CN205158079U - Chromatogram monitored control system - Google Patents

Abstract

The utility model provides a chromatogram monitored control system, include: light signal acquisition module and monitoring server, light signal acquisition module with monitoring server passes through radio communication and connects, light signal acquisition module for gather by the light signal of control light source, will the light signal turns into data signal, and to monitoring server sends data signal, monitoring server for it is right according to predetermined spectral data scope data signal carries out the analysis, obtains analysis result, and according to analysis result obtains corresponding control information, and send to monitor terminal the control information. The utility model discloses a mode through chromatography is monitored industrial installation, and the control personnel can look over the circumstances of equipment through monitor terminal often, have practiced thrift a large amount of manpowers, and the personnel of control simultaneously can in time find trouble fully, and the degree of accuracy is high.

Description

Chromatogram supervisory system

Technical field

The utility model relates to monitoring technique field, particularly relates to a kind of chromatogram supervisory system.

Background technology

Along with the development of science and technology, monitoring technique have also been obtained development at full speed.In industrial environment, monitoring technique is mainly used in the condition monitorings of important operational outfit such as machinery, make great efforts to eliminate exist various potential safety hazards, active prevention mishap in, serve very important effect.

The monitoring technique generally used in present industrial is network monitoring, even uses optical fiber to monitor as sensor device.Wherein, the principle using optical fiber to carry out monitoring as sensor device is, by detecting the characteristic variations of light, through particular algorithm and analyzing and processing, realizes warning function.

Manually monitor because the monitor mode adopted in commercial production mostly is, as the mode of timing inspection, for the machine of operation in 24 hours, the more staff of safety is needed to monitor, very waste of manpower and easily cause monitoring neutral gear, cause investigating in time fault, cause unnecessary loss problem.

Utility model content

The utility model provides a kind of chromatogram supervisory system, with overcome existing in the many employings of monitor mode manually monitor, very waste of manpower and easily cause monitoring neutral gear, causes the problem can not investigating fault in time.

The utility model provides a kind of chromatogram supervisory system, comprising: light signal collection module and monitoring server; Described light signal collection module is connected by radio communication with described monitoring server;

Described light signal collection module, for gathering the light signal of monitored light source, is converted into digital signal by described light signal, and sends described digital signal to described monitoring server;

Described monitoring server, for analyzing described digital signal according to the spectroscopic data scope preset, obtains analysis result, and obtains corresponding monitor prompt information according to described analysis result; And send described monitor prompt information to monitor terminal.

Further, in above-mentioned chromatogram supervisory system, described light signal collection module comprises: optical unit, optical signal processing unit, the first communication unit and the first power supply unit;

Described optical unit, for gathering the visible light signal of described monitored light source;

Described optical signal processing unit, is connected with described optical unit, is converted into digital signal for the described visible light signal gathered by described optical unit;

Described first communication unit, is connected with described optical signal processing unit, for obtaining the described digital signal after the conversion of described optical signal processing unit, and sends described digital signal to described monitoring server;

Described first power supply unit is connected with described optical unit, described optical signal processing unit and described first communication unit respectively, for powering for described optical unit, described optical signal processing unit and described first communication unit.

Further, in above-mentioned chromatogram supervisory system, described light signal collection module also comprises the first internal storage location; Described first internal storage location is used for the described digital signal of non-transmission success between described first communication unit and described monitoring server to carry out buffer memory, again transmits described digital signal after normal transmission to be restored.

Further, in above-mentioned chromatogram supervisory system, described monitoring server comprises the second communication unit, data analysis unit, external communication unit and the second power supply unit;

Described second communication unit, for receiving the described digital signal that described first communication unit obtains;

Whether described data analysis unit, exceed described default spectroscopic data scope for the data analyzed in described digital signal, if when the data in described digital signal exceed described default spectroscopic data scope, determines to need to send prompt messages; If when the data in described digital signal do not exceed described default spectroscopic data scope, determine to need to send normal information in signal;

Described external communication unit, for sending normal information in described prompt messages or described signal to described monitor terminal;

Described second power supply unit is that described second communication unit, described data analysis unit and described external communication unit are powered.

Further, in above-mentioned chromatogram supervisory system, described light signal collection module also comprises the first DEU data encryption unit, described first DEU data encryption unit is connected with described optical signal processing unit, described first DEU data encryption unit is used for the described digital signal that described optical signal processing unit process obtains to be encrypted, and sends the described digital signal after encryption by described first communication unit to described second communication unit;

Accordingly, the first data decryption unit is also comprised in described monitoring server, described first data decryption unit is connected with described second communication unit and described data analysis unit respectively, the described digital signal that described first data decryption unit is used for described second communication unit receives is decrypted, and is analyzed the described digital signal after deciphering by described data analysis unit.

Further, in above-mentioned chromatogram supervisory system, described monitoring server also comprises the second DEU data encryption unit; Described second DEU data encryption unit is connected with described data analysis unit, and described place DEU data encryption unit is used for normal information in the described prompt messages that obtains described data analysis unit analysis or described signal and is encrypted;

Accordingly, described external communication unit, is also connected with described second DEU data encryption unit, specifically for sending normal information in the described prompt messages after encryption or described signal to described monitor terminal.

Further, in above-mentioned chromatogram supervisory system, described monitoring server also comprises anti-interference unit; Described anti-interference unit is connected with described second communication unit, and the described digital signal that described first communication unit for receiving described second communication unit sends carries out anti-interference process;

Described anti-interference unit is also connected with described data analysis unit, carries out anti-interference process for information normal in the described prompt messages that obtains described data analysis unit analysis or described signal;

Described anti-interference unit is also connected with described external communication unit, specifically for sending normal information in the described prompt messages after anti-interference process or described signal to described monitor terminal.

The utility model chromatogram supervisory system, gather the light signal of monitored light source by light signal collection unit and light signal is converted into digital signal, and send to monitoring server, monitoring server carries out analysis according to the spectroscopic data scope preset to digital signal and obtains analysis result, and and obtain corresponding monitor prompt information according to analysis result and send to monitor terminal, the many employings of monitor mode solved in existing commercial production are manually monitored, very waste of manpower and easily cause monitoring neutral gear, cause the problem can not investigating fault in time, achieve and by the mode of stratographic analysis, the equipment of industrial product is monitored, monitor staff can check the situation of equipment constantly by monitor terminal, save a large amount of manpowers, simultaneously monitor staff can Timeliness coverage for fault, accuracy is high.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of the utility model chromatogram supervisory system embodiment one;

Fig. 2 is the structural representation of the utility model chromatogram supervisory system embodiment two;

Fig. 3 is the structural representation of the utility model chromatogram supervisory system embodiment three;

Fig. 4 is the process flow diagram of the utility model chromatogram method for supervising embodiment one.

Fig. 5 is the process flow diagram of the utility model chromatogram method for supervising embodiment two.

Embodiment

For making the object of the utility model embodiment, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Fig. 1 is the structural representation of the utility model chromatogram supervisory system embodiment one, and as shown in Figure 1, the method chromatogram supervisory system of the present embodiment can comprise: light signal collection module 11 and monitoring server 12; Wherein, can be connected by wireless telecommunications between light signal collection module 11 with monitoring server 12, such as adopt wifi, 2G, 3G, 4G etc. can realize the connected mode of wireless telecommunications, like this, the dirigibility that light signal collection module 11 and monitoring server 12 are placed can be ensured, as long as can signal of communication be received each other, not liquid container body position.If light signal collection module 11 is determined with the position of monitoring server 12 certainly, wire communication between light signal collection module 11 with monitoring server 12, also can be adopted to be connected, such as, use the mode of RJ45 network cable transmission.

Light signal, for gathering the light signal of monitored light source, is converted into digital signal by light signal collection module 11, and sends digital signal to monitoring server; Monitoring server 12, for analyzing digital signal according to the spectroscopic data scope preset, obtains analysis result; And send analysis result to monitor terminal.Monitored light source can be a certain pilot lamp on certain production equipment, the spectroscopic data scope preset can be carried out setting corresponding data according to the issuable color of monitored light source by monitor staff, such as, a certain pilot lamp is that display is green under normal circumstances, display of breaking down is red, then corresponding by the spectroscopic data scope of default green and red spectroscopic data scope input monitoring server, according to the spectroscopic data preset, the digital signal receiving the transmission of light signal collection module is analyzed for monitoring server, and obtain analysis result.Monitor staff can receive according to monitor terminal and the analysis result shown judges, whether monitored production equipment breaks down problem, so that when breaking down, monitor staff can carry out fault handling in time.

It should be noted that, in the present embodiment, one, two or more default spectroscopic data scopes can be previously stored with in monitoring server 12, and need to store the state characterized by the spectrum that each default spectroscopic data scope is corresponding, such as, when the red spectrum data area stored represents that red light lights abnormality, now needing to report to the police, is normal condition when the green spectral data area of storage represents that green light lights.In addition, yellow spectrum data area can also be set as required, when now can represent that amber light lights, represent the state improving and note, need monitor staff to note observing monitored device, etc.Monitoring server 12 is when concrete operations, data in digital signal and each default spectroscopic data scope can be contrasted, judge that the data in this digital signal are corresponding with which default spectroscopic data scope, then determine the analysis result that this default spectrum is corresponding.

The chromatogram supervisory system of the present embodiment, gather the light signal of monitored light source by light signal collection unit 11 and light signal is converted into digital signal, and send to monitoring server 12, monitoring server 12 carries out analysis according to the spectroscopic data scope preset to digital signal and obtains analysis result, and send to monitor terminal, the many employings of monitor mode solved in existing commercial production are manually monitored, very waste of manpower and easily cause monitoring neutral gear, cause the problem can not investigating fault in time, achieve and by the mode of stratographic analysis, the equipment of industrial product is monitored, monitor staff can check the situation of equipment constantly by monitor terminal, save a large amount of manpowers, simultaneously monitor staff can Timeliness coverage for fault, accuracy is high.

Fig. 2 is the structural representation of the utility model chromatogram supervisory system embodiment two, as shown in Figure 2, the chromatogram supervisory system of the present embodiment further describes its internal structure on the basis of embodiment one, and the light signal collection module 11 in the chromatogram supervisory system of the present embodiment can comprise: optical unit 111, optical signal processing unit 112, first communication unit 113 and the first power supply unit 114; Optical unit 111 is for gathering the visible light signal of monitored light source, and optical unit 11 can be specifically fiber optic conduction or the camera head that can carry out image procossing mode frame by frame, and the two can be used alone, and also can use simultaneously; Optical signal processing unit 112 is connected with optical unit 111, and this optical signal processing unit 112 is converted into digital signal for the visible light signal gathered by optical unit 111; First communication unit 113 is connected with optical signal processing unit 112, this first communication unit 113 is for obtaining the digital signal after optical signal processing unit 112 conversion, and sending digital signal to monitoring server 12, the communication modes between the first communication unit 113 and monitoring server 12 can select one in wifi, 2G, 3G, 4G or RJ45 network cable transmission; First power supply unit 114 is connected with optical unit 111, optical signal processing unit 112 and the first communication unit 113 respectively, this first power supply unit 114 is for powering for optical unit 111, optical signal processing unit 112 and the first communication unit 113, and the first power supply unit 114 supports polytype power supply modes such as microUSB powers, powered battery, capacitances to supply power, wireless power or Power-over-Ethernet.

Wherein, which kind of optical unit 111 specifically uses can be set by monitor staff as the device gathering monitored light signal, optical unit 111 can adopt electrical grating, at prism while according to chromatogram position distribution, inlay optical semiconductor electric transducer, when on visible transmission to miniature prism, the voltage that visible ray is converted to output by photoelectric commutator transforms through analog to digital, just can obtain the digital signal of respective color.

The power supply mode of the first power supply unit 114 is selected targetedly by monitoring site situation.

Further, as shown in Figure 2, the monitoring server 12 of the present embodiment comprises the second communication unit 121, data analysis unit 122, external communication unit 123 and the second power supply unit 124; Wherein, second communication unit 121 is connected with the first communication unit 113, this second communication unit 121 is for receiving the digital signal of the optical signal processing unit 112 of the first communication unit 113 acquisition, adopt wifi form to carry out carrying out shake communication between the second communication unit 121 in the present embodiment and the first communication unit 113, in practical application, other communication modes can be adopted; Data analysis unit 122 is connected with the second communication unit 121, whether this data analysis unit 122 exceedes default spectroscopic data scope for the data analyzed in digital signal, if when the data in digital signal exceed default spectroscopic data scope, determine to need to send prompt messages; If when the data in digital signal do not exceed default spectroscopic data scope, determine to need to send normal information in signal.Namely data wherein in digital signal refer to the numerical value of the spectrum that digital signal characterizes.Be be the data area of normal spectrum with the spectroscopic data scope preset in the present embodiment, but not the data area of the spectrum of reporting to the police is example, spectroscopic data scope can be set as required before the use by monitor staff.In practical application, default spectroscopic data scope can certainly be set to the spectroscopic data scope of reporting to the police, now corresponding, whether this data analysis unit 122 exceedes default spectroscopic data scope for the data analyzed in digital signal, if when the data in digital signal exceed default spectroscopic data scope, determine to need to send normal information in signal; If when the data in digital signal do not exceed default spectroscopic data scope, determine to need to send prompt messages.In like manner, the spectral signal preset can also be the setting of other situations, and this is no longer going to repeat them.

External communication unit 123 is connected with data analysis unit 122, and this external communication unit 123 is for sending normal information in prompt messages or signal to monitor terminal; External communication unit 123 can adopt ICP/IP protocol to communicate with the monitor terminal of specifying in internet, LAN (Local Area Network), also can utilize gateway function, sends short message to the terminal of specifying; Second power supply unit 124 is connected with the second communication unit 121, data analysis unit 122, external communication unit 123 respectively, this second power supply unit 124 is for powering for the second communication unit 121, data analysis unit 122 and external communication unit 123, and the second power supply unit 124 supports polytype power supply modes such as microUSB powers, powered battery, capacitances to supply power, wireless power or Power-over-Ethernet.

The chromatogram supervisory system of the present embodiment, wherein, light signal collection module 11 comprises optical unit 111, optical signal processing unit 112, first communication unit 113 and the first power supply unit 114, monitoring server 12 comprises the second communication unit 121, data analysis unit 122, external communication unit 123 and the second power supply unit 124, the many employings of monitor mode solved in existing commercial production are manually monitored, very waste of manpower and easily cause monitoring neutral gear, cause the problem can not investigating fault in time, achieve and by the mode of stratographic analysis, the equipment of industrial product is monitored, monitor staff can check the situation of equipment constantly by monitor terminal, save a large amount of manpowers, simultaneously monitor staff can Timeliness coverage for fault, accuracy is high.

Fig. 3 is the structural representation of the utility model chromatogram supervisory system embodiment three, as shown in Figure 3, the present embodiment and difference embodiment illustrated in fig. 2 are the formation further describing chromatogram supervisory system, light signal collection module 11 in the chromatogram supervisory system of the present embodiment can also comprise: the first internal storage location 115, first internal storage location 115 is connected with the first communication unit 113, this first internal storage location 115 is for carrying out buffer memory by the digital signal of non-transmission success between the first communication unit 113 and monitoring server 12, again the digital signal of non-transmission success between transmitting after normal transmission to be restored.

In actual applications, network failure or delay may be there is, the digital signal of failing successfully to carry out with the first communication unit 113 exchanges data is carried out buffer memory by the first memory modules 115, treats that network recovery is normal, the digital signal of cache exchanging again when namely data can successfully exchange.

Further, light signal collection module 11 in the chromatogram supervisory system of the present embodiment also comprises the first DEU data encryption unit 116, first DEU data encryption unit 116 is connected with optical signal processing unit 112, first DEU data encryption unit 116 is encrypted for optical signal processing unit 112 is processed the digital signal obtained, and sends the digital signal after encryption by the first communication unit 113 to the second communication unit 121.

Further, corresponding monitoring server 12 also comprises the first data decryption unit 125, first data decryption unit 125 is connected with the second communication unit 121 and data analysis unit 122 respectively, first data decryption unit 125 is decrypted for the digital signal received the second communication unit 121, and is analyzed the digital signal after deciphering by data analysis unit 122.

Further, monitoring server 12 in the chromatogram supervisory system of the present embodiment also comprises the second DEU data encryption unit 126, second DEU data encryption unit 126 is connected with data analysis unit 122, and this DEU data encryption unit 126 is encrypted for information normal in the prompt messages that obtains data analysis unit 122 analysis or signal; Accordingly, external communication unit 123, is also connected with the second DEU data encryption unit 126, specifically for sending normal information in the prompt messages after encryption or signal to monitor terminal.In addition, also need in monitor terminal to arrange second decryption unit corresponding with the second DEU data encryption unit 126, to ensure the data of encrypting through the second DEU data encryption unit 126 that monitor terminal receives, corresponding prompt messages or normal information can be got after deciphering.

Further, monitoring server 12 in the chromatogram supervisory system of the present embodiment also comprises anti-interference unit 127, and anti-interference unit 127 is for the first communication unit 113 and the second communication unit 121, data analysis unit 122, carry out anti-interference process between external communication unit 123 and monitor terminal.Particularly, the digital signal that anti-interference unit 127 sends to the second communication unit 121 for the first communication unit 113 received the second communication unit 121 carries out anti-interference process; Anti-interference unit 127 also carries out anti-interference process for information normal in the prompt messages that obtains data analysis unit 122 analysis or signal; Anti-interference unit 127 also sends normal information in the prompt messages after anti-interference process or signal for external communication unit 123 to monitor terminal.

Various production equipment is there is in actual application environment, these production equipments all can produce certain electromagnetic wave, for preventing electromagnetic wave needed for these nonsystematics, interference is caused to system, affect quality, the Distance geometry accuracy rate of data transmission, increase the accuracy rate that anti-interference unit 126 makes inter-system data transmit higher.

The chromatogram supervisory system of the present embodiment, wherein, light signal collection module 11 also comprises the first internal storage location 115, for the digital signal of non-transmission success is carried out buffer memory, monitoring server 12 also comprises the first DEU data encryption unit 125, second DEU data encryption unit 126 and anti-interference unit 127, the many employings of monitor mode solved in existing commercial production are manually monitored, very waste of manpower and easily cause monitoring neutral gear, cause the problem can not investigating fault in time, achieve and by the mode of stratographic analysis, the equipment of industrial product is monitored, monitor staff can check the situation of equipment constantly by monitor terminal, save a large amount of manpowers, simultaneously, improve the security of data, anti-interference, accuracy is high.

Fig. 4 is the process flow diagram of the utility model chromatogram method for supervising embodiment one, and as shown in Figure 4, the chromatogram method for supervising of the present embodiment specifically comprises the steps:

101, the visible light signal of the monitored light source of light signal collection module acquires, and light signal is converted into digital signal;

102, light signal collection module sends digital signal to monitoring server;

103, monitoring server is analyzed digital signal according to the spectroscopic data scope preset, and obtains analysis result;

Particularly, whether the data that monitoring server is analyzed in digital signal exceed default spectroscopic data scope.

104, corresponding monitor prompt information is obtained according to analysis result;

105, monitoring server sends monitor prompt information to monitor terminal.

The chromatogram method for supervising of the present embodiment specifically can adopt the chromatogram supervisory system of the arbitrary illustrated embodiment of above-mentioned Fig. 1-Fig. 3 to realize.

The chromatogram method for supervising of the present embodiment, by gathering the visible light signal of monitored light source and carrying out numeral and change into digital signal, monitoring server is analyzed digital signal, analysis result is sent to monitor terminal by monitoring server, the many employings of monitor mode solved in existing commercial production are manually monitored, very waste of manpower and easily cause monitoring neutral gear, cause the problem can not investigating fault in time, achieve and by the mode of stratographic analysis, the equipment of industrial product is monitored, monitor staff can check the situation of equipment constantly by monitor terminal, save a large amount of manpowers, accuracy is high.

Fig. 5 is the process flow diagram of the utility model chromatogram method for supervising embodiment two, and as shown in Figure 4, the chromatogram method for supervising of the present embodiment specifically comprises the steps:

201, the visible light signal of the monitored light source of light signal collection module acquires, and light signal is converted into digital signal;

Particularly, gather the visible light signal of monitored light source and carry out numeral and change into digital signal, the visible light signal gathering monitored light source is gathered by optical unit.

202, light signal collection module is encrypted digital signal;

203, light signal collection module sends digital signal to monitoring server;

204, monitoring server is decrypted process to digital signal;

205, monitoring server is analyzed digital signal according to the spectroscopic data scope preset, and obtains analysis result;

Particularly, during monitoring server is analyzed digital signal, numerical information can be transmitted via wireless telecommunications connected mode.

206, corresponding monitor prompt information is obtained according to analysis result;

207, monitoring server sends monitor prompt information to monitor terminal.

Particularly, monitor prompt information is sent in monitor terminal by monitoring server, and send mode can for using wireless telecommunications.

The chromatogram method for supervising of the present embodiment, by gathering the visible light signal of monitored light source and carrying out numeral and change into digital signal, light signal collection module is encrypted digital signal, monitoring server is first decrypted digital signal and then analyzes, analysis result is sent to monitor terminal by monitoring server, the many employings of monitor mode solved in existing commercial production are manually monitored, very waste of manpower and easily cause monitoring neutral gear, cause the problem can not investigating fault in time, achieve and by the mode of stratographic analysis, the equipment of industrial product is monitored, monitor staff can check the situation of equipment constantly by monitor terminal, save a large amount of manpowers, accuracy is high.

One of ordinary skill in the art will appreciate that: all or part of step realizing above-mentioned each embodiment of the method can have been come by the hardware that programmed instruction is relevant.Aforesaid program can be stored in a computer read/write memory medium.This program, when performing, performs the step comprising above-mentioned each embodiment of the method; And aforesaid storage medium comprises: ROM, RAM, magnetic disc or CD etc. various can be program code stored medium.

Device embodiment described above is only schematic, the unit wherein illustrated as separating component or can may not be and physically separates, parts as unit display can be or may not be physical location, namely can be positioned at a place, or also can be distributed at least two network element.Some or all of module wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.Those of ordinary skill in the art, when not paying performing creative labour, are namely appreciated that and implement.

Last it is noted that above each embodiment is only in order to illustrate the technical solution of the utility model, be not intended to limit; Although be described in detail the utility model with reference to foregoing embodiments, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein some or all of technical characteristic; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of each embodiment technical scheme of the utility model.

Claims (7)

1. a chromatogram supervisory system, is characterized in that, comprising: light signal collection module and monitoring server; Described light signal collection module is connected by radio communication with described monitoring server;

Described light signal collection module, for gathering the light signal of monitored light source, is converted into digital signal by described light signal, and sends described digital signal to described monitoring server;

Described monitoring server, for analyzing described digital signal according to the spectroscopic data scope preset, obtains analysis result, and obtains corresponding monitor prompt information according to described analysis result; And send described monitor prompt information to monitor terminal.

2. chromatogram supervisory system according to claim 1, is characterized in that, described light signal collection module comprises: optical unit, optical signal processing unit, the first communication unit and the first power supply unit;

Described optical unit, for gathering the visible light signal of described monitored light source;

Described optical signal processing unit, is connected with described optical unit, is converted into digital signal for the described visible light signal gathered by described optical unit;

Described first communication unit, is connected with described optical signal processing unit, for obtaining the described digital signal after the conversion of described optical signal processing unit, and sends described digital signal to described monitoring server;

Described first power supply unit is connected with described optical unit, described optical signal processing unit and described first communication unit respectively, for powering for described optical unit, described optical signal processing unit and described first communication unit.

3. chromatogram supervisory system according to claim 2, is characterized in that, described light signal collection module also comprises the first internal storage location; Described first internal storage location is used for the described digital signal of non-transmission success between described first communication unit and described monitoring server to carry out buffer memory, again transmits described digital signal after normal transmission to be restored.

4. the chromatogram supervisory system according to Claims 2 or 3, is characterized in that, described monitoring server comprises the second communication unit, data analysis unit, external communication unit and the second power supply unit;

Described second communication unit, for receiving the described digital signal that described first communication unit obtains;

Whether described data analysis unit, exceed described default spectroscopic data scope for the data analyzed in described digital signal, if when the data in described digital signal exceed described default spectroscopic data scope, determines to need to send prompt messages; If when the data in described digital signal do not exceed described default spectroscopic data scope, determine to need to send normal information in signal;

Described external communication unit, for sending normal information in described prompt messages or described signal to described monitor terminal;

Described second power supply unit is that described second communication unit, described data analysis unit and described external communication unit are powered.

5. chromatogram supervisory system according to claim 4, it is characterized in that, described light signal collection module also comprises the first DEU data encryption unit, described first DEU data encryption unit is connected with described optical signal processing unit, described first DEU data encryption unit is used for the described digital signal that described optical signal processing unit process obtains to be encrypted, and sends the described digital signal after encryption by described first communication unit to described second communication unit;

Accordingly, the first data decryption unit is also comprised in described monitoring server, described first data decryption unit is connected with described second communication unit and described data analysis unit respectively, the described digital signal that described first data decryption unit is used for described second communication unit receives is decrypted, and is analyzed the described digital signal after deciphering by described data analysis unit.

6. chromatogram supervisory system according to claim 4, is characterized in that, described monitoring server also comprises the second DEU data encryption unit; Described second DEU data encryption unit is connected with described data analysis unit, and described second DEU data encryption unit is used for normal information in the described prompt messages that obtains described data analysis unit analysis or described signal and is encrypted;

Accordingly, described external communication unit, is also connected with described second DEU data encryption unit, specifically for sending normal information in the described prompt messages after encryption or described signal to described monitor terminal.

7. chromatogram supervisory system according to claim 4, is characterized in that, described monitoring server also comprises anti-interference unit; Described anti-interference unit is connected with described second communication unit, and the described digital signal that described first communication unit for receiving described second communication unit sends carries out anti-interference process;

Described anti-interference unit is also connected with described data analysis unit, carries out anti-interference process for information normal in the described prompt messages that obtains described data analysis unit analysis or described signal;

Described anti-interference unit is also connected with described external communication unit, specifically for sending normal information in the described prompt messages after anti-interference process or described signal to described monitor terminal.