warehousing management of the stage lamps comprises the following steps:

s1: the communication device manually inputs or scans the bill to obtain the batch number and check the validity of the batch number;

s3: the communication device reads the lamp information and expands the lamp information;

s4: judging whether the lamp information belongs to the batch of lamps in the warehouse or not; if the lamp reading information is consistent with the preset lamp reading information, storing the data information and submitting the data information to a server for completion, otherwise, reading the next information until all lamps are completely read;

s5: judging whether all lamps in the batch are placed in a bin; if yes, the warehousing bill is printed, if not, the server is fed back, and the lamp is marked to be in a lost state.

The invention has the beneficial effects that: the communication device can acquire the data information of the stage lamp by approaching the stage lamp through the near-field communication technology, can check the information of the lamp without unpacking, wiring and power-on and can also modify the lamp information, thereby improving the convenience of storing, fetching and summarizing the lamp operation parameter data; and then the server performs batch warehouse-out, warehouse-in and query management on the stage lamps according to the data information of the stage lamps, improves warehouse-out, warehouse-in and query efficiency, and uniformly stores the data in the server to ensure the safety and the durability of the data.

Drawings

The figures further illustrate the invention, but the examples in the figures do not constitute any limitation of the invention.

FIG. 1 is a general schematic diagram provided in accordance with an embodiment of the present invention;

FIG. 2 is an electronic tag data table according to an embodiment of the present invention;

FIG. 3 is an expanded data table according to an embodiment of the present invention;

fig. 4 is a flowchart of a communication device according to an embodiment of the present invention;

fig. 5 is a flow chart of a lamp warehouse-out process according to an embodiment of the present invention;

fig. 6 is a flow chart of lamp warehousing according to an embodiment of the present invention;

FIG. 7 is a flowchart of a batch query process according to an embodiment of the present invention;

FIG. 8 is a flowchart of historical queries provided by an embodiment of the invention;

FIG. 9 is a flowchart of an inventory information query process according to an embodiment of the present invention;

fig. 10 is a flowchart of lamp management according to an embodiment of the present invention;

Detailed Description

The invention will be further described with reference to the accompanying drawings, in which the orientation of fig. 1 is taken as a reference.

As shown in fig. 1, a stage lighting fixture management system provided in an embodiment of the present invention includes a stage lighting fixture, a communication device, and a server, where the stage lighting fixture records data of its own device state information, the communication device is configured to read stage lighting fixture information at a short distance, and then expand the read stage lighting fixture, the communication device sends the expanded data to the server, and the server analyzes the data information sent by the communication device, and summarizes, sorts, summarizes, and stores the analyzed data, so as to facilitate background query and modification of the data, thereby achieving unified management of the stage lighting fixture.

Lamps and lanterns mainly include parts such as electronic tags and lamps and lanterns panel, motor board, lamp plate, and the parameter of lamps and lanterns state mainly has: the lighting bulb time, the total lamp electrifying time, the DMX address of the lamp, the channel mode, the maximum/minimum/average value of each temperature sensor, the lamp operation alarm error code and the like. The information is stored in a FLASH built in an MCU of a lamp panel or an on-board EEPROM. In the scheme, the NFC electronic tag is added in the invention, in order to enable the communication device to read the state parameters of the lamp and distinguish the read data, the parameters are written into the electronic tag, the unique identifier of the lamp is also arranged in the electronic tag, the communication device can conveniently judge which stage lamp each group of data comes from because the communication device can read the information of one stage lamp but the information of a batch of stage lamps, the electronic tag is internally provided with the unique identifier of the lamp belonging to the identification identifier of the stage lamp as shown in figure 2, the electronic tag can be arranged into any electronic tag convenient for the communication device to read the information or matched with the communication device, as the NFC communication technology is mature, the electronic tag is preferably arranged into the NFC electronic tag, the reliable information of data transmission is ensured, and the NFC hardware facility is cheap, expensive cost cannot be added to the lamp, and production cost is reduced.

The communication device can read the data in the electronic tag, namely the data in the table in fig. 2, through Near Field Communication (NFC) only by approaching the stage lamp without connecting wires; and then, expanding the read data, wherein the expanded data mainly comprises an increased geographic position, a unique identifier of the communication device, a batch number and the like. The communication device is mainly provided with a microprocessor, a thermal sensitive printing module, a communication positioning module, a two-dimension code scanning module and a reading and writing module, wherein the thermal sensitive printing module, the communication positioning module, the two-dimension code scanning module and the reading and writing module are all connected with the microprocessor.

The microprocessor is an operation core of the whole device and is responsible for operating an embedded software program, the microprocessor controls the operation state of each module, and the microprocessor initializes other functional modules through the software program and drives the modules to realize the lamp management logic function. The thermal printing module receives ESC/POS instructions from the microprocessor and is responsible for printing various bills related to the business. The two-dimensional code scanning module captures the two-dimensional code image and translates the two-dimensional code image into a text character string for the microprocessor to use under the control of the microprocessor.

The communication positioning module is mainly responsible for completing two tasks of acquiring geographic positions (longitude and latitude) and data communication of the remote server; the communication positioning module receives an AT instruction sent by the microprocessor through the UART interface, and returns an execution result to the microprocessor after execution, if the microprocessor sends expanded data to the server, the communication positioning module transmits the data to the server according to the received instruction, and if the transmission is successful, the data is fed back to the microprocessor; if the transmission fails, a failure signal is fed back.

The read-write module is mainly responsible for completing acquisition of lamp information and expansion of data information acquired by the lamp, after the read-write module reads data in a table shown in fig. 2 through Near Field Communication (NFC), the table data in fig. 2 is expanded, the expanded data mainly comprises an increased geographic position, a unique identifier of a communication device and a batch number, namely which batch the stage lamp belongs to, the unique identifier of the communication device and where the stage lamp is located are written in a writing unit in the read-write module, and the expanded data is shown in the table shown in fig. 3; the server judges the data which the stage lamp belongs to which batch and is taken by which communication device and the geographical position of the stage lamp when the data is taken by the stage lamp by expanding the data, so that the convenience of storing and summarizing the operating parameters of the stage lamp is improved, the geographical position of the stage lamp can be tracked, and if a client wants to inquire the use condition of a certain stage lamp and where the stage lamp is located, the client logs in the server to check the condition of any stage lamp.

The microprocessor is provided with a lamp warehouse-out function module, a lamp warehouse-in function module, a lamp batch query function module, a lamp information query function module, a lamp history query function module and a stock state query function module, the communication device is provided with a human-computer interaction interface, the function modules can be displayed on the human-computer interaction interface, a user can conveniently query and modify the function modules, and the communication device carries out batch management on the lamps through the function modules.

In the process of managing the lamps, the communication device is started to initialize each function module, after the function modules are confirmed to be successful, the communication device acquires data information of each lamp from the server, after the data information is acquired, a user can select the function module matched with the communication device according to the required condition, the communication device executes the function selected by the user, and the equipment can be closed after the execution is finished.

The server stores information of all stage lamps, analyzes and summarizes the information of all stage lamps, for example, a user has 500 stage lamps, and the server can classify the stage lamps in batches according to the functionality or timeliness of the stage lamps to summarize and manage. When a batch of lamps need to be taken out of the warehouse in an activity, the user sets the batch of the lamps taken out of the warehouse in the server, and the communication device checks the lamps taken out of the warehouse by acquiring the batch of the lamps taken out of the warehouse.

The operation flow of the lamp warehouse-out function module is as follows: starting a communication device to initialize each function module, selecting a lamp delivery function module, acquiring a batch list and batch detailed information (the types and the quantity of lamps in the batch) from a server, selecting the delivery batch by a user, then, when the stage lamp is delivered, enabling the communication device to be close to the stage lamp to read and expand the information of the lamps, comparing and analyzing the information of the lamps and the information acquired by the server to judge whether the information belongs to the batch requirement, if so, storing the information of the lamps and the information and submitting the information to the server, if so, completing delivery, if not, acquiring the information of the next lamp and expanding the information, and printing a delivery bill as required until all the information of the lamps belonging to the batch is completely read and delivered.

The operation process of the lamp warehousing function module is as follows: starting a communication device to initialize each function module, selecting a lamp warehousing function module, manually inputting or scanning a delivery bill, obtaining a batch number and checking the validity of the batch number, reading lamp information and expanding the lamp information, judging whether the read lamp belongs to the batch of lamps, and if so, storing the information and submitting the information to a server; if not, reading and expanding the information of the next lamp, then checking whether all lamps are put into the warehouse, if so, acquiring the charging information from the server and printing a warehousing bill; if not, checking whether the lamps which are not read exist, if so, continuously reading the stage lamps and expanding, if not, uploading the data to the server, and marking the missing lamps as a lost state by the server.

The operation flow of the lamp batch query function module is as follows: starting and initializing each function module of the communication device, selecting a lamp batch query function module, manually inputting or scanning a delivery bill, obtaining a batch number and checking the validity of the batch number; and inquiring the lamp list and details from the server according to the batch number, displaying an inquiry result on the human-computer interaction interface, judging whether an inquiry bill needs to be printed or not according to needs, if so, printing, and if not, finishing.

The lamp history query function module has the operation flow as follows: starting a communication device to initialize each function module, selecting a lamp history inquiry function module, manually inputting or scanning a lamp state report or reading a unique lamp identifier from a lamp, inquiring historical data of the lamp from a server according to the unique lamp identifier, displaying an inquiry result on a user interface (a man-machine interaction interface), judging whether a history inquiry bill needs to be printed or not according to needs, if so, printing, and if not, finishing.

The operation flow of the stock state query function module is as follows: the communication device is started to initialize each function module, the stock state query function module is selected, lamp summarized data related to the equipment is queried to the server according to the unique identifier of the equipment, a user interface (a man-machine interaction interface) displays a query result, whether stock state bills need to be printed or not can be judged according to needs, if yes, printing is carried out, and if not, the printing is finished.

The operation flow of the lamp information query function module is as follows: starting a communication device to initialize each function module, selecting a lamp history inquiry function module, manually inputting or scanning a lamp state report or reading a unique lamp identifier from the lamp, and then selecting a proper inquiry mode according to the self condition. The method comprises the following steps that firstly, local query is carried out, firstly, remote query is carried out, if the remote query is selected, the communication device queries lamp state data from a server according to the unique lamp identifier, and if the local query is selected, the communication device reads lamp information through a read-write module; and displaying the query result by a user interface (a man-machine interaction interface), judging whether the lamp information bill needs to be printed according to the requirement, if so, printing, and if not, finishing.

Because of being equipped with the NFC electronic tags in the stage lamps and lanterns, be equipped with NFC communication reading and writing module in the communication device, as long as communication device is close to the stage lamps and lanterns, the stage lamps and lanterns can be through near field communication with the data information transmission of its self equipment for the stage lamps and lanterns, need not to unpack and take out lamps and lanterns, operation such as wiring networking practices thrift its operating information.

The expansion of the data information comprises the addition of geographical position data and a unique identifier (namely an identification code) of the communication device, and the addition of the unique identifier of the communication device is convenient for a server to distinguish which communication device the data is uploaded from so as to prevent certain data from being lost in the transmission process and facilitate the data searching; the geographical position of the stage lamp can be tracked by increasing the geographical position data, so that the lamp can be conveniently and quickly found in the process of using the lamp, and the accurate positioning of the lamp is realized.

A stage light fixture management method, comprising the steps of:

s1, arranging an electronic tag in the stage lamp;

s2, the communication device reads the data information in the electronic label;

s3, the communication device expands the read data information;

s4, the communication device uploads the expanded data to the server;

and S5, the server carries out batch warehouse-out, warehouse-in and query management on the uploaded stage lamp data. Further, the warehouse-out management of the stage lamps comprises the following steps:

s1: the communication device acquires batch list information from the server;

s2: the user selects the delivery batch;

s3: the communication device reads the lamp information and expands the lamp information;

s4: judging whether the lamp information meets the batch requirements of the warehouse-out; if the lamp reading information is consistent with the preset lamp reading information, storing the data information and submitting the data information to a server for completion, otherwise, reading the next information until all lamps are completely read;

s5: and printing out the delivery bill.

Further, the warehousing management of the stage lamps comprises the following steps:

s1: the communication device manually inputs or scans the bill to obtain the batch number and check the validity of the batch number;

s3: the communication device reads the lamp information and expands the lamp information;

s4: judging whether the lamp information belongs to the batch of lamps in the warehouse or not; if the lamp reading information is consistent with the preset lamp reading information, storing the data information and submitting the data information to a server for completion, otherwise, reading the next information until all lamps are completely read;

s5: judging whether all lamps in the batch are placed in a bin; if yes, the warehousing bill is printed, if not, the server is fed back, and the marking lamp is in a lost state

Because of being equipped with NFC electronic tags in the stage lamps and lanterns, be equipped with NFC communication reading and writing module in the communication device, as long as communication device is close to the stage lamps and lanterns, can read stage lamps and lanterns data message through near field communication technique promptly, the stage lamps and lanterns pass through communication device transmission data and receive the data message that the server sent, communication device gives the server with the data transmission who reads, the server carries out the analysis according to the data that communication device conveying was come and looks over, it looks over which batch lamps and lanterns belong to promptly to analyze, how long it is used for, whether have the abnormal conditions to conclude the arrangement, the user can look over its all stage lamps and lanterns situation at the background, whether what kind of lamps and lanterns need the maintenance promptly, the geographical.

The analyzed lamps are summarized and arranged, and then warehouse entry and warehouse exit management is carried out in batches, during performance, after batches are selected in the server, the communication device obtains stage lamp information needing warehouse exit from the server, during warehouse exit, the communication device is not required to be opened for wiring and networking, the communication device is close to the stage lamps and can obtain the stage lamp information, the stage lamps and the data information in the communication device are compared, if yes, the stage lamps and the data information are taken out of the warehouse, if not, the stage lamps and the data information are left in the warehouse, so that the lamps and the data information which do not reach the standard are prevented from being selected to influence the subsequent performance, and the warehouse exit efficiency is improved.

If the stage lamps in the exhibition need to enter the warehouse, the communication device obtains the batch of lamp information through the server for warehousing management, and whether the lamps belong to the batch of lamps or whether the lamps have defects is checked through one-to-one corresponding analysis of the obtained batch information and the stage lamps. Or the newly purchased stage lamps need to be put in storage, and the communication device acquires the data information of the newly purchased stage lamps by approaching the newly purchased stage lamps and then uploads the data information to the server for batch management so as to facilitate the next delivery performance of the newly purchased stage lamps.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. The utility model provides a stage lamps and lanterns management system which characterized in that: the system comprises a server, a communication device and a stage lamp, wherein the communication device is in wireless connection with the server and the stage lamp;

the server is used for operating a database and providing data query and storage;

the communication device is used for acquiring the lamp information, expanding the lamp information and transmitting the expanded data to the server;

the stage lamp is used for recording the equipment information of the stage lamp.

2. A stage light management system according to claim 1, wherein: and an electronic tag is arranged in the stage lamp.

3. A stage light management system according to claim 2, wherein: and lamp state parameters and lamp unique identifiers are arranged in the electronic tag.

4. A stage light management system according to claim 1, wherein: the communication device is internally provided with a read-write module which is used for acquiring lamp information and expansion data.

5. A stage light management system according to claim 1, wherein: the communication device comprises a communication positioning module, and the communication positioning module is used for acquiring geographic position information and communicating with the server.

6. A management method of stage lamps is characterized by comprising the following steps: comprises the following steps of (a) carrying out,

s1, arranging an electronic tag in the stage lamp;

s2, the communication device reads the data information in the electronic label;

s3, the communication device expands the read data information;

s4, the communication device uploads the expanded data to the server;

and S5, the server carries out batch warehouse-out, warehouse-in and query management on the uploaded stage lamp data.

7. Stage light fixture management method according to claim 6, characterized in that: the delivery management of the stage lamps comprises the following steps:

s1: the communication device acquires batch list information from the server;

s2: the user selects the delivery batch;

s3: the communication device reads the lamp information and expands the lamp information;

s4: judging whether the lamp information meets the batch requirements of the warehouse-out; if the lamp reading information is consistent with the preset lamp reading information, storing the data information and submitting the data information to a server for completion, otherwise, reading the next information until all lamps are completely read;

s5: and printing out the delivery bill.

8. Stage light fixture management method according to claim 6, characterized in that: the warehousing management of the stage lamps comprises the following steps:

s1: the communication device manually inputs or scans the bill to obtain the batch number and check the validity of the batch number;

s3: the communication device reads the lamp information and expands the lamp information;

s4: judging whether the lamp information belongs to the batch of lamps in the warehouse or not; if the lamp reading information is consistent with the preset lamp reading information, storing the data information and submitting the data information to a server for completion, otherwise, reading the next information until all lamps are completely read;

s5: judging whether all lamps in the batch are placed in a bin; if yes, the warehousing bill is printed, if not, the server is fed back, and the lamp is marked to be in a lost state.

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