CN108038525A - The intelligent Bus groove monitoring system and its construction method of a kind of convenient deployment - Google Patents

Abstract

The invention discloses the intelligent Bus groove monitoring system and its construction method of a kind of convenient deployment.Monitoring system includes monitoring node, for gathering the installation environment and running state data of intelligent Bus groove；Gateway, for receiving data that monitoring node collects and sending data to cloud platform；RFID card reader, the numbering of monitoring node is read by RFID signal；Mobile terminal, for obtaining construction drawing from cloud platform and the numbering of monitoring node being obtained from RFID card reader, and the position on selected construction drawing and the numbering of acquired monitoring node is associated, then incidence relation is sent to cloud platform；The monitoring node is connected by gateway with cloud platform, and the cloud platform is connected with mobile terminal, and the mobile terminal is connected by RFID card reader with monitoring node.The present invention can reduce difficulty of construction, improve deployment efficiency, reduce construction cost.

Description

The intelligent Bus groove monitoring system and its construction method of a kind of convenient deployment

Technical field

The present invention relates to intelligent Bus groove monitoring systems technology field, more specifically, more particularly to a kind of convenient deployment Intelligent Bus groove monitoring system and its construction method.

Background technology

With modernization project facility and equipment emerge in large numbers, the fast increasing of power consumption of all trades and professions, especially numerous high levels Building and the appearance in large-sized workshop workshop, the traditional cable as transmission pressure has been unable to meet in high current transport system will Ask, the used in parallel of multiway cable brings inconvenience to in-site installation construction connection.Plug type bus duct is as a kind of new Type comes into being with electric lead, and compared with traditional cable, its superiority is fully demonstrated when high current conveys.

Due to the generally all upper kilo-ampere of the electric current of bus duct conveying, improper use easily produces security risk, even results in peace Full accident, causes immeasurable loss.So the monitoring of the installation environment and operating status to bus duct seems extremely heavy Will.

Monitor the installation environment and operating status of bus duct, it is necessary to dispose a set of intelligent Bus groove when construction Monitoring system.Disposing intelligent Bus groove monitoring system needs to install monitoring node in the position of bus duct plug, and needs Numbering and the position of monitoring node are recorded, only in this way, when the monitoring node of some numbering alerts, just can know which is There is exception, and timely processing in a position.

At present, the intelligent Bus groove monitoring common deployment way of system monitoring node has：

(1) when bus duct is produced, monitoring node is mounted in above bus duct in advance, when bus duct is installed, strictly Installation drawing is constructed, and so ensures that the erection sequence of monitoring node is consistent with design, so as to record monitoring node Numbering and positional information, this mode are more demanding to construction site, it is desirable to which construction site management is proper, occurs without careless mistake, no Then it is easy to construction and the inconsistent situation of drawing occur, can not ensures construction results.

(2) use rear mounting means, during construction, first install bus duct, then in the position of plug installation monitoring section Point, then the numbering of manually recorded monitoring node and position, establish linked database, and this mode needs construction personnel to copy manually The numbering of each monitoring node, and record position information are write, it is cumbersome, also it is easier to malfunction.

RFID technique point has three kinds by frequency of use, and one kind is low frequency RF ID, general work frequency from 120KHz to 134KHz, feature are that message transmission rate is slow, it is impossible to while multiple labels are read, data can not write label, read distance closely, Cost is low, suitable for access control system, automatic parking lot etc.；One kind is high-frequency RF ID, and working frequency is based on 13.56Mhz, feature It is that message transmission rate is faster than low frequency, multiple labels can be read at the same time, data can not writes label, read distance up to 10 lis Rice, suitable for bus punch card system, book management system etc.；Also one kind is ultrahigh frequency RFID, working frequency 900MHz ~930MHz, feature are that message transmission rate is fast, can read a large amount of labels at the same time, the writable label of data, reads apart from reachable 10 meters, suitable for the asset management system, inventory management system etc..

Retrieve, do not have also at present using RFID technique come the skill of Intelligent Optimal bus duct monitoring system deployment by inventor Art scheme.

The content of the invention

It is an object of the invention to provide the intelligent Bus groove monitoring system and its construction method of a kind of convenient deployment, reduce Difficulty of construction, improves deployment efficiency, reduces construction cost.

In order to achieve the above object, the technical solution adopted by the present invention is as follows：

A kind of intelligent Bus groove monitoring system of convenient deployment, including：

Monitoring node, for gathering the installation environment and running state data of intelligent Bus groove；

Gateway, for receiving data that monitoring node collects and sending data to cloud platform；

RFID card reader, the numbering of monitoring node is read by RFID signal；

Mobile terminal, for obtaining construction drawing from cloud platform and the volume of monitoring node being obtained from RFID card reader Number, and the position on selected construction drawing and the numbering of acquired monitoring node are associated, then by incidence relation Send to cloud platform；

The monitoring node is connected by gateway with cloud platform, and the cloud platform is connected with mobile terminal, described mobile whole End is connected by RFID card reader with monitoring node.

Further, the monitoring node includes：

Timer module, for periodically producing event message, is sent to the first central processing module；

Communication module, the message sended over for the first central processing module of reception simultaneously send it to gateway；At the same time Handled for receiving instruction message that gateway sends and sending it to the first central processing module；

RFID tag, for recording the numbering of monitoring node and responding the reading instruction of RFID card reader, each RFID marks Label memory contains the monitoring node and uniquely numbers；

Data acquisition module, for the data acquisition of intelligent Bus groove installation environment and operating status, the number collected According to being sent to the first central processing module；

First central processing module, for receiving the event message of timer module triggering, receives and is sent from communication module The data to come over and processing, receive the gathered data sended over from data acquisition module and are sent a message to by communication module Gateway, is stored with the numbering of the monitoring node in the first central processing module, and the numbering in the first central processing module with Numbering in RFID tag is consistent；

The timer module, communication module and data acquisition module are connected with the first central processing module.

Further, the RFID card reader includes antenna, Telescopic rod device, function host and stent；The antenna is used In the reception and transmitting of RFID signal, which is connected by Telescopic rod device with function host；The function host is used for work( It can operate, including the numbering of monitoring node is obtained by RFID signal and numbering is sent to by Bluetooth communication by mobile terminal； The stent is used for holding movable terminal.

Further, the function host includes：

RFID reads label model, and the signal of RFID tag instruction is read for sending, and receives the response signal of RFID tag, Response signal is parsed and sends result to second central processing module；

Second central processing module, for triggering RFID instruction, receives RFID and reads the RFID tag that label model is read, and Mobile terminal is sent to by bluetooth communication；

First bluetooth communication, for connecting RFID card reader and mobile terminal, and establishes RFID card reader and movement Communication between terminal.

Further, the mobile terminal includes：

Second bluetooth communication, for connecting mobile terminal and RFID card reader, and is responsible for mobile terminal and RFID readings Communication between card device；

Function module, for handling mobile terminal all functions business, including obtains the construction drawing of cloud platform, and associates Numbering and position, transmission incidence relation to cloud platform；

GPRS communication modules, for connecting mobile terminal and cloud platform, responsible communication between mobile terminal and cloud platform；

Interface, for human-computer interaction, receives touch-screen input instruction and outputs results to above touch-screen；

Second bluetooth communication, GPRS communication modules and interface are connected with function module.

Further, the cloud platform includes：

User terminal, for being connected with Web server, is responsible for receiving user's input and sends request to Web server, then Show the response data of Web server；

Web server, for being connected with user terminal, responds the request of user terminal, at the same be connected with database and and Database interactive information；

Database, for store cloud platform persistence in need data, and with Web server, application server, APP servers are connected；

Application server, for the reception of the network information, parsing, forwarding operation, and the data reported from gateway is held Longization is stored in database, while judges whether to exceed and set threshold value, if it exceeds threshold value, then produce alert event, passes through Web server notifies alarm events to user terminal；

APP servers, for being connected with mobile terminal, respond the request of mobile terminal, at the same be connected with database and and Database interactive information.

The present invention also provides a kind of construction method of the intelligent Bus groove monitoring system of convenient deployment, comprise the following steps：

The first step, installation intelligent Bus groove, according to construction drawing, are connected intelligent Bus groove by connector；

Second step, installation monitoring node, monitoring node is installed in the position of intelligent Bus groove connector；

3rd step, open mobile terminal, and the intelligent Bus groove construction drawing above cloud platform is obtained by GPRS；

4th step, the position according to construction site monitoring node, correspondence is found out in the construction drawing of acquisition for mobile terminal Monitoring node, and select the monitoring node, wait the numbering of the monitoring node to be obtained；

5th step, RFID card reader read the numbering of monitoring node by RFID signal；

6th step, RFID card reader are transmitted to numbering in mobile terminal；

7th step, mobile terminal are associated the numbering and position that receive；

Incidence relation is transmitted to cloud platform by the 8th step, mobile terminal.

Further, the 6th step is specially：

RFID card reader is transmitted to numbering in mobile terminal by bluetooth.

Further, the 8th step is specially：

Incidence relation is transmitted to cloud platform by mobile terminal by GPRS signals.

Compared with prior art, the advantage of the invention is that：

1st, the monitoring node built-in RFID tag in the present invention, can record the numbering of monitoring node, utilizes RFID card reader The numbering of monitoring node can be obtained, easy to use, record is accurate, and construction efficiency is high, and difficulty of construction is small.

2nd, the RFID card reader embedded with bluetooth communication module in the present invention, with reference to mobile terminal and cloud platform, auto-associating The numbering of monitoring node and position, avoid record from malfunctioning.

3rd, the RFID card reader antenna height in the present invention adjusts, and adapts to different application scenarios.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing There is attached drawing needed in technology description to be briefly described, it should be apparent that, drawings in the following description are only this Some embodiments of invention, for those of ordinary skill in the art, without creative efforts, can be with Other attached drawings are obtained according to these attached drawings.

Fig. 1 is the schematic diagram of the intelligent Bus groove monitoring system of the convenient deployment of the present invention.

Fig. 2 is the schematic diagram of monitoring node in the convenient intelligent Bus groove monitoring system disposed of the present invention.

Fig. 3 is the circuit diagram of data acquisition module in the convenient intelligent Bus groove monitoring system disposed of the present invention.

Fig. 4 is the circuit diagram of the first central processing module in the convenient intelligent Bus groove monitoring system disposed of the present invention.

Fig. 5 is the circuit diagram of communication module in the convenient intelligent Bus groove monitoring system disposed of the present invention.

Fig. 6 is the circuit diagram of RFID tag in the convenient intelligent Bus groove monitoring system disposed of the present invention.

Fig. 7 is the schematic diagram of RFID card reader in the convenient intelligent Bus groove monitoring system disposed of the present invention.

Fig. 8 is the schematic diagram of function host in the convenient intelligent Bus groove monitoring system disposed of the present invention.

Fig. 9 is the circuit diagram that RFID reads label model in the convenient intelligent Bus groove monitoring system disposed of the present invention.

Figure 10 is the circuit diagram of the second central processing module in the convenient intelligent Bus groove monitoring system disposed of the present invention.

Figure 11 is the circuit diagram of the first bluetooth communication in the convenient intelligent Bus groove monitoring system disposed of the present invention.

Figure 12 is the schematic diagram of mobile terminal in the convenient intelligent Bus groove monitoring system disposed of the present invention.

Figure 13 is the schematic diagram of cloud platform in the convenient intelligent Bus groove monitoring system disposed of the present invention.

Figure 14 is the construction method flow chart of the intelligent Bus groove monitoring system of the convenient deployment of the present invention.

Embodiment

The preferred embodiment of the present invention is described in detail below in conjunction with the accompanying drawings, so that advantages and features of the invention energy It is easier to be readily appreciated by one skilled in the art, so as to make a clearer definition of the protection scope of the present invention.

As shown in fig.1, the present invention provides a kind of intelligent Bus groove monitoring system of convenient deployment, including：

Monitoring node 101, for gathering the installation environment and running state data of intelligent Bus groove.

Gateway 105, for receiving data that monitoring node 101 collects and sending data to cloud platform 104.

RFID card reader 102, the numbering of monitoring node 101 is read by RFID signal.

Mobile terminal 103, monitors for obtaining construction drawing from cloud platform 104 and being obtained from RFID card reader 102 The numbering of node 101, and the position on selected construction drawing and the numbering of acquired monitoring node 101 are closed Connection, then incidence relation is sent to cloud platform 104.

Cloud platform 104, for management project, management project construction drawing, the association of monitoring node and position is collected in collection Relation, collects the data of monitoring node collection, data persistence, provides the user with service.Cloud platform 104 can use voluntarily The platform service of exploitation, can also use the platform of outside purchase.

Wherein, monitoring node 101 is connected by gateway 105 with cloud platform 104, and cloud platform 104 connects with mobile terminal 103 Connect, mobile terminal 103 is connected by RFID card reader 102 with monitoring node 101.

As shown in fig.2, the monitoring node 101 includes：

Timer module 201, for periodically producing event message, is sent to the first central processing module 205, timer mould Block 201 is based on the hardware timer inside the first central processing module 205.

Communication module 202, the message sended over for the first central processing module 205 of reception simultaneously (pass through it ZigBee-network) it is sent to gateway 105；At the same time for receiving the instruction message that gateway 105 is sent and sending it to first Central processing module 205 is handled.

RFID tag 203, for recording the numbering of monitoring node 101 and responding the reading instruction of RFID card reader 102, often A 203 memory of RFID tag contains the monitoring node 101 and uniquely numbers.

RFID tag 203 is connected with a high performance PCB antenna by a RFID label chip and formed, RFID tag core Piece is fixed on above the PCB of monitoring node by welding, and communication performance is good.

Data acquisition module 204, for the data acquisition of intelligent Bus groove installation environment and operating status, what is collected Data sending gives the first central processing module 205.

First central processing module 205, for receiving the event message of the triggering of timer module 201, receives from communication mould Data that block 202 sends over and processing, receive the gathered data that is sended over from data acquisition module 204 and by the mould that communicates Block 202 sends a message to gateway 105, and the numbering of the monitoring node 101, and first are stored with the first central processing module 205 Numbering in central processing module 205 is consistent with the numbering in RFID tag 203.

In the present embodiment data acquisition module 204 use circuit diagram as shown in Figure 3, its can also use other structures and Have no effect on the implementation of the present invention.

The first central processing module 205 uses circuit diagram as shown in Figure 4 in the present embodiment, it can also use other knots Structure and have no effect on the present invention implementation.

In the present embodiment communication module 202 use circuit diagram as shown in Figure 5, its can also use other structures and not Influence the implementation of the present invention.

In the present embodiment RFID tag 203 use circuit diagram as shown in Figure 6, its can also use other structures and not Influence the implementation of the present invention.

Wherein, the timer module 201, communication module 202 and data acquisition module 204 with the first central processing Module 205 connects.

As shown in fig.7, the RFID card reader 102 in the present invention includes antenna 301, Telescopic rod device 302, function host 303 and stent 304.

When using RFID card reader 102, antenna 301 needs and monitoring node 101 is close.Due to monitoring node 101 are installed on above bus duct, often distant from the ground, use, are added in the design of RFID card reader 102 for convenience One Telescopic rod device 302, for adjusting the height of antenna 301, use when, can allow antenna close to prison with adjustable telescopic rod Survey node, and function host 303 and stent 304 facilitate construction personnel to operate on ground.

The antenna 301 is used for the reception and transmitting of RFID signal, which passes through Telescopic rod device 302 and function Host 303 connects；The function host 303 is used for feature operation, including the numbering of monitoring node 101 is obtained by RFID signal And numbering is sent to by Bluetooth communication by mobile terminal 103；The stent 304 is used for holding movable terminal 103.

Telescopic rod device can use prior art construction, and Telescopic rod device 302 can also be nested in comprising upper and lower two Metal tube together, there is a fixed card buckle in the place of two metal tube nestings, for fixing the relative position of two metal tubes, Antenna is fixed by screws in the top of metal tube, and the RF cable for connecting antenna passes through upper metal tube and lower metal tube, The bottom of lower metal tube is connected on the radio-frequency joint of function host, on the bottom insertions function host housing rear portion of lower metal tube In reserved mounting hole, then it is fixed by screw, function host housing front has reserved four mounting holes, passes through screw handle Stent be installed on function host shell front portion, stent be exclusively for mobile terminal design, can be with holding movable terminal.

As shown in fig.8, the function host 303 includes：

RFID reads label model 401, for sending the signal for reading RFID tag 203 and instructing, receives RFID tag 203 Response signal, parses response signal and sends result to second central processing module 402.

Second central processing module 402, for triggering RFID instruction, receives RFID and reads the RFID that label model 401 is read Label, and mobile terminal 103 is sent to by bluetooth communication 403.

First bluetooth communication 403, for connecting RFID card reader 102 and mobile terminal 103, and establishes RFID Card Readers Communication between device 102 and mobile terminal 103.

RFID reads label model 401 and uses circuit diagram as shown in Figure 9 in the present embodiment, it can also use other structures And have no effect on the implementation of the present invention.

The second central processing module 402 uses circuit diagram as shown in Figure 10 in the present embodiment, it can also use other Structure and have no effect on the present invention implementation.

The first bluetooth communication 403 uses circuit diagram as shown in figure 11 in the present embodiment, it can also use other Structure and have no effect on the present invention implementation.

Refering to shown in Figure 12, the mobile terminal 103 includes：

Second bluetooth communication 501, for connecting mobile terminal 103 and RFID card reader 102, and is responsible for mobile terminal Communication between 103 and RFID card reader 102.Second bluetooth communication 501 is the bluetooth module carried in mobile terminal, example Such as the bluetooth module in mobile phone.

Function module 502, for handling 103 all functions business of mobile terminal, including obtains the construction drawing of cloud platform 104 Paper, and association number and position, transmission incidence relation to cloud platform 104.

GPRS communication modules 503, for connecting mobile terminal 103 and cloud platform 104, are responsible for mobile terminal 103 and Yun Ping Communication between platform 104.GPRS communication modules 503 are the communication modules carried in mobile terminal, such as the GPRS in mobile phone leads to Believe module.

Interface 504, for human-computer interaction, receives touch-screen input instruction and outputs results to above touch-screen.

Second bluetooth communication 501, GPRS communication modules 503 and interface 504 are connected with function module 502.

Refering to shown in Figure 13, the cloud platform 104 includes：

User terminal 601, for being connected with Web server 602, is responsible for receiving user's input and is sent out to Web server 602 Go out request, then show the response data of Web server 602.

Web server 602, for being connected with user terminal 601, responds the request of user terminal 601, while and database 603 connected and and 603 interactive information of database.

Database 603, for store cloud platform 104 persistence in need data, and with 602Web servers, application Server 604, APP servers 605 are connected.

Application server 604, for the reception of the network information, parsing, forwarding operation, and will report from gateway 105 Data persistence is stored in database 603, while judges whether to exceed and set threshold value, if it exceeds threshold value, then produce alarm Event, is notified alarm events to user terminal 601 by Web server 602.

APP servers 605, for being connected with mobile terminal 103, respond the request of mobile terminal 103, while and database 603 connected and and 603 interactive information of database.

Refering to the construction party for the convenient intelligent Bus groove monitoring system disposed that the present invention shown in Figure 14, is described in detail below Method, comprises the following steps：

The first step, installation intelligent Bus groove, according to construction drawing, are connected intelligent Bus groove by connector.

Second step, installation monitoring node, monitoring node is installed in the position of intelligent Bus groove connector.Monitoring node shell Four angles have four mounting holes, it is beneath to have the thimble with spring, when monitoring node is installed, thimble is withstood on bus duct Busbar above, monitoring node is fixed on above bus duct with screw in the place of four mounting holes.

3rd step, open mobile terminal, and the intelligent Bus groove construction drawing above cloud platform is obtained by GPRS.

4th step, the position according to construction site monitoring node, correspondence is found out in the construction drawing of acquisition for mobile terminal Monitoring node, and select the monitoring node, wait the numbering of the monitoring node to be obtained.

5th step, RFID card reader read the numbering of monitoring node by RFID signal.

6th step, RFID card reader are transmitted to numbering in mobile terminal by bluetooth.

7th step, mobile terminal are associated the numbering and position that receive.

Incidence relation is transmitted to cloud platform by the 8th step, mobile terminal by GPRS signals, you can.

By the present invention monitoring system implementation, the present invention with it is following some：

1st, the monitoring node built-in RFID tag in the present invention, can record the numbering of monitoring node, utilizes RFID card reader The numbering of monitoring node can be obtained, easy to use, record is accurate, and construction efficiency is high, and difficulty of construction is small.

2nd, the RFID card reader embedded with bluetooth communication module in the present invention, with reference to mobile terminal and cloud platform, auto-associating The numbering of monitoring node and position, avoid record from malfunctioning.

3rd, the RFID card reader antenna height in the present invention adjusts, and adapts to different application scenarios.

4th, this invention simplifies intelligent Bus groove monitoring system monitoring node serial number and the record flow of position.

Although being described in conjunction with the accompanying embodiments of the present invention, patent owner can be in appended claims Within the scope of make various deformations or amendments, as long as no more than the present invention the described protection domain of claim, all should Within protection scope of the present invention.

Claims (9)

1. A kind of 1. intelligent Bus groove monitoring system of convenient deployment, it is characterised in that including：

   Monitoring node, for gathering the installation environment and running state data of intelligent Bus groove；

   Gateway, for receiving data that monitoring node collects and sending data to cloud platform；

   RFID card reader, the numbering of monitoring node is read by RFID signal；

   Mobile terminal, for obtaining construction drawing from cloud platform and the numbering of monitoring node being obtained from RFID card reader, and Position on selected construction drawing and the numbering of acquired monitoring node are associated, then by incidence relation send to In cloud platform；

   The monitoring node is connected by gateway with cloud platform, and the cloud platform is connected with mobile terminal, and the mobile terminal leads to RFID card reader is crossed to be connected with monitoring node.
2. 2. the intelligent Bus groove monitoring system of convenient deployment according to claim 1, it is characterised in that the monitoring node Including：

   Timer module, for periodically producing event message, is sent to the first central processing module；

   Communication module, the message sended over for the first central processing module of reception simultaneously send it to gateway；It is used at the same time Receive the instruction message that gateway is sent and send it to the first central processing module and handled；

   RFID tag, for recording the numbering of monitoring node and responding the reading instruction of RFID card reader, in each RFID tag The monitoring node is stored with uniquely to number；

   Data acquisition module, for the data acquisition of intelligent Bus groove installation environment and operating status, sends out the data collected Give the first central processing module；

   First central processing module, for receiving the event message of timer module triggering, receives and is sended over from communication module Data and processing, receive the gathered data sended over from data acquisition module and net sent a message to by communication module Close, the numbering of the monitoring node, and numbering and RFID in the first central processing module are stored with the first central processing module Numbering in label is consistent；

   The timer module, communication module and data acquisition module are connected with the first central processing module.
3. 3. the intelligent Bus groove monitoring system of convenient deployment according to claim 2, it is characterised in that the RFID Card Readers Device includes antenna, Telescopic rod device, function host and stent；The antenna is used for the reception and transmitting of RFID signal, the antenna It is connected by Telescopic rod device with function host；The function host is used for feature operation, including is obtained and supervised by RFID signal Survey the numbering of node and numbering is sent to by Bluetooth communication by mobile terminal；The stent is used for holding movable terminal.
4. 4. the intelligent Bus groove monitoring system of convenient deployment according to claim 3, it is characterised in that the function host Including：

   RFID reads label model, and the signal of RFID tag instruction is read for sending, and receives the response signal of RFID tag, sound Induction signal parses and sends result to second central processing module；

   Second central processing module, for triggering RFID instruction, receives RFID and reads the RFID tag that label model is read, and pass through Bluetooth communication sends mobile terminal to；

   First bluetooth communication, for connecting RFID card reader and mobile terminal, and establishes RFID card reader and mobile terminal Between communication.
5. 5. the intelligent Bus groove monitoring system of convenient deployment according to claim 1, it is characterised in that the mobile terminal Including：

   Second bluetooth communication, for connecting mobile terminal and RFID card reader, and is responsible for mobile terminal and RFID card reader Between communication；

   Function module, for handling mobile terminal all functions business, including obtains the construction drawing of cloud platform, and association number And position, transmission incidence relation to cloud platform；

   GPRS communication modules, for connecting mobile terminal and cloud platform, responsible communication between mobile terminal and cloud platform；

   Interface, for human-computer interaction, receives touch-screen input instruction and outputs results to above touch-screen；

   Second bluetooth communication, GPRS communication modules and interface are connected with function module.
6. 6. the intelligent Bus groove monitoring system of convenient deployment according to claim 1, it is characterised in that the cloud platform bag Include：

   User terminal, for being connected with Web server, is responsible for receiving user's input and sends request to Web server, then show The response data of Web server；

   Web server, for being connected with user terminal, responds the request of user terminal, while is connected with database and and data Storehouse interactive information；

   Database, for store cloud platform persistence in need data, and with Web server, application server, APP take Business device is connected；

   Application server, for the reception of the network information, parsing, forwarding operation, and the data persistence that will be reported from gateway Database is stored in, while judges whether to exceed and threshold value is set, if it exceeds threshold value, then produce alert event, is taken by Web Business device notifies alarm events to user terminal；

   APP servers, for being connected with mobile terminal, respond the request of mobile terminal, while are connected with database and and data Storehouse interactive information.
7. 7. the construction method of the intelligent Bus groove monitoring system of a kind of convenient deployment, it is characterised in that comprise the following steps：

   The first step, installation intelligent Bus groove, according to construction drawing, are connected intelligent Bus groove by connector；

   Second step, installation monitoring node, monitoring node is installed in the position of intelligent Bus groove connector；

   3rd step, open mobile terminal, and the intelligent Bus groove construction drawing above cloud platform is obtained by GPRS；

   4th step, the position according to construction site monitoring node, find out corresponding prison in the construction drawing of acquisition for mobile terminal Node is surveyed, and selects the monitoring node, waits the numbering of the monitoring node to be obtained；

   5th step, RFID card reader read the numbering of monitoring node by RFID signal；

   6th step, RFID card reader are transmitted to numbering in mobile terminal；

   7th step, mobile terminal are associated the numbering and position that receive；

   Incidence relation is transmitted to cloud platform by the 8th step, mobile terminal.
8. 8. construction method according to claim 7, it is characterised in that the 6th step is specially：

   RFID card reader is transmitted to numbering in mobile terminal by bluetooth.
9. 9. construction method according to claim 7, it is characterised in that the 8th step is specially：

   Incidence relation is transmitted to cloud platform by mobile terminal by GPRS signals.