CN105373021A - Control method for intelligent manufacturing interface program system - Google Patents

Abstract

The invention discloses a control method for an intelligent manufacturing interface program system. S0, a first module program sends a request signal; S1, the signal is sent to a first module interface program; S2, signal data are stored in a transfer database; S3, the signal data are extracted and judged, if the signal data are transmitted to equipment, S4 is carried out, and if the signal data are transmitted to a third module, S7 is carried out; S4, the signal data are transmitted to a monitoring signal directory of a second module interface program; S5, the signal data are transmitted to a second module program, and a reply is waited; S6, after the reply, the signal is replied to the second module interface program; S7, the signal data are transmitted to a monitoring signal directory of a third module interface program; S8, the signal data are transmitted to a third module program; and S9, after the reply, the signal is replied to a third module equipment interface program. The transmission efficiency is high, stability is high, and the maintenance cost is low.

Description

The control method of intelligence manufacture interface routine system

Technical field

The present invention relates to intelligence manufacture field, specifically a kind of control method of intelligence manufacture interface routine system.

Background technology

Under the background of industry 4.0, manufacturing is not merely to automation direction development, but to intelligent, information-based future development.Traditional automatic production line, due to data transmission fault or the reason such as not in time, may cause and produce a large amount of defective productss, reduce the yields of producing line, and reduce the profit of enterprise; In addition cause the reason of the appearance of defective products to be do not carry out the management of system, company manager cannot improve timely and review.

Therefore, be necessary to provide a kind of control method of novel intelligence manufacture interface routine system to solve the problems referred to above.

Summary of the invention

The object of this invention is to provide the control method of the intelligence manufacture interface routine system that a kind of transfer efficiency is high, stability is high.

The present invention is achieved through the following technical solutions above-mentioned purpose:

The control method of intelligence manufacture interface routine system, comprises the following steps:

S0: the first modular program sends request signal;

S1: signal is sent to the first module interface program;

S2: signal data is stored in interim data storehouse;

S3: extract signal data, and judge whether to need to pass to the second module or the 3rd module; Judged result is that signal data passes to equipment, then carry out step S4; Judged result is that signal data passes to the 3rd module, then carry out step S7;

S4: signal data is delivered in the pilot signal catalogue of the second module interface program;

S5: signal data is delivered to the second modular program, AR awaiting reply;

S6: after answer, signal replies to the second module interface program;

S7: signal data is delivered in the pilot signal catalogue of the 3rd module interface program;

S8: signal data is delivered to the 3rd modular program;

S9: after answer, signal replies to the 3rd module device interface routine.

Further, described first module, described second module and described 3rd module are respectively one in equipment, MES and display terminal, described equipment, described MES and described display terminal are built-in with device program, MES program and display terminal program respectively, and described device program, described MES program and described display terminal program are connected with equipment interface program, MES interface routine, display terminal interface routine signal respectively.

Further, signal transmission is carried out by SingalR mode between described display terminal program and described display terminal interface routine.

Further, signal transmission is carried out by Socket mode between described device program and described equipment interface program.

Further, signal transmission is carried out by WebService mode between described MES program and described MES interface routine.

Further, the pilot signal catalogue for receiving file is equipped with in described MES interface routine, described display terminal interface routine and described equipment interface program.

Further, the title of described file comprises the command information of request of data and the time of request command.

Further, the content of described file comprises product ID, device name and equipment and to miss the stop result.

Further, described display terminal comprises display terminal and mobile phone.

Compared with prior art, the beneficial effect of the control method of intelligence manufacture interface routine system of the present invention is: by developing an interface routine for each data source, between routine interface, data are transmitted by agreement file layout by the mode of efficient stable, improve production data transfer efficiency and stability, when an interface has sent out change, whole program only needs the part revised and this interface docks, other two interfaces do not need amendment, when problem has appearred in a program, also can not affect other two programs, reduce maintenance cost.

Accompanying drawing explanation

Fig. 1 is structured flowchart of the present invention.

Fig. 2 is the control method process flow diagram that equipment sends request signal.

Fig. 3 is the control method process flow diagram that MES sends request signal.

Fig. 4 is the control method process flow diagram that display terminal sends request signal.

Embodiment

Refer to Fig. 1, intelligence manufacture interface routine system, comprise MES (production information management system), equipment and display terminal, MES is built-in with MES program, equipment is built-in with device program, and display terminal is built-in with display terminal program, and MES program is connected with MES interface routine signal, device program is connected with equipment interface program singal, and display terminal program is connected with display terminal interface routine signal.

Refer to Fig. 2, when equipment sends request signal, system control method is:

Step S10, equipment send request signal by device program;

Wherein, when a device fabrication request signal, this signal is equipment collection or manual entry.This information is generally kept in the buffer area of equipment in a text form.

Step S11, device program send signal to equipment interface program;

Wherein device program sends this signal to equipment interface program in Socket mode, then processes this information.

Step S12, by signal data stored in interim data storehouse;

Wherein, signal data is kept in Oracle interim data storehouse.

Step S13, the signal data extracted in interim data storehouse, and judge whether to need to pass to MES or display terminal;

Wherein, display terminal be billboard, mobile phone or other there is the equipment of Presentation Function.

If the judged result of step S13 is signal data pass to MES, then carry out step S14.

Step S14, signal data is delivered in the pilot signal catalogue of MES interface routine;

Wherein, the filename of generation contains the command information of request of data and the timestamp of request command, occurs, as LotSNRequest_20151020131020.data to prevent the data of repetition.The file content produced then includes the details of solicited message, as product ID, and device name, equipment misses the stop result etc., as Line_code=AL9; Eq=EQ001, Lot=Lot01; Qty=2.

Signal data is delivered to MES program, AR awaiting reply by step S15, MES interface routine;

Wherein, MES interface routine leads to FileWatcher technology, monitor new information in real time and need process, by file monitor time controling at Millisecond, then read signal file to analyze, command request type is parsed, so that select should with any programmed logic to process this message file by filename.Then the content of then file reading.And transmit MES with the information format of specifying, wait for the answer of MES.

Signal is replied to MES interface routine after replying by step S16, MES program;

Wherein, MES interface routine receives signal in WebService mode, then processes this information, is kept in Oracle interim data storehouse.

If the judged result of step S13 is signal data pass to display terminal, then carry out step S17.

Step S17, signal data is delivered in the pilot signal catalogue of display terminal interface routine;

Wherein, the filename of generation contains the command information of request of data and the timestamp of request command, occurs, as LotSNRequest_20151020131020.data to prevent the data of repetition.The file content produced then includes the details of solicited message, as product ID, and device name, equipment misses the stop result etc., as Line_code=AL9; Eq=EQ001, Lot=Lot01; Qty=2.

Signal data is delivered to display terminal program, AR awaiting reply by step S18, display terminal interface routine;

Wherein, display terminal interface routine lead to FileWatcher technology monitor new information need process, then read signal file to analyze, command request type is parsed by filename, to select process this message file with any programmed logic, then the content of then file reading, and send terminal device with the information format of specifying to by SingleR mode, wait for the answer of terminal device.

After step S19, display terminal's program reply, signal is replied to terminal device interface program;

Wherein, terminal device interface program receives signal in SingleR mode, then processes this information, is kept in Oracle interim data storehouse.

Refer to Fig. 3, when MES sends request signal, system control method is:

Step S20, MES send request signal by MES program;

Step S21, MES program send signal to MES interface routine;

Wherein MES program sends this signal to MES interface routine in WebService mode, then processes this information.

Step S22, by signal data stored in interim data storehouse;

Wherein, signal data is kept in Oracle interim data storehouse.

Step S23, the signal data extracted in interim data storehouse, and judge whether to need equipment of passing to or display terminal;

Wherein, display terminal be billboard, mobile phone or other there is the equipment of Presentation Function.

If the judged result of step S23 is signal data pass to equipment, then carry out step S24.

Step S24, signal data is delivered in the pilot signal catalogue of equipment interface program;

Wherein, the filename of generation contains the command information of request of data and the timestamp of request command, occurs, as LotSNRequest_20151020131020.data to prevent the data of repetition.The file content produced then includes the details of solicited message, as product ID, and device name, equipment misses the stop result etc., as Line_code=AL9; Eq=EQ001, Lot=Lot01; Qty=2.

Signal data is delivered to device program, AR awaiting reply by step S25, equipment interface program;

Wherein, signal data is delivered to device program by Socket mode by equipment interface program.

Signal is replied to equipment interface program after replying by step S26, device program;

Wherein, equipment interface program receives signal in Socket mode, then processes this information, is kept in Oracle interim data storehouse.

If the judged result of step S23 is signal data pass to display terminal, then carry out step S27.

Step S27, signal data is delivered in the pilot signal catalogue of display terminal interface routine;

Wherein, the filename of generation contains the command information of request of data and the timestamp of request command, occurs, as LotSNRequest_20151020131020.data to prevent the data of repetition.The file content produced then includes the details of solicited message, as product ID, and device name, equipment misses the stop result etc., as Line_code=AL9; Eq=EQ001, Lot=Lot01; Qty=2.

Signal data is delivered to display terminal program, AR awaiting reply by step S28, display terminal interface routine;

Wherein, display terminal interface routine lead to FileWatcher technology monitor new information need process, then read signal file to analyze, command request type is parsed by filename, to select process this message file with any programmed logic, then the content of then file reading, and send terminal device with the information format of specifying to by SingleR mode, wait for the answer of terminal device.

After step S29, display terminal's program reply, signal is replied to terminal device interface program;

Wherein, terminal device interface program receives signal in SingleR mode, then processes this information, is kept in Oracle interim data storehouse.

Refer to Fig. 4, when display terminal sends request signal, system control method is:

Step S30, display terminal send request signal by display terminal program;

Wherein, display terminal be billboard, mobile phone or other there is the equipment of Presentation Function.

Step S31, display terminal program send signal to display terminal interface routine;

Wherein device program sends this signal to equipment interface program in SingleR mode, then processes this information.

Step S32, by signal data stored in interim data storehouse;

Wherein, signal data is kept in Oracle interim data storehouse.

Step S33, the signal data extracted in interim data storehouse, and judge whether to need equipment of passing to or MES;

If the judged result of step S33 is signal data pass to equipment, then carry out step S34.

Step S34, signal data is delivered in the pilot signal catalogue of equipment interface program;

Wherein, the filename of generation contains the command information of request of data and the timestamp of request command, occurs, as LotSNRequest_20151020131020.data to prevent the data of repetition.The file content produced then includes the details of solicited message, as product ID, and device name, equipment misses the stop result etc., as Line_code=AL9; Eq=EQ001, Lot=Lot01; Qty=2.

Signal data is delivered to device program, AR awaiting reply by step S35, equipment interface program;

Wherein, signal data is delivered to device program by Socket mode by equipment interface program.

Signal is replied to equipment interface program after replying by step S36, device program;

Wherein, equipment interface program receives signal in Socket mode, then processes this information, is kept in Oracle interim data storehouse.

If the judged result of step S33 is signal data pass to MES, then carry out step S37.

Step S37, signal data is delivered in the pilot signal catalogue of MES interface routine;

Wherein, the filename of generation contains the command information of request of data and the timestamp of request command, occurs, as LotSNRequest_20151020131020.data to prevent the data of repetition.The file content produced then includes the details of solicited message, as product ID, and device name, equipment misses the stop result etc., as Line_code=AL9; Eq=EQ001, Lot=Lot01; Qty=2.

Signal data is delivered to MES program, AR awaiting reply by step S38, MES interface routine;

Wherein, MES interface routine leads to FileWatcher technology, monitor new information in real time and need process, by file monitor time controling at Millisecond, then read signal file to analyze, command request type is parsed, so that select should with any programmed logic to process this message file by filename.Then the content of then file reading.And transmit MES with the information format of specifying, wait for the answer of MES.

Signal is replied to MES interface routine after replying by step S39, MES program;

Wherein, MES interface routine receives signal in WebService mode, then processes this information, is kept in Oracle interim data storehouse.

The production data of the control method of intelligence manufacture interface routine system can pass to MES in real time, production line is at any time in the information that monitoring MES sends back, feed back to production line timely again, perform assigned operation, display terminal can show the condition of production of production line timely, and display terminal can show the signal that MES sends timely.Such design advantage is just the reduction of the coupling between system.The interface provided as one of them MES has sent out change, and whole program only needs the part revised and MES docks, and other two interfaces do not need amendment.Which also improves the efficiency of exploitation.If in process of production, there is problem in a program, also can not affect other two programs, according to the file record that centre is mutual, also easily looks for segmentation to find the reason of problem.

Above-described is only some embodiments of the present invention.For the person of ordinary skill of the art, without departing from the concept of the premise of the invention, can also make some distortion and improvement, these all belong to protection scope of the present invention.

Claims (9)

1. the control method of intelligence manufacture interface routine system, is characterized in that: comprise the following steps:

S0: the first modular program sends request signal;

S1: signal is sent to the first module interface program;

S2: signal data is stored in interim data storehouse;

S3: extract signal data, and judge whether to need to pass to the second module or the 3rd module; Judged result is that signal data passes to equipment, then carry out step S4; Judged result is that signal data passes to the 3rd module, then carry out step S7;

S4: signal data is delivered in the pilot signal catalogue of the second module interface program;

S5: signal data is delivered to the second modular program, AR awaiting reply;

S6: after answer, signal replies to the second module interface program;

S7: signal data is delivered in the pilot signal catalogue of the 3rd module interface program;

S8: signal data is delivered to the 3rd modular program;

S9: after answer, signal replies to the 3rd module device interface routine.

2. the control method of intelligence manufacture interface routine system according to claim 1, it is characterized in that: described first module, described second module and described 3rd module are respectively one in equipment, MES and display terminal, described equipment, described MES and described display terminal are built-in with device program, MES program and display terminal program respectively, and described device program, described MES program and described display terminal program are connected with equipment interface program, MES interface routine, display terminal interface routine signal respectively.

3. the control method of intelligence manufacture interface routine system according to claim 2, is characterized in that: carry out signal transmission by SingalR mode between described display terminal program and described display terminal interface routine.

4. the control method of intelligence manufacture interface routine system according to claim 2, is characterized in that: carry out signal transmission by Socket mode between described device program and described equipment interface program.

5. the control method of intelligence manufacture interface routine system according to claim 2, is characterized in that: carry out signal transmission by WebService mode between described MES program and described MES interface routine.

6. the control method of intelligence manufacture interface routine system according to claim 2, is characterized in that: be equipped with the pilot signal catalogue for receiving file in described MES interface routine, described display terminal interface routine and described equipment interface program.

7. the control method of intelligence manufacture interface routine system according to claim 6, is characterized in that: the title of described file comprises the command information of request of data and the time of request command.

8. the control method of intelligence manufacture interface routine system according to claim 6, is characterized in that: the content of described file comprises product ID, device name and equipment and to miss the stop result.

9. the control method of intelligence manufacture interface routine system according to claim 2, is characterized in that: described display terminal comprises display terminal and mobile phone.