CN107450932B - Graphic selection processing system and method based on engraving and milling machine control system - Google Patents

Abstract

The invention relates to a graphic selection processing system based on an engraving and milling machine control system and a method thereof, wherein the graphic selection processing system displays the graphics of all parts on a processing control interface, at the moment, a user can process the selected part after selecting the related graphics, and the part is processed according to the determined part processing tool path interval corresponding to the part, so that the effect of 'what you see is what you get' is achieved, the operation is obviously simplified, the accuracy is improved, and the simultaneous selection of a plurality of parts is supported.

Description

Graphic selection processing system and method based on engraving and milling machine control system

Technical Field

The invention relates to the field of metal mold processing, in particular to the field of control of an engraving and milling machine control system, and particularly relates to a graphic selection processing system and a method thereof based on the engraving and milling machine control system.

Background

The processing tool path file used for die processing often comprises a plurality of independent parts, when an operator needs to select a certain part to process independently, a section of designated interval can be processed only by a mode of designating a start line number and a stop line number, the operation mode needs to know the tool path more comprehensively, and the interval is difficult to be accurately designated.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a graphic selection processing system and a graphic selection processing method based on an engraving and milling machine control system, which can easily and accurately specify the processing tool path file interval without comprehensively knowing the tool path.

In order to achieve the above object, the pattern selection processing system and method based on the engraving and milling machine control system of the present invention are specifically as follows:

the graphic selection processing system based on the engraving and milling machine control system is mainly characterized in that the graphic selection processing system generates the graphics of all parts included in the processing tool path file according to the loaded processing tool path file and presents the graphics in a graphic selection interface, the graphic selection interface is also included in the graphic selection processing system, the graphic selection processing system is realized based on the engraving and milling machine control system, and a user selects the parts to be processed by clicking the graphic selection interface, so that the specified parts are processed.

Preferably, the graphic of each part displayed in the graphic selection interface corresponds to a determined part machining tool path section in the machining tool path file, and the graphic selection machining system performs part machining according to the determined part machining tool path section corresponding to the graphic after the user clicks and selects the graphic of the part machined in the graphic selection interface.

Preferably, the plurality of consecutive G00 commands in the machining tool path file are a group of G00 commands, and the tool path between two groups of G00 commands is a determined part machining tool path section.

Preferably, the graphical selection interface further comprises a plurality of selection modes, which are distinguished by different operation control instructions, and the selection modes include the following:

adding and selecting: the specified part graph is always selected in an adding way;

and (3) subtracting selection: the designated part pattern is always deselected;

reverse selection: when the designated part graph is selected, the selection is cancelled, and when the designated part graph is not selected, the selection is cancelled;

and (4) deselection: and canceling all the part graphs selected currently.

The method for realizing the pattern selection processing based on the pattern selection processing system based on the engraving and milling machine control system is mainly characterized by comprising the following steps of:

and selecting the part to be processed by clicking the graphic selection interface by a user, and processing the part by the graphic selection processing system according to the graphic of the selected part.

Preferably, the graphic of each part displayed in the graphic selection interface corresponds to a determined part machining tool path section in the machining tool path file, and the graphic selection machining system performs part machining according to the determined part machining tool path section corresponding to the graphic after the user clicks and selects the graphic of the part machined in the graphic selection interface.

Preferably, the plurality of consecutive G00 commands in the machining tool path file are a group of G00 commands, the tool path between two groups of G00 commands is a determined part machining tool path section, and the pattern selection machining system judges whether the current machining command is in the determined part machining tool path section through the group of G00 commands.

Preferably, the graphic selection processing system determines whether the user selects the part graphic through the graphic selection interface, if so, the processing is performed according to the determined part processing tool path section corresponding to the selected part graphic, and if not, the graphic selection processing system processes all parts included in the part processing tool path file according to the processing tool path file.

Preferably, the graphical selection interface further comprises a plurality of selection modes, which are distinguished by different operation control instructions, and the user can perform corresponding selection operations by the following selection modes:

adding and selecting: the specified part graph is always selected in an adding way;

and (3) subtracting selection: the designated part pattern is always deselected;

reverse selection: when the designated part graph is selected, the selection is cancelled, and when the designated part graph is not selected, the selection is cancelled;

and (4) deselection: and canceling all the part graphs selected currently.

Preferably, the selection of the part to be machined by the user through the clicking graph selection interface comprises:

the user selects the selectable graphs of the processing parts in the graph selection interface through the selected operation control instruction;

and the user deselects the selected part graph through an operation control instruction of deselecting or deselecting.

The graphic selection processing system and method based on the engraving and milling machine control system aim to simplify the process of selecting parts and improve the accuracy of selection, after a user loads a tool path file, the graphics of all the parts are displayed in software, at the moment, an operator can process the selected parts after selecting related graphics through a mouse, the effect of 'what you see is what you get' can be achieved, the operation is obviously simplified, the accuracy is improved, and the multiple parts can be simultaneously selected.

Drawings

Fig. 1 is a flow chart of a pattern selection processing system based on a cnc engraving and milling machine control system according to the present invention.

Detailed Description

In order to clearly understand the technical contents of the present invention, the following embodiments are specifically illustrated.

The graphic selection processing system based on the engraving and milling machine control system generates the graphics of all parts included in the processing tool path file according to the loaded processing tool path file and presents the graphics in a graphic selection interface, the graphic selection interface is also included in the graphic selection processing system, the graphic selection processing system is realized based on the engraving and milling machine control system, and a user selects the parts to be processed by clicking the graphic selection interface, so that the specified parts are processed.

In a preferred embodiment, the graphic of each part displayed in the graphic selection interface corresponds to a determined part machining tool path section in the machining tool path file, and the graphic selection machining system performs part machining according to the determined part machining tool path section corresponding to the graphic after the user clicks and selects the graphic of the part machined in the graphic selection interface.

In a preferred embodiment, the plurality of consecutive G00 commands in the machining tool path file is a group of G00 commands, and the tool path between two groups of G00 commands is a definite part machining tool path section.

In a preferred embodiment, the graphical selection interface further includes a plurality of selection modes, which are distinguished by different operation control commands, and the selection modes include the following:

adding and selecting: the specified part graph is always selected in an adding way;

and (3) subtracting selection: the designated part pattern is always deselected;

reverse selection: when the designated part graph is selected, the selection is cancelled, and when the designated part graph is not selected, the selection is cancelled;

and (4) deselection: and canceling all the part graphs selected currently.

The method for realizing the pattern selection processing based on the pattern selection processing system based on the engraving and milling machine control system is mainly characterized by comprising the following steps of:

and selecting the part to be processed by clicking the graphic selection interface by a user, and processing the part by the graphic selection processing system according to the graphic of the selected part.

In a preferred embodiment, the graphic of each part displayed in the graphic selection interface corresponds to a determined part machining tool path section in the machining tool path file, and the graphic selection machining system performs part machining according to the determined part machining tool path section corresponding to the graphic after the user clicks and selects the graphic of the part machined in the graphic selection interface.

In a preferred embodiment, the plurality of consecutive G00 commands in the machining tool path file are a group of G00 commands, the tool path between two groups of G00 commands is a determined part machining tool path section, and the pattern selection machining system determines whether the current machining command is within the determined part machining tool path section according to the group of G00 commands.

In a preferred embodiment, the graphic selection processing system determines whether the user selects the part graphic through the graphic selection interface, if yes, the processing is performed according to the determined part processing tool path section corresponding to the selected part graphic, and if not, the graphic selection processing system processes all parts included in the part processing tool path file according to the processing tool path file.

In a preferred embodiment, the graphical selection interface further includes a plurality of selection modes, which are distinguished by different operation control instructions, and the user can perform corresponding selection operations in the following selection modes:

adding and selecting: the specified part graph is always selected in an adding way;

and (3) subtracting selection: the designated part pattern is always deselected;

reverse selection: when the designated part graph is selected, the selection is cancelled, and when the designated part graph is not selected, the selection is cancelled;

and (4) deselection: and canceling all the part graphs selected currently.

In a more preferred embodiment, the user selecting the part to be machined by clicking on the graphic selection interface comprises:

the user selects the selectable graphs of the processing parts in the graph selection interface through the selected operation control instruction;

and the user deselects the selected part graph through an operation control instruction of deselecting or deselecting.

In one embodiment, the viewing view of the part's graphics contained in the graphical selection interface maintains 10 fixed views of the current cnc engraving and milling control system (e.g., the NK500 control system). The composition principle of the part graph is as follows:

a plurality of continuous G00 commands in the machining tool path file are considered as a group of G00 commands, and the tool paths between two groups of G00 commands naturally form a part graph.

In the graphic selection processing system, by using different operation control commands, the following selection modes can be provided for the user:

(1) adding and selecting: the designated part graphic always adds a selection.

(2) And (3) subtracting selection: the designated part graphic is always deselected.

(3) Reverse selection: and if the specified part graph is selected, the selection is cancelled, and if the specified part graph is not selected, the selection is added.

(4) And (4) deselection: and canceling all the part graphs selected currently.

In one embodiment, the following mouse operation process is provided:

(1) and (4) click selection: and clicking the left key to indicate the part graph where the point is specified.

(2) Selecting frames: the left key drags out of the rectangular area, indicating that the part graphic contained entirely within the rectangle is specified.

And before each part is machined in the machining process, firstly lifting the cutter to a safe height, and then moving the cutter to a part starting point and then cutting the cutter.

Referring to fig. 1, fig. 1 is a flow chart illustrating a graphic selection processing system and a method thereof based on an engraving and milling machine control system according to an embodiment of the present invention, and it can be seen that the graphic selection processing system first generates a part graphic for a processing tool path file of a loaded die, automatically generates all part graphics in the processing tool path file according to the processing tool path file, and presents the part graphics on a graphic selection interface. And if the user does not select the part graph, the graph selection processing system processes according to the processing tool path file under the condition that the non-selected part graph is judged, and all parts contained in the processing tool path file are processed.

The graphic selection processing system and method based on the engraving and milling machine control system aim to simplify the process of selecting parts and improve the accuracy of selection, after a user loads a tool path file, the graphics of all the parts are displayed in software, at the moment, an operator can process the selected parts after selecting related graphics through a mouse, the effect of 'what you see is what you get' can be achieved, the operation is obviously simplified, the accuracy is improved, and the multiple parts can be simultaneously selected.

In this specification, the invention has been described with reference to specific embodiments thereof. It will, however, be evident that various modifications and changes may be made thereto without departing from the broader spirit and scope of the invention. The specification and drawings are, accordingly, to be regarded in an illustrative rather than a restrictive sense.

Claims (5)

1. A graphic selection processing system based on an engraving and milling machine control system is characterized in that the graphic selection processing system generates graphics of all parts included in a processing tool path file according to the loaded processing tool path file and presents the graphics in a graphic selection interface, the graphic selection interface is also included in the graphic selection processing system, the graphic selection processing system is realized based on the engraving and milling machine control system, and a user selects parts to be processed by clicking the graphic selection interface so as to process specified parts;

the graph of each part displayed in the graph selection interface corresponds to a determined part machining tool path interval in the machining tool path file, and the graph selection machining system performs part machining according to the determined part machining tool path interval corresponding to the graph after a user clicks and selects the graph of the part machined in the graph selection interface;

the graphical selection interface further comprises a plurality of selection modes which are distinguished by different operation control instructions, and the selection modes comprise the following steps:

adding and selecting: the specified part graph is always selected in an adding way;

and (3) subtracting selection: the designated part pattern is always deselected;

reverse selection: when the designated part graph is selected, the selection is cancelled, and when the designated part graph is not selected, the selection is cancelled;

and (4) deselection: canceling all currently selected part graphs;

wherein, the step of selecting the part to be processed by the user through the click graph selection interface comprises the following steps:

the user selects the selectable graphs of the processing parts in the graph selection interface through the selected operation control instruction;

and the user deselects the selected part graph through an operation control instruction of deselecting or deselecting.

2. The engraving and milling machine control system based graphic selection processing system of claim 1, wherein the plurality of consecutive G00 commands in the processing tool path file are a group of G00 commands, and the tool path between two groups of G00 commands is a definite part processing tool path section.

3. A method for realizing pattern selection processing based on the pattern selection processing system based on the engraving and milling machine control system as claimed in claim 1 or 2, characterized in that the method comprises the following steps:

the user selects the part to be processed by clicking the graphic selection interface, and the graphic selection processing system processes the part according to the graphic of the selected part;

the graph of each part displayed in the graph selection interface corresponds to a determined part machining tool path interval in the machining tool path file, and the graph selection machining system conducts part machining according to the determined part machining tool path interval corresponding to the graph after a user clicks and selects the graph of the part machined in the graph selection interface.

4. The method of claim 3, wherein the plurality of consecutive G00 commands in the processing tool path file are a group of G00 commands, the tool path between two groups of G00 commands is a determined part processing tool path section, and the graphic selection processing system determines whether the current processing command is in the determined part processing tool path section according to the group of G00 commands.

5. The method for realizing the selective processing of the figures by the figure selective processing system based on the engraving and milling machine control system as claimed in claim 3, wherein the figure selective processing system judges whether a user selects a part figure through the figure selective interface, if so, the processing is carried out according to a determined part processing tool path section corresponding to the selected part figure, and if not, the figure selective processing system processes all the parts contained in the figure selective processing system according to a processing tool path file.

Images