JPH04123175A - Updating method for parts shape in assembly drawing in two-dimensional cad device - Google Patents

Abstract

PURPOSE:To improve the work efficiency by storing reference position information and reference position, and placing a parts shape for updating in a prescribed position in an assembly drawing, based on these information. CONSTITUTION:The device is constituted of a graphic display device 11, a position input/command input device 12, a graphic processor 13, a parts shape updating device 20, an assembly shape storage part 14, an assembly drawing reference position information storage part 21, an assembly drawing data base 22, an updating parts shape storage part 16, an updating parts reference information storage part 23, and a parts drawing data base 24. In this case, position information of an assembly drawing and reference position information of parts for updating are stored, and a shape of the assembly drawing is placed automatically in a prescribed position in the assembly drawing by using the reference position information by the parts shape updating device 20. In such a way, the manhour for updating the parts shape in the assembly drawing is small, the operation procedure is concise and the work efficiency is improved.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a part shape updating method for updating the part shape in an assembly drawing in a two-dimensional CAD device.

[Prior art]

Figure 6 shows a two-dimensional CA using the conventional part shape updating method.
It is a block diagram showing the composition of D device.

This two-dimensional CAD device uses a graphic display device 11, a position/command input device 12, a graphic processing device 13, an assembly drawing shape memory section 14, an assembly drawing database 15, an updating part shape memory section 16, and a parts drawing database 17. Can be configured.

First, the assembly drawings and parts drawings will be explained. FIG. 7 is a diagram showing an example of an assembly diagram and a parts diagram related to the assembly diagram. As shown in the figure, the assembly drawing 70 includes a shape 701 of a part 71, a shape 702 of a part 72, and a shape 7 of a part 73.
It is composed of multiple parts shapes such as 03. Furthermore, there are parts diagrams corresponding to each part shape, such as a parts diagram 704 of the part 71, for example. In addition, generally assembly drawings, part 8
When creating figures, the arrangement of the projection planes of each figure may be different for ease of understanding.

Next, a method for updating the shape of parts in an assembly drawing in a conventional two-dimensional CAD device will be explained with reference to FIGS. 6 and 8.

FIG. 8 is a diagram showing a conventional part shape updating procedure and an example thereof. As shown in the figure, the part shape updating procedure includes an assembly drawing data reading stage (step 581), a part shape deletion stage (step 582), a part shape data loading stage for update (step 583), and a shape alignment stage (step 584). and a shape synthesis stage (step 585).

First, in the assembly drawing data reading stage (step 581), assembly drawing shape memory data is read from the assembly drawing database 15 into the assembly drawing shape storage section 14.

In this example, assembly drawing data 801 is read. This assembly diagram shape data is sent to the graphic display device 11 through the graphic processing device 13.

Subsequently, in the part shape deletion step (step 582), the operator instructs the position/command input device 12 to delete the part shape to be updated from the assembly drawing data 801. Note that 802 represents data that has been deleted from the assembly drawing of the figure to be updated.

Next, the update part shape data loading stage (step 5)
In step 83), update part shape data is read from the parts diagram database 17 into the update part shape storage section 16. In this example, parts diagram data 803 is imported. The updated component shape data is sent to the graphic display device 11 through the graphic processing device 13.

Here, the part shape can be updated by changing the part drawing. However, in order to reflect the parts diagram in the assembly diagram, it is necessary to match the arrangement of the projection plane of the parts diagram to the assembly diagram when importing the data of the parts diagram into the assembly diagram. Therefore, in the shape alignment step (step 584), the operator adjusts the update part shape that has been completely displayed on the graphic display device 11 so that the assembly drawing shape that has been completely displayed on the graphic display device 11 can match the position of the projection plane layout, etc. performs movement, rotation, and reversal operations using the position input/command input device 12. In this example, shape alignment of the parts diagram data 803 is performed as shown in data 804 by an operation by an operator.

Finally, in the shape synthesis stage (step 585), the updated part shape data is stored in the assembly drawing shape storage section 14 and synthesized as part of the assembly drawing.

As described above, the part shape in the assembly drawing is updated,
Completed assembly drawing data 805 is created.

[Problem to be solved by the invention]

However, in the conventional part shape updating method described above,
In order to align the updated part shape with respect to the assembly drawing, it is essential for the operator to move, rotate, and flip the updated part shape. There are problems in that it requires a large number of man-hours and complicates the operating procedure.

The present invention has been made in view of the above-mentioned points, and it automates the operation for aligning the position of the part shape for updating, reduces the number of man-hours required for updating the part shape in the assembly drawing, and has a simple operation procedure. It is an object of the present invention to provide an efficient method for updating parts in an assembly drawing in a two-dimensional CAD device.

[Means to solve the problem]

In order to solve the above problems, the present invention provides a two-dimensional CAD system that updates assembly drawing data by deleting the shape of the part to be updated from the assembly drawing data and changing the shape of the part to be updated to the shape of the updating part. A method for updating a part shape in an assembly drawing in an apparatus includes a first storage means for storing reference position information of an assembly drawing, a second storage means for storing reference position information of a part for updating, and a second storage means for storing reference position information of a part for updating. The present invention is characterized in that a part shape arranging means is provided for arranging a part shape for updating at a predetermined position in an assembly drawing based on the information stored in the first storage means and the second storage means.

[Effect]

The present invention provides a method for updating the shape of parts in an assembly drawing in a two-dimensional CAD device, as described above, by storing the position information of the assembly drawing and the reference position information of the parts for updating, and using the reference position information to update the shape of the assembly drawing. Since the shape is automatically placed at a predetermined position in the assembly drawing, the number of man-hours required to update the part shape in the assembly drawing is small, the operation procedure is simple, and the work efficiency is excellent.

〔Example〕

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram showing the configuration of a two-dimensional CAD device having a part shape updating method according to the present invention, and FIG. 2 shows the configuration of the component shape updating device and its peripheral parts of the two-dimensional CAD device according to the present invention. It is a block diagram.

First, the configuration of the two-dimensional CAD apparatus of this embodiment will be described.

As shown in FIG. 1, the two-dimensional CAD apparatus of this embodiment includes a graphic display device 11, a position/command input device 2, a graphic processing device 13, a part shape updating device 20, an assembly drawing shape storage unit 14, an assembly The drawing reference position information storage section 21, the assembly drawing database 22, the update part shape storage section 16, the update part reference position information storage section 23, and the parts drawing database 24 can also be configured. In addition, the conventional two-dimensional CA shown in Fig. 7
The same parts as in device D are given the same reference numerals.

Further, the component shape updating device 20 replaces an arbitrary component shape in an assembly drawing with a component shape for updating.

Next, the configuration of the component shape deletion unit [20] will be described. As shown in FIG. 2, the part shape updating device 20 includes a part shape deletion unit 201 that deletes an arbitrary part shape to be updated, and shape conversion information for arranging the updated part shape at a predetermined position in the assembly drawing. It consists of a conversion information generation unit 202 that generates a conversion information, a conversion information storage unit 203 that stores the shape conversion information, and a component shape conversion unit 204 that converts a part shape for updating based on the shape conversion information.

Next, reference position information and shape conversion information will be explained. FIG. 3 is a diagram showing reference position information. As shown in the figure, the reference position information includes a projection plane identification code 31, a plane direction flag 32, a reference point 33, and a reference direction 34. These are information associated with the shape of each type of projection plane.

For example, the projection plane identification code 31 is r(
J, "r r" on the right side view, "r r" on the top view.
It takes a different value for each type of projection surface, such as "b", and is always constant for the shape. Surface direction flag 32
takes a value of 0 or 1, and a NOT operation can be performed each time the shape in the projection plane is reversed. In addition, reference point 33 and reference direction 3
4 is relatively constant with respect to the shape in the projection plane, and the reference point 33 and reference direction 34 are moved or rotated by exactly the same amount as the amount of movement or rotation when the shape moves or rotates in the projection plane. It is something that does.

FIG. 4 is a diagram showing an example of conversion using shape conversion information,
FIG. 4(a) is a diagram showing "movement," FIG. 18(b) is a diagram showing "rotation," and FIG. 14(c) is a diagram showing "reversal."

The shape position information is the amount of change in the reference position information, including "movement amount 1.1 rotation amount" and "whether to invert or not."

Here, "one movement amount" refers to the amount by which the reference point moves, and "one rotation amount" refers to the amount representing how much the reference direction rotates around the reference point.

Next, the part shape updating operation will be explained. FIG. 5 is a diagram illustrating a procedure for updating a component shape in an assembly drawing by the component shape updating device 20 and an example thereof.

First, in the assembly drawing data reading stage (step 551), assembly drawing shape data is transferred from the assembly drawing database 22 to the assembly drawing shape memory section 14, and also to the assembly drawing reference position information storage section 22.
1. Read the reference position information of the assembly drawing. At this stage, assembly drawing data 501 is read.

Subsequently, in the part shape deletion step (step 552), the part shape deletion unit 201 deletes the part shape to be updated from the assembly drawing shape storage unit 14. Note that 502 represents data from which the part shape to be updated has been deleted from the assembly drawing data 501 at this stage.

Next, the updating part shape reading stage (step 553)
Then, part shape data for updating is read from the parts diagram database 24 into the updating part shape storage section 16, and reference position information of the updating component is read into the updating component reference position information storage section 23.

Next, in the projection plane matching step (step 554), the conversion information generation unit 202 collates the projection plane identification codes in the assembly drawing reference position information storage unit 21 and the update component reference position information storage unit 23 to find the same value. Select the projection plane with
Regarding the projection plane selected in the shape conversion information generation step (step 555), conversion information (1 movement amount) is required to make the surface direction flag 32, reference point 33, and reference direction 34 of the update part the same as those in the assembly drawing. , ``one rotation amount'', and ``whether to invert by 1'') and store them in the converted position information storage unit 303.

For example, considering the front view of the parts drawing data 503 (the figure with the projection plane identification code rB), the state of the data is set to be the same as the reference position information in the front view of the data 502 (the figure with the projection plane identification code rf). Calculations such as movement of the reference point 33, rotation of the reference direction 34, and reversal of the surface direction flag 32 are performed as shown in FIG. 504.

Steps S54 and S55 described above are performed for all projection planes.

Finally, in the update part shape conversion step (step 556), the part shape conversion unit 204 converts the conversion information storage unit 20
Update component shape memory unit 1 based on the shape conversion information in 3.
6 is converted, and the converted part shape data for update is stored in the assembly drawing shape storage section 14 in the updated part shape storage step (step 557).

In this example, the parts diagram data 505 is created based on the transformed position information calculated for each projection plane, and the data 50
Completed assembly drawing data 506 is created from 2 and parts drawing data 505.

〔Effect of the invention〕

As described above in detail, according to the present invention, the operation for aligning the position of the part shape for updating is automated, and the number of man-hours required for updating the part shape in the assembly drawing is reduced.
It is possible to obtain excellent effects such as simple operation procedures and excellent work efficiency.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing the configuration of a two-dimensional CAD device having a part shape updating method according to the present invention, and FIG. 2 is a block diagram showing the configuration of the component shape device and its peripheral parts of the two-dimensional CAD device according to the present invention. Figure 3 is a diagram showing reference position information, and Figure 4 is a diagram showing a conversion example using shape conversion information, where 111i0 (a) represents "movement" and Figure 4 (b) shows a conversion example using shape conversion information. The figure (c) shows "one rotation," and the figure (c) shows "inversion,"
FIG. 5 shows a procedure for updating the part shape in an assembly drawing by the part shape updating device 20 and an example thereof. FIG. 6 shows a two-dimensional CAD device configuration having a conventional part shape updating method. FIG. 7 is a block diagram showing an example of an assembly drawing and a part diagram related to the assembly drawing, and FIG. 8 is a diagram showing a conventional updating procedure of a part shape and an example thereof. In the figure, 11...Graphic display device, 12...
・Position input/command input device, 13... Graphic processing device, 14... Assembly drawing shape memory unit, 16.
...Updating part shape memory section, 20...Part shape updating device, 21... Assembly drawing reference position information storage section, 23... Updating part reference Iris information storage unit.

Claims (1)

[Claims] An assembly drawing in a two-dimensional CAD device that updates the assembly drawing data by deleting the shape of the part to be updated from the assembly drawing data and changing the shape of the part to be updated to the shape of the updating part. The part shape updating method according to the present invention includes: a first storage means for storing reference position information of the assembly drawing; and a second storage means for storing reference position information of the part for updating; A two-dimensional CAD device comprising a part shape arranging means for arranging a part shape for updating at a predetermined position in an assembly drawing based on the information stored in the means and the second storage means. A method for updating the shape of parts in assembly drawings.