CN110890986A - ZIGBEE terminal based batch network distribution system and method - Google Patents

Abstract

The invention discloses a ZIGBEE terminal-based batch network distribution method, which relates to the technical field of outdoor lighting control and comprises a single lamp controller which is arranged on a lamp and internally provided with a UID (user identification device): a Bluetooth module is arranged in the device for reading and writing; a concentrator: the system is used for carrying out distribution network distribution on the single lamp controller and carrying out distribution network information processing; the handheld terminal with positioning comprises: the handheld terminal is provided with concentrator information, can be connected with a Bluetooth module in the single lamp controller in a matching way for information interaction, and has a data push function; the handheld terminal sends the concentrator information to the single-lamp controller, and the single-lamp controller is configured and then added into the concentrator network; and the cloud platform is used for receiving the data pushed by the concentrator and the handheld terminal and sending a feedback instruction to the concentrator. The invention provides a method for carrying out equipment batch entry and semi-automatic batch pairing by using a handheld terminal and a Bluetooth mode. The method is used for improving the network access speed of the engineering field device configuration.

Description

ZIGBEE terminal based batch network distribution system and method

Technical Field

The invention relates to the technical field of outdoor lighting control, in particular to a ZIGBEE terminal-based batch network distribution system and method.

Background

When the existing ZIGBEE terminal needs to be installed, a device UID is copied, the copying workload is large, or the device UID is scanned in a near field by an NFC mode, and node data is sent to a concentrator. The NFC method has a distance limitation, while the RFID method can operate at a long distance but only read and cannot control writing. Therefore, in the actual use process, the concentrator and the terminal are still largely configured in a manual platform mode. In order to realize semi-automatic registration, reduce the number of people copying or scanning equipment carrying, reduce the distance problem of the people copying and scanning the number, and reduce the steps of manually associating a concentrator and nodes by a personnel platform, it is necessary to improve the existing scheme.

Disclosure of Invention

The invention aims to provide a ZIGBEE terminal-based method for distributing networks in batches.

The technical scheme of the invention is as follows: the utility model provides a net system is joined in marriage in batches based on ZIGBEE terminal, is including installing on lamps and lanterns and built-in single lamp controller that has UID: a Bluetooth module is arranged in the device for reading and writing;

a concentrator: the system is used for carrying out distribution network distribution on the single lamp controller and carrying out distribution network information processing;

the handheld terminal with positioning comprises: the handheld terminal is provided with concentrator information, can be connected with a Bluetooth module in the single lamp controller in a matching way for information interaction, and has a data push function;

the handheld terminal sends the concentrator information to the single-lamp controller, and the single-lamp controller is configured and then added into the concentrator network;

and the cloud platform is used for receiving the data pushed by the concentrator and the handheld terminal and sending a feedback instruction to the concentrator.

In the distribution network system in batches based on ZIGBEE terminal, the handheld terminal is a mobile phone, and the mobile phone is internally provided with an APP which is used for reading single lamp controller data and has a data push function.

A ZIGBEE terminal-based batch network distribution method comprises the following steps:

s1: powering on the lamp, turning on the APP, and performing Bluetooth pairing on the single lamp controller;

s2: the APP sends the geographic position, the slave node address and the concentrator information of the mobile phone to the single-lamp controller;

s3: at the same time of S2, reading the UID of the single lamp controller by the APP, associating the UID with the number and the geographic position of the lamp, and finally packaging and pushing the associated data to the cloud platform;

s4: and the single lamp controller stores and associates the received concentrator information with the lamp pole number and the UID, and automatically joins in a concentrator network.

In the foregoing method for distributing networks in batches based on ZIGBEE terminals, the slave node address in step S2 is consistent with the lamp post number.

In the foregoing method for distributing networks in batches based on ZIGBEE terminals, the step S3 further includes: and after the platform receives the data of the single lamp controller, a gray lamp node is placed on the GIS to indicate that the lamp exists but is not networked.

In the foregoing method for distributing networks in batches based on ZIGBEE terminals, after the step S4, the following steps are further included: after the distribution network is completed, the cloud platform sends a query instruction once, after the concentrator queries, all the lamp information which is connected to the network is sent to the cloud platform, and the cloud platform automatically updates the lamp state.

In the ZIGBEE terminal-based batch network distribution method, lamps which are not connected to the network are found after the lamp states are updated on the cloud platform, a re-query instruction is automatically sent to the concentrator, the concentrator re-sends information to the cloud platform, the cloud platform confirms the equipment states again, and if the equipment states are successfully modified; and if the failure occurs, the cloud platform generates an equipment abnormal event.

Compared with the prior art, the invention provides a method for carrying out batch input and semi-automatic batch pairing on equipment by using a handheld terminal and a Bluetooth mode. The method is used for improving the network access speed of the engineering field device configuration.

And the handheld terminal has a positioning function, and can directly extract the position information to be matched with the lamp.

Detailed Description

The present invention is further illustrated by the following examples, which are not to be construed as limiting the invention.

Example (b): a ZIGBEE terminal-based network distribution method in batches comprises a single lamp controller which is installed on a lamp and internally provided with a UID (user identification device): a Bluetooth module is arranged in the device for reading and writing;

a concentrator: the system is used for carrying out distribution network distribution on the single lamp controller and carrying out distribution network information processing;

the handheld terminal with positioning comprises: the handheld terminal is provided with concentrator information, can be connected with a Bluetooth module in the single lamp controller in a matching way for information interaction, and has a data push function;

the handheld terminal sends the concentrator information to the single-lamp controller, and the single-lamp controller is configured and then added into the concentrator network;

this handheld terminal can be the cell-phone (all from taking locate function in every cell-phone), has set up APP in the cell-phone, and this APP is arranged in reading the data in the single lamp controller to possess the data push function.

And the cloud platform is used for receiving the data pushed by the concentrator and the handheld terminal and sending a feedback instruction to the concentrator.

The method comprises the following specific steps:

s1: powering on the lamp, turning on the APP, and performing Bluetooth pairing on the single lamp controller;

s2: the APP sends the geographic position, the slave node address and the concentrator information of the mobile phone to the single-lamp controller; the slave node address is consistent with the serial number of the lamp post, and the subsequent matching of the slave node address and the lamp post position is facilitated.

S3: at the same time of S2, reading the UID of the single lamp controller by the APP, associating the UID with the number and the geographic position of the lamp, and finally packaging and pushing the associated data to the cloud platform; and after the platform receives the data of the single lamp controller, a gray lamp node is placed on the GIS to indicate that the lamp exists but is not networked.

S4: the single lamp controller stores and associates the received concentrator information with the lamp pole number and the UID, and automatically joins the concentrator network after configuring the lamp pole number between the concentrator network number and 0000-FFFF. After the distribution network is completed, the cloud platform sends a query instruction once, after the concentrator queries, all the lamp information which is accessed to the network is sent to the cloud platform, and the cloud platform automatically updates the lamp state (the lamp nodes are modified in color to display the state);

after the lamp state is updated on the cloud platform, lamps which are not connected to the network are found to exist, a re-inquiry instruction is automatically sent to the concentrator, the concentrator re-sends information to the cloud platform, the cloud platform confirms the equipment state again, and if the equipment state is successful, the state is modified; and if the failure occurs, the cloud platform generates an equipment abnormal event.

Claims (7)

1. The utility model provides a net system is joined in marriage in batches based on ZIGBEE terminal which characterized in that: including installing the single lamp controller that has UID on lamps and lanterns and built-in: a Bluetooth module is arranged in the device for reading and writing;

a concentrator: the system is used for carrying out distribution network distribution on the single lamp controller and carrying out distribution network information processing;

the handheld terminal with positioning comprises: the handheld terminal is provided with concentrator information, can be connected with a Bluetooth module in the single lamp controller in a matching way for information interaction, and has a data push function;

the handheld terminal sends the concentrator information to the single-lamp controller, and the single-lamp controller is configured and then added into the concentrator network;

and the cloud platform is used for receiving the data pushed by the concentrator and the handheld terminal and sending a feedback instruction to the concentrator.

2. The ZIGBEE terminal-based batch distribution network system of claim 1, wherein: the handheld terminal is a mobile phone, and an APP used for reading data of the single lamp controller and having a data pushing function is arranged in the mobile phone.

3. The ZIGBEE terminal-based batch network distribution method of claim 2, wherein: the method comprises the following steps:

s1: powering on the lamp, turning on the APP, and performing Bluetooth pairing on the single lamp controller;

s2: the APP sends the geographic position, the slave node address and the concentrator information of the mobile phone to the single-lamp controller;

s3: at the same time of S2, reading the UID of the single lamp controller by the APP, associating the UID with the number and the geographic position of the lamp, and finally packaging and pushing the associated data to the cloud platform;

s4: and the single lamp controller stores and associates the received concentrator information with the lamp pole number and the UID, and automatically joins in a concentrator network.

4. The ZIGBEE terminal-based batch network distribution method of claim 3, wherein: the slave node address in the step S2 is consistent with the light pole number.

5. The ZIGBEE terminal-based batch network distribution method of claim 3, wherein: the step S3 further includes: and after the platform receives the data of the single lamp controller, a gray lamp node is placed on the GIS to indicate that the lamp exists but is not networked.

6. The ZIGBEE terminal-based batch network distribution method of claim 5, wherein: the step S4 further includes the following steps: after the distribution network is completed, the cloud platform sends a query instruction once, after the concentrator queries, all the lamp information which is connected to the network is sent to the cloud platform, and the cloud platform automatically updates the lamp state.

7. The ZIGBEE terminal-based batch network distribution method of claim 6, wherein: after the lamp state is updated on the cloud platform, lamps which are not connected to the network are found to exist, a re-inquiry instruction is automatically sent to the concentrator, the concentrator re-sends information to the cloud platform, the cloud platform confirms the equipment state again, and if the equipment state is successful, the state is modified; and if the failure occurs, the cloud platform generates an equipment abnormal event.