CN102023609A - Post processor dedicated for digital control circular engravure machine and processing method of post processor - Google Patents

Abstract

The invention discloses a post processor dedicated for a digital control circular engravure machine, relating to a post processor and a processing method. The post processor comprises computer program software used for processing a G-code program file. The program software comprises functional modules working according to the following sequence: a module capable of putting a G-code program file required to complie into a storage, a module which complies the G-code program file and puts the complied G-code program file into the storage, a module which reads the complied G-code program file from the storage, a module which carries out conversion format processing on the G-code program file, a module which carries out data processing on the G-code program file, a module which carries out optimized processing on the G-code program file and a module which outputs the G-code program file. The rotation axis of a machine tool of which the triaxial digital control circular engravure machine is the Y axis and the rotation axis of a machine tool of which the four-axis digital control circular engravure machine is the A axis can be converted and automatically optimized without re-defining each rotation axis, thus achieving the effect on saving time and improving working efficiency and machining accuracy.

Description

Special-purpose post processor of a kind of numerical control circular engravure machine and disposal route thereof

Technical field

The present invention relates to a kind of post processor and disposal route thereof, the post processor and the disposal route thereof of the G code program file conversion in particularly a kind of numerical control circular engravure machine machine tool motion axle between the turning axle.

Background technology

Existing numerical control circular engravure machine lathe is generally three to five, because each turning axle difference of lathe of the different number of axle, run into by three lathes to gang tool use the G code program file or by gang tool when three lathes use the G code program file, need repeatedly in the middle of general post processor, to require each turning axle is redefined, generate new G code program file, offering lathe uses, and the G code program file that redefines by general post processor does not have through optimization process, during manufacturing cost, efficient obviously descends, and machining precision also can not get guaranteeing.

Summary of the invention

The objective of the invention is specially provides a kind of numerical control circular engravure machine special use post processor at the defective that three-axis numerical control circular engravure machine turning axle needs repeatedly in the middle of general post processor requirement that each turning axle is redefined for Y-axis and four-shaft numerically controlled circular engravure machine turning axle for two kinds of lathes of A axle owing to turning axle is different and the G code program file does not have optimization.

The technical scheme that the present invention adopts for achieving the above object is: the special-purpose post processor of a kind of numerical control circular engravure machine, the special-purpose post processor of this numerical control circular engravure machine comprises the computer software that is used to handle by lathe turning axle feature and workpiece processing operation generation G code program file, described program software comprises the functional module of working in the following order: the module that the G code program file of required compiling is put into storer, compile described G code program file and will be put into the module of storer through the G code program file of compiling, read the module of described G code program file through compiling from storer, the G code program file is carried out the module that transition form is handled, the G code program file is carried out the module of data processing, to the module of G code program file optimization process, the module of output G code program file.

Further technical scheme of the present invention is: the described module that the G code program file is carried out data processing comprises: three-axis numerical control circular engravure machine turning axle is that Y-axis module and four-shaft numerically controlled circular engravure machine turning axle that to be converted to four-shaft numerically controlled circular engravure machine turning axle be the A axle are the module of Y-axis for the A axle is converted to three-axis numerical control circular engravure machine turning axle, the special-purpose post processor of described numerical control circular engravure machine comprises three described modules to the optimization process of G code program file, wherein to be nested in three-axis numerical control circular engravure machine turning axle respectively be that Y-axis module and four-shaft numerically controlled circular engravure machine turning axle that to be converted to four-shaft numerically controlled circular engravure machine turning axle be the A axle are in the module of Y-axis for the A axle is converted to three-axis numerical control circular engravure machine turning axle for two modules to the optimization process of G code program file, and another module to the optimization process of G code program file is provided with separately.

The special-purpose post processor of numerical control circular engravure machine of the present invention is because to be provided with three-axis numerical control circular engravure machine turning axle be that to be converted to four-shaft numerically controlled circular engravure machine turning axle be the module of A axle to Y-axis, four-shaft numerically controlled circular engravure machine turning axle is the module of Y-axis for the A axle is converted to three-axis numerical control circular engravure machine turning axle, module to the optimization process of G code program file, making need not between two kinds of lathes (three-axis numerical control circular engravure machine turning axle is that Y-axis and four-shaft numerically controlled circular engravure machine turning axle are two kinds of lathes of A axle) turning axle redefine each turning axle just can freely change and optimize voluntarily, saved the unnecessary time, reach the purpose of increasing work efficiency, can also the G code program file that these two kinds of lathes were handled by general post processor be optimized simultaneously, make the G code program file after handling more meet the use of numerical control circular engravure machine system, reach the purpose that improves machining precision.

Another object of the present invention is specially owing to turning axle different to need repeatedly general post processor in the middle of requirement that each turning axle redefined for Y-axis and four-shaft numerically controlled circular engravure machine turning axle for two kinds of lathes of A axle at three-axis numerical control circular engravure machine turning axle and defective that the G code program file does not have optimization provides a kind of numerical control circular engravure machine special use rearmounted disposal route.

The technical scheme that the present invention adopts for achieving the above object is: a kind of disposal route as above-mentioned post processor, generate the G code program file by lathe turning axle feature and workpiece processing operation, computing machine is handled the G code program file by carrying out based on the program of order, and it comprises following treatment step: the step that the G code program file of required compiling is put into storer; Compile described G code program file and will be put into the step of storer through the G code program file of compiling; Read the step of described G code program file through compiling from storer; The G code program file is carried out the step that transition form is handled; If do not need the G code program file is carried out data processing, then directly enter step to the optimization process of G code program file, if need carry out data processing to the G code program file, then also comprise the step of the G code program file being carried out data processing, enter step afterwards again the optimization process of G code program file; The step of output G code program file.

Further technical scheme of the present invention is: if the G code program file is a three-axis numerical control circular engravure machine turning axle is that the G code program file of Y-axis is need be converted to four-shaft numerically controlled circular engravure machine turning axle and be the G code program file of A axle the time, the described step that the G code program file is carried out data processing is that three-axis numerical control circular engravure machine turning axle is that to be converted to four-shaft numerically controlled circular engravure machine turning axle be the step of A axle to Y-axis, if the G code program file is a G code program file that four-shaft numerically controlled circular engravure machine turning axle is the A axle need be converted to three-axis numerical control circular engravure machine turning axle and be the G code program file of Y-axis the time, the described step that the G code program file is carried out data processing is that four-shaft numerically controlled circular engravure machine turning axle is the step of Y-axis for the A axle is converted to three-axis numerical control circular engravure machine turning axle.

The special-purpose rearmounted disposal route of numerical control circular engravure machine of the present invention is because to be provided with three-axis numerical control circular engravure machine turning axle be that Y-axis step or four-shaft numerically controlled circular engravure machine turning axle that to be converted to four-shaft numerically controlled circular engravure machine turning axle be the A axle are the step of Y-axis for the A axle is converted to three-axis numerical control circular engravure machine turning axle, reach step to the optimization process of G code program file, making need not between two kinds of lathes (three-axis numerical control circular engravure machine turning axle is that Y-axis and four-shaft numerically controlled circular engravure machine turning axle are two kinds of lathes of A axle) turning axle redefine each turning axle just can freely change and optimize voluntarily, saved the unnecessary time, reach the purpose of increasing work efficiency, can also the G code program file that these two kinds of lathes were handled by general post processor be optimized simultaneously, make the G code program file after handling more meet the use of numerical control circular engravure machine system, reach the purpose that improves machining precision.

Below in conjunction with drawings and Examples special-purpose post processor of numerical control circular engravure machine of the present invention and disposal route thereof are further described.

Description of drawings

Fig. 1 is the structured flowchart of the special-purpose post processor of numerical control circular engravure machine of the present invention.

Fig. 2 is the structured flowchart that in the special-purpose post processor of numerical control circular engravure machine of the present invention the G code program file is carried out the module of data processing.

Fig. 3 is the process flow diagram of the special-purpose rearmounted disposal route of numerical control circular engravure machine of the present invention.

Embodiment

As Fig. 1, shown in Figure 2, the special-purpose post processor of numerical control circular engravure machine of the present invention, the special-purpose post processor of this numerical control circular engravure machine comprises the computer software that is used to handle by lathe turning axle feature and workpiece processing operation generation G code program file, described program software comprises the functional module of working in the following order: the module 1 that the G code program file of required compiling is put into storer, compile described G code program file and will be put into the module 2 of storer through the G code program file of compiling, read the module 3 of described G code program file through compiling from storer, the G code program file is carried out the module 4 that transition form is handled, the G code program file is carried out the module 5 of data processing, to the module of G code program file optimization process, the module 7 of output G code program file.

Wherein the G code program file being carried out the module 5 that data process comprises: three-axis numerical control circular engravure machine rotating shaft is that Y-axis module 8 and four-shaft numerically controlled circular engravure machine rotating shaft that to be converted to four-shaft numerically controlled circular engravure machine rotating shaft be the A axle are the module 9 of Y-axis for the A axle is converted to three-axis numerical control circular engravure machine rotating shaft; Three-axis numerical control circular engravure machine rotating shaft is that the Y-axis module 8 that to be converted to four-shaft numerically controlled circular engravure machine rotating shaft be the A axle can be the G code program file of the Y-axis G code program file that to be converted to four-shaft numerically controlled circular engravure machine rotating shaft be the A axle with three-axis numerical control circular engravure machine rotating shaft, and four-shaft numerically controlled circular engravure machine rotating shaft is that the G code program file that four-shaft numerically controlled circular engravure machine rotating shaft is the A axle can be converted to three-axis numerical control circular engravure machine rotating shaft be the G code program file of Y-axis for the module 9 of Y-axis for the A axle is converted to three-axis numerical control circular engravure machine rotating shaft.

The special-purpose post processor of described numerical control circular engravure machine comprises three described modules to the optimization process of G code program file, wherein to be nested in three-axis numerical control circular engravure machine turning axle respectively be that Y-axis module 8 and four-shaft numerically controlled circular engravure machine turning axle that to be converted to four-shaft numerically controlled circular engravure machine turning axle be the A axle are in the module 9 of Y-axis for the A axle is converted to three-axis numerical control circular engravure machine turning axle for two modules 62,63 to the optimization process of G code program file, and another module 61 to the optimization process of G code program file is provided with separately.

But be nested in three-axis numerical control circular engravure machine turning axle and be Y-axis module that to be converted to four-shaft numerically controlled circular engravure machine turning axle be the A axle and four-shaft numerically controlled circular engravure machine turning axle and be converted to the newly-generated G code program file of module 62,63 Automatic Optimal in the module that three-axis numerical control circular engravure machine turning axle is a Y-axis the optimization process of G code program file for the A axle.The module 61 to the optimization process of G code program file that is provided with separately can be optimized the G code program file of handling (need not carry out data processing again) at general post processor, makes it meet affiliated numerical control circular engravure machine operational mode.

As shown in Figure 3, a kind of disposal route of the present invention as above-mentioned post processor, generate the G code program file by lathe turning axle feature and workpiece processing operation, computing machine is handled the G code program file by carrying out based on the program of order, and it comprises following treatment step: the step B1 that the G code program file of required compiling is put into storer; Compile described G code program file and will be put into the step B2 of storer through the G code program file of compiling; Read the step B3 of described G code program file through compiling from storer; The G code program file is carried out the step B4 that transition form is handled; If do not need the G code program file is carried out data processing, then directly enter step B51 to the optimization process of G code program file, if need carry out data processing to the G code program file, then also comprise the step of the G code program file being carried out data processing, enter step B53, B55 afterwards again the optimization process of G code program file.

If the G code program file is a three-axis numerical control circular engravure machine turning axle is that the G code program file of Y-axis is need be converted to four-shaft numerically controlled circular engravure machine turning axle and be the G code program file of A axle the time, the described step that the G code program file is carried out data processing be three-axis numerical control circular engravure machine turning axle be Y-axis to be converted to four-shaft numerically controlled circular engravure machine turning axle be the step B52 of A axle, finish the step B53 that enters again after this step the optimization process of G code program file.If the G code program file is a G code program file that four-shaft numerically controlled circular engravure machine turning axle is the A axle need be converted to three-axis numerical control circular engravure machine turning axle and be the G code program file of Y-axis the time, the described step that the G code program file is carried out data processing is that four-shaft numerically controlled circular engravure machine turning axle is the step B54 of Y-axis for the A axle is converted to three-axis numerical control circular engravure machine turning axle, finishes the step B55 that enters again after this step the optimization process of G code program file.Enter the step B6 that exports the G code program file again after finishing step (B51 or B53 or B55) to the optimization process of G code program file.Finishing behind the output G code program file is the end process step.

Claims (4)

1. the special-purpose post processor of a numerical control circular engravure machine, the special-purpose post processor of this numerical control circular engravure machine comprises the computer software that is used to handle by lathe turning axle feature and workpiece processing operation generation G code program file, it is characterized in that, described program software comprises the functional module of working in the following order: the module that the G code program file of required compiling is put into storer, compile described G code program file and will be put into the module of storer through the G code program file of compiling, read the module of described G code program file through compiling from storer, the G code program file is carried out the module that transition form is handled, the G code program file is carried out the module of data processing, to the module of G code program file optimization process, the module of output G code program file.

2. the special-purpose post processor of numerical control circular engravure machine as claimed in claim 1, it is characterized in that, the described module that the G code program file is carried out data processing comprises: three-axis numerical control circular engravure machine turning axle is that Y-axis module and four-shaft numerically controlled circular engravure machine turning axle that to be converted to four-shaft numerically controlled circular engravure machine turning axle be the A axle are the module of Y-axis for the A axle is converted to three-axis numerical control circular engravure machine turning axle, the special-purpose post processor of described numerical control circular engravure machine comprises three described modules to the optimization process of G code program file, wherein to be nested in three-axis numerical control circular engravure machine turning axle respectively be that Y-axis module and four-shaft numerically controlled circular engravure machine turning axle that to be converted to four-shaft numerically controlled circular engravure machine turning axle be the A axle are in the module of Y-axis for the A axle is converted to three-axis numerical control circular engravure machine turning axle for two modules to the optimization process of G code program file, and another module to the optimization process of G code program file is provided with separately.

3. disposal route of post processor according to claim 1, generate the G code program file by lathe turning axle feature and workpiece processing operation, computing machine is handled the G code program file by carrying out based on the program of order, it is characterized in that comprising following treatment step:

The G code program file of required compiling is put into the step of storer;

Compile described G code program file and will be put into the step of storer through the G code program file of compiling;

Read the step of described G code program file through compiling from storer;

The G code program file is carried out the step that transition form is handled;

If do not need the G code program file is carried out data processing, then directly enter step to the optimization process of G code program file, if need carry out data processing to the G code program file, then also comprise the step of the G code program file being carried out data processing, enter step afterwards again the optimization process of G code program file;

The step of output G code program file.

4. the special-purpose rearmounted disposal route of numerical control circular engravure machine as claimed in claim 3, it is characterized in that, if the G code program file is a three-axis numerical control circular engravure machine turning axle is that the G code program file of Y-axis is need be converted to four-shaft numerically controlled circular engravure machine turning axle and be the G code program file of A axle the time, the described step that the G code program file is carried out data processing is that three-axis numerical control circular engravure machine turning axle is that to be converted to four-shaft numerically controlled circular engravure machine turning axle be the step of A axle to Y-axis, if the G code program file is a G code program file that four-shaft numerically controlled circular engravure machine turning axle is the A axle need be converted to three-axis numerical control circular engravure machine turning axle and be the G code program file of Y-axis the time, the described step that the G code program file is carried out data processing is that four-shaft numerically controlled circular engravure machine turning axle is the step of Y-axis for the A axle is converted to three-axis numerical control circular engravure machine turning axle.

Images