CN113641435B - Multichannel graphic output device based on computer control - Google Patents

Abstract

The invention discloses a multichannel graphic output device based on computer control, which belongs to the technical field of graphic output and comprises a drawing module, an execution module and a server, wherein the drawing module and the execution module are both in communication connection with the server, the drawing module is used for drawing a graphic, the execution module is used for printing when receiving the graphic, the server is in communication connection with an adjusting module and a target module, and the target module is used for acquiring graphic output targets of users, identifying and summarizing the user targets and sending the user targets to the adjusting module; the adjusting module is used for adjusting the graph according to the user target and outputting the adjusted graph; the pattern type is identified by directly identifying the suffix, so that the method is simple and convenient, can identify most pattern types, and is simple in computer computing power; through setting up of the target module, the target of the user is fully known, the output graph is ensured to meet the user requirement, and resource waste is avoided.

Description

Multichannel graphic output device based on computer control

Technical Field

The invention belongs to the technical field of graphic output, and particularly relates to a multi-channel graphic output device based on computer control.

Background

Graphic output is the process of converting computer-processed digital information into graphic output in computer-aided drafting. The graph includes a map or various charts, and different forms of maps or charts are obtained by using different output devices. Such as multi-color line drawings, color maps, shaded maps, grid maps, line printer symbol maps, and the like. There are generally two graphic output modes, on-line and off-line, which can output graphics on films, drawings and patterned films according to different requirements. Alternatively, the pattern may be scanned out by a laser after being displayed on a screen.

However, at present, the output graph often does not meet the requirement of the user, which is because the output target of the user is not really known, so that the output graph does not meet the requirement of the user, and resource waste and economic loss of the user are caused.

Disclosure of Invention

In order to solve the problems of the scheme, the invention provides a multichannel graphic output device based on computer control.

The aim of the invention can be achieved by the following technical scheme:

the multi-channel graphic output equipment based on computer control comprises a drawing module, an execution module and a server, wherein the drawing module and the execution module are both in communication connection with the server, the drawing module is used for drawing a graphic, the execution module is used for printing when receiving the graphic, the server is in communication connection with an adjustment module and a target module, and the target module is used for acquiring a graphic output target of a user, identifying and summarizing the user target and sending the user target to the adjustment module; the adjusting module is used for adjusting the graph according to the user target and outputting the adjusted graph;

the method for obtaining the graphic output target of the user by the target module comprises the following steps:

step SA1: obtaining a graph type needing graph output, further obtaining a drawing software model, establishing a target model, and inputting the drawing software model into the target model to obtain a target template;

step SA2: the user fills in the output target in the target template, and marks the output target as the user target.

Further, the method for obtaining the graphic type required to be output in step SA1 includes:

obtaining a graphic name, extracting a graphic suffix, setting a drawing suffix table, inputting the extracted graphic suffix into the drawing suffix table for matching, and obtaining a drawing software name;

when the drawing software name is positioned in an independent area in the drawing suffix table, obtaining a graphic type;

and when the drawing software name is positioned in the overlapped area in the drawing suffix table, acquiring a storage path of the graph, and judging the type of the graph according to the storage path.

Further, the method for setting the drawing suffix table comprises the following steps:

identifying the type of the drawing software, acquiring corresponding drawing software suffix data, comparing suffix data of different software, marking the same suffix and corresponding drawing software names, establishing a table, dividing the table into independent areas and overlapped areas, inputting unlabeled suffix data and corresponding drawing software names into the independent areas in the table, and inputting marked suffix data and corresponding drawing software names into the overlapped areas in the table; the table is marked as a drawing suffix table.

Further, the method for establishing the target model in step SA1 includes:

setting a target template according to the output parameters of drawing software, setting an intelligent model, wherein the intelligent model comprises a template library and a retrieval table, numbering the target template, storing the target template in the template library, inputting the number of the target template and the corresponding drawing software model into the retrieval table, and marking the intelligent model as a target model.

Further, the method for adjusting the graph by the adjustment module according to the user target comprises the following steps:

step SB1: acquiring a user target and a corresponding target template, and acquiring adjustment parameters of a user;

step SB2: and calling out an output parameter adjustment interface of the drawing software, inputting the adjustment parameters into corresponding positions, and outputting the graphics.

Further, in step SB2, when the graphic needs to be output as a paper version, the graphic is sent to the execution module;

when the graphic is required to be output as an image file, the process proceeds to step SB3.

Further, step SB3: setting a boundary contour according to the identified computer screen display size;

step SB4: obtaining graphic boundary coordinates, and setting a graphic frame according to the graphic boundary coordinates;

step SB5: and moving the center of the graphic frame to the center of the boundary contour, setting a line induction line inwards from the boundary contour X1 to zoom the graphic at the center of the graphic frame, stopping zooming the graphic when the line induction line generates a prompt signal, deleting the graphic frame, finishing image adjustment, and outputting the graphic.

Further, the boundary contour does not change with the change of the graph, and the graph frame is rectangular.

Compared with the prior art, the invention has the beneficial effects that: the pattern type is identified by directly identifying the suffix, so that the method is simple and convenient, can identify most pattern types, and is simple in computer computing power; through the setting of the target module, the target of the user is fully known, the output graph is ensured to meet the user requirement, and the resource waste and the economic loss of the user are avoided; through the arrangement of boundary outlines, figure frames and line induction lines, the figures can be quickly adjusted to proper positions, and the definition of the output figures is guaranteed.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a functional block diagram of the present invention.

Detailed Description

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in FIG. 1, the multi-channel graphic output device based on computer control comprises a drawing module, a target module, an adjusting module, an executing module and a server;

the drawing module is drawing software installed in a computer and used for drawing graphics, such as CAD software and Tianzheng software which are commonly used for drawing in building; widely-connected software and BIM software for building calculation; CAD software, solidWorks software, UG software, MAYA software, etc. for mechanical drawing, not only drawing software listed above;

the target module is used for acquiring a graphic output target of a user, and the specific method comprises the following steps:

step SA1: the method comprises the steps of obtaining a graph type needing graph output, namely drawing the graph type by using drawing software, obtaining a drawing software model according to the graph type, establishing a target model, and inputting the drawing software model into an obtained target template in the target model;

step SA2: the user fills in an output target in the target template, and marks the target template filled in by the user as a user target;

through the setting of the target module, the target of the user is fully known, the output graph is ensured to meet the user requirement, and the resource waste and the economic loss of the user are avoided;

the method for obtaining the graph type needing to be output in the step SA1 comprises the following steps:

the method comprises the steps of obtaining a graph name, extracting a graph suffix, wherein the suffix is a file format behind the graph name drawn by different drawing software, such as dwg, dxf and the like in CAD; setting a drawing suffix table, inputting the extracted graphic suffix into the drawing suffix table for matching to obtain a drawing software name, and obtaining a graphic type when the drawing software name is positioned in an independent area in the drawing suffix table; the pattern type is identified by directly identifying the suffix, so that the method is simple and convenient, can identify most pattern types, and is simple in computer computing power;

when the drawing software name is positioned in the overlapping area in the drawing suffix table, acquiring a storage path of the graph, and judging the type of the graph according to the storage path;

the method for setting the drawing suffix table comprises the following steps:

identifying the type of drawing software, acquiring corresponding drawing software suffix data, comparing suffix data of different software, marking drawing software with the same suffix and corresponding suffix, establishing a table, dividing the table into independent areas and overlapping areas, inputting unlabeled suffix data and corresponding drawing software names into the independent areas in the table, and inputting marked suffix data and corresponding drawing software names into the overlapping areas in the table; marking the form as a drawing suffix table;

the method for establishing the target model in the step SA1 comprises the following steps:

the method comprises the steps of obtaining the model of drawing software, and obtaining output parameters according to the model of the drawing software, wherein the output parameters are parameters which can be regulated and controlled by the drawing software when outputting images, such as: when the graph is output in CAD, parameters such as the size, the background, the scale, the image suffix and the like of the graph can be adjusted; setting a target template according to the output parameters, setting an intelligent model, wherein the intelligent model comprises a template library and a search table, numbering the target template, storing the target template in the template library, inputting the number of the target template and the corresponding drawing software model into the search table, and marking the intelligent model as a target model;

specifically, when the drawing software model is input into the target model, searching is carried out in a search table to obtain a target template number, and a target template with a corresponding number is output from a template library;

the adjusting module is used for adjusting the graph according to the user target, and the specific method comprises the following steps:

step SB1: acquiring a user target and a corresponding target template, and comparing the user target with the corresponding target template to acquire adjustment parameters of a user;

step SB2: calling out an output parameter adjustment interface of the drawing software, inputting adjustment parameters into corresponding positions, and outputting a graph;

when the graph is required to be output as a paper version, the graph is sent to an execution module;

when the graph is required to be output as an image file, entering a step SB3;

step SB3: identifying the display size of the computer screen, and setting a boundary contour according to the identified display size of the computer screen, wherein the boundary contour is not changed along with the change of the graph, or the boundary contour is always overlapped with the display contour of the computer screen;

step SB4: obtaining a graphic boundary coordinate, wherein the graphic boundary coordinate is the boundary coordinate of the outermost side of the graphic; arranging a graphic frame outside the graphic according to the graphic boundary coordinates, wherein the graphic frame is rectangular, namely arranging a rectangular frame outside the graphic according to the graphic boundary coordinates, wherein the graphic is completely in the rectangular frame, and inflection points or lines at the outermost side of the graphic are positioned on the rectangular frame and are equivalent to the inside of a circular incision and a square;

step SB5: the center of the graphic frame is moved to the center of the boundary contour, the graphic frame moves together, a line induction line is arranged inward at a distance from the boundary contour X1, X1 is a threshold value, and the threshold value is set according to actual needs, so that the situation that the graphic is located at the most boundary and the outermost line is missing and unclear is avoided, the line induction line generates a prompt signal when the line is touched to the induction line, and the line induction line is just like a small-number boundary contour; scaling the graph by the center of the graph frame, stopping scaling the graph when the line induction line generates a prompt signal, deleting the graph frame, completing image adjustment, and outputting the graph;

the patterns can be quickly adjusted to proper positions through the arrangement of the boundary outline, the pattern frame and the line induction lines, so that the definition of the output patterns is ensured;

for example, outputting CAD graphics as an image file requires ensuring the sharpness of the output image; CAD is typically standardized for on-screen display when outputting images. The image of the output image is equal to the size of the CAD graphic window, the graphics in the graphic window are output according to the display size of the screen, and the output result is irrelevant to the actual size of the graphics. In addition, a non-displayed portion of the screen cannot be output. Therefore, in order to clearly display the output image, the portion to be output should be displayed in a screen at a scale as large as possible.

The specific method is that a boundary outline is set according to the display size of a computer screen, the boundary coordinates of a graph are marked, a graph frame is arranged at the outermost side of the graph, a line induction line is arranged inwards, the center of the graph frame is moved to the center of the boundary outline, the graph is zoomed in the center of the graph frame, when the graph frame reaches the line induction line, the line induction line generates prompt information, the graph is zoomed in a proper position, the graph frame is deleted, and the graph can be output into an image file.

The execution module is used for printing when receiving the graph sent by the adjustment module, and the execution module is commonly used printing equipment connected to a computer, such as a laser printer, an ink-jet printer, a needle printer and the like.

The above formulas are all formulas with dimensions removed and numerical values calculated, the formulas are formulas which are obtained by acquiring a large amount of data and performing software simulation to obtain the closest actual situation, and preset parameters and preset thresholds in the formulas are set by a person skilled in the art according to the actual situation or are obtained by simulating a large amount of data.

The working principle of the invention is as follows: drawing a graph by using a drawing module, acquiring a graph output target of a user, acquiring a graph name, extracting a graph suffix, identifying the type of drawing software, acquiring corresponding drawing software suffix data, comparing suffix data of different software, marking the drawing software with the same suffix and the corresponding suffix, establishing a table, dividing the table into an independent area and an overlapped area, inputting unlabeled suffix data and the corresponding drawing software name into the independent area of the table, and inputting marked suffix data and the corresponding drawing software name into the overlapped area of the table; marking the table as a drawing suffix table, inputting the extracted graphic suffix into the drawing suffix table for matching to obtain a drawing software name, and obtaining a graphic type when the drawing software name is positioned in an independent area in the drawing suffix table; when the drawing software name is positioned in the overlapping area in the drawing suffix table, acquiring a storage path of the graph, and judging the type of the graph according to the storage path; the drawing software model is obtained according to the graph type, the drawing software model is obtained, the output parameter is obtained according to the drawing software model, and the output parameter is the parameter which can be regulated and controlled by the drawing software when outputting the image, for example: when the graph is output in CAD, parameters such as the size, the background, the scale, the image suffix and the like of the graph can be adjusted; setting a target template according to the output parameters, setting an intelligent model, wherein the intelligent model comprises a template library and a search table, numbering the target template, storing the target template in the template library, inputting the number of the target template and the corresponding drawing software model into the search table, and marking the intelligent model as a target model; the user fills in an output target in the target template, and marks the target template filled in by the user as a user target;

adjusting the graph according to the user target, obtaining the user target and a corresponding target template, and comparing the user target with the corresponding target template to obtain an adjustment parameter of the user; calling out an output parameter adjustment interface of the drawing software, inputting adjustment parameters into corresponding positions, and outputting a graph; when the graph is required to be output as a paper version, the graph is sent to an execution module; when the graphics need to be output as an image file, the display size of a computer screen is identified, a boundary contour is set according to the identified display size of the computer screen, the boundary contour does not change along with the change of the graphics, a graphic border is set on the outer side of the graphics according to the graphic boundary coordinate, the center of the graphic border is moved to the center of the boundary contour, a line induction line is inwards set at a distance from the boundary contour X1, the graphics are zoomed in the center of the graphic border, when a prompt signal is generated by the line induction line, the zoomed graphics are stopped, the graphic border is deleted, the image adjustment is completed, and the graphics output is performed; and printing when the graph sent by the adjustment module is received.

In the embodiments provided in the present invention, it should be understood that the disclosed apparatus, device and method may be implemented in other manners. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the modules is merely a logical function division, and there may be other manners of division when actually implemented; the modules described as separate components may or may not be physically separate, and components shown as modules may or may not be physical units, may be located in one place, or may be distributed over multiple network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the method of this embodiment.

It will also be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference signs in the claims shall not be construed as limiting the claim concerned.

Furthermore, it is evident that the word "comprising" does not exclude other elements or steps, and that the singular does not exclude a plurality. A plurality of units or means recited in the system claims can also be implemented by means of software or hardware by means of one unit or means. The terms second, etc. are used to denote a name, but not any particular order.

Finally, it should be noted that the above embodiments are only for illustrating the technical method of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical method of the present invention may be modified or substituted without departing from the spirit and scope of the technical method of the present invention.

Claims (6)

1. The multi-channel graphic output equipment based on computer control comprises a drawing module, an execution module and a server, wherein the drawing module and the execution module are both in communication connection with the server, the drawing module is used for drawing a graphic, and the execution module is used for printing when receiving the graphic; the adjusting module is used for adjusting the graph according to the user target and outputting the adjusted graph;

the method for obtaining the graphic output target of the user by the target module comprises the following steps:

step SA1: obtaining a graph type needing graph output, further obtaining a drawing software model, establishing a target model, and inputting the drawing software model into the target model to obtain a target template;

the method for establishing the target model comprises the following steps:

obtaining the model of the drawing software, and obtaining output parameters according to the model of the drawing software, wherein the output parameters are parameters which can be regulated and controlled by the drawing software when outputting images; setting a target template according to the output parameters, setting an intelligent model, wherein the intelligent model comprises a template library and a search table, numbering the target template, storing the target template in the template library, inputting the number of the target template and the corresponding drawing software model into the search table, and marking the intelligent model as a target model;

step SA2: the user fills in the output target in the target template, and marks the output target as the user target.

2. The computer-controlled multi-channel graphic output apparatus according to claim 1, wherein the method for obtaining the graphic type required for graphic output in step SA1 comprises:

obtaining a graphic name, extracting a graphic suffix, setting a drawing suffix table, inputting the extracted graphic suffix into the drawing suffix table for matching, and obtaining a drawing software name;

when the drawing software name is positioned in an independent area in the drawing suffix table, obtaining a graphic type;

and when the drawing software name is positioned in the overlapped area in the drawing suffix table, acquiring a storage path of the graph, and judging the type of the graph according to the storage path.

3. A computer-controlled multi-channel graphic output apparatus according to claim 2, wherein the method of setting the drawing suffix table comprises:

identifying the type of the drawing software, acquiring corresponding drawing software suffix data, comparing suffix data of different software, marking the same suffix and corresponding drawing software names, establishing a table, dividing the table into independent areas and overlapped areas, inputting unlabeled suffix data and corresponding drawing software names into the independent areas in the table, and inputting marked suffix data and corresponding drawing software names into the overlapped areas in the table; the table is marked as a drawing suffix table.

4. The computer-controlled multi-channel graphic output device according to claim 1, wherein the adjusting module adjusts the graphic according to the user's target by:

step SB1: acquiring a user target and a corresponding target template, and acquiring adjustment parameters of a user;

step SB2: calling out an output parameter adjustment interface of the drawing software, inputting adjustment parameters into corresponding positions, and outputting a graph;

step SB3: setting a boundary contour according to the identified computer screen display size;

step SB4: obtaining graphic boundary coordinates, and setting a graphic frame according to the graphic boundary coordinates;

step SB5: and moving the center of the graphic frame to the center of the boundary contour, setting a line induction line inwards from the boundary contour X1 to zoom the graphic at the center of the graphic frame, stopping zooming the graphic when the line induction line generates a prompt signal, deleting the graphic frame, finishing image adjustment, and outputting the graphic.

5. The computer-controlled multi-channel graphic output apparatus as claimed in claim 4, wherein the graphic is transmitted to the execution module when the graphic is required to be output as a paper version in step SB 2;

when the graphic is required to be output as an image file, the process proceeds to step SB3.

6. The computer-controlled multi-channel graphics output apparatus of claim 4, wherein the boundary contour does not change with graphics changes, and the graphics bezel is rectangular.