CN113242315B - Monitoring feedback data receiving and transmitting system and method for machine room power equipment operation environment - Google Patents

Abstract

The invention discloses a system and a method for receiving and sending monitoring feedback data of the running environment of machine room power equipment, wherein the system comprises the following steps: the plurality of acquisition devices are respectively arranged at different machine room power device operation stations and are used for acquiring the machine room power device operation environment monitoring data and correspondingly generating and uploading data messages; the receiving server cluster is in communication connection with the acquisition equipment and is used for receiving the data message uploaded by the acquisition equipment and analyzing and warehousing the data message; the database is in communication connection with the receiving server cluster and is used for storing the data message analyzed and put in storage by the receiving server cluster and generating a sending message for requesting acquisition of the data of the acquisition equipment; the issuing server cluster is in communication connection with the database and is used for reading an issuing message generated by the database, forwarding the issuing message to the acquisition equipment and responding by the acquisition equipment; the scheme has high data transmission efficiency, balanced hardware resource utilization and small influence of fault interference.

Description

Monitoring feedback data receiving and transmitting system and method for machine room power equipment operation environment

Technical Field

The invention relates to the technical field of data transmission, in particular to a system and a method for monitoring and feeding back data of a machine room power equipment operation environment.

Background

As the important work of machine room dynamic environment monitoring is that the feedback reliability and stability of monitoring data become the subject of important attention in the field at present, in the traditional scheme, a front-end server is adopted to conduct leading transceiving, then the data are transmitted into a transceiving server cluster to conduct centralized analysis and warehousing, meanwhile, the transceiving server cluster is also responsible for acquiring a sending message in a database to conduct sending, and after the front-end server receives, the sending message is transmitted to a receiving and sending server to conduct analysis and warehousing randomly or sequentially, under the condition that once the transceiving server cluster has data peaks or uneven utilization rate, if the receiving of the data message is carried out again, the situation that the transceiving server cluster is seriously uneven in work distribution is easily caused, meanwhile, the hardware of the transceiving server cluster is easily caused to be uneven, so that the receiving and sending server cluster needs to deal with complicated processing work through adding more transceiving servers, and once the front-end server fails, the sending and receiving operation is temporarily stopped, and the data is difficult to be sent to the place in time.

Disclosure of Invention

Therefore, the invention aims to provide a system and a method for monitoring and sending feedback data of the operation environment of the power equipment of the machine room, which have high data transmission efficiency, balanced hardware resource utilization and small fault interference influence.

In order to achieve the technical purpose, the invention adopts the following technical scheme:

a machine room power equipment operation environment monitoring feedback data receiving and transmitting system comprises:

The plurality of acquisition devices are respectively arranged at different machine room power device operation stations and are used for acquiring the machine room power device operation environment monitoring data and correspondingly generating and uploading data messages;

The receiving server cluster is in communication connection with the acquisition equipment and is used for receiving the data message uploaded by the acquisition equipment and analyzing and warehousing the data message;

The database is in communication connection with the receiving server cluster and is used for storing the data message analyzed and put in storage by the receiving server cluster and generating a sending message for requesting acquisition of the data of the acquisition equipment;

The issuing server cluster is in communication connection with the database and is used for reading the issuing message generated by the database, forwarding the issuing message to the acquisition equipment and responding by the acquisition equipment.

As a possible implementation manner, further, the receiving server cluster includes:

The front end of the receiving server cluster is in communication connection with the acquisition equipment and is used for receiving and forwarding the data message uploaded by the acquisition equipment;

the rear end of the receiving server cluster is in communication connection with the front end of the receiving server cluster and is used for receiving the data message forwarded by the front end of the receiving server cluster, analyzing the data message and warehousing.

As a preferred implementation choice, the front end of the receiving server cluster preferably includes a reverse proxy server nginx;

The back end of the receiving server cluster comprises more than two tomcat application servers, and the tomcat application servers are all in communication connection with the reverse proxy server nginx and the database.

As a preferred implementation choice, preferably, the back end of the receiving server cluster further includes two redis servers, and both redis servers are in communication connection with the tomcat application server and are used for temporarily storing data frequently read and written by the tomcat application server, wherein the two redis servers adopt a master-slave mechanism, and one redis server master is responsible for writing; the other redisserver master is responsible for reading.

As a preferred implementation choice, the issuing server cluster preferably comprises:

the back end of the issuing server cluster is in communication connection with the database and is used for reading and forwarding an issuing message generated by the database;

The front end of the issuing server cluster is in communication connection with the rear end of the issuing server cluster and is used for receiving the issuing message forwarded by the rear end of the issuing server cluster and forwarding the issuing message to the acquisition equipment.

As a preferred implementation choice, preferably, the rear end of the issuing server cluster includes more than two tomcat application servers and a reverse proxy server nginx, and the tomcat application server at the rear end of the issuing server cluster is used for reading the issuing message generated by the database and forwarding the issuing message to the reverse proxy server nginx, and the issuing message is further forwarded by the reverse proxy server nginx;

The front end of the issuing server cluster comprises more than two tomcat application servers and is used for receiving the issuing message forwarded by the reverse proxy server nginx at the rear end of the issuing server cluster and forwarding the issuing message to the acquisition equipment.

Based on the above system scheme, the invention also provides a method for receiving and transmitting feedback data for monitoring the running environment of the power equipment in the machine room, which is characterized by comprising the following steps:

S01, generating a downlink message by a database, and requesting acquisition of acquisition equipment data;

s02, the rear end of the issuing server cluster reads the issuing message generated by the database, and forwards the issuing message to the front end of the issuing server cluster according to preset conditions;

S03, the front end of the issuing server cluster receives the issuing message forwarded by the rear end of the issuing server cluster and forwards the issuing message to the acquisition equipment;

S04, the acquisition equipment generates a data message according to a preset time period or in response to a transmitting message forwarded by the front end of the transmitting server cluster, and uploads the acquired monitoring data of the running environment of the power equipment of the machine room to the front end of the receiving server cluster;

S05, the front end of the receiving server cluster receives the data message uploaded by the acquisition equipment and forwards the data message to the rear end of the receiving server cluster according to preset conditions;

s06, receiving the data message forwarded by the front end of the receiving server cluster by the rear end of the receiving server cluster, and analyzing and warehousing the data message;

S07, the database receives the data message which is put in storage through the rear end of the receiving server cluster.

As a preferred implementation choice, preferably, the back end of the issuing server cluster includes more than two tomcat application servers and a reverse proxy server nginx, where different tomcat application servers respectively correspond to the collection devices of the different area sites and are respectively used to obtain the database to generate the issuing messages for different areas, and forward the issuing messages to the reverse proxy server nginx at the back end of the issuing server cluster;

The front end of the issuing server cluster comprises more than two tomcat application servers, the back proxy server nginx at the rear end of the issuing server cluster also monitors the resource utilization rate of the tomcat application servers at the front end of the issuing server cluster in real time, and when forwarding the issuing message, the issuing message is forwarded to the tomcat application server with low resource utilization rate and is forwarded to the acquisition equipment by the tomcat application server.

As a preferred implementation choice, the front end of the receiving server cluster preferably includes a reverse proxy server nginx;

The rear end of the receiving server cluster comprises more than two tomcat application servers; the reverse proxy server nginx also monitors the resource utilization rate of the tomcat application server at the rear end of the receiving server cluster in real time, and when forwarding the data message, forwards the data message to the tomcat application server with low resource utilization rate, and analyzes and stores the data message in a warehouse.

As a preferred implementation option, preferably, the front end of the receiving server cluster and the back end of the issuing server cluster each further include a standby reverse proxy server nginx, where the standby reverse proxy server ginx is used to replace the operation of the reverse proxy server ginx at the front end of the receiving server cluster and/or the back end of the issuing server cluster when the operation of the reverse proxy server ginx is stopped.

By adopting the technical scheme, compared with the prior art, the invention has the beneficial effects that: the scheme ingeniously builds a server cluster with separated receiving and transmitting functions so as to cope with the resource pressure caused by large-scale and large-data-volume data receiving and transmitting, on receiving, the reverse proxy server nginx at the rear end of the receiving server cluster also monitors the resource utilization rate of the tomcat application server at the rear end of the receiving server cluster in real time, and when the data message uploaded by the collecting equipment is forwarded, the data message is forwarded to the tomcat application server with low resource utilization rate and analyzed and put in storage, so that the optimal effect of processing routes is achieved in the aspects of data message receiving, analyzing and put in storage, meanwhile, the unordered distribution of a large amount of processing data is avoided, the utilization rate and balance of hardware equipment at the receiving level are greatly improved, and when the message is sent, the tomcat application server at the rear end of the sending server cluster carries out corresponding processing on the sending messages in different areas, the back proxy server nginx at the back end of the issuing server cluster is used for issuing the back proxy server nginx to the tomcat application server at the front end of the issuing server cluster, the back proxy server nginx at the back end of the issuing server cluster is used for monitoring the resource utilization rate of the tomcat application server at the front end of the issuing server cluster in real time, and forwarding the issuing message to the tomcat application server with low resource utilization rate and forwarding the issuing message to the acquisition equipment in the forwarding process, so that the issuing timeliness of the issuing message is greatly improved The technical effects of balanced utilization of hardware resources and small influence of fault interference are achieved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic connection diagram of a monitoring feedback data transceiver system for the operating environment of a machine room power device according to the present invention;

FIG. 2 is a schematic diagram of one example of a connection of a system for monitoring and feeding back feedback data based on the operating environment of a power plant in a machine room according to the present invention;

FIG. 3 is a schematic diagram showing the connection between the collection device and the receiving server cluster in the example of FIG. 2;

FIG. 4 is a schematic diagram showing a connection relationship between a cluster of issuing servers and an acquisition device in the example of FIG. 2;

Fig. 5 is a schematic flow chart of a method for receiving and transmitting feedback data for monitoring the operating environment of the power equipment in the machine room.

Detailed Description

The invention is described in further detail below with reference to the drawings and examples. It is specifically noted that the following examples are only for illustrating the present invention, but do not limit the scope of the present invention. Likewise, the following examples are only some, but not all, of the examples of the present invention, and all other examples, which a person of ordinary skill in the art would obtain without making any inventive effort, are within the scope of the present invention.

As shown in fig. 1, the system for receiving and sending feedback data for monitoring the operation environment of a power device in a machine room according to the present invention includes:

the system comprises a plurality of acquisition devices 1, a plurality of data processing units and a plurality of data processing units, wherein the acquisition devices are respectively arranged at different machine room power device operation stations and are used for acquiring machine room power device operation environment monitoring data and correspondingly generating and uploading data messages;

the receiving server cluster 2 is in communication connection with the acquisition equipment 1 and is used for receiving the data message uploaded by the acquisition equipment 1 and analyzing and warehousing the data message;

the database 3 is in communication connection with the receiving server cluster 2 and is used for storing the data messages analyzed and put in storage by the receiving server cluster 2 and generating a sending message for requesting to acquire the data of the acquisition equipment 1;

The issuing server cluster 4 is in communication connection with the database 3, and is used for reading the issuing message generated by the database 3, forwarding the issuing message to the acquisition equipment 1, and responding by the acquisition equipment 1.

In this embodiment, as a possible implementation manner, further, the receiving server cluster 2 includes:

The receiving server cluster front end 21 is in communication connection with the acquisition equipment 1 and is used for receiving and forwarding the data message uploaded by the acquisition equipment 1;

The receiving server cluster back end 22 is in communication connection with the receiving server cluster front end 21, and is used for receiving the data message forwarded by the receiving server cluster front end 21, and analyzing and warehousing the data message.

In this embodiment, as a preferred implementation choice, the receiving server cluster front end 21 preferably includes a reverse proxy server nginx;

The receiving server cluster backend 22 includes more than two tomcat application servers 221, which are all communicatively connected to the reverse proxy server rginx and the database.

In order to improve the processing efficiency, in this embodiment, as a preferred implementation choice, preferably, the receiving server cluster backend 22 further includes two redis servers 222, where the two redis servers 222 are both communicatively connected to the tomcat application server 221 and are used for temporarily storing data frequently read and written by the tomcat application server 221, where the two redis servers 222 adopt a master-slave mechanism, and one redis server master is responsible for writing; the other redisserver master is responsible for reading.

In this solution, as a preferred implementation choice, preferably, the issuing server cluster includes:

the back end 42 of the issuing server cluster is in communication connection with the database and is used for reading and forwarding the issuing message generated by the database 3;

the front end 41 of the issuing server cluster is in communication connection with the back end 42 of the issuing server cluster, and is configured to receive the issuing message forwarded by the back end 42 of the issuing server cluster, and forward the issuing message to the collecting device 1.

In this solution, as a preferred implementation choice, preferably, the backend 42 of the issuing server cluster includes more than two tomcat application servers 421 and one reverse proxy server nginx 422, where the tomcat application server 421 of the backend 42 of the issuing server cluster is configured to read the issuing message generated by the database 3 and forward the issuing message to the reverse proxy server nginx 422, and the forwarding is further performed by the reverse proxy server nginx 422;

the front end 41 of the distribution server cluster includes more than two tomcat application servers, and is configured to receive the distribution message forwarded by the back proxy server nginx 422 of the back end 42 of the distribution server cluster, and forward the distribution message to the collection device 1.

Fig. 2 is a schematic diagram of one connection example of the monitoring feedback data transceiver system of the machine room power equipment operating environment according to the present invention.

FIG. 3 is a schematic diagram showing the connection between the collection device and the receiving server cluster in the example of FIG. 2;

the receiving service cluster consists of a reverse proxy server nginx and five tomcat application servers. The reverse proxy server, the front end processor for short, communicates with all stations in the whole province, and has the responsibility of only receiving the message data reported by all stations in the whole province. And the front-end processor forwards the received message data to five tomcat application servers according to the self-configured load balancing strategy. Five tomcat application servers are responsible for actual analysis and storage of message data.

The receiving server clusters process the reported message data of the all provincial office station, mainly solving the following problems:

(1) And cluster processing is used, so that the data processing capacity is improved, and the data processing capacity under high concurrency is improved.

(2) Five tomcat application server clusters realize high availability of the system, wherein one fault does not influence the operation of the system.

FIG. 4 is a schematic diagram showing a connection relationship between a cluster of issuing servers and an acquisition device in the example of FIG. 2;

The issuing server cluster is composed of tomcat application servers corresponding to nine city areas in Fujian, and one tomcat application server in each city area runs, so that the total of nine tomcat application servers is called as city area servers for short. In terms of business, nine city servers are mutually independent and do not affect each other. Each local city server fails, and the normal operation of other local city servers is not influenced.

The responsibility of the local city server only downloads message data, such as real-time data requesting a certain office station.

Based on the alarm of network safety, the network of the nine city servers is not communicated with the network of the all-province office station, and is processed in the architecture.

The platform issuing service consists of nine city servers, a reverse proxy server nginx and four front-end tomcat servers. Reverse proxy server nginx, front-end processor for short.

Nine city servers: and respectively transmitting the message data to the front-end processor.

Front-end processor: and the server is responsible for receiving request message data of the city server and forwarding the request to four front-end servers according to a load balancing strategy.

Four front-end tomcat servers: the network of the station with the full province is opened, the network is really communicated with the station with the full province, the request forwarded by the front end processor is sent to the actual station, the data is acquired from the station and then returned to the front end processor, and the front end processor returns the data to the city server.

The issuing service processes the message data issued in the whole province, and mainly solves the following problems:

(1) Nine city servers, business are not affected, wherein one fault does not affect the normal operation of other servers.

(2) And the front-end processor and four front-end tomcat servers are added, so that the network security is improved. Meanwhile, the local city server can be increased at any time without opening a communication network with the office station.

Based on the system scheme shown in fig. 1 to 4 and further combined with fig. 5, the invention also provides a method for receiving and sending monitoring feedback data of the running environment of the power equipment of the machine room, which is characterized by comprising the following steps:

S01, generating a downlink message by a database, and requesting acquisition of acquisition equipment data;

s02, the rear end of the issuing server cluster reads the issuing message generated by the database, and forwards the issuing message to the front end of the issuing server cluster according to preset conditions;

S03, the front end of the issuing server cluster receives the issuing message forwarded by the rear end of the issuing server cluster and forwards the issuing message to the acquisition equipment;

S04, the acquisition equipment generates a data message according to a preset time period or in response to a transmitting message forwarded by the front end of the transmitting server cluster, and uploads the acquired monitoring data of the running environment of the power equipment of the machine room to the front end of the receiving server cluster;

S05, the front end of the receiving server cluster receives the data message uploaded by the acquisition equipment and forwards the data message to the rear end of the receiving server cluster according to preset conditions;

s06, receiving the data message forwarded by the front end of the receiving server cluster by the rear end of the receiving server cluster, and analyzing and warehousing the data message;

S07, the database receives the data message which is put in storage through the rear end of the receiving server cluster.

Preferably, the back end of the issuing server cluster includes more than two tomcat application servers and a reverse proxy server nginx, wherein different tomcat application servers respectively correspond to acquisition devices of different regional sites and are respectively used for acquiring databases to generate issuing messages aiming at different regions, and forwarding the issuing messages to the reverse proxy server nginx at the back end of the issuing server cluster;

The front end of the issuing server cluster comprises more than two tomcat application servers, the back proxy server nginx at the rear end of the issuing server cluster also monitors the resource utilization rate of the tomcat application servers at the front end of the issuing server cluster in real time, and when forwarding the issuing message, the issuing message is forwarded to the tomcat application server with low resource utilization rate and is forwarded to the acquisition equipment by the tomcat application server.

In addition, in this solution, as a preferred implementation choice, preferably, the front end of the receiving server cluster includes a reverse proxy server nginx;

The rear end of the receiving server cluster comprises more than two tomcat application servers; the reverse proxy server nginx also monitors the resource utilization rate of the tomcat application server at the rear end of the receiving server cluster in real time, and when forwarding the data message, forwards the data message to the tomcat application server with low resource utilization rate, and analyzes and stores the data message in a warehouse.

As a preferred implementation option, preferably, the front end of the receiving server cluster and the back end of the issuing server cluster each further include a standby reverse proxy server nginx, where the standby reverse proxy server ginx is used to replace the operation of the reverse proxy server ginx at the front end of the receiving server cluster and/or the back end of the issuing server cluster when the operation of the reverse proxy server ginx is stopped.

The foregoing description is only a partial embodiment of the present invention, and is not intended to limit the scope of the present invention, and all equivalent devices or equivalent processes using the descriptions and the drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the present invention.

Claims (2)

1. The utility model provides a computer lab power equipment operational environment control feedback data transceiver system which characterized in that includes:

The plurality of acquisition devices are respectively arranged at different machine room power device operation stations and are used for acquiring the machine room power device operation environment monitoring data and correspondingly generating and uploading data messages;

The receiving server cluster is in communication connection with the acquisition equipment and is used for receiving the data message uploaded by the acquisition equipment and analyzing and warehousing the data message;

The database is in communication connection with the receiving server cluster and is used for storing the data message analyzed and put in storage by the receiving server cluster and generating a sending message for requesting acquisition of the data of the acquisition equipment;

The issuing server cluster is in communication connection with the database and is used for reading an issuing message generated by the database, forwarding the issuing message to the acquisition equipment and responding by the acquisition equipment;

Wherein the receiving server cluster comprises:

The front end of the receiving server cluster is in communication connection with the acquisition equipment and is used for receiving and forwarding the data message uploaded by the acquisition equipment;

The rear end of the receiving server cluster is in communication connection with the front end of the receiving server cluster and is used for receiving the data message forwarded by the front end of the receiving server cluster, analyzing the data message and warehousing;

the front end of the receiving server cluster comprises a reverse proxy server nginx;

The rear end of the receiving server cluster comprises more than two tomcat application servers, and the tomcat application servers are all in communication connection with a reverse proxy server nginx and a database;

The reverse proxy server nginx at the front end of the receiving server cluster monitors the resource utilization rate of the tomcat application server at the rear end of the receiving server cluster in real time, and when forwarding the data message, forwards the data message to the tomcat application server with low resource utilization rate, and analyzes and stores the data message in a warehouse;

The back end of the receiving server cluster also comprises two redis servers, wherein the two redis servers are in communication connection with the tomcat application server and are used for temporarily storing data frequently read and written by the tomcat application server, the two redis servers adopt a master-slave mechanism, and one redis server is in charge of writing; another redis server master is responsible for reading;

the issuing server cluster comprises:

the back end of the issuing server cluster is in communication connection with the database and is used for reading and forwarding an issuing message generated by the database;

The front end of the issuing server cluster is in communication connection with the rear end of the issuing server cluster and is used for receiving the issuing message forwarded by the rear end of the issuing server cluster and forwarding the issuing message to the acquisition equipment;

the back end of the issuing server cluster comprises more than two tomcat application servers and a reverse proxy server nginx, different tomcat application servers respectively correspond to acquisition equipment of different regional sites, and the tomcat application servers at the back end of the issuing server cluster are used for reading the issuing message generated by the database and forwarding the issuing message to the reverse proxy server nginx, and the issuing message is further forwarded by the reverse proxy server nginx;

The front end of the issuing server cluster comprises more than two tomcat application servers and is used for receiving the issuing message forwarded by the reverse proxy server nginx at the rear end of the issuing server cluster and forwarding the issuing message to the acquisition equipment.

2. A method for receiving and sending feedback data for monitoring the operating environment of a power device in a machine room, which is applied to the system of claim 1, the method comprising:

The database generates a sending message and is used for requesting acquisition of the data of the acquisition equipment;

The back end of the issuing server cluster reads the issuing message generated by the database and forwards the issuing message to the front end of the issuing server cluster according to preset conditions;

The front end of the issuing server cluster receives the issuing message forwarded by the rear end of the issuing server cluster and forwards the issuing message to the acquisition equipment;

The acquisition equipment generates a data message according to a preset time period or in response to a transmitting message forwarded by the front end of the transmitting server cluster, and uploads the acquired monitoring data of the running environment of the power equipment of the machine room to the front end of the receiving server cluster;

the front end of the receiving server cluster receives the data message uploaded by the acquisition equipment and forwards the data message to the rear end of the receiving server cluster according to preset conditions;

The rear end of the receiving server cluster receives the data message forwarded by the front end of the receiving server cluster, and analyzes and stores the data message;

The database receives a data message which is put into storage through the rear end of the receiving server cluster;

The back end of the issuing server cluster comprises more than two tomcat application servers and a reverse proxy server nginx, wherein different tomcat application servers respectively correspond to acquisition equipment of different regional sites and are respectively used for acquiring databases to generate issuing messages aiming at different regions and forwarding the issuing messages to the reverse proxy server nginx at the back end of the issuing server cluster;

The front end of the issuing server cluster comprises more than two tomcat application servers, the back proxy server nginx at the rear end of the issuing server cluster also monitors the resource utilization rate of the tomcat application servers at the front end of the issuing server cluster in real time, and when forwarding the issuing message, the issuing message is forwarded to the tomcat application server with low resource utilization rate and is forwarded to the acquisition equipment by the tomcat application server;

the front end of the receiving server cluster comprises a reverse proxy server nginx;

the rear end of the receiving server cluster comprises more than two tomcat application servers; the reverse proxy server nginx also monitors the resource utilization rate of the tomcat application server at the rear end of the receiving server cluster in real time, and when forwarding the data message, forwards the data message to the tomcat application server with low resource utilization rate, and analyzes and stores the data message in a warehouse;

The front end of the receiving server cluster and the rear end of the issuing server cluster also comprise a standby reverse proxy server nginx, and the standby reverse proxy server nginx is used for replacing the standby reverse proxy server nginx when the front end of the receiving server cluster and/or the rear end of the issuing server cluster stops running.