CN110428479A - A kind of Solid works two-dimensional engineering graphic size marking error correction self-adapting regulation method - Google Patents
A kind of Solid works two-dimensional engineering graphic size marking error correction self-adapting regulation method Download PDFInfo
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Abstract
The invention discloses size marking error correction self-adapting regulation method in a kind of Solid works two-dimensional engineering graphic, steps are as follows: 1) obtains view object;2) judge whether the amount of size in active view sized objects is empty;3) midpoint coordinates of active view, the angle steel joint coordinate of view envelope frame are obtained;4) annotation, start arrow and the terminal arrow coordinate of view dimensioning mark text are obtained;5) classified according to the arrow coordinate pair size of size marking, be divided into horizontal size, vertical size, other sizes;6) according to midpoint coordinates and angle steel joint coordinate, horizontal size and vertical size are layered and are adjusted;7) checking interference is carried out to all size markings;8) other sizes of interference are adaptively adjusted.The method achieve being laid out again to size marking in two-dimensional engineering graphic and the adjustment of spacing specification, in the two-dimensional engineering graphic quickly generated after effective solution Variant Design the problem of size marking location conflicts, facilitate the standardization of drawing.
Description
Technical field
The present invention relates to Two-dimensional Engineering graphics fields, and in particular to size mark in a kind of Solid works two-dimensional engineering graphic
Infuse error correction self-adapting regulation method.
Background technique
In recent years, in mechanical design field, although threedimensional model design method obtains increasingly extensive application, Two-dimensional Engineering
Drawing is still the final output of enterprise product design and the important evidence of production and processing, and the surface that two-dimensional engineering graphic can express is thick
The markup informations such as rugosity, geometric tolerance, cooperation and dimensional tolerance be threedimensional model it is beyond expression of words and mark.
Currently, enterprise is when carrying out product design, often or using three-dimensional modeling and two dimension due to technical
Engineering drawing and the mode deposited.In two-dimensional engineering graphic is manually drawn, the spacing between dimension line can not be controlled with high accuracy,
So that the spacing between dimension line is unequal, cause the two-dimensional engineering graphic drawing generated lack of standardization.On the other hand, in order to fast
Speed obtains the two-dimensional engineering graphic for meeting production requirement, improves engineering drafting efficiency, parameterize the method quickly designed and
Theory has become the hot spot of present CAD research, but currently based on the engineering drawing of parameterized model driving generation, model parameter
After change, in terms of size marking, it may appear that there is interference, overlapping, the unequal problem of spacing between dimension line.
As shown in figure 8, the following point occurred in artificial draw or when parametrization quickly generates:
1. unjustified between dimension line;
2. occurring overlying interference between dimension line;
3. spacing is unequal between dimension line;
4. size marking and contours superimposed are interfered.
Summary of the invention
Purpose of the present invention overcome the deficiencies in the prior art, and a kind of Solid works two-dimensional engineering graphic size mark is provided
Error correction self-adapting regulation method is infused, this method readjusts layout to horizontal size in two-dimensional engineering graphic and vertical size position,
And checking interference is carried out to all size markings, other sizes of interference are micro-adjusted, until all size markings are no longer
Interference realizes that the error correction of two-dimensional engineering graphic size marking adaptively adjusts.
Realizing the technical solution of the object of the invention is:
A kind of Solid works two-dimensional engineering graphic size marking error correction self-adapting regulation method, includes the following steps:
1) view object is obtained in Solid works, judges whether view is sky, if it is empty, then terminates, obtains again
It takes;If non-empty, active view object is obtained;
2) judge whether the amount of size in active view sized objects is sky, if it is empty, then obtains next view pair
As re-executeing the steps 1);If non-empty continues to execute step 3);
3) midpoint coordinates of active view, the angle steel joint coordinate of view envelope frame are obtained;
4) annotation coordinate, start arrow coordinate and the terminal arrow coordinate of view dimensioning mark text are obtained;
5) classified according to the arrow coordinate pair size of size marking, be divided into horizontal size, vertical size, other rulers
It is very little;
6) according to the midpoint coordinates and angle steel joint coordinate of step 3) acquisition, horizontal size and vertical size are layered simultaneously
Adjustment;
7) checking interference is carried out to all size markings;
8) other sizes of interference are adaptively adjusted.
In step 3), the angle steel joint coordinate of the midpoint coordinates for obtaining active view, view envelope frame, including it is as follows
Step:
3-1) the currently active drawing is obtained with Get Current Sheet function;
3-2) first view in engineering drawing is obtained with Get First View function;
It 3-3) defines arrays Outline (), is sat with the angle steel joint that Get Outline function obtains active view envelope frame
Mark;
It 3-4) defines arrays Midpoint (), obtains active view midpoint coordinates with Position function;
3-5) until after all size adjustings of active view, next view is obtained with Get Next View function.
In step 4), annotation coordinate, start arrow and the terminal arrow for obtaining view dimensioning mark text
Coordinate includes the following steps:
4-1) defined variable Display Dimension is obtained current with Get Display Dimensions () function
Size in view;
4-2) defined variable Annotation obtains the annotation text of current size with Get Annotation function;
4-3) defined variable Position obtains the annotation coordinate of current annotation text with Get position () function;
4-4) define arrays Arrow Head (), obtains arrow with Get Arrow Head AtIndex2 () function and sits
Mark, wherein Get Arrow Head AtIndex2 (0) is to obtain start arrow coordinate, Get Arrow Head AtIndex2
It (1) is to obtain terminal arrow coordinate.
It is described to classify to size marking in step 5), it is start arrow coordinate and end in the size according to acquisition
Point arrow coordinate, if start arrow is equal with the Y-coordinate value of terminal arrow, having a size of horizontal size;If start arrow and end
The X-coordinate value of point arrow is equal, then having a size of vertical size;Start arrow and the Y-coordinate value of terminal arrow, X-coordinate value are not
It is equal, then it is divided into other coordinates.
It is described that horizontal size and vertical size are layered and are adjusted in step 6), include the following steps:
6-1) according to the angle steel joint coordinate of view midpoint coordinates and envelope frame, horizontal size and vertical size are divided into four
A region,
The position of minimum dimension 6-2) is determined in the size placement rule of first layer (innermost layer) according to minimum dimension,
The method for 6-3) using array bubbling, arranges size from small to large,
6-4) dimensional interference in array is judged, first element (minimum dimension) position in array is it has been determined that judgement
Whether the latter element size interferes with previous element size, until the judgement of array all elements finishes, if not interfering, sets
It is identical as previous element size position to set currentElement size positions, if interference, is arranged currentElement size positions preceding
Add Δ on one element size position, in which:
The Tuning function of horizontal size position coordinates are as follows: SetPosition2 (position (0), (Y+ Δ)/1000,
position(2));
The Tuning function of vertical size position coordinates are as follows: SetPosition2 ((X+ Δ)/1000, position (1),
position(2));
Δ=K*H
X is the abscissa of a upper element size position in array;Y is the ordinate of a upper element size position;K is
The scale of view defaulted in drawing;H is the height for annotating font in text.
It is described that checking interference is carried out to all size markings in step 7), it is the view midpoint obtained according to step 3)
Coordinate establishes plane right-angle coordinate using midpoint coordinates as origin, the size marking start arrow coordinate obtained according to step 4)
With terminal arrow coordinate, start arrow coordinate and terminal arrow coordinate are connected, is represented the line of each size in a coordinate system
Section, whether there is intersection point between Judge plane coordinate system middle conductor, if there is intersection point, there is interference between size marking, conversely, then
There is no interference between size marking.
In step 8), the other sizes to interference are adaptively adjusted, specifically: after judgement has interference, to depositing
It is micro-adjusted in other sizes of interference, after adjustment, loops to determine adjustment again, until not interfering, active view
Error correction adjustment finishes, and obtains next view and carries out error correction adjustment, until the adjustment of all views finishes, size positions coordinate it is micro-
Tuning function are as follows: SetPosition2 (position (1)+Δ/2000, position (1)+{-(x2-x1)/(y1-y2)×
[Δ/2-(x1+x2)/2]+(y1+y2)/2 }/1000, position (2)).
The utility model has the advantages that a kind of Solid works two-dimensional engineering graphic size marking error correction provided by the invention adaptively adjusts
Method, the Two-dimensional Engineering quickly generated after a series of problems and Variant Design that this method effective solution drawing itself occurs
In figure the problem of size marking location conflicts, the fast automatic generation of two-dimensional engineering graphic can be effectively helped, instead of designer
Manual setting size marking position, shortens the product design period, improves product design efficiency, facilitates the standard of drawing
Change.The method has a versatility, the available the method for Solid works Two-dimensional Engineering part drawing in figure size marking it is automatic
Adjustment.
Detailed description of the invention
Fig. 1 is view envelope frame and view midpoint explanatory diagram;
Fig. 2 is the plane right-angle coordinate established by origin of view midpoint;
Fig. 3 is size marking various pieces explanatory diagram;
Fig. 4 is flow chart of the invention;
Fig. 5 is size placement rule explanatory diagram;
Fig. 6 is horizontal size subregion explanatory diagram;
Fig. 7 is vertical size subregion explanatory diagram;
Fig. 8 is problem-oriented explanatory diagram;
Fig. 9 is general view exemplary graph;
Figure 10 is checking interference figure after dimension line processing in Fig. 9.
Specific embodiment
The present invention is further elaborated with reference to the accompanying drawings and examples, but is not limitation of the invention.
Embodiment:
As shown in figure 4, size marking self-adapting regulation method in a kind of Solid works two-dimensional engineering graphic, including it is as follows
Step:
1) view object is obtained in Solid works, judges whether view is sky, if it is empty, is then terminated, and is reacquired;
If non-empty, active view object is obtained;
2) judge whether the amount of size in active view sized objects is sky, if it is empty, then obtains next view pair
As re-executeing the steps 1);If non-empty continues to execute step 3);
3) the angle steel joint coordinate of the midpoint coordinates, view envelope frame that obtain active view is as shown in Figure 1, specifically include as follows
Step:
3-1) the currently active drawing is obtained with Get Current Sheet function;
3-2) first view in engineering drawing is obtained with Get First View function;
It 3-3) defines arrays Outline (), is sat with the angle steel joint that Get Outline function obtains active view envelope frame
Mark;
It 3-4) defines arrays Midpoint (), obtains active view midpoint coordinates with Position function;
3-5) size is determined compared with view midpoint coordinates, envelope frame angle steel joint coordinate by the position coordinates of dimension line
Relative position in the view, until being obtained with Get Next View function next after all size adjustings of active view
A view.
4) annotation coordinate, start arrow coordinate and terminal arrow coordinate such as Fig. 3 of view dimensioning mark text are obtained
It is shown, specifically comprise the following steps:
4-1) defined variable Display Dimension is obtained current with Get Display Dimensions () function
Size in view;
4-2) defined variable Annotation obtains the annotation text of current size with Get Annotation function;
4-3) defined variable Position obtains the annotation coordinate of current annotation text with Get position () function;
4-4) define arrays Arrow Head (), obtains arrow with Get Arrow Head AtIndex2 () function and sits
Mark, wherein Get Arrow Head AtIndex2 (0) is to obtain start arrow coordinate, Get Arrow Head AtIndex2
It (1) is to obtain terminal arrow coordinate.
5) classified according to the arrow coordinate pair size of size marking, be divided into horizontal size, vertical size, other rulers
It is very little, specifically according to start arrow coordinate in the size of acquisition and terminal arrow coordinate, if the Y of start arrow and terminal arrow is sat
Scale value is equal, then having a size of horizontal size;If start arrow is equal with the X-coordinate value of terminal arrow, having a size of vertical size;
Start arrow and the Y-coordinate value of terminal arrow, X-coordinate value are all unequal, then are divided into other coordinates.
6) according to the midpoint coordinates and angle steel joint coordinate of step 3) acquisition, horizontal size and vertical size are layered simultaneously
Adjustment, specifically comprises the following steps:
6-1) according to the angle steel joint coordinate of view midpoint coordinates and envelope frame, horizontal size and vertical size are divided into four
A region,
6-2) as shown in figure 5, determining minimum dimension according to minimum dimension in the size placement rule of first layer (innermost layer)
Position,
The method for 6-3) using array bubbling, arranges size from small to large,
6-4) dimensional interference in array is judged, first element (minimum dimension) position in array is it has been determined that judgement
Whether the latter element size interferes with previous element size, until the judgement of array all elements finishes, if not interfering, sets
It is identical as previous element size position to set currentElement size positions, if interference, is arranged currentElement size positions preceding
Add Δ on one element size position, in which:
The Tuning function of horizontal size position coordinates are as follows: SetPosition2 (position (0), (Y+ Δ)/1000,
position(2));
The Tuning function of vertical size position coordinates are as follows: SetPosition2 ((X+ Δ)/1000, position (1),
position(2));
Δ=K*H
X is the abscissa of a upper element size position in array;Y is the ordinate of a upper element size position;K is
The scale of view defaulted in drawing;H is the height for annotating font in text.
The layering of horizontal size: as shown in fig. 6, size is divided into I, II, III, IV 4 region from top to bottom, size
It is the region I that line Y-coordinate, which is greater than Ymax, which stores in an array bubble sort from small to large, and setting is minimum
Size Y-coordinate position is Ymax+ Δ;It is II region, region inside dimension storage that dimension line Y-coordinate, which is greater than Ymid and is less than Ymax,
Enter in an array bubble sort from small to large, setting minimum dimension Y-coordinate position is Ymax- Δ;Dimension line Y-coordinate is greater than
Ymin and to be less than Ymid be III region, which stores in an array bubble sort from small to large, and setting is minimum
Size Y-coordinate position is Ymin+ Δ;It is IV region that dimension line Y-coordinate, which is less than Ymin, which stores into an array
In bubble sort from small to large, setting minimum dimension Y-coordinate position is Ymin- Δ.
The layering of vertical size: as shown in fig. 7, size is divided into I, II, III, IV 4 region from left to right, size
It is the region I that line X-coordinate, which is less than Xmin, which stores in an array bubble sort from small to large, and setting is minimum
Size X-coordinate position is Xmin- Δ;It is II region, region inside dimension storage that dimension line X-coordinate, which is greater than Xmin and is less than Xmid,
Enter in an array bubble sort from small to large, setting minimum dimension X-coordinate position is Xmin+ Δ;Dimension line X-coordinate is greater than
Xmid and to be less than Xmax be III region, which stores in an array bubble sort from small to large, and setting is minimum
Size X-coordinate position is Xmax- Δ;It is IV region that dimension line X-coordinate, which is greater than Xmax, which stores into an array
In bubble sort from small to large, setting minimum dimension X-coordinate position is Xmax- Δ.
Wherein: Δ=K*H;The scale of view defaulted in K-- drawing;H-- annotates the height of font in text.
Surplus size adjusts in array: surplus size is interfered according to sequence in array and the judgement of a upper size, horizontal ruler
Very little judgement Y-coordinate, if not interfering, Y-coordinate position is identical, if interference, odd zone Y-coordinate position+Δ, even number region Y is sat
Cursor position+Δ;Vertical size judges X-coordinate, if not interfering, X-coordinate position is identical, if interference, odd zone X-coordinate position
Set-Δ, even number region X-coordinate position+Δ.
7) checking interference is carried out to all size markings, specifically, as shown in Figure 9 and Figure 10, is obtained according to step 3)
View midpoint coordinates establishes plane right-angle coordinate using midpoint coordinates as origin, is originated according to the size marking that step 4) obtains
Arrow coordinate and terminal arrow coordinate (at circles mark), as shown in Fig. 2, in the flat of Solid works two-dimensional engineering graphic default
In the rectangular coordinate system of face (lower left corner origin), start arrow coordinate and terminal arrow coordinate are connected, is represented in a coordinate system
Whether the line segment of each size has intersection point between Judge plane coordinate system middle conductor, if there is intersection point, exists between size marking
Interference, conversely, then there is no interference between size marking.
8) other sizes of interference are adaptively adjusted, specifically: after judgement has interference, to the other rulers that there is interference
It is very little to be micro-adjusted, after adjustment, adjustment is looped to determine again, until not interfering, active view error correction adjustment is finished, and is obtained
Next view is taken to carry out error correction adjustment, until the adjustment of all views finishes;
The micro-adjustment of other sizes of interference: the start arrow of the interference size obtained before extracting and the seat of terminal arrow
Mark, if start arrow coordinate is A (x1, y1), the coordinate of terminal arrow is B (x2, y2), A, B two o'clock of acquisition are connected, generation is obtained
The line segment of this dimension line of table acquires the perpendicular bisector L of line segment A, B are as follows: y=- (x2-x1)/(y1-y2)×[x-(x1+x2)/2]+
(y1+y2)/2。
It is Δ/2 to X-coordinate increment is micro-adjusted every time, then the increment of Y-coordinate brings perpendicular bisector into are as follows:-(x2-
x1)/(y1-y2)×[Δ/2-(x1+x2)/2]+(y1+y2)/2。
The fine tuning integral function of size positions coordinate are as follows: SetPosition2 (position (1)+Δ/2000, position
(1)+{-(x2-x1)/(y1-y2)×[Δ/2-(x1+x2)/2]+(y1+y2)/2 }/1000, position (2)).
Claims (7)
1. a kind of Solid works two-dimensional engineering graphic size marking error correction self-adapting regulation method, which is characterized in that including as follows
Step:
1) view object is obtained in Solid works, judges whether view is sky, if it is empty, is then terminated, and is reacquired;If
Non-empty then obtains active view object;
2) judge whether the amount of size in active view sized objects is sky, if it is empty, then obtains next view object, weight
It is new to execute step 1);If non-empty continues to execute step 3);
3) midpoint coordinates of active view, the angle steel joint coordinate of view envelope frame are obtained;
4) annotation coordinate, start arrow coordinate and the terminal arrow coordinate of view dimensioning mark text are obtained;
5) classified according to the arrow coordinate pair size of size marking, be divided into horizontal size, vertical size, other sizes;
6) according to the midpoint coordinates and angle steel joint coordinate of step 3) acquisition, horizontal size and vertical size are layered and are adjusted
It is whole;
7) checking interference is carried out to all size markings;
8) other sizes of interference are adaptively adjusted.
2. a kind of Solid works two-dimensional engineering graphic size marking error correction self-adapting regulation method according to claim 1,
It is characterized in that, in step 3), the angle steel joint coordinate of the midpoint coordinates for obtaining active view, view envelope frame, including
Following steps:
3-1) the currently active drawing is obtained with Get Current Sheet function;
3-2) first view in engineering drawing is obtained with Get First View function;
It 3-3) defines arrays Outline (), the angle steel joint coordinate of active view envelope frame is obtained with Get Outline function;
It 3-4) defines arrays Midpoint (), obtains active view midpoint coordinates with Position function;
3-5) until after all size adjustings of active view, next view is obtained with Get Next View function.
3. a kind of Solid works two-dimensional engineering graphic size marking error correction self-adapting regulation method according to claim 1,
It is characterized in that, in step 4), annotation coordinate, start arrow and the terminal arrow for obtaining view dimensioning mark text
Head coordinate, includes the following steps:
4-1) defined variable Display Dimension obtains active view with Get Display Dimensions () function
In size;
4-2) defined variable Annotation obtains the annotation text of current size with Get Annotation function;
4-3) defined variable Position obtains the annotation coordinate of current annotation text with Get position () function;
4-4) define arrays Arrow Head (), obtains arrow coordinate with Get Arrow Head AtIndex2 () function,
Middle Get Arrow Head AtIndex2 (0) is to obtain start arrow coordinate, and Get Arrow Head AtIndex2 (1) is to obtain
Take terminal arrow coordinate.
4. a kind of Solid works two-dimensional engineering graphic size marking error correction self-adapting regulation method according to claim 1,
It is described to classify to size marking it is characterized in that, in step 5), be in the size according to acquisition start arrow coordinate and
Terminal arrow coordinate, if start arrow is equal with the Y-coordinate value of terminal arrow, having a size of horizontal size;If start arrow with
The X-coordinate value of terminal arrow is equal, then having a size of vertical size;Start arrow and the Y-coordinate value of terminal arrow, X-coordinate value are all
It is unequal, then it is divided into other coordinates.
5. a kind of Solid works two-dimensional engineering graphic size marking error correction self-adapting regulation method according to claim 1,
It is characterized in that, in step 6), it is described that horizontal size and vertical size are layered and are adjusted, include the following steps:
6-1) according to the angle steel joint coordinate of view midpoint coordinates and envelope frame, horizontal size and vertical size are divided into four areas
Domain,
The position of minimum dimension 6-2) is determined in the size placement rule of first layer (innermost layer) according to minimum dimension,
The method for 6-3) using array bubbling, arranges size from small to large,
6-4) dimensional interference in array is judged, first element (minimum dimension) position is it has been determined that judge latter in array
Whether a element size interferes with previous element size, until the judgement of array all elements finishes, if not interfering, setting is worked as
Preceding element size position is identical as previous element size position, if interference, is arranged currentElement size positions previous
Add Δ on element size position, in which:
The Tuning function of horizontal size position coordinates are as follows: SetPosition2 (position (0), (Y+ Δ)/1000,
position(2));
The Tuning function of vertical size position coordinates are as follows: SetPosition2 ((X+ Δ)/1000, position (1),
position(2));
Δ=K*H
X is the abscissa of a upper element size position in array;Y is the ordinate of a upper element size position;K is drawing
The scale of view of middle default;H is the height for annotating font in text.
6. a kind of Solid works two-dimensional engineering graphic size marking error correction self-adapting regulation method according to claim 1,
It is characterized in that, in step 7), it is described that checking interference is carried out to all size markings, it is in the view obtained according to step 3)
Point coordinate establishes plane right-angle coordinate using midpoint coordinates as origin, is sat according to the size marking start arrow that step 4) obtains
Mark and terminal arrow coordinate connect start arrow coordinate and terminal arrow coordinate, are represented each size in a coordinate system
Whether line segment has intersection point between Judge plane coordinate system middle conductor, if there is intersection point, there is interference between size marking, conversely,
Then there is no interference between size marking.
7. a kind of Solid works two-dimensional engineering graphic size marking error correction self-adapting regulation method according to claim 1,
It is characterized in that, the other sizes to interference adaptively adjust, specifically in step 8): right after judgement has interference
There are other sizes of interference to be micro-adjusted, and after adjustment, loops to determine adjustment again, until not interfering, works as forward sight
Figure error correction adjustment finishes, and obtains next view and carries out error correction adjustment, until the adjustment of all views finishes, size positions coordinate
Finely tune integral function are as follows:
SetPosition2 (position (1)+Δ/2000, position (1)+{-(x2-x1)/(y1-y2)×[Δ/2-(x1+
x2)/2]+(y1+y2)/2 }/1000, position (2)).
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