CN102541013A - Remote monitoring, early warning and fault-diagnosing system and method for anodic protection device - Google Patents

Abstract

The invention relates to a remote monitoring, early warning and fault-diagnosing system for an anodic protection device based on an internet of things technology. The system comprises a sensor device, a signal identifying device, a GPRS/CDMA (General Packet Radio Service/Code Division Multiple Access) network, an internet, a database server and a monitoring terminal, wherein the sensor device is connected with the signal identifying device; the signal identifying device is in wireless signal connection with the GPRS/CDMA network; the monitoring terminal comprises an equipment manufacturer monitoring terminal, a client monitoring terminal and an equipment manufacturer engineer and client engineer mobile monitoring terminal; the GPRS/CDMA network is in wireless signal connection with the equipment manufacturer engineer and client engineer mobile monitoring terminal; the GPRS/CDMA network is in wireless signal connection with the internet; the internet is connected with the database server; the internet is connected with the equipment manufacturer monitoring terminal and the client monitoring terminal; and the equipment manufacturer monitoring terminal and the client monitoring terminal are connected with the database server through the internet. The system provided by the invention can be used for remotely monitoring and estimating the state of the anodic protection device in an all-weather way and timely and accurately warning the device exception.

Description

Anodic protection equipment remote monitoring, early warning and fault diagnosis system and method

Technical field

The present invention relates to technology of Internet of things field and sulfuric acid industry anodic protection apparatus field; Relate in particular to a kind of monitoring of anodic protection apparatus remote, early warning and fault diagnosis system, the invention still further relates to the monitoring of anodic protection apparatus remote, early warning and method for diagnosing faults based on technology of Internet of things based on technology of Internet of things.

Background technology

Anodic protection equipment is the key equipment of sulfuric acid industry dry absorption section; Have characteristics such as anti-corrosion, energy-saving and environmental protection; Through the development in surplus 20 years, the gas washing in SA production enterprise of China existing about 99% adopted anodic protection equipment so far, and has found a good sale in to states such as Iran, Korea, Zambia.But anodic protection equipment is a kind of a kind of new type corrosion resistant equipment that the anodic protection technology is combined with stainless steel concentrated sulphuric acid equipment, and maintenance management is had high requirement.The height of the variation of the variation of processing parameter, anodic protection parameter, anodic protection acid trap (one of anodic protection equipment) liquid level all can exert an influence to the corrosion stability of equipment.Along with the widespread usage of anodic protection equipment, its some problems that in maintenance management, exist are also outstanding day by day, mainly contain following some: the first, there be " blind spot " in field device maintenance management; The second, the equipment failure treatment effeciency is low, cost is higher; Three, equipment failure analysis of causes difficulty is big; Four, maintenance management difficulty of outlet device etc., these problems have directly influenced the performance of anodic protection equipment effectiveness.It is thus clear that the key that realizes the high-quality operation of anodic protection device security is the maintenance management level that promotes anodic protection equipment.And common way has two kinds: the one, and gas washing in SA production enterprise is equipped with a professional equipment and safeguards troop, but because the restriction of personnel and fund, there be " blind spot " in this regard in a lot of gas washing in SA production enterprises; The 2nd, rapid, " rushing to the scene " processing in time of equipment supplier, but because restriction ageing and economy also is difficult to satisfy the needs of gas washing in SA production enterprise.

For strengthening the maintenance management of anodic protection equipment; Present most of gas washing in SA production enterprise adopts potentiostat; Be anodic protection equipment anodic protection parameter control device, the method that inserts the DCS of enterprise control system is monitored the variation of anodic protection equipment anodic protection parameter.Sulfuric acid business equipment maintainer can concentrate the variation of this enterprise of monitoring inner anode protection equipment anodic protection parameter through the DCS control system, has realized the centralized management of this enterprise inner anode protection equipment.But the anodic protection equipment running status is not limited only to the anodic protection parameter, and the variation of processing parameter, liquid level parameter etc. all greatly affects the anodic protection equipment running.In addition, sulfuric acid has extremely strong corrosivity and oxidisability as a kind of high-risk chemicals, makes anodic protection equipment in case take place to leak and will produce great harm to equipment, environment and personnel.It is thus clear that the real-time monitoring of antianode protection equipment corrosion state is also particularly necessary.Obviously, the monitoring of DCS control system antianode protection equipment only limits to the anodic protection parameter, and monitoring parameter is too single, and does not possess fault diagnosis functions.

Summary of the invention

The object of the invention is to provide a kind of monitoring of anodic protection apparatus remote, early warning and fault diagnosis system based on Internet of Things; Be intended to solve the existing low present situation of anodic protection equipment maintenance and management level, promote anodic protection equipment maintenance and management level, make anodic protection equipment have more intellectuality.Another is to provide a kind of implementation method of the monitoring of anodic protection apparatus remote, early warning and the fault diagnosis system based on Internet of Things the object of the invention.

For realizing above-mentioned purpose, the invention provides such technical scheme:

A kind of anodic protection equipment remote monitoring, early warning and fault diagnosis system based on Internet of Things comprise sensor device, signal identification device, GPRS/CDMA network, internet, database server and monitor terminal; Sensor device and signal identification device wired connection, signal identification device is connected with GPRS/CDMA network wireless signal; Monitor terminal comprises equipment manufacturers' monitor terminal, client's monitor terminal, equipment manufacturers slip-stick artist's monitoring mobile phone terminal and customer engineer's monitoring mobile phone terminal; The GPRS/CDMA network is connected with equipment manufacturers slip-stick artist's monitoring mobile phone terminals, customer engineer's monitoring mobile phone terminal wireless signal; The GPRS/CDMA network is connected with the internet wireless signal; The internet is connected with database server; The internet is connected with equipment manufacturers monitor terminals, client's monitor terminal, and equipment manufacturers' monitor terminal, client's monitor terminal are connected with database server through the internet.

Sensor device is arranged in anodic protection equipment; Sensor device comprises anodic protection sensor, production technology sensor, corrosion sensor and liquid level sensor.Signal identification device is made up of signal reception/analysis module, signal conversion module and wireless network transceiver module; Signal reception/analysis module is connected with liquid level sensor with anodic protection sensor, production technology sensor, corrosion sensor, and signal reception/analysis module is connected with signal conversion module, and signal conversion module is connected with the wireless network transceiver module; The wireless network transceiver module is connected with GPRS/CDMA network wireless signal.

Be arranged in the sensor device of anodic protection equipment, be used to gather anodic protection equipment running status information; Signal identification device is used for the anodic protection equipment running status information that read sensor is gathered; And the relevant information that reads is carried out analysis and judgement by preset program; And change relevant information into predetermined Internet of Things data layout; To the internet, and be stored in database server with the POST mode through the GPRS/CDMA network bridging via the internet; Signal identification device is that unusual information changes the SMS form into and is sent to equipment manufacturers and customer engineer's monitoring mobile phone terminal through the GPRS/CDMA network with programmed decision also in addition.Equipment manufacturers' monitor terminal and client's monitor terminal are through the Wbe page access database server of internet; Obtain the anodic protection equipment running status information that is stored in the database server; And monitor, predict and assess according to predefined early warning and fault diagnostic program antianode protection equipment running status; Reporting to the police of antianode protection unit exception running status carried out analyzing and diagnosing to the equipment failure reason.In addition, equipment manufacturers' monitor terminal and the client's monitor terminal sending function that also has remote control commands; The anodic protection apparatus remote steering order of the supervision control engineering teacher at equipment manufacturers or client's monitor terminal two places input is sent to database server through the internet; Signal identification device obtains the remote control commands that is stored in the database server through the GPRS/CDMA wireless network, and on signal identification device, carries out the length of run steering order.

A kind of implementation method of the monitoring of anodic protection apparatus remote, early warning and the fault diagnosis system based on Internet of Things comprises the steps:

Step 1 is provided with anodic protection sensor, production technology sensor, corrosion sensor and liquid level sensor in anodic protection equipment, gather anodic protection equipment running information;

The anodic protection equipment running status information that step 2, signal reception/analysis module read sensor are gathered, and the running state information of being obtained analyzed, judges by preset program, when determination information is unusual, produce the abnormal alarm signal;

Step 3, signal conversion module will receive from signal/and the relevant information of analysis module converts the Internet of Things radio frequency form of agreement into; In addition, signal conversion module converts the abnormal alarm signal into the messaging format of SMS simultaneously again;

Step 4, wireless network transceiver module receive from the status information of equipment in the signal conversion module;

Step 5, the wireless network transceiver module is emitted to the GPRS/CDMA network with the status information of equipment that receives;

Step 6, the internet is connected with the GPRS/CDMA network through bridge joint, and the equipment running status information of Internet of Things protocol format is sent to the internet by the GPRS/CDMA network;

Step 7; The anodic protection device exception information of SMS messaging form directly is sent to equipment manufacturers slip-stick artist's monitoring mobile phone terminal and customer engineer's monitoring mobile phone terminal through the GPRS/CDMA network, and watch-dog is unusual whenever and wherever possible to make slip-stick artist of equipment manufacturers and customer engineer;

Step 8, database server receive the equipment running status information of being come by the internet transmission, and with the POST mode with data storage to database server;

Step 9; Equipment manufacturers/client's monitor terminal can be through the WEB page access database server of internet; Anodic protection equipment running status information to being stored in the database server is carried out round-the-clock monitoring, prediction and assessment; In time, accurately the unit exception situation is carried out early warning, and the equipment failure reason is diagnosed, with fast, accurate remover apparatus fault;

Step 10, the anodic protection apparatus remote steering order of the equipment manufacturers' monitor terminal/supervision control engineering teacher of client's monitor terminal receiving equipment manufacturer/client's supervision control engineering teacher input, and be sent to the internet;

In the step 11, database server receives the anodic protection apparatus remote steering order of being sent by monitor terminal, and is stored in it;

Step 12, the anodic protection remote control commands is sent to the GPRS/CDMA network by the internet;

Step 13, wireless network transceiver module are obtained the anodic protection apparatus remote steering order in the GPRS/CDMA network;

In the step 14, signal conversion module is carried out Data Format Transform with the anodic protection apparatus remote steering order that the wireless network transceiver module receives, and converts the executable form of signal reception/analysis module into;

Step 15, signal reception/analysis module receives the anodic protection apparatus remote steering order of accomplishing format conversion via signal conversion module;

Step 16, anodic protection apparatus remote steering order is implemented in the anodic protection device control.

Anodic protection equipment is the equipment that utilizes himself decay resistance of anodic protection skill upgrading, refer in particular to gas washing in SA production dry absorption section anodic protection concentrated sulphuric acid equipment in the present invention, but the present invention is not limited only to the sulfuric acid industry field.

The monitoring of antianode protection equipment of the present invention not only comprises the anodic protection parameter, also comprises processing parameter, liquid level parameter and corrosive monitoring of antianode protection equipment.

The present invention utilizes technology of Internet of things to build a kind of anodic protection equipment remote monitoring, early warning and fault diagnosis system; To carrying out strange land, long-range, round-the-clock monitoring, prediction and assessment, realize intellectuality, the high efficiency maintenance management of anodic protection equipment in labour anodic protection equipment running.Carry out the collection of anodic protection equipment running status information through signal transducer; Carry out the transmission of real-time running state data and obtaining of remote control commands through signal identification device and database server; Monitor terminal only needs just can carry out obtaining, monitor and assessing of running state information through the visit WEB page; And the transmission of remote control commands; The control of realization apparatus remote; Promoted the maintenance management level of anodic protection equipment greatly, not only can directly carry out parameter setting in device context through the present invention and come the antianode guard signal to regulate and control, can also equipment running be real-time transmitted to client's monitor terminal supervision control engineering teacher's mobile phone through signal identification device; Can also make equipment manufacturers to carrying out strange land, long-range, round-the-clock monitoring and assessment at labour anodic protection equipment running status, timely, accurate source of early warning is unusual, and very first time remover apparatus hidden danger is guaranteed high-quality operation of equipment and safety " zero " fault.

The present invention by the applicant be the Tianhua Chemical Machinery & Automation Design Inst test application in reality, Tianhua Chemical Machinery & Automation Design Inst is as equipment manufacturers, Baiyin Nonferrous Metal Group Co., Ltd. is as client.

Description of drawings

Fig. 1 is a structural representation of the present invention,

Fig. 2 is data transmission flow process figure of the present invention.

Among the figure: 1-anodic protection equipment, 2-sensor device, 21-anodic protection sensor, 22-production technology sensor; 23-corrosion sensor, 24-liquid level sensor, 3-signal identification device, 31-signal reception/analysis module; 32-signal conversion module, 33-wireless network transceiver module, 4-GPRS/CDMA network, 5-internet; 6-database server, 7-monitor terminal, 71-equipment manufacturers monitor terminal; 72-client monitor terminal, 73-equipment manufacturers slip-stick artist's monitoring mobile phone terminal, 74-customer engineer monitoring mobile phone terminal.

Embodiment

Following with reference to accompanying drawing, to the embodiment of the present invention explanation of explaining in detail.

Like Fig. 1 and shown in Figure 2: a kind of anodic protection equipment remote monitoring, early warning and fault diagnosis system based on Internet of Things comprise sensor device 2, signal identification device 3, GPRS/CDMA network 4, internet 5, database server 6 and monitor terminal 7; Sensor device 2 and signal identification device 3 wired connections, signal identification device 3 is connected with GPRS/CDMA network 4 wireless signals; Monitor terminal 7 comprises equipment manufacturers' monitor terminal 71, client's monitor terminal 72, equipment manufacturers slip-stick artist's monitoring mobile phone terminal 73 and customer engineer's monitoring mobile phone terminal 74; GPRS/CDMA network 4 is connected with equipment manufacturers slip-stick artist's monitoring mobile phone terminal 73, customer engineer's monitoring mobile phone terminal 74 wireless signals; GPRS/CDMA network 4 is connected with internet 5 wireless signals; Internet 5 is connected with database server 6; Internet 5 is connected 72 with equipment manufacturers monitor terminal 71, client's monitor terminal, and equipment manufacturers' monitor terminal 71, client's monitor terminal 72 are connected with database server 6 through internet 5.

Sensor device 2 is arranged in anodic protection equipment 1; Sensor device 2 comprises anodic protection sensor 21, production technology sensor 22, corrosion sensor 23 and liquid level sensor 24.Signal identification device 3 is made up of signal reception/analysis module 31, signal conversion module 32 and wireless network transceiver module 33; Signal reception/analysis module 31 is connected with anodic protection sensor 21, production technology sensor 22, corrosion sensor 23 and liquid level sensor 24; Signal reception/analysis module 31 is connected with signal conversion module 32, and conversion of signals mould 32 is connected with wireless network transceiver module 33; Wireless network transceiver module 33 is connected with GPRS/CDMA network 4 wireless signals.

Signal identification device also is provided with data display screen, ERST sound and light alarm and equipment operation parameter regulation button (not shown); Make signal identification device have data presentation, warning and parameter regulation function, the field personnel can directly be provided with button antianode guard signal through the signal identification device parameter and regulate and control.

Sensor 2 is used to gather the running state information of anodic protection equipment 1, is the source of Internet of Things information transmission.Therefore the performance of anodic protection equipment 1 main and anodic protection parameter, processing parameter, corrosion parameter and liquid level relating to parameters need be monitored these four types of information, gather this four types of information.Wherein anodic protection sensor 21 is used to gather anodic protection information, as: monitoring current potential, CONTROLLED POTENTIAL, output current and output voltage etc.; Production technology sensor 22 is used to gather production technology information, and is dense etc. like acid temperature, acid; Corrosion sensor 23 is used to gather anodic protection equipment corrosion status information; Liquid level sensor 24 is used for gathering anodic protection acid trap sulfuric acid liquid level change information.

Signal reads/analytical equipment 31, signal conversion module 32 and wireless network transceiver module 33, and the signal identification device 3 that is followed in series to form is accomplished the general function of signal identification device 3.Signal reads/analytical equipment 31 can be regularly the running state information of the anodic protection equipment 1 that collects of read sensor 2 voluntarily; And the running state data of the anodic protection equipment 1 that reads carried out analysis and judgement by preset program; Form ERST information when noting abnormalities; Signal conversion module 32 is changed relevant information by the Internet of Things protocol format, change the radiofrequency signal of Internet of Things form into, is sent to GPRS/CDMA network 4 by wireless network transceiver module 33.In addition, signal conversion module 32 is that the abnormal alarm conversion of signals is the messaging format of SMS with ERST information simultaneously, is sent to GPRS/CDMA network 4.

After being sent to GPRS/CDMA network 4 from the anodic protection equipment running status information of signal identification device 3, equipment running status information is carried out next step transmission in two ways.Internet of Things formating equipment running state information wherein is sent to internet 5 with bridged-style; The device exception information of SMS messaging form wherein is sent to equipment manufacturers slip-stick artist's monitoring mobile phone terminal 73 and customer engineer's monitoring mobile phone terminal 74 with the note form.

The equipment running status information that is sent to internet 5 is stored in the database server 6 with the POST mode.Equipment manufacturers' monitor terminal 71 and the WEB page access database server 6 of client's monitor terminal 72 through the internet; Read anodic protection equipment 1 running state information that is stored in the database server 6; And the running state information of antianode protection equipment 1 is monitored, is predicted and assesses; And the equipment operation abnormal conditions are carried out early warning according to predefined program, and the equipment failure operation is diagnosed, formulate the equipment failure maintenance schedule.

The supervision control engineering teacher of supervision control engineering teacher/client's monitor terminal of equipment manufacturers' monitor terminal can import the remote control commands of anodic protection equipment 1 respectively through equipment manufacturers' monitor terminal 71 and client's monitor terminal 72, and through the internet it is stored in database server 6.Data in 3 pairs of database servers 6 of signal identification device are judged; If include remote control commands in the data; Then signal identification device 3 will carry out Data Format Transform to the operation steering order, and on signal identification device 3, carry out the respective remote steering order.

Be provided with local fault diagnosis database in client's monitor terminal 72, client's supervision control engineering teacher can find corresponding solution according to fault diagnosis result in local fault diagnosis database.Simultaneously, local fault diagnosis database also comprises detailed installation, operation, debugging, data preservation and unclassified other technical information to concrete equipment.

As shown in Figure 2: data acquisition of the present invention and data transmission method step are roughly following:

In step S101, be arranged at four types of sensor acquisition anodic protection equipment running information in the anodic protection equipment;

In step S102, the anodic protection equipment running status information that signal reception/analysis module 31 read sensors are gathered, and the running state information of being obtained analyzed, judges by preset program, when determination information is unusual, produce the abnormal alarm signal;

In step S103, signal conversion module 32 will receive from signal/and the relevant information of analysis module 31 converts the Internet of Things radio frequency form of agreement into; In addition, signal conversion module 32 converts the abnormal alarm signal into the messaging format of SMS simultaneously again;

In step S104, wireless network transceiver module 33 receives from the status information of equipment in the signal conversion module 32;

In step S105, wireless network transceiver module 33 is emitted to GPRS/CDMA network 4 with the status information of equipment that receives;

In step S106, internet 5 is connected with GPRS/CDMA network 4 through bridge joint, and the equipment running status information of Internet of Things protocol format is sent to internet 5 by GPRS/CDMA network 4;

In step S107; The anodic protection device exception information of SMS messaging form directly is sent to equipment manufacturers slip-stick artist's monitoring mobile phone terminal 73 and customer engineer's monitoring mobile phone terminal 74 through GPRS/CDMA network 4, and watch-dog is unusual whenever and wherever possible to make slip-stick artist of equipment manufacturers and customer engineer;

In step S108, database server 6 receives by internet 5 and transmits the equipment running status information of coming, and with the POST mode with in data storage to the database server 6;

In step S109; Equipment manufacturers/client's monitor terminal can be through the WEB page access database server 6 of internet; Anodic protection equipment running status information to being stored in the database server 6 is carried out round-the-clock monitoring, prediction and assessment; In time, accurately the unit exception situation is carried out early warning, and the equipment failure reason is diagnosed, with fast, accurate remover apparatus fault;

In step S110, equipment manufacturers/client's monitor terminal receives the anodic protection apparatus remote steering order of supervision control engineering teacher input separately, and is sent to internet 5;

In step S111, database server 6 receives the anodic protection apparatus remote steering order of being sent by monitor terminal, and is stored in it;

In step S112, the anodic protection remote control commands is sent to GPRS/CDMA network 4 by internet 5;

In step S113, wireless network transceiver module 33 obtains the remote control commands of the anodic protection equipment in the GPRS/CDMA network 4;

In step S114, signal conversion module 32 is carried out Data Format Transform with the anodic protection apparatus remote steering order that wireless network transceiver module 33 receives, and converts the executable form of signal reception/analysis module of signal identification device into;

In step S115, signal reception/analysis module 31 receives the anodic protection apparatus remote steering order of accomplishing format conversion via signal conversion module 32;

In step S116, anodic protection apparatus remote steering order is implemented into anodic protection equipment 1, and antianode protection equipment 1 is controlled.

Claims (5)

1. anodic protection equipment remote monitoring, early warning and fault diagnosis system based on an Internet of Things, it is characterized in that: this system comprises sensor device (2), signal identification device (3), GPRS/CDMA network (4), internet (5), database server (6) and monitor terminal (7); Said sensor device (2) and said signal identification device (3) wired connection, said signal identification device (3) is connected with said GPRS/CDMA network (4) wireless signal; Said monitor terminal (7) comprises client's monitor terminal (72) and customer engineer's monitoring mobile phone terminal (74); Said GPRS/CDMA network (4) is connected with said customer engineer's monitoring mobile phone terminal (74) wireless signal; Said GPRS/CDMA network (4) is connected with said internet (5) wireless signal; Said internet (5) is connected with said database server (6); Said internet (5) is connected with said client's monitor terminal (72), and said client's monitor terminal (72) is connected with said database server (6) through internet (5).

2. a kind of anodic protection equipment remote monitoring, early warning and fault diagnosis system based on Internet of Things as claimed in claim 1 is characterized in that: said monitor terminal (7) also comprises equipment manufacturers' monitor terminal (71) and equipment manufacturers slip-stick artist's monitoring mobile phone terminal (73); Said internet (5) is connected with said equipment manufacturers monitor terminals (71), and said equipment manufacturers monitor terminals (71) are connected with said database server (6) through internet (5); Said GPRS/CDMA network (4) is connected with the said slip-stick artist of equipment manufacturers monitoring mobile phone terminal (73) wireless signal.

3. according to claim 1 or claim 2 a kind of anodic protection equipment remote monitoring, early warning and fault diagnosis system based on Internet of Things, it is characterized in that: said sensor device (2) is arranged in anodic protection equipment (1); Said sensor device (2) comprises anodic protection sensor (21), production technology sensor (22), corrosion sensor (23) and liquid level sensor (24); Said signal identification device (3) is made up of signal reception/analysis module (31), signal conversion module (32) and wireless network transceiver module (33); Said signal reception/analysis module (31) is connected with said anodic protection sensor (21), said production technology sensor (22), said corrosion sensor (23) and said liquid level sensor (24); Said signal reception/analysis module (31) is connected with said signal conversion module (32), and said conversion of signals mould (32) is connected with said wireless network transceiver module (33); Said wireless network transceiver module (33) is connected with said GPRS/CDMA network (4) wireless signal.

4. according to claim 1 or claim 2 a kind of anodic protection equipment remote monitoring, early warning and fault diagnosis system based on Internet of Things, it is characterized in that: said signal identification device (2) also is provided with data display screen, ERST sound and light alarm and equipment operation parameter regulation button.

5. the implementation method based on the monitoring of anodic protection apparatus remote, early warning and the fault diagnosis system of Internet of Things comprises the steps:

Step 1 is provided with anodic protection sensor, production technology sensor, corrosion sensor and liquid level sensor in anodic protection equipment, gather anodic protection equipment running information;

The anodic protection equipment running status information that step 2, signal reception/analysis module read sensor are gathered, and the running state information of being obtained analyzed, judges by preset program, when determination information is unusual, produce the abnormal alarm signal;

Step 3, signal conversion module will receive from signal/and the relevant information of analysis module converts the Internet of Things radio frequency form of agreement into; In addition, signal conversion module converts the abnormal alarm signal into the messaging format of SMS simultaneously again;

Step 4, wireless network transceiver module receive from the status information of equipment in the signal conversion module;

Step 5, the wireless network transceiver module is emitted to the GPRS/CDMA network with the status information of equipment that receives;

Step 6, the internet is connected with the GPRS/CDMA network through bridge joint, and the equipment running status information of Internet of Things protocol format is sent to the internet by the GPRS/CDMA network;

Step 7; The anodic protection device exception information of SMS messaging form directly is sent to equipment manufacturers slip-stick artist's monitoring mobile phone terminal and customer engineer's monitoring mobile phone terminal through the GPRS/CDMA network, and watch-dog is unusual whenever and wherever possible to make slip-stick artist of equipment manufacturers and customer engineer;

Step 8, database server receive the equipment running status information of being come by the internet transmission, and with the POST mode with data storage to database server;

Step 9; Equipment manufacturers/client's monitor terminal can be through the WEB page access database server of internet; Anodic protection equipment running status information to being stored in the database server is carried out round-the-clock monitoring, prediction and assessment; In time, accurately the unit exception situation is carried out early warning, and the equipment failure reason is diagnosed, with fast, accurate remover apparatus fault;

Step 10, the anodic protection apparatus remote steering order of the equipment manufacturers' monitor terminal/supervision control engineering teacher of client's monitor terminal receiving equipment manufacturer/client's supervision control engineering teacher input, and be sent to the internet;

In the step 11, database server receives the anodic protection apparatus remote steering order of being sent by monitor terminal, and is stored in it;

Step 12, the anodic protection remote control commands is sent to the GPRS/CDMA network by the internet;

Step 13, wireless network transceiver module are obtained the anodic protection apparatus remote steering order in the GPRS/CDMA network;

In the step 14, signal conversion module is carried out Data Format Transform with the anodic protection apparatus remote steering order that the wireless network transceiver module receives, and converts the executable form of signal reception/analysis module into;

Step 15, signal reception/analysis module receives the anodic protection apparatus remote steering order of accomplishing format conversion via signal conversion module;

Step 16, anodic protection apparatus remote steering order is implemented in the anodic protection device control.

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