CN109324569A - Monitoring system and method, the cloud MES system comprising monitoring system - Google Patents
Monitoring system and method, the cloud MES system comprising monitoring system Download PDFInfo
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- CN109324569A CN109324569A CN201710648620.XA CN201710648620A CN109324569A CN 109324569 A CN109324569 A CN 109324569A CN 201710648620 A CN201710648620 A CN 201710648620A CN 109324569 A CN109324569 A CN 109324569A
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/18—Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form
- G05B19/406—Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form characterised by monitoring or safety
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B2219/00—Program-control systems
- G05B2219/30—Nc systems
- G05B2219/32—Operator till task planning
- G05B2219/32186—Teaching inspection data, pictures and criteria and apply them for inspection
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- General Physics & Mathematics (AREA)
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- Testing And Monitoring For Control Systems (AREA)
Abstract
The present invention provides a kind of monitoring system and method, the cloud MES system comprising monitoring system, and the monitoring system includes: data acquisition module, services conversion module and display module;The data acquisition module is connected with an at least monitored device, for acquiring the real-time production data of monitored device;The service conversion module is connected with the data acquisition module, for providing several and matched several meta-models of each monitored device, and converts the real-time production data of acquisition to and meets the display data that the display module shows demand;The display module shows component corresponding with each meta-model, and by display data described in each component call, with the production and processing information of the displaying monitored device corresponding with the component.By browser, the interface in the form of configuration is monitored the present invention, and user can control whenever and wherever possible with the condition of production of the multi-access mode to factory, and can carry out flexible configuration to monitoring interface, can customize monitoring interface according to actual needs.
Description
Technical field
The present invention relates to intelligence manufacture fields, more particularly to lathe monitoring field, specially a kind of monitoring system and side
Method, the cloud MES system comprising monitoring system.
Background technique
Numerical-controlled machine tool machining process is safe, reliable, efficient, in high quality carries out in order to make, at present in machine tooling part
When, carrying out status monitoring to process equipment just becomes extremely important, and technical staff wants to monitor each of machine tool at any time
Kind state.
In the prior art, number of patent application 201310733700.7, entitled hydraulic equipment visual information pipe
The patent of reason system discloses a kind of computer management tools of intelligent hydraulic equipment, can collect on production line in relation to equipment and matter
The related information with production such as buret reason, after being pocessed, controls the light being distributed in workshop everywhere and sound alarm system, from
And realize the transparence of production information, in the technical solution, at the upper data built in ipc monitor computer and its
Server end of the software as system is managed, the data management of completion system is concentrated, realizes data unified management, system both can be existing
Field real-time data collection, and can be arranged in office, monitor production status.
But ipc monitor computer monitoring is all configured in the technology, can see and supervise to workshop and factory
Control, but monitoring interface is non-configurations in the program, by interface configurations or can not choose corresponding equipment, also see not
Such as state of machine tool.
Summary of the invention
In view of the foregoing deficiencies of prior art, the purpose of the present invention is to provide monitoring system and method, comprising supervising
The cloud MES system of control system, for solving the above problem in the prior art.
In order to achieve the above objects and other related objects, the present invention provides a kind of monitoring system, comprising: data acquisition module
Block services conversion module and display module;The data acquisition module is connected with an at least monitored device, described for acquiring
The real-time production data of monitored device;The service conversion module is connected with the data acquisition module, several for providing
With each matched several meta-models of monitored device, and converts the real-time production data of acquisition to and meet the exhibition
Show the display data of modules exhibit demand;The display module shows component corresponding with each meta-model, and passes through each institute
Display data described in component call is stated, to show the production and processing information of the monitored device corresponding with the component.
In one embodiment of the invention, the service conversion module includes: meta-model preset unit, presetting pattern exhibition
Show meta model and text meta-model;Meta-model construction unit, by providing the configuration modeling tools build graphically edited
Customized meta-model;Data convert form unit, convert display data, the displaying number for the real-time production data of acquisition
Match according to the customized meta-model.
In one embodiment of the invention, self-defining image is uploaded by the preset graphical representation meta model
Piece.
In one embodiment of the invention, the display module includes: component display unit, passes through each meta-model
Description information is in the corresponding component for editor of showing interface;Component edits unit, by receiving the attribute to each component
Editor's information call the corresponding display data, to show that the production of the monitored device corresponding with the component adds
Work information.
In one embodiment of the invention, the display module further include: typing unit is used for the customized monitoring number of typing
Accordingly for showing.
In one embodiment of the invention, the display module shows each component and described by WEB page form
The creation data of monitored device.
In one embodiment of the invention, the data acquisition module is based on OPC agreement or MQTT agreement is supervised with described
The communication of control equipment is connected by PLC with the monitored device.
In one embodiment of the invention, the service conversion module passes through RPC, WebService, Rest mode and institute
State display module access.
In order to achieve the above objects and other related objects, the present invention also provides a kind of monitoring methods, comprising: preparation process:
Monitoring system as described above is provided;Data collection steps: the real-time production data of an acquisition at least monitored device;Service turns
Change step: provide it is several with each matched several meta-models of monitored device, and by the real-time production data of acquisition
It is converted into the display data for meeting displaying demand;It shows step: showing component corresponding with each meta-model, and pass through each institute
Display data described in component call is stated, to show the production and processing information of the monitored device corresponding with the component.
In one embodiment of the invention, the service step of converting includes: meta-model initialization step: presetting pattern exhibition
Show meta model and text meta-model;Meta-model construction step: by providing the configuration modeling tools build graphically edited
Customized meta-model;Data convert mould step: converting display data, the displaying number for the real-time production data of acquisition
Match according to the customized meta-model.
In one embodiment of the invention, in the preset construction step further include: picture uploading step: by preset
The graphical representation meta model uploads customized picture.
In one embodiment of the invention, the displaying step includes: that component shows step: by each meta-model
Description information is in the corresponding component for editor of showing interface;Component edits step: by receiving the attribute to each component
Editor's information call the corresponding display data, to show that the production of the monitored device corresponding with the component adds
Work information.
In one embodiment of the invention, the displaying step further include: typing step: the customized monitoring data of typing with
For showing.
In one embodiment of the invention, the displaying step shows each component and described by WEB page form
The creation data of monitored device.
In order to achieve the above objects and other related objects, the present invention also provides a kind of cloud MES systems, comprising: as described above
Monitoring system.
As described above, monitoring system and method for the invention, by browser, interface is monitored in the form of configuration,
User can be controlled whenever and wherever possible with the condition of production of the multi-access mode to factory, and can carry out spirit to monitoring interface
Configuration living, can customize monitoring interface according to actual needs.
Detailed description of the invention
Fig. 1 is shown as the structural schematic diagram of monitoring system of the invention in one embodiment.
Fig. 2 is shown as the structural schematic diagram of service conversion module in one embodiment in monitoring system of the invention.
Fig. 3 is shown as the structural schematic diagram of display module in another embodiment in monitoring system of the invention.
Fig. 4 is shown as the realization process schematic of monitoring system of the invention.
Fig. 5 is shown as monitoring method of the invention flow diagram in one embodiment.
Fig. 6 is shown as in monitoring method of the invention service step of converting flow diagram in one embodiment.
Fig. 7 is shown as showing step flow diagram in another embodiment in monitoring method of the invention.
Fig. 8 to Figure 10 is shown as the implementation result figure of monitoring system and monitoring method of the invention.
Component label instructions
100 monitoring systems
110 data acquisition modules
120 service conversion modules
121 meta-model preset units
122 meta-model construction units
123 data convert form unit
130 display modules
131 component display units
132 component edits units
133 typing units
S110~S140 step
S131~S133 step
S141~S143 step
Specific embodiment
Illustrate embodiments of the present invention below by way of specific specific example, those skilled in the art can be by this specification
Other advantages and efficacy of the present invention can be easily understood for disclosed content.The present invention can also pass through in addition different specific realities
The mode of applying is embodied or practiced, the various details in this specification can also based on different viewpoints and application, without departing from
Various modifications or alterations are carried out under spirit of the invention.It should be noted that in the absence of conflict, following embodiment and implementation
Feature in example can be combined with each other.
It should be noted that illustrating the basic structure that only the invention is illustrated in a schematic way provided in following embodiment
Think, only shown in schema then with related component in the present invention rather than component count, shape and size when according to actual implementation
Draw, when actual implementation kenel, quantity and the ratio of each component can arbitrarily change for one kind, and its assembly layout kenel
It is likely more complexity.
Embodiment 1
Referring to Fig. 1, the present embodiment provides a kind of monitoring system 100, the monitoring system 100 by browser form come
It is monitored, the data of processing is controlled and analyzed.The monitoring system 100 can be configuration, can carry out figure
Shapeization operation, can be with flexible configuration, for example, the mode that can be pulled will need the workshop monitored or equipment to be put into monitoring circle
On face.Wherein, configuration, which refers to, can carry out flexible configuration, such as several workshops can be pulled.
The monitoring system of the present embodiment 100 is described in detail below.
Specifically, as shown in Figure 1, the monitoring system 100 includes: data acquisition module 110, conversion module 120 is serviced
And display module 130.
It is associated between each module by service form, data acquisition module 110 is responsible for the acquisition of the creation datas such as equipment, takes
Business conversion module 120 is responsible for the building of meta-model and carries out finishing analysis to the data of acquisition, and display module 130 is responsible for service
User facilitates the mode of understanding to be shown and interact to the data of conversion module 120.The monitoring system 100 does not need secondary
The autonomy of exploitation demand, user is very strong, and user being customized monitoring interface according to their own situation.
Below to above-mentioned data acquisition module 110, services conversion module 120 and display module 130 is described in detail.
In this present embodiment, the data acquisition module 110 is connected with an at least monitored device, for acquiring the quilt
The real-time production data of monitoring device.
The data acquisition module 110 mainly completes the acquisition of Equipment Foundations real time data, supports a variety of data acquisition sides
Formula or agreement, specifically, in this present embodiment, the data acquisition module 110 is based on OPC (OLE for Process
Control, the OLE (Object Linking and Embedding) for process control) agreement, MQTT (Message
Queuing Telemetry Transport, message queue telemetering transmission) agreement communicates or passes through with the monitored device
PLC is connected with the monitored device.
The data acquisition module 110 is connected with specific equipment, and the communication protocol and equipment supported by equipment carry out
Interaction acquires equipment real-time status data, such as: it is connect by OPC agreement with west gate processing machine, acquires the switching on and shutting down shape of equipment
The real-time devices states such as state, main shaft multiplying power, xyz feeding degree and current processing program operation conditions.
In this present embodiment, the service conversion module 120 is connected with the data acquisition module 110, if for providing
It is dry with each matched several meta-models of monitored device, and convert the real-time production data of acquisition to meet it is described
The display data of the displaying demand of display module 130.
In this present embodiment, the service conversion module 120 uses modularization idea about modeling, constructs and unites for distinct device
One data model, and analysis and arrangement is carried out to the equipment real time data of the data acquisition module 110 acquisition, then use face
To the design concept of service, the Data Data model of building and the data of analysis and arrangement are relied on, monitoring of tools data are externally provided
Service.
In this present embodiment, the service conversion module 120 supports a variety of service access ways, specifically, the service
Conversion module by RPC (Remote Procedure Call Protocol, remote procedure call protocol), WebService,
Rest (Representational State Transfer, declarative state transmitting) mode connects with the display module 130
Enter.
Specifically, as shown in Fig. 2, the service conversion module 120 includes: meta-model preset unit 121, meta-model building
Unit 122 and data convert form unit 123.
121 presetting patternization of meta-model preset unit shows meta model and text meta-model.The wound of meta-model
Build the title for mainly needing descriptor metamodel, type, affiliated grouping, attribute definition, icon, display frame picture etc..
In this present embodiment, the monitoring system 100 can be operated with user oneself, do not needed software engineer and gone to develop.
In the monitoring system 100, it is prefixed some monitoring informations and option.The monitoring information and option preset is by software work
Journey Shi Kaifa's, data modeling is carried out to some information for needing to monitor.For example, order information etc., is also added later
Information, such as equipment quality inspection, workpiece conveyor sensor monitoring, figure identification etc..
In this present embodiment, the meta-model preset unit 121 provides two set of model:
1, graphical representation meta model: patterned displaying information.The meta-model preset unit 121 is also used to lead to
Cross the preset graphical representation meta model uploading pictures.In this way user can also oneself with oneself upload picture,
It participates in monitoring and shows interface building process.
2, text meta-model: information on services, so-called information on services are exactly some specific text informations, such as equipment work
Situation etc..
The meta-model construction unit 122 is by providing the configuration modeling tools build graphically edited customized first mould
Type.
It, can be according to practical need if the preset information in the meta-model preset unit 121 is unable to meet demand
It asks, modifies and build the monitoring interface of customization.For example, can use VIS simulation modeling tool, build graphical
Show monitoring interface.
So the preset part meta-model of monitoring system 100 of the present embodiment, while user can also be accorded with by interface creating
Close the meta-model of oneself demand.
The data conversion form unit 123, which converts the real-time production data of acquisition to, meets the display module
130 show the display data of demand, such as: facility switching machine status data, equipment real-time status data, equipment process data.
The display data matches with the customized meta-model.
In this present embodiment, the display module 130 shows component corresponding with each meta-model, and by described in each
The display data that service conversion module 120 converts described in component call, to show described supervised corresponding with the component
Control the production and processing information of equipment.
The display module 130 can be made when creating user's definition or editor's monitoring information by the description information of meta-model
Component, and incidence relation is established in the service according to the specific component property of user's typing and the service conversion module 120,
To call the data of service conversion module 120 offer, the monitoring information of monitored device described in real-time exhibition.
In this present embodiment, the display module 130 shows the monitored device by WEB page (browser) form
And the creation data of the monitored device.
In this present embodiment, the display module 130 shows form by web, using pel part mould technology, mentions to user
Service is shown for the device real-time monitoring of configuration.The display module 130 provides the graphical editor for being directed to monitoring interface, branch
Mouse drag, attributes edit, scaling, figure layer etc. are held, good scalability is provided simultaneously with, user can arbitrarily customize, add display
Pel etc..
Specifically, to realize above-mentioned function, in this present embodiment, as shown in figure 3, the display module 130 includes: component
Display unit 131 and component edits unit 132.
The component display unit 131 is corresponding for editor's in showing interface by the description information of each meta-model
Component.
The component display unit 131 available component when providing a user editor according to meta-model description information, such as: member
A lathe is defined in model, then user can see a machine tool assembly in monitoring editing interface, and then can be with
Multiple lathe examples are created in monitoring interface and association attributes described in meta-model are set, to complete entire monitoring interface
Building.
The component edits unit 132 is corresponding described to editor's information calling of the attribute of each component by receiving
The display data that conversion module 120 converts is serviced, to show the production of the monitored device corresponding with the component
Machining information.
In this present embodiment, as shown in figure 3, the display module 130 further include: typing unit, it is customized for typing
Monitoring data is for displaying.
It can for that production information, facility information and agency information typing can be entered by the typing unit
With to production equipment, productivity load situation, the quantity of converted products, work order, production task progress is monitored.
The present embodiment also provides a kind of cloud MES system, and the cloud MES system includes monitoring system 100 as described above.On
It states and the monitoring system 100 is described in detail, details are not described herein.
So-called " cloud MES ", it is based on MES ((manufacturing enterprise's production process executes management system)) management+cloud platform storage
Deposit+big data operation, be different from general management system, cloud MES operation operation do not need independent server go storage and
Operation, but data, storage, operation are carried out by cloud, the data having been calculated are presented in MES system finally, end is presented
It is commonly PC, mobile phone.
In this present embodiment, the monitoring system 100 forms a business function of cloud MES, can be run with monitoring device
The conditions of production such as situation, order executive condition.Bring benefit is mainly exactly 3A after 100 cloud of monitoring system
(Anytime, Anywhere, Anyway), that is, user at any time, everywhere, multi-access mode can use monitoring function,
That is user can whenever and wherever possible control the condition of production of factory after 100 cloud of monitoring system.
As shown in figure 4, the realization process of the monitoring system 100 is as follows in the present embodiment:
Preparation: infrastructure service is built in cloud, and production supports visual edit/display component of master mould (so as to structure
It builds configurationization monitoring and shows interface).
Newly-increased equipment (monitored device) type supported: the type of holding equipment is confined first, selects suitable data
Acquisition means, the data acquisition module 110 acquire creation data;Then 120 abstract data model of service conversion module,
Modularization idea about modeling is used, unified data model is constructed for distinct device, and adopt to the data acquisition module 110
The equipment real time data of collection carries out analysis and arrangement, then extracts segmentation service, that is, uses service-oriented design theory, relies on structure
The data of the meta-model and analysis and arrangement built externally provide monitoring of tools data service.The last display module 130 is abstract to be set
Standby meta-model draws component exhibiting, and monitored device and described is shown in the form of WEB page (browser), in the form of configuration
The creation data of monitored device.
Embodiment 2
Referring to Fig. 5, the present invention provides monitoring method, since the technical characteristic in above-described embodiment can be applied to this reality
Example is applied, thus it is no longer repeated.The monitoring method the following steps are included:
Preparation process: step S110 provides monitoring system 100 as described in Example 1.
Step S120, data collection steps: the real-time production data of an acquisition at least monitored device.
Step S130 services step of converting: providing several and each matched several meta-models of monitored device, and will
The real-time production data of acquisition is converted into the display data for meeting displaying demand.
Step S140 shows step: showing component corresponding with each meta-model, and passes through each component call institute
Display data is stated, to show the production and processing information of the monitored device corresponding with the component.
It being associated between each step by service form, data collection steps S120 is responsible for the acquisition of the creation datas such as equipment,
Service step of converting S130 is responsible for meta-model building and carries out finishing analysis to the data of acquisition, shows that step S140 is responsible for clothes
User facilitates the mode of understanding to be shown and interact to the data of business step of converting S130.The monitoring method does not need secondary
The autonomy of exploitation demand, user is very strong, and user being customized monitoring interface according to their own situation.
Below to above-mentioned data collection steps S120, services step of converting S130 and show that step S140 is carried out specifically
It is bright.
In this present embodiment, the data collection steps S120 is used to acquire the real-time production number of the monitored device
According to.
The data collection steps S120 mainly completes the acquisition of Equipment Foundations real time data, supports a variety of data acquisition sides
Formula or agreement, specifically, in this present embodiment, the data collection steps S120 is based on OPC (Object Linking and
Embedding (OLE) for Process Control) agreement, MQTT (Message Queuing Telemetry
Transport, message queue telemetering transmission) agreement communicate with the monitored device or passes through PLC and the monitored device
It is connected.
In the data collection steps S120: being interacted by the communication protocol that equipment is supported with equipment, acquire equipment
Real-time status data, such as: connect by OPC agreement with west gate processing machine, acquire the on-off state of equipment, main shaft multiplying power,
The real-time devices state such as xyz feeding degree and current processing program operation conditions.
In this present embodiment, the service step of converting S130 is provided and each matched several first moulds of monitored device
Type simultaneously converts the real-time production data of acquisition to the display data for meeting displaying demand.
In this present embodiment, the service step of converting S130 uses modularization idea about modeling, constructs for distinct device
Unified data model, and analysis and arrangement is carried out to the equipment real time data of data collection steps S120 acquisition, then adopt
With service-oriented design theory, the Data Data model of building and the data of analysis and arrangement are relied on, monitoring of tools is externally provided
Data service.
In this present embodiment, a variety of service access ways, specifically, the clothes are supported in the service step of converting S130
Be engaged in switch process in, by RPC (Remote Procedure Call Protocol, remote procedure call protocol),
WebService, Rest (Representational State Transfer, declarative state transmitting) mode accesses.
As shown in fig. 6, the service step of converting S130 includes: meta-model initialization step S131, meta-model construction step
S132 and data convert mould step S133.
The meta-model initialization step S131 presetting patternization shows meta model and text meta-model.The wound of meta-model
Build the title for mainly needing descriptor metamodel, type, affiliated grouping, attribute definition, icon, display frame picture etc..
In this present embodiment, it can be operated with user oneself, not need software engineer and go to develop.The preset step of meta-model
Rapid S131 is prefixed some monitoring informations and option.The monitoring information and option preset is developed by software engineer, right
Some information for needing to monitor carry out data modeling.For example, order information etc., also adds some information, such as equipment later
Quality inspection, workpiece conveyor sensor monitoring, figure identification etc..
In this present embodiment, the meta-model initialization step S131 provides two set of model:
1, graphical representation meta model: patterned displaying information.The meta-model initialization step S131 further include:
Picture uploading step: pass through the preset graphical representation meta model uploading pictures.User oneself can also use in this way
The picture that oneself is uploaded participates in monitoring and shows interface building process.
2, text meta-model: information on services, so-called information on services are exactly some specific text informations, such as equipment work
Situation etc..
The meta-model construction step S132 is by providing the configuration modeling tools build graphically edited customized first mould
Type.
If the preset information in the meta-model initialization step S131 is unable to meet demand, can be according to practical need
It asks, modifies and build the monitoring interface of customization.For example, can use VIS simulation modeling tool, build graphical
Show monitoring interface.
So the preset part meta-model of the monitoring method of the present embodiment, while user can also be met certainly by interface creating
The meta-model of own demand.
The data conversion mould step S133 converts the real-time production data of acquisition to the exhibition for meeting displaying demand
Registration evidence, such as: facility switching machine status data, equipment real-time status data, equipment process data, the display data and institute
Customized meta-model is stated to match.
In this present embodiment, the displaying step S140 shows component corresponding with each meta-model and by described in each
The data of service step of converting S130 conversion described in component call, to show the monitored device corresponding with the component
Produce and process information.
In this present embodiment, the displaying step S140 shows the monitored device and described by WEB page form
The creation data of monitored device.
It can make when the displaying description information of the step S140 by meta-model, creation user definition or editor's monitoring information
Component, and pass is associated with the service foundation of the service step of converting S130 according to the specific component property of user's typing
System, so that the data of the service step of converting S130 offer are provided, the monitoring information of monitored device described in real-time exhibition.
In this present embodiment, the displaying step S140 shows form by web, using pel part mould technology, to user
The device real-time monitoring for providing configuration shows service.It is described to show that step S140 provides the graphical volume for being directed to monitoring interface
Volume, it supports mouse drag, attributes edit, scaling, figure layer etc., is provided simultaneously with good scalability, user can arbitrarily customize, add
Show pel etc..
Specifically, to realize above-mentioned function, in this present embodiment, as shown in fig. 7, the displaying step S140 includes: group
Part shows step S141 and component edits step S142.
The component shows that step S141 is corresponding for editor in showing interface by the description information of each meta-model
Component.
The component shows that step S141 provides a user available component when editor according to meta-model description information, such as:
A lathe is defined in meta-model, then user can see a machine tool assembly, Jin Erke in monitoring editing interface
To create multiple lathe examples in monitoring interface and association attributes described in meta-model are arranged, to complete entire monitoring circle
The building in face.
The component edits step S142 is by receiving the corresponding institute of editor's information calling to the attribute of each component
Display data is stated, to show the production and processing information of the monitored device corresponding with the component.
In this present embodiment, as shown in fig. 7, the displaying step S140 further include: step S143, typing step: typing
Customized monitoring data is for displaying.
By the typing step S143, for can by production information, facility information and agency information typing into
It goes, can be to production equipment, productivity load situation, the quantity of converted products, work order, production task progress is monitored.
As shown in Fig. 8 to Figure 10, it is shown as the monitoring system 100 of the present embodiment and the implementation result figure of monitoring method.
In conclusion monitoring system and method for the invention, by browser, interface is monitored in the form of configuration,
User can be controlled whenever and wherever possible with the condition of production of the multi-access mode to factory, and can carry out spirit to monitoring interface
Configuration living, can customize monitoring interface according to actual needs.So the present invention effectively overcome it is in the prior art it is various lack
It puts and has high industrial utilization value.
The above-described embodiments merely illustrate the principles and effects of the present invention, and is not intended to limit the present invention.It is any ripe
The personage for knowing this technology all without departing from the spirit and scope of the present invention, carries out modifications and changes to above-described embodiment.Cause
This, institute is complete without departing from the spirit and technical ideas disclosed in the present invention by those of ordinary skill in the art such as
At all equivalent modifications or change, should be covered by the claims of the present invention.
Claims (15)
1. a kind of monitoring system characterized by comprising data acquisition module services conversion module and display module;
The data acquisition module is connected with an at least monitored device, for acquiring the real-time production number of the monitored device
According to;
The service conversion module is connected with the data acquisition module, several matches with each monitored device for providing
Meta-model, and convert the real-time production data of acquisition to and meet the display data that the display module shows demand;
The display module shows component corresponding with each meta-model, and by showing number described in each component call
According to show the production and processing information of the monitored device corresponding with the component.
2. monitoring system according to claim 1, which is characterized in that the service conversion module includes:
Meta-model preset unit, presetting patternization show meta model and text meta-model;
Meta-model construction unit, by providing the customized meta-model of configuration modeling tools build graphically edited;
Data convert form unit, convert display data for the real-time production data of acquisition, the display data with it is described
Customized meta-model matches.
3. monitoring system according to claim 2, which is characterized in that pass through the preset graphical representation information word mould
Type uploads customized picture.
4. monitoring system according to claim 1 or 2, which is characterized in that the display module includes:
Component display unit, by the description information of each meta-model in the corresponding component for editor of showing interface;
Component edits unit, by receiving the corresponding display data of editor's information calling to the attribute of each component,
To show the production and processing information of the monitored device corresponding with the component.
5. monitoring system according to claim 4, which is characterized in that the display module further include:
Typing unit is shown for the customized monitoring data of typing.
6. monitoring system according to claim 5, which is characterized in that the display module is shown by WEB page form
The creation data of each component and the monitored device.
7. monitoring system according to claim 1, which is characterized in that the data acquisition module be based on OPC agreement or
MQTT agreement communicates with the monitored device or is connected by PLC with the monitored device.
8. monitoring system according to claim 1, which is characterized in that the service conversion module by RPC,
WebService, Rest mode and the display module access.
9. a kind of monitoring method characterized by comprising
Preparation process: monitoring system as described in claim 1 is provided;
Data collection steps: the real-time production data of an acquisition at least monitored device;
Service step of converting: provide it is several with each matched meta-model of monitored device, and by the real-time life of acquisition
It produces data and is converted into the display data for meeting displaying demand;
It shows step: showing component corresponding with each meta-model, and by display data described in each component call, with
Show the production and processing information of the monitored device corresponding with the component.
10. monitoring method according to claim 9, which is characterized in that the service step of converting includes:
Meta-model initialization step: presetting patternization shows meta model and text meta-model;
Meta-model construction step: by providing the customized meta-model of configuration modeling tools build graphically edited;
Data convert mould step: convert display data for the real-time production data of acquisition, the display data with it is described
Customized meta-model matches.
11. monitoring method according to claim 10, which is characterized in that in the preset construction step further include:
Picture uploading step: customized picture is uploaded by the preset graphical representation meta model.
12. monitoring method according to claim 9 or 10, which is characterized in that the displaying step includes:
Component shows step: by the description information of each meta-model in the corresponding component for editor of showing interface;
Component edits step: by receiving the corresponding display data of editor's information calling to the attribute of each component,
To show the production and processing information of the monitored device corresponding with the component.
13. monitoring method according to claim 12, which is characterized in that the displaying step further include:
Typing step: the customized monitoring data of typing is for displaying.
14. monitoring method according to claim 13, which is characterized in that the displaying step passes through the exhibition of WEB page form
Show the creation data of each component and the monitored device.
15. a kind of cloud MES system characterized by comprising the monitoring system as described in claim 1 to 8 any claim
System.
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