CN107306272A - A kind of used-oil remote monitoring system and application based on cloud platform - Google Patents

Abstract

The invention discloses a kind of used-oil remote monitoring system based on cloud platform and application, the system possesses the long-range lubricating oil monitoring module for being arranged on lubricating oil user terminal and to used-oil integrate the Quick testing instrument device of quick detection and on-line analysis, be arranged on lubricating oil user terminal and communicate to connect with Quick testing instrument device, remotely carries out with long-range lubricating oil monitoring module the cloud platform of data interaction, and the cloud platform client being connected with cloud platform telecommunication, the cloud platform has：Original data processing module, cloud storage module and cloud computing data service module, the long-range quality of lubrication oil monitoring system under the final cloud computing service framework for realizing personalized, intelligent, high-performance and high adaptability of the invention；The monitoring system of the present invention can be used for the design of lubricating oil all kinds, the design of engine all kinds and the maintenance of long-range wind-driven generator.

Description

A kind of used-oil remote monitoring system and application based on cloud platform

Technical field

The present invention relates to the used-oil monitoring system of monitoring quality of lubrication oil, more particularly to a kind of used-oil remote monitoring system based on cloud platform.

Background technology

Lubricating oil is the blood of equipment, and its quality and equipment performance are closely related, it is necessary to which user irregularly monitors its quality, it is to avoid the underproof lubricating oil of use quality, so as to cause equipment to be not normally functioning.It is unqualified without quality monitoring means or quality monitoring in use in the case of but more, such as automobile engine lubricating oil, only carry out more oil change according to distance travelled or running time, the problem of so often bringing is, oil change too early, brings the waste of resource；Oil change is excessively slow, brings the abrasion of engine.At present, using sampling monitoring more than the lubricating oil monitoring of application, monitoring lubricating oil user profile that can not be real-time, long-range, and most of both at home and abroad is using the particulate matter carried in monitoring lubricating oil single performance indications such as viscosity, moisture or oil, the collection of lubricating oil multi information and data fusion comparative analysis can not be completed, the accuracy rate monitored on-line to lubricating oil is not high.

The content of the invention

The problem of existing for traditional used-oil monitoring system, the invention provides following technical scheme：A kind of used-oil remote monitoring system based on cloud platform, it possesses the Quick testing instrument device for being arranged on lubricating oil user terminal 10 and carrying out on-line analysis to used-oil, the long-range lubricating oil monitoring module 30 for being arranged on lubricating oil user terminal 10 and being connected with Quick testing instrument device 20, the cloud platform 40 that teledata is interacted is carried out with long-range lubricating oil monitoring module 30, and the cloud platform client 50 being connected with the telecommunication of cloud platform 40

Wherein cloud platform 40 has：

Original data processing module 402, parses to the initial data that the long-range telecommunication of lubricating oil monitoring module 30 is transmitted, obtains the physical and chemical quality indexes of lubricating oil,

Cloud storage module 403, with one or more database servers,

Cloud computing data service module 401, with access-in management service unit, data access service unit, external WEB data queries service unit and system administration services unit,

It is preferred that, the cloud computing data service module 401 and cloud storage module 403 are connected to same network, possess communication connection from each other.

It is preferred that, the cloud platform 40 remotely connects lubricating oil user terminal 10 and cloud platform client 50 by internet.

It is preferred that, the data access service unit has the function of being excavated and sorted out to the data of the cloud storage module 403, is formed and excavates and sorts out data for different oils user terminal 10.

It is preferred that, the long-range lubricating oil monitoring module 30 gathers the used-oil initial data that Quick testing instrument device 20 is determined by intervals.

It is preferred that, the long-range lubricating oil monitoring module 30 includes user profile access unit, and user profile includes user type, lubricating oil types, use time and/or use environment.

It is preferred that, the Quick testing instrument device 20 can synthesis measuring lubricating oil data.

It is preferred that, the Quick testing instrument device 20 is spectroanalysis instrument and/or elemental analyser.

It is preferred that, the spectroanalysis instrument is the one or more in infrared spectrometer, near infrared spectrometer, far-infrared spectrometer and mid-infrared light spectrometer.

It is preferred that, the elemental analyser is the one or more in plasma emission spectrometer, Atomic Emission Spectrometer AES and laser element analyzer.

It is preferred that, the lubricating oil user terminal 10 is the plant equipment using lubricating oil.

It is preferred that, the cloud platform client 50 safeguards client including lubricating oil producer client, engine producer client and wind-driven generator.

A kind of monitoring method of the used-oil remote monitoring system based on cloud platform, comprises the steps：

A) Quick testing instrument device 20 carries out on-line checking to the used-oil of lubricating oil user terminal 10 and on-line analysis forms initial data；

B) long-range lubricating oil monitoring module 30 is by initial data and the user profile data of user profile access unit together communications to cloud platform 40；

C) the original data processing module 402 of cloud platform 40 carries out data parsing to initial data, associate the standard correction model of setting, the physical and chemical quality indexes of lubricating oil are obtained, and are stored in cloud storage module 403, user profile data are directly stored in cloud storage module 403；

D) cloud platform client 50 obtains the corresponding data of 40 cloud storage module of cloud platform 403 by cloud computing data service module 401 according to demand.

It is preferred that, also comprise the steps：

The cloud computing data service module 401 of the cloud platform 40 be specially data access service unit can the data of comprehensive analysis lubricating oil user terminal 10, formed Consolidation data storage in cloud storage module 403；The cloud platform client 50 remotely connects the access-in management service unit of cloud platform 40 to access cloud platform 40, and passes through data access service unit acquisition data.

The method that lubricating oil producer designs lubricating oil is applied to using the monitoring method of any of the above-described used-oil remote monitoring system based on cloud platform, following step is specifically included：

1) used-oil of the different plant equipment of 20 pairs of Quick testing instrument device carries out on-line checking and on-line analysis obtains spectroscopic data and/or element data；

2) long-range lubricating oil monitoring module 30 is by initial data such as spectroscopic data and/or element data communications to cloud platform 40；

3) the original data processing module 402 of cloud platform 40 carries out data parsing to initial data, associates the standard correction model of setting, obtains the physical and chemical quality indexes of lubricating oil, and be stored in cloud storage module 403；Meanwhile, the user data of user profile access unit is directly stored in cloud storage module 403 by long-range lubricating oil monitoring module 30；

4) the data access service unit of cloud platform 40 carries out big data integration process to the data of cloud storage module 403, is that different lubricating oil user terminals 10 provides different data；

5) lubricating oil producer client remote connection access cloud platform 40, the disposal data for lubricating oil producer client is obtained by the data access service unit of cloud platform client 50；Different qualities requirement according to different oils user terminal 10 to lubricating oil, targetedly design produces specific lubricating oil.

The method that engine producer designs engine is applied to using the monitoring method of any of the above-described used-oil remote monitoring system based on cloud platform, following step is specifically included：

1) on-line checking of Quick testing instrument device 20 and the used-oil spectroscopic data and/or element data of the different engine users of on-line analysis；

2) spectroscopic data and/or element data telecommunication are transferred to cloud platform 40 by long-range lubricating oil monitoring module 30；

3) the original data processing module 402 of cloud platform 40 carries out data parsing to initial data, associates the standard correction model of setting, obtains the physical and chemical quality indexes of lubricating oil, and be stored in cloud storage module 403；Meanwhile, the engine user data of user profile access unit is directly stored in cloud storage module 403 by long-range lubricating oil monitoring module 30；

4) the data access service unit of cloud platform 40 carries out big data integration process to the data of cloud storage module 403, and different data are provided for different engine users；

5) engine producer client remote connection cloud platform 40, disposal data for engine producer client is obtained by data access service unit, different qualities requirement according to different engine users to lubricating oil, produces the different engines of correspondence different oils.

The method that wind-driven generator is safeguarded is applied to using the monitoring method of any of the above-described used-oil remote monitoring system based on cloud platform, following step is specifically included：

1) on-line checking of Quick testing instrument device 20 and on-line analysis wind-driven generator used-oil spectroscopic data and/or element data are passed through；

2) long-range lubricating oil monitoring module 30 is by spectroscopic data and/or element data communications to cloud platform 40；

3) the original data processing module 402 of cloud platform 40, data parsing is carried out to initial data, is associated the standard correction model of setting, is obtained the physical and chemical quality indexes of lubricating oil, and be stored in cloud storage module 403；Meanwhile, the wind-driven generator user data of user profile access unit is directly stored in cloud storage module 403 by long-range lubricating oil monitoring module 30；

4) the data access service unit of cloud platform 40 carries out big data integration process to the data of cloud storage module 403；

5) wind-driven generator safeguards that client remote is obtained and safeguards the maintenance data that client is arranged for wind-driven generator.

It is preferred that, the wind-driven generator user data includes one or both of quality of lubrication oil, equipment attrition data, wind-power electricity generation acc power, operating voltage and operating temperature data above.

It is preferred that, it is described to safeguard that data include whether lubricating oil needs to change information.The present invention has the following advantages and effect relative to prior art：

1. pair used-oil carries out multi information collection and data fusion comparative analysis, the accuracy rate monitored on-line to lubricating oil is improved.

2. the online lubricating oil user client information of monitoring that can be real-time, long-range by the remote monitoring system of the present invention, in time more oil change, it is to avoid the abrasion to lubricating oil user terminal；Prevent lubricating oil user terminal that the inferior or unmatched lubricating oil of model is accidentally used in the case of unwitting.

3. the remote monitoring system of the present invention can be with all physical and chemical quality indexes of the online lubricating oil of integration test, not only according to distance travelled, used-oil is detected also according to information comprehensive analysis such as vehicle, engine model, the difference of road conditions, distance travelled and temperature in use.

4. by big data integration process, personalization, intellectuality, high-performance, high adaptability and comprehensive lubricating oil service are provided for different cloud platform clients.

It should be appreciated that foregoing description substantially and follow-up description in detail are exemplary illustration and explanation, the limitation to claimed content of the invention should not be used as.

Brief description of the drawings

With reference to the accompanying drawing enclosed, the present invention more purpose, function and advantages will be illustrated by the described below of embodiment of the present invention, wherein：

Fig. 1 schematically shows a kind of function structure chart of used-oil remote monitoring system based on cloud platform of the present invention.

Fig. 2 schematically shows a kind of flow chart of used-oil remote monitoring system based on cloud platform of the present invention.

Embodiment

By reference to exemplary embodiment, the purpose of the present invention and function and for realizing that the method for these purposes and function will be illustrated.However, the present invention is not limited to exemplary embodiment as disclosed below；It can be realized by multi-form.The essence of specification is only to aid in the detail of the various equivalent modifications Integrated Understanding present invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

A kind of used-oil remote monitoring system based on cloud platform of the present invention, cloud platform remotely connects lubricating oil user terminal and carries out data interaction with cloud platform client, following examples are preferably that internet carries out remote transmission, also other wireless transmission methods such as Bluetooth transmission may be selected, and can select to reach the wire transmission mode of remote transmission purpose.

Embodiment one

A kind of function structure chart of used-oil remote monitoring system based on cloud platform as shown in Figure 1, the remote monitoring system includes：The quick Quick testing instrument device 20 for determining simultaneously on-line analysis used-oil, spectroscopic data and/or element data can be obtained with integration test lubricating oil by being arranged on lubricating oil user terminal 10；Long-range lubricating oil monitoring module 30, it is arranged on lubricating oil user terminal 10 and is connected with Quick testing instrument device 20, the used-oil initial data that Quick testing instrument device 20 is determined is gathered by intervals, long-range lubricating oil monitoring module 30 includes the user profile data such as user profile access unit, including user type, lubricating oil types, use time and use environment；The cloud platform 40 for carrying out data interaction is connected by internet with long-range lubricating oil monitoring module 30；And the cloud platform client 50 being communicatively coupled with cloud platform 40 by internet, wherein, client can obtain the quality condition of lubricating oil to determine that the lubricating oil is continuing with or changed by cloud platform client 50.

Wherein described cloud platform 40 has：Original data processing module 402, initial data to the long-range remote transmission of lubricating oil monitoring module 30 is parsed by processing unit, associate the standard correction model of setting, obtain the physical and chemical quality indexes of lubricating oil, such as 40 DEG C kinematic viscosity, 100 DEG C of kinematic viscosity, water content, total acid number (TAN), total base number (TBN), constituent content, flash-point and the conventional physical and chemical index of pour point；Cloud storage module 403, with one or more database servers；Cloud computing data service module 401, with access-in management service unit, data access service unit, external WEB data queries service unit and system administration services unit,

Wherein, the cloud computing data service module 401 and cloud storage module 403 are connected to same Network, possesses communication connection from each other.

Wherein, the data access service unit of the cloud computing data service module (401) also has excavates and sorts out function to data, lubricating oil physical and chemical quality indexes and the user profile data that analysis is obtained are included to the data for being stored in cloud storage module 403, user profile data include：The data such as the vehicle of lubricating oil user terminal 10, engine model, road conditions, distance travelled and temperature in use carry out comprehensive excavation with arranging, and are supplied to different cloud platform clients 50 according to demand.

Wherein, the access-in management service unit of cloud computing data service module (401) realizes that different cloud platform clients 50 remotely access cloud platform 40 with different oils user terminal 10 and serviced, and carries out data interaction.

Being cooperated by above-mentioned module realizes the integrated process that long-range lubricating oil user terminal 10 is used with the foundation communication of cloud platform client 50, long-range quality monitoring, quality of lubrication oil data acquisition, data cloud storage and data service issue, long-range quality of lubrication oil monitoring system under the final cloud computing service framework for developing personalized, intelligent, high-performance and high adaptability, comprehensive lubricating oil service of personalization is provided for each lubricating oil user.

Wherein, the Quick testing instrument device 20 is spectroanalysis instrument, can be the one or more in infrared spectrometer, near infrared spectrometer, far-infrared spectrometer and mid-infrared light spectrometer.

Wherein, the Quick testing instrument device 20 is elemental analyser, can be the one or more in plasma emission spectrometer, Atomic Emission Spectrometer AES and laser element analyzer.

Wherein, the lubricating oil user terminal is the various plant equipment using lubricating oil, such as automobile engine, ship engine, wind-driven generator or compressor.

When carrying out the control of used-oil remote monitoring using said apparatus, a kind of its preferred workflow is as shown in Fig. 2 it is comprised the following steps that：

A) by the spectroscopic data of Quick testing instrument device 20 preferably spectroanalysis instrument, the in all directions used-oil of comprehensive detection lubricating oil user terminal 10, on-line analysis forms initial data and is sent to long-range lubricating oil module；

B) long-range 30 pairs of lubricating oil monitoring module is gathered the initial data of the detection of Quick testing instrument device 20 by intervals, coordinate cloud computing data service module 401 that initial data is transferred into cloud platform 40 by internet communication, while the data message of user profile access unit is transferred into cloud platform 40 together；

C) it is specific, original data processing module 402 of the original data transmissions to cloud platform 40, data parsing is carried out to initial data using computer software to handle spectroscopic data, associate the standard correction model of setting, obtain the physical and chemical quality indexes of correspondence lubricating oil, including 40 DEG C of kinematic viscosity, 100 DEG C of kinematic viscosity, water content, total acid number (TAN), total base number (TBN), the conventional physical and chemical index such as flash-point and pour point and the standard lubricating oil sample similarity with databases, and it is stored in cloud storage module 403, user profile data are directly stored in cloud storage module 403,

The cloud computing data service module (401) of the cloud platform (40) be specially data access service unit can the data of comprehensive analysis lubricating oil user terminal 10 include the obtained lubricating oil physical and chemical quality indexes of analysis and user profile data, form personalized Consolidation data storage in cloud storage module (403)；

D) cloud platform client 50 remotely accesses cloud platform 40 using internet by the access-in management service unit of cloud computing data service module 401, by data access service unit, obtains the corresponding specific aim data of cloud storage module 403.

In rate-determining steps c), the standard correction model of setting refers to the model having had built up.Set up process as follows：Spectrum analysis is carried out to a large amount of standard samples first, these spectroscopic datas are pre-processed, including：1. carrying out the interval selection 2. of spectral band to be smoothed, such as digital filtering improves the signal to noise ratio of spectral signal, eliminates noise 3. and carries out derivative correction, eliminates the baseline translation in spectrum and the baseline drift caused by scattering, improves spectral resolution and sensitivity；Then it will be associated using the method such as offset minimum binary (PLS) and back-propagation artificial neural network (BP-ANN) by conventional physical and chemical quality indexes parameters such as the 40 DEG C of kinematic viscosity of spectroscopic data and lubricating oil pre-processed, 100 DEG C of kinematic viscosity, water content, total acid number (TAN), total base number (TBN), flash-point and pour points, and finally set up standard correction model.

In rate-determining steps d), obtained used-oil qualitative data and lube drain index are compared cloud platform client 50, if beyond lube drain index, needing to be lubricated oily replacing；The information such as brand, the rank of used-oil can be also understood according to degrees of data similar to the standard lubricating oil sample of databases simultaneously.

Embodiment two

The present embodiment two differs only in Quick testing instrument device described in the present embodiment 20 for elemental analyser compared with embodiment one, can be the one or more in ICP, Atomic Emission Spectrometer AES, laser element analyzer.

When carrying out the control of used-oil remote monitoring using said apparatus, it is comprised the following steps that：

A) by the element data of the elemental analyser used-oil of comprehensive detection lubricating oil user terminal 10 in all directions, on-line analysis forms initial data and is sent to long-range lubricating oil module 30；

B) long-range lubricating oil monitoring module 30 is gathered the element data of elemental analyser by intervals, coordinate cloud computing data service module 401 that initial data is transferred into cloud platform 40 by internet communication, while the data message of user profile access unit is transferred into cloud platform 40 together；

C) it is specific, original data processing module 402 of the original data transmissions to cloud platform 40, data parsing is carried out to initial data using computer software to handle element data, associate established standardses calibration model, obtain the physical and chemical quality indexes of correspondence lubricating oil, including 40 DEG C of kinematic viscosity, 100 DEG C of kinematic viscosity, water content, total acid number (TAN), total base number (TBN), constituent content, the conventional physical and chemical index such as flash-point and pour point and the standard lubricating oil sample similarity with databases, and it is stored in cloud storage module 403, user profile data are directly stored in cloud storage module 403,

The cloud computing data service module (401) of the cloud platform (40) be specially data access service unit can the data of comprehensive analysis lubricating oil user terminal 10 include the obtained lubricating oil physical and chemical quality indexes of analysis and user profile data, form personalized Consolidation data storage in cloud storage module (403)；D) cloud platform client 50 accesses cloud platform 40 using internet by the access-in management service unit of cloud computing data service module 401, by data access service unit, obtains the corresponding data of cloud storage module 403.

In rate-determining steps c), the standard correction model of setting refers to the model established in advance.Set up process as follows：Constituent content analysis is carried out to a large amount of standard samples first, then the method such as return using multiple linear regression and topological method, region weight to be associated the conventional physical and chemical quality indexes parameters such as 40 DEG C of kinematic viscosity of constituent content data and lubricating oil, 100 DEG C of kinematic viscosity, water content, total acid number (TAN), total base number (TBN), constituent content, flash-point and pour point, set up standard correction model.In rate-determining steps d), obtained used-oil qualitative data and lube drain index are compared cloud platform client 50, if beyond lube drain index, needing to be lubricated oily replacing；The information such as brand, the rank of used-oil can be also understood according to degrees of data similar to the standard lubricating oil sample of databases simultaneously.

Embodiment three

The present embodiment three differs only in the present embodiment medium cloud platform client 50 for lubricating oil producer client, the present invention is directed to different lubricating oil user terminals 10 such as compared with embodiment one：Automobile engine, ship engine, compressor and wind-driven generator etc., vehicle, engine model, the difference of road conditions are combined by cloud platform 40, the information such as distance travelled and temperature in use carries out big data integration process, is that different lubricating oil user terminals 10 provides personalized disposal data.Lubricating oil producer client accesses cloud platform 40 using internet by the access-in management service unit of cloud computing data service module 401, by Consolidation function of the data access service unit to data, obtains the corresponding above-mentioned data of cloud storage module 403.Analysis is known based on the different qualities requirement under different oils user terminal 10 and specific environment to lubricating oil, such as southern and northern temperature causes the difference of stability, thermostability and oxidation stability characteristic, can accurate and efficient production different oils user terminal 10 customization lubricating oil.Final realize using the used-oil remote monitoring system based on cloud platform is that different oils user terminal 10 provides personalization, intellectuality, high-performance, high adaptability and comprehensive lubricating oil service.

Example IV

The present embodiment four is compared with embodiment one, the present embodiment medium cloud platform client 50 is differed only in for engine producer client, the lubricating oil Consolidation data provided for different engine users provided according to the used-oil remote monitoring system of cloud platform, in view of reducing preferably lubricating oil is utilized under engine own loss, play the maximum performance of engine, produce the personalized engine for adapting to different oils or the improvement for carrying out some performances to engine during engine production, finally realize that the used-oil remote monitoring system based on cloud platform provides personalization for engine producer, the service of high-performance and high adaptability.

Embodiment five

The present embodiment five is compared with embodiment one, differ only in the present embodiment medium cloud platform client 50 and safeguard client for wind-driven generator, traditional wind is typically all disposed within remote districts, and need testing staff arrive in person scene periodically sampled, then analysis place is brought back to be analyzed, need to expend substantial amounts of manpower, material resources, the present invention only need to be long-range by the acquisition testing data transfer of wind-driven generator used-oil to cloud platform 40 by internet, wind turbine power generation machine user data is included into quality of lubrication oil simultaneously, equipment attrition data, wind-power electricity generation acc power, operating voltage and operating temperature data are transferred to cloud platform 40 together.The physical and chemical quality indexes that confluence analysis obtains wind-driven generator used-oil are carried out to data by cloud platform 40, attendant only needs to safeguard that client just can obtain the qualitative data of wind-driven generator used-oil by wind-driven generator, further obtains whether such as lubricating oil needs to change information.The remote monitoring service to wind-driven generator used-oil based on cloud platform finally is realized, maintenance intelligent to wind-driven generator and efficient, monitoring is realized.

The monitoring method of used-oil remote monitoring system of the present invention based on cloud platform can be applied not only to lubricating oil producer client, engine producer client and wind-driven generator and safeguard client, can also be applied to other maintenance clients with gear apparatus.Present pre-ferred embodiments are the foregoing is only, the limitation present invention, the modifications, equivalent substitutions and improvements done within the spirit and principles of the invention etc. is not used to, are required to be included within protection scope of the present invention.

Claims (19)

1. a kind of used-oil remote monitoring system based on cloud platform, it possesses the Quick testing instrument device for being arranged on lubricating oil user terminal (10) and carrying out on-line analysis to used-oil, the long-range lubricating oil monitoring module (30) for being arranged on lubricating oil user terminal (10) and being connected with Quick testing instrument device (20), the cloud platform (40) that teledata is interacted is carried out with long-range lubricating oil monitoring module (30), and the cloud platform client (50) being connected with cloud platform (40) telecommunication

The cloud platform (40) has：

Original data processing module (402), parses to the initial data that long-range lubricating oil monitoring module (30) telecommunication is transmitted, obtains the physical and chemical quality indexes of lubricating oil,

Cloud storage module (403), with one or more database servers,

Cloud computing data service module (401), with access-in management service unit, data access service unit, external WEB data queries service unit and system administration services unit.

2. a kind of used-oil remote monitoring system based on cloud platform according to claim 1, it is characterized in that, the cloud computing data service module (401) and cloud storage module (403) are connected to same network, possess communication connection from each other.

3. a kind of used-oil remote monitoring system based on cloud platform according to claim 1, characterized in that, the cloud platform (40) remotely connects lubricating oil user terminal (10) and cloud platform client (50) by internet.

4. a kind of used-oil remote monitoring system based on cloud platform according to claim 1, it is characterized in that, the data access service unit has the function of being excavated and sorted out to the data of the cloud storage module (403), is formed and excavates and sorts out data for different oils user terminal (10).

5. a kind of used-oil remote monitoring system based on cloud platform according to claim 1, characterized in that, the long-range lubricating oil monitoring module (30) gathers the used-oil initial data that Quick testing instrument device (20) is determined by intervals.

6. a kind of used-oil remote monitoring system based on cloud platform according to claim 1, it is characterized in that, the long-range lubricating oil monitoring module (30) includes user profile access unit, and user profile includes user type, lubricating oil types, use time and/or use environment.

7. a kind of used-oil remote monitoring system based on cloud platform according to claim 1, it is characterised in that the Quick testing instrument device (20) can synthesis measuring lubricating oil data.

8. a kind of used-oil remote monitoring system based on cloud platform according to claim 1, it is characterised in that the Quick testing instrument device (20) is spectroanalysis instrument and/or elemental analyser.

9. a kind of used-oil remote monitoring system based on cloud platform according to claim 8, it is characterised in that the spectroanalysis instrument is the one or more in infrared spectrometer, near infrared spectrometer, far-infrared spectrometer and mid-infrared light spectrometer.

10. a kind of used-oil remote monitoring system based on cloud platform according to claim 8, it is characterised in that the elemental analyser is the one or more in plasma emission spectrometer, Atomic Emission Spectrometer AES and laser element analyzer.

11. a kind of used-oil remote monitoring system based on cloud platform according to claim 1, it is characterised in that the lubricating oil user terminal (10) is the plant equipment using lubricating oil.

12. a kind of used-oil remote monitoring system based on cloud platform according to claim 1, characterized in that, the cloud platform client (50) safeguards client including lubricating oil producer client, engine producer client and wind-driven generator.

13. the monitoring method of the used-oil remote monitoring system based on cloud platform described in claim any one of 1-12, comprises the steps：

A) Quick testing instrument device (20) carries out on-line checking to lubricating oil user terminal (10) used-oil and on-line analysis forms initial data；

B) long-range lubricating oil monitoring module (30) is by initial data and the user profile data of user profile access unit together communications to cloud platform (40)；

C) the original data processing module (402) of cloud platform (40) carries out data parsing to initial data, associate the standard correction model of setting, obtain the physical and chemical quality indexes of lubricating oil, and cloud storage module (403) is stored in, user profile data are directly stored in cloud storage module (403)；

D) cloud platform client (50) obtains the corresponding data of cloud platform (40) cloud storage module (403) by cloud computing data service module (401) according to demand.

14. the monitoring method of the used-oil remote monitoring system according to claim 13 based on cloud platform, wherein, also comprise the steps：

The cloud computing data service module (401) of the cloud platform (40) be specially data access service unit can comprehensive analysis lubricating oil user terminal (10) data, formed Consolidation data storage in cloud storage module (403)；The cloud platform client (50) remotely connects the access-in management service unit of cloud platform (40) to access cloud platform (40), and obtains data by data access service unit.

15. being applied to the method that lubricating oil producer designs lubricating oil using the monitoring method of the used-oil remote monitoring system based on cloud platform described in claim 13, following step is specifically included：

1) Quick testing instrument device (20) carries out on-line checking to the used-oil of different plant equipment and on-line analysis obtains spectroscopic data and/or element data；

2) long-range lubricating oil monitoring module (30) is by initial data such as spectroscopic data and/or element data communications to cloud platform (40)；

3) the original data processing module (402) of cloud platform (40) carries out data parsing to initial data, associates the standard correction model of setting, obtains the physical and chemical quality indexes of lubricating oil, and be stored in cloud storage module (403)；Meanwhile, the user data of user profile access unit is directly stored in cloud storage module (403) by long-range lubricating oil monitoring module (30)；

4) the data access service unit of cloud platform (40) carries out big data integration process to the data of cloud storage module (403), is that different lubricating oil user terminals (10) provide different data；

5) lubricating oil producer client remote connection access cloud platform (40), the disposal data for lubricating oil producer client is obtained by cloud platform client (50) data access service unit；Different qualities requirement according to different oils user terminal (10) to lubricating oil, targetedly design produces specific lubricating oil.

16. being applied to the method that engine producer designs engine using the monitoring method of the used-oil remote monitoring system based on cloud platform described in claim 13, following step is specifically included：

1) Quick testing instrument device (20) on-line checking and the used-oil spectroscopic data and/or element data of the different engine users of on-line analysis；

2) spectroscopic data and/or element data telecommunication are transferred to cloud platform (40) by long-range lubricating oil monitoring module (30)；

3) the original data processing module (402) of cloud platform (40) carries out data parsing to initial data, associates the standard correction model of setting, obtains the physical and chemical quality indexes of lubricating oil, and be stored in cloud storage module (403)；Meanwhile, the engine user data of user profile access unit is directly stored in cloud storage module (403) by long-range lubricating oil monitoring module (30)；

4) the data access service unit of cloud platform (40) carries out big data integration process to the data of cloud storage module (403), and different data are provided for different engine users；

5) engine producer client remote connection cloud platform (40), disposal data for engine producer client is obtained by data access service unit, different qualities requirement according to different engine users to lubricating oil, produces the different engines of correspondence different oils.

17. being applied to the method that wind-driven generator is safeguarded using the monitoring method of the used-oil remote monitoring system based on cloud platform described in claim 13, following step is specifically included：

1) Quick testing instrument device (20) on-line checking and on-line analysis wind-driven generator used-oil spectroscopic data and/or element data are passed through；

2) long-range lubricating oil monitoring module (30) is by spectroscopic data and/or element data communications to cloud platform (40)；

3) the original data processing module (402) of cloud platform (40), data parsing is carried out to initial data, is associated the standard correction model of setting, is obtained the physical and chemical quality indexes of lubricating oil, and be stored in cloud storage module (403)；Meanwhile, the wind-driven generator user data of user profile access unit is directly stored in cloud storage module (403) by long-range lubricating oil monitoring module (30)；

4) the data access service unit of cloud platform (40) carries out big data integration process to the data of cloud storage module (403)；

5) wind-driven generator safeguards that client remote is obtained and safeguards the maintenance data that client is arranged for wind-driven generator.

18. wind-driven generator maintaining method according to claim 17, characterized in that, the wind-driven generator user data includes one or both of quality of lubrication oil, equipment attrition data, wind-power electricity generation acc power, operating voltage and operating temperature data above.

19. wind-driven generator maintaining method according to claim 17, it is characterised in that described to safeguard that data include whether lubricating oil needs to change information.