CN105955354A - Machine room automatic monitoring system based on wireless networking technology - Google Patents

Abstract

The invention relates to a computer room automatic monitoring system based on wireless networking technology. A smoke sensor, a temperature sensor and a humidity sensor arranged in each monitoring node detect the smoke concentration, temperature value and humidity value at the monitoring node and output the result. In the present invention, smoke sensors, temperature sensors and humidity sensors are installed at each monitoring node according to the location requirements, and the output data of each sensor is transmitted to the wireless transceiver module in the monitoring node through the AD/DA module and the central control module In the last, each monitoring node adopts the principle of nearby communication, that is, the output results are transmitted to the nearest monitoring node, until all the output results are transmitted to the wireless transceiver module of the collection node, which realizes the aggregation and storage of monitoring data in various places in the computer room , Browsing and analysis. Compared with the existing technology, the data transmission speed is fast, and the abnormal situation can be detected and responded in time, which saves time and improves work efficiency.

Description

Computer room automation monitoring system based on wireless networking technology

technical field

The invention belongs to the technical field of improving safety protection equipment in a computer room in an electric power system, in particular to an automatic monitoring system for a computer room based on wireless networking technology.

Background technique

Many devices are installed in the power system, and these devices are installed in the computer room, such as: routers, switches, computers and other equipment, and the equipment installed in these computer rooms constitutes an automation system. With the gradual increase in the number of hardware equipment and computers in the automation system, the security of the computer room has gradually become prominent. The automation computer room is the eye of power dispatching. The operation status and environment of the equipment in the computer room directly affect the operation status of the regional power grid. The most important thing is to monitor The parameters are the temperature, humidity and smoke in the automation room. At present, the safety of automated computer rooms relies on the daily inspections of operation and maintenance personnel and independent alarm auxiliary systems, such as: computer room fire alarm system, computer room temperature and humidity alarm system, etc. With the rapid development of technology, there is an urgent need for a comprehensive automated monitoring system to assist Operation and maintenance personnel check the computer room environment.

Contents of the invention

The purpose of the present invention is to overcome the deficiencies of the prior art, and provide a computer room automatic monitoring system based on wireless networking technology with reasonable structure, multi-parameter measurement function and automatic networking transmission data.

The technical scheme that the present invention takes is:

A computer room automation monitoring system based on wireless networking technology, characterized in that it includes multiple computer room monitoring nodes and a collection node wireless transceiver module, multiple monitoring nodes are set in the computer room, smoke sensors, temperature The sensor and the humidity sensor detect the smoke concentration, temperature value and humidity value at the monitoring node and output the result, and the output result of the monitoring node farthest from the wireless transceiver module of the sink node is wirelessly communicated with another monitoring node closest to the node Communication, the result output from the monitoring node closest to the wireless transceiver module of the sink node communicates with the wireless transceiver module of the sink node through wireless means, between the monitoring node farthest from the wireless transceiver module of the sink node and the monitoring node closest to the wireless transceiver module of the sink node All the monitoring nodes between adopt the last monitoring node to transmit the output result to the next monitoring node closest to the nearby communication principle, until all data are transmitted to the wireless transceiver module of the collection node, and the wireless transceiver module of the collection node will The results output by all monitoring nodes are wirelessly transmitted to the data receiving server group and/or the handheld terminal.

Moreover, the output ends of the smoke sensor, temperature sensor and humidity sensor in each monitoring node are connected to the wireless transceiver module provided at the monitoring node through the AD/DA module and the central control module, and the wireless transceiver module completes the wireless communication.

Moreover, the handheld terminal is a mobile phone or a tablet computer.

Advantage and positive effect of the present invention are:

In the present invention, smoke sensors, temperature sensors and humidity sensors are installed at each monitoring node according to the location requirements, and the output data of each sensor is transmitted to the wireless transceiver module in the monitoring node through the AD/DA module and the central control module In the last, each monitoring node adopts the principle of nearby communication, that is, the output results are transmitted to the nearest monitoring node until all the output results are transmitted to the wireless transceiver module of the sink node, which can be set in the computer room , can also be set in the monitoring center, or somewhere close to the monitoring center. The output results of these collections must be transmitted to the data receiving server group and to the handheld terminal, thus realizing the monitoring of various parts of the computer room Compared with the existing technology, the summary, storage, browsing and analysis of data, the data transmission speed is fast, and the abnormal situation can be detected and responded in time, which saves time and improves work efficiency.

Description of drawings

Fig. 1 is a schematic diagram of the present invention.

detailed description

Below in conjunction with the examples, the present invention is further described, the following examples are illustrative, not limiting, and the protection scope of the present invention cannot be limited by the following examples.

A computer room automation monitoring system based on wireless networking technology, as shown in Figure 1, the innovation of the present invention is that it includes a plurality of computer room monitoring nodes and a collection node wireless transceiver module, a plurality of monitoring nodes are set in the computer room, each monitoring The smoke sensor, temperature sensor and humidity sensor set in the node detect the smoke concentration, temperature value and humidity value at the monitoring node and output the results. The node communicates with another monitoring node closest to the node, and the output result of the monitoring node closest to the wireless transceiver module of the sink node communicates with the wireless transceiver module of the sink node through wireless means, and the monitoring node farthest from the wireless transceiver module of the sink node and the wireless transceiver module of the sink node All monitoring nodes between the nearest monitoring nodes of the wireless transceiver module adopt the nearby communication principle that the previous monitoring node transmits the output results to the next monitoring node closest to it, until all data are transmitted to the wireless transceiver module of the sink node, The collection node wireless transceiver module transmits the results output by all monitoring nodes to the data receiving server group 1 and/or the handheld terminal 2 in a wireless manner.

In this embodiment, a smoke sensor, a temperature sensor and a humidity sensor are installed in each monitoring node, and the sensors are connected to the wireless transceiver module in the node through the AD/DA module and the central control module. The handheld terminal is a mobile phone or a tablet computer.

As shown in Figure 1, there are 6 monitoring nodes, and the location of each monitoring node is selected according to the installation location requirements of the computer room. The wireless transceiver module of the collection node is set in the monitoring center where the data receiving server group is located, then the monitoring node farthest from the monitoring center is numbered 1, and the nearest monitoring node is numbered 5, and number 1 transmits the output result to the nearest number 2, No. 3 is transmitted to No. 2, then No. 2 is transmitted to No. 5, No. 4 is transmitted to No. 5, No. 6 is transmitted to No. 5, and finally No. 5 transmits the output results of all monitoring nodes to the data receiving server group of the monitoring center and on the operator's mobile phone.

The distance of each monitoring center is set up in advance, and then the data of all monitoring nodes are compiled into unique identification codes to distinguish the data of other monitoring nodes. When the wireless transceiver module at a certain monitoring node fails, the last monitoring node The node cannot get an effective connection response after several handshake information exchanges automatically, then it will automatically connect to the wireless transceiver module in the second monitoring node close to it according to the topology structure, thus realizing the uninterrupted data of the ad hoc network For transmission, set corresponding inspection procedures in the monitoring center, and if it is found that the data of a certain identification code is empty for a long time, it can be judged that one or all sensors in the monitoring node it represents are faulty, and should be inspected or repaired in time.

In the present invention, smoke sensors, temperature sensors and humidity sensors are installed at each monitoring node according to the location requirements, and the output data of each sensor is transmitted to the wireless transceiver module in the monitoring node through the AD/DA module and the central control module In the last, each monitoring node adopts the principle of nearby communication, that is, the output results are transmitted to the nearest monitoring node until all the output results are transmitted to the wireless transceiver module of the sink node, which can be set in the computer room , can also be set in the monitoring center, or somewhere close to the monitoring center, the output results of these collections will be transmitted not only to the data receiving server group, but also to the handheld terminal, thus realizing the monitoring of all parts of the computer room Compared with the existing technology, the summary, storage, browsing and analysis of data, the data transmission speed is fast, and the abnormal situation can be detected and responded in time, which saves time and improves work efficiency.

Claims (3)

1. A computer room automation monitoring system based on wireless networking technology, characterized in that: comprise a plurality of monitoring nodes and a converging node wireless transceiver module, a plurality of monitoring nodes are set in the computer room, smoke sensors arranged in each monitoring node, The temperature sensor and the humidity sensor detect the smoke concentration, temperature value and humidity value at the monitoring node and output the result. The output result of the monitoring node farthest from the wireless transceiver module of the sink node is wirelessly connected with another monitoring node closest to the node. Node communication, the output result of the monitoring node closest to the wireless transceiver module of the sink node communicates with the wireless transceiver module of the sink node through wireless means, the monitoring node farthest from the wireless transceiver module of the sink node and the monitoring node closest to the wireless transceiver module of the sink node Between all the monitoring nodes, the previous monitoring node transmits the output results to the next monitoring node closest to the nearby communication principle, until all the data is transmitted to the collection node wireless transceiver module, and the collection node wireless transceiver module The results output by all monitoring nodes are wirelessly transmitted to the data receiving server group and/or the handheld terminal. 2. The computer room automation monitoring system based on wireless networking technology according to claim 1, characterized in that: the output terminals of the smoke sensor, temperature sensor and humidity sensor in each monitoring node pass through the AD/DA module and the central control module Connect to the wireless transceiver module set at the monitoring node, and the wireless transceiver module completes the wireless communication. 3. The computer room automation monitoring system based on wireless networking technology according to claim 1 or 2, characterized in that: the handheld terminal is a mobile phone or a tablet computer.