JP3794600B2 - Press mold design system and press mold manufacturing method using the press mold design system - Google Patents

Description

[0001]
[Industrial application fields]
The present invention provides a basic structure preliminarily designed by incorporating parts and design elements that are basically necessary for the design of a press die corresponding to a plurality of external dimensions specified in advance, and a basic structure that matches the external dimensions. The present invention relates to a press die design system for designing a press die based on the above.
[0002]
[Prior art]
Various shapes of press-formed products are different depending on the object, the place where the product is used, and the like, and a shape suitable for the place of use is manufactured. In manufacturing this press-molded product, a press mold is designed according to the shape, and a press mold is manufactured for each product.
[0003]
This press die will be described by taking a punching die as an example. The design of this punching press mold has conventionally originated from the basic mold plate. For this reason, it is necessary to design each part and design element necessary for the design one by one, and the design is complicated and it takes a considerable time to design even a skilled designer, and the design is simple. Couldn't do it. Therefore, recently, a front view in which various plates as shown in FIG. 17 are incorporated in a CD-ROM, a diagram showing a die set composed of a punch holder and a die holder as shown in FIG. 18, and a punch holder and a die holder. The basic structure of a press mold with typical parts attached as a basic structure is a drawing of the plate inserted between them, and the data has been proposed to assist the design of the press mold. ing.
[0004]
In FIG. 17, reference numeral 100 denotes a basic structure of a press mold, 110 is an upper mold, 120 is a lower mold, and the upper mold 110 and the lower mold 120 constitute a basic structure 100 of the press mold.
The upper mold 110 is provided with a punch holder 111, a punch backing plate 112, a punch plate 113, and a stripper plate 114. Further, the lower mold 120 is provided with a die holder 121, a die backing plate 122, and a die plate 123. The upper mold 110 and the lower mold 120 are assembled using a die set guide post set 130 as shown in FIG. 18 to form a basic structure 100 of a press mold.
The punch plate 113 of the upper mold 110 is a plate for attaching a punch (not shown), the punch backing plate 112 is a plate sandwiched between the punch plate 113 and the punch holder 111, and the stripper plate 114 is a product to be processed. It is for holding down.
Reference numeral 140 denotes a tightening bolt for attaching the punch backing plate 112 and the punch plate 113 to the punch holder 111.
Reference numeral 160 denotes a stripper bolt for attaching the stripper plate 114 to the punch holder 111.
170 is a spring for the strip plate 114 to strongly hold the product.
[0005]
The die plate 123 of the lower mold 120 is used to place a product to be pressed, and is attached to the die holder 121 with a fastening bolt 180 via a die backing plate 122.
The die set guide post set 130 is attached to the bush 131 attached to the punch holder 111 of the upper die 110, the guide post 133 attached to the washer 134 fitted in the die holder 121 by the fastening bolt 135, and the tip of the guide post 133. And the ball retainer 132 to be formed. The upper mold 110 and the lower mold 120 are assembled by the die set guide post set 130.
[0006]
As shown in FIG. 20, the punch holder 111 constituting the upper mold 110 has a plan view stored in the CD-ROM in a state where main processing elements (processing holes in FIG. 20) are shown in advance.
Further, the punch backing plate 112 constituting the upper die 110 has a plan view of the upper die 110 in a state where main machining elements (machining holes in FIG. 21) are shown in advance as shown in FIG. The punch plate 113 has a plan view in the state in which main processing elements (processing holes in FIG. 22) are shown in advance as shown in FIG. 22, and the stripper plate 114 constituting the upper mold 110 is shown in FIG. As shown in FIG. 2, a plan view is stored in the CD-ROM in a state where main processing elements (processing holes in FIG. 23) are shown in advance.
[0007]
[Problems to be solved by the invention]
In such a conventional press die design using a CD-ROM as shown in FIGS. 17 to 26, only representative parts are displayed. The design elements are insufficient, and the design of the press die is not perfect, and parts necessary for the design and the design elements are missing.
Therefore, when designing a press die, the designer of the press die must newly design and add parts and design elements necessary for designing the basic structure as shown in FIGS. . However, in the conventional design of a press die using a CD-ROM as shown in FIGS. 17 and 18, the design shown in FIG. 17 is a front view of the basic structure of the press die and is shown in FIG. The design drawing is an assembly of the upper mold 110 and the lower mold 120 in FIG. 17, in which various plates inserted between the punch holder 111 and the die holder 121 are omitted, and the basic structure of the press mold is shown. The components shown are arranged and displayed on the same plane. For this reason, the positional relationship between a representative part and its design element in an actual press die is not clear.
[0008]
Therefore, even if a part necessary for designing a press die other than a representative part already attached to the basic structure shown in FIGS. 17 cannot be directly added to FIG. 18 of the assembly drawing. Even if parts and design elements necessary for the design of the press die are newly designed and added to FIG. 17 and FIG. , Representative parts already installed in the basic structure shown in FIG. 18 and their design elements, and necessary positional relations of newly designed parts added to FIG. 17 and FIG. This is not clear, and it does not mean that the press die design has been completed.
[0009]
In addition, the design drawing showing the basic structure of a conventional press die is that FIG. 17 is a front view, and FIG. 18 is only a drawing using the assembly diagram of FIG. 17 and parts supplied by a specific manufacturer, and can be seen in FIG. Since the parts supplied by a specific manufacturer incorporated in the basic structure are shown on the front view, when designing the press mold, each plate shown in the basic structure as shown in FIGS. Necessary parts and their design elements are written and newly drawn, or part of FIG. 18 is rewritten to clarify the positional relationship between representative parts and their design elements. In addition, in the design of a conventional press die using a CD-ROM, parts necessary for the design of the press die other than the representative parts incorporated in the basic structure and the design elements (need to be added) (Parts and their design elements) will be written on these drawings and processed elements will be added to each plate, and what kind of dimensions will be used for the necessary parts to be added and their design elements In addition, it is necessary to specify the design drawing so that the design drawing shows the component mounting state in a plan view. Therefore, it is impossible to specify on the drawing where the component is to be mounted when writing.
[0010]
The object of the present invention is to make it easy for anyone to select the main parts of a press die by simply selecting the parts and designing the dimensions of the parts and the design elements that are basically necessary for the design of the press die. The design element can be designed, and the mounting of parts necessary for designing other press dies can be easily designed.
[0011]
[Means for Solving the Problems]
  The press die unit design system according to the first aspect of the present invention is a basic press die unit that is designed and stored in advance by incorporating parts necessary for the design of the press die and design elements thereof into a design drawing. Structure,
  The parts of all external dimensions to be used are preliminarily made into one piece of data in the form of a design drawing.The parts required for the design of the press die indicated in the data can be selected by the part code on the catalog.Stored part data,
  Design element data in which optimum design elements of parts of all external dimensions to be used are stored in advance in the form of design drawings as one data;
  With
  Incorporate parts and design elements necessary for the design of pre-stored press dies, and select from a plurality of basic structures corresponding to the external dimensions of the press dies based on the external dimensions of the press dies to be designed. The basic structure is read out, the design change of the press die in the read basic structure, the necessary size change of the part and the change of the design element are made possible by calling or selecting the specified name, and the part and the design element If the part code on the catalog is included, the design change of the press die, the necessary part size change, and the design element change are made by calling or selecting a preset specified name.It is what I do.
  By configuring in this way, anyone who has knowledge of design can easily design the press mold without dropping the parts and design elements necessary for the design of the press mold. In addition, the mounting design of the parts necessary for the design of other press dies can be easily performed simply by calling or selecting the specified name.
[0012]
  The press die design system according to the invention of claim 2 is:In a press die design system for designing press dies using CAD,
  SaidThe basic structure of the press mold that is designed and stored in advance by incorporating the necessary parts and design elements of the press mold into the design drawing.
  Parts data of all external dimensions to be used is stored as a single piece of data in the form of a design drawing, and the parts required for the design of the press die indicated in the data are stored so that they can be selected by the part code on the catalog When,
  Design element data in which optimum design elements of parts of all external dimensions to be used are stored in advance in the form of design drawings as one data;
  With
  Of the basic structure of the press mold to designDetermine the basic structure of the press die by specifying the external dimensions,Basic structure display means for displaying a basic structure of a press mold corresponding to the external dimension of the press mold specifying the external dimension on a display;
  SaidThe necessary parts pre-installed in the determined basic structure of the press mold are selected according to the outer dimensions of the identified basic structure of the press mold.And component / design element selection means for selecting the optimal design element
  A part / design element size changing means for newly selecting a part code and a design element on the selected catalog and changing the size of the part accompanying the design change and the optimum design element;
  And design the press moldIt is what I do.
  By configuring in this way, anyone with knowledge of design can easily design the press mold to anyone.Design changes,Necessary partsResizeWhenChange the design element and change the design componentWithout dropping design elementsIt can be performed on the display, and the parts and design elements necessary for the design of the press mold are also designed., Identified part nameThe design can be easily done by selecting and editing the parts classification and design elements corresponding toAnd other parts required for press mold designIn the same way, the component design corresponding to the specified component name andDesign elementsIn the selectionIt can be done easily.
[0013]
  The press die design system according to the invention of claim 3 is:In a press die design system for designing press dies using CAD,
  A basic structure of a press die that is designed by previously incorporating parts and design elements necessary for the design of the press die into a design drawing and is stored in advance for each external dimension of the press die;
  Plate code data for storing in advance a plate code specified for each of a plurality of sizes of plates incorporated in the basic structure of the press mold;
  Parts data of all external dimensions to be used is stored as a single piece of data in the form of a design drawing, and the parts required for the design of the press die indicated in the data are stored so that they can be selected by the part code on the catalog When,
  Design element data in which optimum design elements of parts of all external dimensions to be used are stored in advance in the form of design drawings as one data;
  With
  Basic structure of the press mold to designDetermine the basic structure of the press die by specifying the outer dimensions of theA basic structure display means for selecting a basic structure of a press die corresponding to the external dimensions of the press die whose external dimensions are specified from a plurality of basic structures stored in the CAD, and displaying them on a display;
  The parts necessary for the design of the basic structure of the press mold that is pre-installed in the basic structure of the press mold displayed on the displayThe optimal part corresponding to the external dimensions of the basic structure of the press die is shown with the part code on the catalog and the optimal design element.Parts / design element selection means to be selected;
  The part code and design element on the selected catalog are newly selected from a plurality of basic structures stored in advance in the CAD, and the part that changes the size of the part and its optimum design element accompanying the design change Design element size changing means;
  And design the press moldIt is what I do.
  By configuring in this way, anyone with design knowledgeWhoEven easy, it is necessary for the design of press diesplate,partsAnd design element dimensions can be designed on the display, and press die design change, necessary plate design change, and required component size change.And its design elementsParts required for design and its design elementsWithout droppingIt can be performed on the display, and the design of the parts and design elements necessary for the design of the press die can be easily designed by selecting and editing the part classification and design elements corresponding to the specified part name.Also, the mounting design of parts necessary for the design of other press diesSimilarly, selection of part classification and design element corresponding to the specified part nameCan be done easily.
[0014]
  According to the invention of claim 4Using a press die design systemPress moldHow to makeThe parts required for the design of the press die and the design elements are pre-installed in the design drawing.In rare cases, a specific basic structure is set based on the external dimensions of the press mold to be designed from a plurality of basic structures designed in advance corresponding to the external dimensions of the press mold.
  Incorporate parts and design elements necessary for the design of pre-stored press dies, and select from a plurality of basic structures corresponding to the external dimensions of the press dies based on the external dimensions of the press dies to be designed. By selecting the basic structure, the basic structure is selected in advance by selecting the parts necessary for the design and the design elements that are incorporated in the basic structure from the plurality of parts that are designed and stored in advance and the design elements. Change the design components and design elements incorporated inIt is what I do.
  By configuring in this way,simply,Press mold designChange, change the size of necessary parts and change its design elementsWithout dropping parts and design elements necessary for design, Easily produce press dies based on the design drawings that show the part codes in the catalogbe able to.
[0015]
  According to the invention of claim 5Using the mold design systemPress moldHow to makeUses CAD,The parts and design elements necessary for the design of the less mold are incorporated in the design drawing in advance.A specific basic structure based on the external dimensions of the press mold designed from among a plurality of basic structures designed in advance corresponding to the external dimensions of the press mold is set and displayed on the CAD display.
  Based on the external dimensions of the press mold to be designed from among a plurality of basic structures corresponding to the external dimensions of the press mold, incorporating parts and design elements necessary for the design of the press mold pre-stored in the CAD By selecting a specific basic structure, the parts and design elements necessary for the design incorporated in advance in the basic structure are selected from a plurality of parts that have been designed in advance and stored in the CAD and the design elements. The design necessary parts and the design elements incorporated in the basic structure in advance are changed by the above, a design drawing based on the design is drawn, and a press die is manufactured based on the design drawing.It is what I did.
  By configuring in this way, anyone with knowledge of design can easily design a press mold without dropping the parts and design elements necessary for the design of the press mold.Design major parts simply by calling or selecting specific namesMounting design of parts required for designing other press diesAlsoIt can be done easily.
[0016]
  According to the invention of claim 6Using a press die design systemPress moldHow to makeIsUsing CAD, the parts and design elements necessary for the design of the press mold are pre-installed on the design drawing, and designed from a plurality of basic structures designed in advance corresponding to the external dimensions of the press mold. A specific basic structure based on the external dimensions of the press mold is set and displayed on the CAD display.
  For each of a plurality of plates previously incorporated in the basic structure of the press mold read out on the display, the external dimensions of the basic structure of the press mold displayed on the display from the plate data stored in advance. For the parts required for designing the basic structure of the press mold that is pre-installed in the basic structure of the press mold displayed on the display by selecting the corresponding plate, the display is stored from the part data stored in advance. A press which is pre-installed in the basic structure of the press mold displayed on the display by selecting part codes on a plurality of catalogs corresponding to the parts necessary for designing the basic structure of the press mold displayed above. Design elements necessary for designing the basic structure of the mold are displayed on the display from among the pre-stored design elements. In the basic structure of the press die read out on the display, a design element on the catalog stored in the CAD is selected as a design element corresponding to a design element necessary for designing the basic structure of the pressed die. By changing the design of the press mold, changing the size of the plate and necessary parts and changing the design elements, or by selecting from the basic structure of multiple press dies stored in advance in the CAD Perform the arithmetic processing to change the dimensions of the plate, parts and design elements necessary for the design of the press mold that is incorporated in the basic structure of the press mold in advance, or the parts to be changed and the design elements Designing a press die by calling or selecting a specific name stored in CAD, drawing a design drawing based on the design, and based on the design drawing TeThe press mold is designed.
  By configuring in this wayEasySimply press moldChange design, change required component size and change design elementsWithout dropping parts and design elements necessary for design, Easily produce press dies based on the design drawings that show the part codes in the catalogbe able to.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments according to the present invention will be described below.
The press is a machine that applies plastic deformation to a material by pressurization, and there are static pressure and dynamic pressure as pressurization methods.
In addition to the upper die design, the lower die design, and the plate design, the press die design includes the design of the mounting part itself to be attached to the press die and the processing state for mounting the part (working shape and dimensions) The design of the design element indicating) is a typical one. In the embodiment according to the present invention, the design of the upper die, the lower die, the design of the mounting part itself to be attached to the press die, and the design element indicating the machining state (working shape and machining dimension) for attaching the part. Intended for design.
[0021]
FIG. 1 is a basic view showing the entire press die, FIGS. 2 to 7 are design drawings of a press die for explaining an embodiment according to the present invention, and FIG. 2 is a front view of the upper die. 3 is a bottom view of the upper mold shown in FIG. 2, FIG. 4 is a side view of the upper mold, FIG. 5 is a front view of the lower mold, FIG. 6 is a plan view of the lower mold shown in FIG. FIG. 6 is a side view of the lower mold shown in FIG. 5. Some of the parts shown in each figure are shown with lines that are not originally present in the part, but this is expressed in relation to other members and is unique to the design drawing.
[0022]
1 to 7, reference numeral 1 denotes a press die, which is composed of an upper die 2 and a lower die 3. Reference numeral 4 denotes a punch holder, which is a plate for attaching to a press machine.
Reference numeral 5 denotes a punch backing plate which is attached to prevent the force from being directly applied to the punch holder 4 when the surface pressure on the bottom surface of the punch is high.
A punch plate 6 is a plate for attaching the punch.
7 is a stripper plate for removing the material from the periphery of the punch, protecting the punch strength, and preventing the material from being deformed when the punch is pulled out.
Reference numeral 8 denotes a die holder, which is a plate for mounting on a press machine.
9 is a die backing plate and 10 is a die plate. This die plate 10 is a plate for placing a product and pressurizing the product, and the die backing plate 9 is used when the die plate 10 is an insert type and the surface pressure of the die insert becomes high. It is.
[0023]
A shank 11 is attached to the punch holder 4 of the upper die 2 and transmits the power of the press machine to the upper die 2. A hook 12 is attached to the punch holder 4 of the upper die 2 and is used to lift the press die 1, move the press die 1, and open or close the upper die 2 and the lower die 3. It is a handle.
A bush 13 is positioned on the punch holder 4 of the upper die 2 and is attached to the punch holder 4 as shown in FIG.
As shown in FIG. 5, 14 is a ball retainer that fits into the bush 13, 15 is a die set guide post, and the ball retainer 14 is fitted to the tip of the die set guide post 15. Reference numeral 16 denotes a spring for holding the ball retainer 14 at an appropriate position when the upper die 2 and the lower die 3 are combined.
Reference numeral 17 denotes a washer fitted to the die holder 8 of the lower mold 3, and 18 denotes a fastening bolt for fixing the die set guide post 15 to the die holder 8 using the washer 17. The bush 13, the ball retainer 14, the die set guide post 15, the spring 16 and the washer 17 constitute a die set guide post set.
Reference numeral 19 denotes a stroke end block which is fixed to the punch holder 4 of the upper die 2 and is attached to the lower die stroke end block 36 at the bottom dead center of the press to stabilize the bottom dead center position. Reference numeral 20 denotes a fastening bolt for fixing the stroke end block 19 to the punch holder 4 of the upper die 2.
[0024]
As shown in FIG. 4, reference numeral 21 denotes a sub-guide post that passes through the punch plate 6 and the stripper plate 7 and is fixed to the punch backing plate 5, and is positioned on the punch plate 6. The stripper plate 7 and the die plate 10 are It is for positioning. Reference numeral 22 denotes a fastening bolt for fixing the sub guide post 21 to the punch backing plate 5. Reference numeral 23 denotes a stripper bush fitted in a hole for inserting the sub guide post 21 formed on the stripper plate 7, and is for regulating the position of the stripper plate 7 by the sub guide post 21. Similar to the stripper bush 23, 24 is a die bush fitted in a hole for inserting the sub guide post 21 formed in the die plate 10 and the die backing plate 9. The sub guide post 21 regulates the position of the die plate 10. belongs to. The die holder 8 is also formed with a through hole communicating with holes formed in the die plate 10 and the die backing plate 9, and when the press machine is operated, the sub guide post 21 is inserted into the through hole. ing.
[0025]
Reference numeral 25 denotes a knock pin which positions the punch holder 4 and the punch plate 6 and improves the reproducibility and maintainability when the plates are separated for maintenance or the like.
26 is a misfeed pin, 27 is a spring, 42 is a screw plug, 28 is a microswitch, and 29 is a relation pin. The misfeed pin 26 is fitted into the punch plate 6, and the microswitch 28 is fixed to the punch holder 4. The micro switch 28 is switched by the movement of the relation pin 29. The tip of the relation pin 29 is in a state of being fitted in a recess formed at an appropriate location on the circumferential surface of the misfeed pin 26. When the tip of the relation pin 29 is removed from the recess of the misfeed pin 26, The relation pin 29 moves. When the relation pin 29 moves, the microswitch 28 is switched. Therefore, when the tip of the misfeed pin 26 is fitted in the hole formed in the product to be processed, it indicates that no detection error has occurred. When the machine is activated and the upper die is lowered and press working is performed, the tip of the misfeed pin 26 hits the surface of the product to be processed, and the microswitch 28 and the relation pin 29 move with the lowering of the upper die. The lowering of the pin 26 is regulated by the product, the tip of the relation pin 29 is removed from the recess of the misfeed pin 26, the relation pin 29 moves, and the micro switch 28 is operated.
[0026]
30 is a stripper bolt, 31 is a spring fitted to the stripper bolt 30, and a spacer ring 39 is interposed between the spring 31 and the punch backing plate 5 as shown in FIG. The stripper bolt 30 prevents the stripper plate 7 from popping out by a spring force and keeps the gap between the punch plate 6 and the stripper plate 7 constant. The spring 31 generates a necessary stripper force.
Reference numeral 32 denotes a lifter pin which is slidably fitted in a through hole formed in the die plate 10 and is a pin for pushing up a product to be processed after pressing. The lifter pin 32 is supported by a spring 33 that fits into a through hole that penetrates the die backing plate 9 and the die holder 8. The spring 33 is stopped by a screw plug 34.
[0027]
Reference numeral 35 denotes a relief hole which is received when the tip of the misfeed pin 26 penetrates a hole formed in advance in a product to be processed during press working.
Reference numeral 36 denotes a stroke end block which is fixed to the die holder 8 of the lower die 3 and is attached to the upper die stroke end block 19 at the bottom dead center of the press to stabilize the bottom dead center position. Reference numeral 37 denotes a fastening bolt for fixing the stroke end block 36 to the die holder 8 of the lower mold 3.
A hook 38 is attached to the die holder 8 of the lower die 3 and is a handle for lifting the press die 1 or moving the press die 1.
A spacer ring 39 is inserted between the punch backing plate 5 and the spring 31.
[0028]
Reference numeral 40 denotes a knock pin for positioning the die holder 8 and the die plate 10.
41 is a fastening bolt for fixing the punch plate 6 to the punch holder 4 via the punch backing plate 5, and 43 is a fastening bolt for fixing the die plate 10 to the die holder 8 via the die backing plate 9. Is for.
[0029]
<< First Embodiment >>
The first embodiment of the present invention has a basic structure designed by incorporating parts and design elements necessary for the design of a press die in advance, specifies the outer dimensions of the press die, and incorporates the design in advance. This is a press die design system for designating a press die by specifying a part classification to identify the necessary parts.
[0030]
In designing the press die 1 as shown in FIG. 1 in the first embodiment of the present application, it is designed using the basic design drawings shown in FIGS. 2 to 7 are designed in advance in a form in which members and parts which are basic in the design of the press die 1 are mounted. Even if there are such basic design drawings shown in FIGS. 2 to 7, the specific design of the press die 1 is not completed by this, but individual members (plates) constituting the press die 1 are not completed. In addition, it is necessary to design a design element indicating a necessary part, a processing dimension / working shape for incorporating the part, and a processing element / working shape other than the part mounting.
Therefore, after the design of the part determined by each product shape is yielded, the dimension shape of the plate that accommodates it is specified, the size and dimension of the press die are determined, or the press machine determines If so, specify the size and dimensions of the press die that matches the installation of this press. The mold design of the present invention is started when the size and dimensions of the press mold are determined.
[0031]
In the design of the press die 1, the external dimensions of the basic structure of the press die 1 designed in advance by incorporating the parts necessary for the design and the design elements (reference numerals 2 to 42 in the figure) into the press die 1. Is set, and the outer shape of the press die 1 is designed. For the various plates that are incorporated in the press mold 1 in advance, a basic plate used in the press mold 1 is designed in advance and prepared in the form of a design drawing.
As described above, the design of the various plates constituting the upper mold 2 and the design of the various plates constituting the lower mold 3 are performed in advance using the drawings prepared in the form of design drawings. To match.
[0032]
When the design of the various plates preliminarily incorporated in the press die 1 is completed, the parts and design elements necessary for designing the press die 1 preliminarily incorporated in the basic structure of the press die 1 (see FIG. No. 2 to 42), and parts necessary for the design of the press die 1 incorporated in advance in the basic structure of the press die 1 and basically necessary for the design of the press die 1 other than its design elements. Design parts and design elements. Parts that are fundamentally necessary for design that are incorporated in advance in the basic structure of the press die 1 and presses other than those that are necessary for design in the press die 1 that is incorporated in advance in the basic structure of the press die 1 For the parts that are basically necessary for the design of the mold 1, parts of all external dimensions to be used are prepared in advance in the form of design drawings as one part data.
In addition, design elements (working elements for incorporating parts indicated by reference numerals 2 to 42 in the drawing) that are basically incorporated in the basic structure of the press mold 1 in advance and the press mold 1 Design elements that are machining elements for incorporating all the parts basically necessary for the design of the press die 1 other than the parts pre-installed in the basic structure are used in the design of the press die 1. Design elements having dimensions corresponding to the external dimensions of the parts used for designing the press die 1 are prepared in advance in the form of design drawings as design element data for design elements having all external dimensions.
[0033]
In this part data, when each designed part exists as a catalog product, the part code is assigned to each part.
For example, when the tightening bolt 18 is taken as an example of a fundamentally necessary part in the design that is incorporated in the basic structure of the press die 1 in advance, the tightening bolt 18 has the same basic shape and has a small size to a large size. 15A to 15D as part data representing parts of all external dimensions to be used on a single drawing.
As shown in (J), the bolts 18 are prepared in advance in the form of design drawings according to the size and length of the bolts 18. In FIG. 15, the symbol written for each part indicates a product code. For example, “PCB3-5” is “PCB” is the type of tightening bolt, “3-5” is the diameter (3 mm) and length ( 5 mm).
[0034]
Therefore, when designing a press die, first, with regard to the optimal parts and the design elements that are basically required incorporated into the basic structure of a pre-designed press die, the part code (for example, , PCB12-30). The design of the press die is not completed only by designing the optimal parts and the design elements that are basically required incorporated into the basic structure of the pre-designed press die. A design element necessary for smoothly moving the press die 1 is written in the basic structure of the press die 1 and designed. The parts and design elements necessary for the design of the press mold written in the basic structure of the press mold 1 are designed by the designer according to the parts written in the basic structure of the press mold 1 each time. The design of the press mold is completed by writing on the drawing.
[0035]
When the design of the parts and design elements (reference numerals 2 to 42 in the drawing) preliminarily incorporated in the press mold 1 and other parts required for the design of the press mold 1 and the design elements are finished, the upper mold In order to function as a press mold by combining the 2 and the lower mold 3, the design of the parts and design elements necessary for the design of the press mold 1 is started.
For design elements that are machining elements other than the machining elements for incorporating this part, the design elements of all external dimensions used in the design of the press mold 1 correspond to the external dimensions used in the design of the press mold 1 Design elements having the dimensions described above are prepared in the form of design drawings as one piece of design element data.
[0036]
Therefore, when designing a design element (a design element necessary for smoothly moving the press die 1) other than a processing element for incorporating a press die part, first, a pre-designed press is designed. The optimum design element is written in the basic structure of the press mold 1 from the design element data designed in advance with respect to the dimensions corresponding to the external dimensions of the basic structure of the mold. Design elements necessary for the design of the press die written in the basic structure of the press die 1 are written on the design drawing by the designer each time, thereby completing the design of the press die.
[0037]
Therefore, according to the present embodiment, the design of the press die can be easily performed by anyone simply by setting the component classification without dropping the parts and design elements necessary for the design of the press die. It is possible to design parts, and it is also possible to easily design the installation of parts necessary for designing other press dies.
[0038]
<< Second Embodiment >>
The second embodiment of the present invention has a basic structure designed in advance by incorporating parts and design elements necessary for the design of a press die, specifies the external dimensions of the press die to be designed, Select the part code on the catalog that shows the optimal part according to the external dimensions of the mold and the optimal design element, and change the size of the part due to the design change. This is a press die design system that performs code and design elements.
[0039]
In designing the press die 1 as shown in FIG. 1 in the second embodiment of the present application, it is designed using the basic design drawings shown in FIGS. 2 to 7 are designed in advance in a form in which members and parts which are basic in the design of the press die 1 are mounted. Even if there are such basic design drawings shown in FIGS. 2 to 7, the specific design of the press die 1 is not completed by this, but individual members (plates) constituting the press die 1 are not completed. In addition, it is necessary to design a design element indicating a necessary part, a processing dimension / working shape for incorporating the part, and a processing element / working shape other than the part mounting.
Therefore, first, the dimensional shape of the plate that determines the outer shape of the press die attached to the press machine is specified. When the dimensional shape of the plate is specified, the size / dimension of the press die is determined. When the size and dimensions of the press mold are determined, the design of the press mold is started.
[0040]
In the design of the press die 1, the basic structure of the press die 1 designed in advance by incorporating the parts required for the design and the design elements (reference numerals 2 to 42 in the figure) into the press die 1 is described. The external dimensions of various plates of the mold 1 are set, and the external shape of the press mold 1 is designed. Regarding the various plates of the press die 1, various external dimensions of the various plates used in the press die 1 are prepared in advance in the form of design drawings as one plate data.
As described above, the design of the various plates constituting the upper mold 2 and the design of the various plates constituting the lower mold 3 are performed in advance using the drawings prepared in the form of design drawings. To match.
[0041]
When the design of the various plates preliminarily incorporated in the press die 1 is completed, the parts and design elements necessary for designing the press die 1 preliminarily incorporated in the basic structure of the press die 1 (see FIG. No. 2 to 42), and parts necessary for the design of the press die 1 incorporated in advance in the basic structure of the press die 1 and basically necessary for the design of the press die 1 other than its design elements. Design parts and design elements.
As for the parts that are fundamentally necessary for design and are incorporated in the basic structure of the press die 1 in advance, parts of all external dimensions to be used are prepared in the form of design drawings as one part data.
As for the necessary parts incorporated in the basic structure of the pre-designed press die 1, parts data of all external dimensions used for each specific part are represented as part data on one drawing, and in advance. For the design elements incorporated in the basic structure of the designed press die 1, each of the design drawings is represented as design element data representing design elements of all external dimensions used for each specific design element on one drawing. It is prepared in the form of
Such part data is attached with a drawing code corresponding to each part of a part that is fundamentally necessary for design, which is incorporated in the basic structure of the press die 1 in advance. All parts required for designing the press die 1 other than the necessary parts are prepared in advance in the form of design drawings with a drawing code corresponding to each part. In addition, such design elements are given specific name classifications corresponding to each design element with respect to the design elements that are fundamentally necessary for design, which are incorporated in the basic structure of the press die 1 in advance, Design drawings with a drawing code corresponding to each design element for all the design elements required for designing the press die 1 other than the basic design elements necessary for the design Are prepared in advance.
[0042]
As for this part data, when each designed part exists as a catalog product, the part code is attached to each part. In the design element, the design element code is assigned to each design element. Is attached.
For example, when the tightening bolt 18 is taken as an example of a fundamentally necessary component in the design that is preliminarily incorporated in the basic structure of the press die 1, parts of all external dimensions used for the tightening bolt 18 are the tightening bolts. As shown in FIGS. 15A to 15J as part data on one drawing with a drawing code (for example, PCB) indicating the shape of the design drawing according to the diameter and length of the bolt 18 Prepared in advance. In FIG. 15, the symbols written for each part indicate a part code indicating the part for which the outer diameter is specified. For example, “PCB3-5” is “PCB” is the type of tightening bolt, and “3-5”. "Indicates the diameter (3 mm) and length (5 mm).
The design element of the external dimensions as a design element for attaching the tightening bolt 18 is shown as a design element on one drawing with a drawing code (for example, PCB-T) indicating the design element for attaching the tightening bolt. As shown in 16 (A) to (J), it is prepared in advance in the form of a design drawing according to the size and length of the diameter in accordance with the fastening bolt 18. In FIG. 16, the symbols written for each design element indicate the design elements that specify the outer diameter. For example, “PCB-T3-5” is “PCB-T”, which is the design element of the tightening bolt. “3-5” indicates that a counterbore process is performed in which a fastening bolt 18 having a diameter of 3 mm and a length of 5 mm to be fitted into the design element is fitted.
[0043]
Therefore, when designing a press die, first, the external dimensions of the basic structure of the press die designed in advance are specified. Then, the basic structure of the press die that specifies the external dimensions is shown in a form in which basically necessary parts and design elements thereof are incorporated. For the optimum parts and the design elements that are basically necessary and incorporated in the basic structure of the press mold that is pre-designed in the basic structure of the press mold, the design of the part is a part code (for example, PCB 3-5 ) By designating a design element (for example, PCB-T3-5). However, the design of the press die is not completed simply by designing the optimal parts and the design elements that are basically required incorporated into the basic structure of the pre-designed press die 1. A design element for smoothly moving the press die 1 by pressing is written in the basic structure of the press die 1 and designed. In order to design the parts and design elements necessary for the design of the press mold to be written in the basic structure of the press mold 1, the component code and the design elements are designed in the basic structure of the press mold 1 each time. The design of the press die is completed by writing on the design drawing.
Therefore, according to the present embodiment, it is easy for anyone to design a press mold, and only set the component classification and design elements without dropping the parts and design elements necessary for the design of the press mold. The main parts and their design elements can be designed in this way, and the parts and design elements required for designing other press dies can be easily designed.
[0044]
<< Third Embodiment >>
In the third embodiment of the present invention, a plurality of basic structures that are designed in advance by incorporating parts and design elements necessary for the design of the press mold and designed in advance corresponding to the outer dimensions of the press mold are provided. And selecting the basic structure corresponding to the external dimensions of the press mold to be designed from among the plurality of basic structures, and the optimum necessary for the press mold pre-designed and incorporated in the basic structure of the selected press mold Select the part code on the catalog indicating the part of the product and the optimal design element, and change the size of the part due to the design change by newly specifying the part classification and design element on the catalog. This is a press mold design system for designing molds.
[0045]
In designing the press die 1 as shown in FIG. 1 according to the third embodiment of the present application, the design is performed using the basic design diagrams shown in FIGS. 2 to 7 are designed in advance in a form in which members and parts which are basic in the design of the press die 1 are mounted. The basic design drawings shown in FIGS. 2 to 7 include parts that are basically necessary for the design of the press die 1 and design elements (reference numerals 2 to 42 in the drawing). A plurality of basic structures are designed in advance corresponding to the outer dimensions of the mold 1, and basic structure data (not shown, but not shown in FIGS. 2 to 7) is attached to each basic structure as a basic design drawing. In the form of a design drawing, it is a collection of multiple types by changing the external dimensions, and the basic design elements and design elements incorporated in the press mold are also changed according to the external dimensions). Prepared in advance.
Even if a basic design drawing that matches the external dimensions of the press die 1 to be designed is selected from such basic structure data, the design of the specific press die 1 is not completed. Design of individual members (plates) that make up the mold 1, design elements that indicate necessary parts and machining dimensions and machining shapes for incorporating the parts, and design elements that represent machining dimensions and machining shapes other than component mounting is necessary.
Therefore, when a basic design drawing that matches the external dimensions of the press mold 1 to be designed is selected from the basic structure data, the external dimensions of the press mold 1 are determined, and the external dimensions of the press mold 1 are matched. Identify the design of the plate (dimension and shape design). Once the dimensional shape of the plate is specified, another design of the press mold is started.
[0046]
In the design of the press die 1, the basic structure of the press die 1 designed in advance by incorporating the parts required for the design and the design elements (reference numerals 2 to 42 in the figure) into the press die 1 is described. The external dimensions of various plates of the mold 1 are set, and the external shape of the press mold 1 is designed. Regarding the various plates of the press die 1, various external dimensions of the various plates used in the press die 1 are prepared in advance in the form of design drawings as one plate data.
As described above, the design of the various plates constituting the upper mold 2 and the design of the various plates constituting the lower mold 3 are performed in advance using the drawings prepared in the form of design drawings. To match.
[0047]
When the design of the various plates preliminarily incorporated in the press die 1 is completed, the parts and design elements necessary for designing the press die 1 preliminarily incorporated in the basic structure of the press die 1 (see FIG. No. 2 to 42), and parts necessary for the design of the press die 1 incorporated in advance in the basic structure of the press die 1 and basically necessary for the design of the press die 1 other than its design elements. Design parts and design elements.
As for the parts that are fundamentally necessary for design and are incorporated in the basic structure of the press die 1 in advance, parts of all external dimensions to be used are prepared in the form of design drawings as one part data.
As for the necessary parts incorporated in the basic structure of the pre-designed press die 1, parts data of all external dimensions used for each specific part are represented as part data on one drawing, and in advance. For the design elements incorporated in the basic structure of the designed press die 1, each of the design drawings is represented as design element data representing design elements of all external dimensions used for each specific design element on one drawing. It is prepared in the form of
Such part data is attached with a drawing code corresponding to each part of a part that is fundamentally necessary for design, which is incorporated in the basic structure of the press die 1 in advance. All parts required for designing the press die 1 other than the necessary parts are prepared in advance in the form of design drawings with a drawing code corresponding to each part. In addition, such design elements are given specific name classifications corresponding to each design element with respect to the design elements that are fundamentally necessary for design, which are incorporated in the basic structure of the press die 1 in advance, Design drawings with a drawing code corresponding to each design element for all the design elements required for designing the press die 1 other than the basic design elements necessary for the design Are prepared in advance.
[0048]
As for this part data, when each designed part exists as a catalog product, the part code is attached to each part. In the design element, the design element code is assigned to each design element. Is attached.
For example, when the tightening bolt 18 is taken as an example of a fundamentally necessary component in the design that is preliminarily incorporated in the basic structure of the press die 1, parts of all external dimensions used for the tightening bolt 18 are the tightening bolts. As shown in FIGS. 15A to 15J as part data on one drawing with a drawing code (for example, PCB) indicating the shape of the design drawing according to the diameter and length of the bolt 18 Prepared in advance. In FIG. 15, the symbols written for each part indicate a part code indicating the part for which the outer diameter is specified. For example, “PCB3-5” is “PCB” is the type of tightening bolt, and “3-5”. "Indicates the diameter (3 mm) and length (5 mm).
The design element of the external dimensions as a design element for attaching the tightening bolt 18 is shown as a design element on one drawing with a drawing code (for example, PCB-T) indicating the design element for attaching the tightening bolt. As shown in 16 (A) to (J), it is prepared in advance in the form of a design drawing according to the size and length of the diameter in accordance with the fastening bolt 18. In FIG. 16, the symbols written for each design element indicate the design elements that specify the outer diameter. For example, “PCB-T3-5” is “PCB-T”, which is the design element of the tightening bolt. “3-5” indicates that a counterbore process is performed in which a fastening bolt 18 having a diameter of 3 mm and a length of 5 mm to be fitted into the design element is fitted.
[0049]
Therefore, when designing a press die, first, the external dimensions of the basic structure of the press die designed in advance are specified. Then, the basic structure of the press die that specifies the external dimensions is shown in a form in which basically necessary parts and design elements thereof are incorporated. For the optimum parts and the design elements that are basically necessary and incorporated in the basic structure of the press mold that is pre-designed in the basic structure of the press mold, the design of the part is a part code (for example, PCB 3-5 ) By designating a design element (for example, PCB-T3-5). However, the design of the press die is not completed simply by designing the optimal parts and the design elements that are basically required incorporated into the basic structure of the pre-designed press die 1. A design element for smoothly moving the press die 1 by pressing is written in the basic structure of the press die 1 and designed. In order to design the parts and design elements necessary for the design of the press mold to be written in the basic structure of the press mold 1, the component code and the design elements are designed in the basic structure of the press mold 1 each time. The design of the press die is completed by writing on the design drawing.
Therefore, according to the present embodiment, it is easy for anyone to design a press mold, and only set the component classification and design elements without dropping the parts and design elements necessary for the design of the press mold. The main parts and their design elements can be designed in this way, and the parts and design elements required for designing other press dies can be easily designed.
[0050]
<< Fourth Embodiment >>
The fourth embodiment of the present invention incorporates parts and design elements necessary for designing a press die stored in advance, and designs from a plurality of basic structures corresponding to the outer dimensions of the press die. A specific basic structure is read based on the outer dimensions of the press die, and a design change of the press die in the read basic structure, a size change of a necessary part, or a name specifying a change of a design element is called or selected. In addition, if the part code and the design element include a part code on the catalog, the design change of the press die, the necessary part size change and the design element change are specified in advance. This is a press die design system which is performed by calling or selecting a name.
[0051]
In designing the press die 1 as shown in FIG. 1 according to the fourth embodiment of the present application, it is designed using the basic design drawings shown in FIGS. 2 to 7 are designed in advance in a form in which members and parts which are basic in the design of the press die 1 are mounted. The basic design drawings shown in FIGS. 2 to 7 include parts that are basically necessary for the design of the press die 1 and design elements (reference numerals 2 to 42 in the drawing). A plurality of basic structures are designed in advance corresponding to the outer dimensions of the mold 1, and basic structure data (not shown, but not shown in FIGS. 2 to 7) is attached to each basic structure as a basic design drawing. In the form of a design drawing, it is a collection of multiple types by changing the external dimensions, and the basic design elements and design elements incorporated in the press mold are also changed according to the external dimensions). Prestored in a RAM or the like.
The basic structure data that incorporates the parts that are fundamentally necessary for design and the design elements that are designed in advance can be freely changed in outer diameter by an arithmetic unit such as a CPU.
[0052]
Even if a basic design drawing that matches the external dimensions of the press die 1 to be designed is selected from such basic structure data, the design of the specific press die 1 is not completed. Design of individual members (plates) that make up the mold 1, design elements that indicate necessary parts and machining dimensions and machining shapes for incorporating the parts, and design elements that represent machining dimensions and machining shapes other than component mounting is necessary.
Therefore, when a basic design drawing that matches the external dimensions of the press mold 1 to be designed is selected from the basic structure data, the external dimensions of the press mold 1 are determined, and the external dimensions of the press mold 1 are matched. Identify the design of the plate (dimension and shape design). Once the dimensional shape of the plate is specified, another design of the press mold is started.
[0053]
In the design of the press die 1, the basic structure of the press die 1 designed in advance by incorporating the parts required for the design and the design elements (reference numerals 2 to 42 in the figure) into the press die 1 is described. The external dimensions of various plates incorporated in the mold 1 are set, and the external shape of the press mold 1 is designed. As for the various plates incorporated in the press die 1, the various plates incorporated in the press die 1 are designed in advance and stored in advance in a RAM or the like in the form of a design drawing.
The design of the various plates constituting the upper die 2 and the design of the various plates constituting the lower die 3 are performed in advance by using a press die that is designed in advance and stored in the RAM or the like in the form of a design drawing. The outer shape is determined according to the outer dimension of 1.
[0054]
When the design of the various plates preliminarily incorporated in the press die 1 is completed, the parts and design elements necessary for designing the press die 1 preliminarily incorporated in the basic structure of the press die 1 (see FIG. No. 2 to 42), and parts necessary for the design of the press die 1 incorporated in advance in the basic structure of the press die 1 and basically necessary for the design of the press die 1 other than its design elements. Design parts and design elements.
For the parts that are fundamentally necessary for the design, which are incorporated in the basic structure of the press die 1 in advance, parts of all external dimensions to be used are stored in advance in a RAM or the like as one part data in the form of a design drawing. ing.
As for the necessary parts incorporated in the basic structure of the pre-designed press die 1, parts data of all external dimensions used for each specific part are represented as part data on one drawing, and in advance. For the design elements incorporated in the basic structure of the designed press die 1, each of the design drawings is represented as design element data representing design elements of all external dimensions used for each specific design element on one drawing. Is previously stored in a RAM or the like.
Such part data is attached with a drawing code corresponding to each part of a part that is fundamentally necessary for design, which is incorporated in the basic structure of the press die 1 in advance. All the parts required for designing the press die 1 other than the necessary parts are also stored in advance in a RAM or the like in the form of a design drawing with a drawing code corresponding to each part. In addition, such design elements are given specific name classifications corresponding to each design element with respect to the design elements that are fundamentally necessary for design, which are incorporated in the basic structure of the press die 1 in advance, Design drawings with a drawing code corresponding to each design element for all the design elements required for designing the press die 1 other than the basic design elements necessary for the design Is previously stored in a RAM or the like.
[0055]
As for this part data, when each designed part exists as a catalog product, the part code is attached to each part. In the design element, the design element code is assigned to each design element. And is attributed by this design element code.
The parts and design elements shown in these parts data can be taken out by an arithmetic device such as a CPU and incorporated into the basic structure of the press die 1. The parts and design elements incorporated in the basic structure can be freely changed in outer diameter by an arithmetic device such as a CPU.
[0056]
Accordingly, when the drawing code indicating the specific basic structure is identified from the drawing code indicating the basic structure data of the press die 1 and the basic structure of the press die 1 is read (FIGS. 2 to 7), this read is performed. The basic structure of the press die 1 shown in FIGS. 2 to 7 incorporates parts and design elements that are fundamentally necessary for an ideal design in advance.
For example, when the tightening bolt 18 is taken as an example of a fundamentally necessary component in the design that is preliminarily incorporated in the basic structure of the press die 1, parts of all external dimensions used for the tightening bolt 18 are the tightening bolts. As shown in FIGS. 15A to 15J as part data on one drawing with a drawing code (for example, PCB) indicating the shape of the design drawing according to the diameter and length of the bolt 18 Are stored in advance in a RAM or the like. In FIG. 15, the symbols written for each part indicate a part code indicating the part for which the outer diameter is specified. For example, “PCB3-5” is “PCB” is the type of tightening bolt, and “3-5”. "Indicates the diameter (3 mm) and length (5 mm).
The design element of the external dimensions as a design element for attaching the tightening bolt 18 is shown as a design element on one drawing with a drawing code (for example, PCB-T) indicating the design element for attaching the tightening bolt. As shown in 16 (A) to (J), in accordance with the tightening bolt 18, it is stored in advance in a RAM or the like in the form of a design drawing according to the size and length of the diameter. In FIG. 16, the symbols written for each design element indicate the design elements that specify the outer diameter. For example, “PCB-T3-5” is “PCB-T”, which is the design element of the tightening bolt. “3-5” indicates that a counterbore process is performed in which a fastening bolt 18 having a diameter of 3 mm and a length of 5 mm to be fitted into the design element is fitted.
[0057]
Therefore, when designing a press die, first, the external dimensions of the basic structure of the press die designed in advance are specified. Then, the basic structure of the press die that specifies the external dimensions is shown in a form in which basically necessary parts and design elements thereof are incorporated. For the optimum parts and the design elements that are basically necessary and incorporated in the basic structure of the press mold that is pre-designed in the basic structure of the press mold, the design of the part is a part code (for example, PCB 3-5 ) By designating a design element (for example, PCB-T3-5). However, the design of the press die is not completed simply by designing the optimal parts and the design elements that are basically required incorporated into the basic structure of the pre-designed press die 1. A design element for smoothly moving the press die 1 by pressing is written in the basic structure of the press die 1 and designed. In order to design the parts and design elements necessary for the design of the press mold to be written in the basic structure of the press mold 1, the component code and the design elements are designed in the basic structure of the press mold 1 each time. The design of the press die is completed by writing on the design drawing.
On the design drawing shown on the display, the drawing is automatically displayed with dimensions corresponding to each designated part and each design element.
Further, the dimensions of the optimum parts that are basically necessary for constructing the press mold 1 designed and incorporated in advance in the basic structure of the press mold 1 are different from the original dimensions, that is, the press mold 1 When a design change is required for the basic structure, the drawing can be changed on the display. When the drawing is changed on the display, the dimensions of the design drawing can be measured with a scale or the like.
In addition, the basic structure of the press die 1 and the optimum parts and design elements that are basically necessary for constructing the press die 1 designed and incorporated in advance in the basic structure of the press die 1 need to be changed in design. In this case, the drawing is changed on the display, and the basic structure, parts, and dimensions of the design element of the changed press die 1 are automatically calculated by the calculation device and automatically displayed on the drawing shown on the display. Is displayed.
[0058]
Selecting from the pre-stored part data and design element data and writing it in the design drawing on the display makes it clear that each part and design element in the basic structure of the press die 1 are appropriate and inappropriate. .
[0059]
Therefore, according to the present embodiment, the design of the press die can be easily called by anyone, and the specified name can be called or selected without dropping the parts and design elements necessary for the design of the press die. Thus, the dimensional design of the main part and its design elements can be easily performed, and the mounting design of the parts necessary for the design of other press dies can be easily performed only by calling or selecting the specified name.
In addition, according to the present embodiment, when a part is changed after being designed once with a press die, only the part to be changed can be erased from the design drawing on the display and the design element can be left. When reworking, it is possible to save time and effort for designing the design elements, and it is possible to quickly design the press die.
[0060]
<< Fifth Embodiment >>
The fifth embodiment of the present invention is basically a press die design system for designing a press die using CAD, in which parts and design elements necessary for the design of the press die are incorporated in the CAD. The basic structure of the press mold designed by setting and assembling the parts with the machining dimensions and basic dimensions is divided into multiple catalogs for each external dimension of the press mold, and the parts and design elements assembled to the basic structure are listed on multiple catalogs. Are stored in advance, the external dimensions of the press mold to be designed are selected, and a basic structure corresponding to the external dimensions of the selected press mold is stored in the CAD. Selecting from the basic structure, displaying it on the display, and making the design change of the basic structure read from the CAD on the display possible by performing arithmetic processing In addition, when it is included in a plurality of basic structures stored in advance in CAD, it is selected by selecting from the basic structures stored in advance, and the design is incorporated in the basic structure in advance. It is possible to change the dimensions of the necessary parts and their design elements by performing arithmetic processing, and the parts to be changed and their design elements are included in the part code and design elements on the catalog stored in the CAD. In this case, the press mold design system performs the design of the press mold by specifying the part classification and the design element stored in advance.
[0061]
The design of the press die in the fifth embodiment is performed using CAD (Computer Aided Design). In designing the press mold as shown in FIG. 1 using this CAD, the design is performed using the basic design drawings shown in FIGS. 2 to 7 are designed in advance in a form in which members and parts which are basic in the design of the press die 1 are mounted. The basic design drawings shown in FIGS. 2 to 7 include parts that are basically necessary for the design of the press die 1 and design elements (reference numerals 2 to 42 in the drawing). A plurality of basic structures are designed in advance corresponding to the outer dimensions of the mold 1, and basic structure data (not shown, but not shown in FIGS. 2 to 7) is attached to each basic structure as a basic design drawing. In the form of a design drawing, it is a collection of multiple types by changing the external dimensions, and the basic design elements and design elements incorporated in the press mold are also changed according to the external dimensions). Pre-stored in CAD.
The basic structure data that incorporates the parts that are fundamentally necessary for design and the design elements that are designed in advance can be freely changed in outer diameter by an arithmetic unit such as a CPU.
[0062]
Calling a basic design drawing that matches the external dimensions of the press mold 1 to be designed from such basic structure data on the display does not end the specific design of the press mold 1. Design elements showing the individual members (plates) constituting the press mold 1, the necessary parts and the machining dimensions / shapes for incorporating the parts, and the design elements showing the machining dimensions / shapes other than the parts mounting The design needs to be done individually.
Therefore, when a basic design drawing that matches the external dimensions of the press mold 1 designed from the basic structure data is called up on the display, the external dimensions of the press mold 1 are determined. Identify plate design (dimension shape design) that fits the dimensions. Once the dimensional shape of the plate is specified, another design of the press mold is started.
[0063]
In the design of the press die 1, the basic structure of the press die 1 designed in advance by incorporating the parts required for the design and the design elements (reference numerals 2 to 42 in the figure) into the press die 1 is described. The external dimensions of various plates incorporated in the mold 1 are set, and the external shape of the press mold 1 is designed. Regarding the various plates incorporated in the press mold 1, the various plates incorporated in the press mold 1 are designed in advance and stored in the CAD in the form of design drawings.
Thus, the design of the various plates constituting the upper die 2 and the design of the various plates constituting the lower die 3 are carried out by using the press die 1 that has been previously designed and stored in the CAD in the form of a design drawing. The outer shape is determined in accordance with the outer dimensions of.
[0064]
When the design of the various plates preliminarily incorporated in the press die 1 is completed, the parts and design elements necessary for designing the press die 1 preliminarily incorporated in the basic structure of the press die 1 (see FIG. No. 2 to 42), and parts necessary for the design of the press die 1 incorporated in advance in the basic structure of the press die 1 and basically necessary for the design of the press die 1 other than its design elements. Design parts and design elements.
For the parts that are fundamentally necessary for the design that are incorporated in the basic structure of the press die 1 in advance, the parts of all external dimensions to be used are stored in advance in the form of design drawings as CAD data in advance in the CAD. Yes.
As for the necessary parts incorporated in the basic structure of the pre-designed press die 1, parts data of all external dimensions used for each specific part are represented as part data on one drawing, and in advance. For the design elements incorporated in the basic structure of the designed press die 1, each of the design drawings is represented as design element data representing design elements of all external dimensions used for each specific design element on one drawing. In advance in the form of CAD.
Such part data is attached with a drawing code corresponding to each part of a part that is fundamentally necessary for design, which is incorporated in the basic structure of the press die 1 in advance. All the parts required for designing the press die 1 other than the necessary parts are also stored in advance in the form of a design drawing with a drawing code corresponding to each part. In addition, such design elements are given specific name classifications corresponding to each design element with respect to the design elements that are fundamentally necessary for design, which are incorporated in the basic structure of the press die 1 in advance, Design drawings with a drawing code corresponding to each design element for all the design elements required for designing the press die 1 other than the basic design elements necessary for the design In advance in the form of CAD.
[0065]
As for this part data, when each designed part exists as a catalog product, the part code is attached to each part. In the design element, the design element code is assigned to each design element. And is attributed by this design element code.
The parts shown in the part data and the design elements shown in the design element code can be read from the CAD memory onto the display, and any part or any design element can be incorporated into the basic structure of the press die 1. It has become. In addition, the parts and design elements incorporated in this basic structure can be freely changed in outer diameter on a CAD display.
[0066]
Therefore, when the drawing code indicating the specific basic structure is specified from the drawing code indicating the basic structure data of the press die 1 and the basic structure of the press die 1 is read on the display (FIGS. 2 to 7), this reading is performed. The basic structure of the press die 1 shown in FIGS. 2 to 7 incorporates parts and design elements that are fundamentally necessary for an ideal design in advance.
For example, when the tightening bolt 18 is taken as an example of a fundamentally necessary component in the design that is preliminarily incorporated in the basic structure of the press die 1, parts of all external dimensions used for the tightening bolt 18 are the tightening bolts. As shown in FIGS. 15A to 15J as part data on one drawing with a drawing code (for example, PCB) indicating the shape of the design drawing according to the diameter and length of the bolt 18 Is previously stored in the CAD. In FIG. 15, the symbols written for each part indicate a part code indicating the part for which the outer diameter is specified. For example, “PCB3-5” is “PCB” is the type of tightening bolt, and “3-5”. "Indicates the diameter (3 mm) and length (5 mm).
The design element of the external dimensions as a design element for attaching the tightening bolt 18 is shown as a design element on one drawing with a drawing code (for example, PCB-T) indicating the design element for attaching the tightening bolt. As shown in 16 (A) to (J), in accordance with the tightening bolt 18, the diameter is stored in advance in the form of a design drawing according to the size and length of the bolt. In FIG. 16, the symbols written for each design element indicate the design elements that specify the outer diameter. For example, “PCB-T3-5” is “PCB-T”, which is the design element of the tightening bolt. “3-5” indicates that a counterbore process is performed in which a fastening bolt 18 having a diameter of 3 mm and a length of 5 mm to be fitted into the design element is fitted.
[0067]
Therefore, when designing a press die, first, the external dimensions of the basic structure of the press die designed in advance are specified, and the basic structure of the press die stored in advance in the CAD is read on the display. Then, the basic structure of the press die that specifies the external dimensions read on the display is shown in a form in which basically necessary parts and design elements thereof are incorporated. Basically necessary optimum parts incorporated in the basic structure of the press mold preliminarily designed in the basic structure of the press mold and design elements thereof are parts in which the design of the part is stored in advance in the CAD By designating a specific part code (for example, PCB3-5) from the data, a design element design (for example, PCB-T3-) is selected from design element data stored in advance in the CAD. Each is done by specifying 5). However, the design of the press die 1 can be completed only by designing the optimal parts and the design elements that are basically required and incorporated in the basic structure of the press die 1 that has been designed and stored in the CAD. is not. It is necessary to design by writing design elements for smoothly moving the press die 1 into the basic structure of the press die 1. In order to design the parts and design elements necessary for the design of the press mold to be written in the basic structure of the press mold 1, the component code and the design elements are designed in the basic structure of the press mold 1 each time. The design of the press die is completed by writing on the design drawing.
On the design drawing shown on the display, the drawing is automatically displayed with dimensions corresponding to each designated part and each design element.
Further, the dimensions of the optimum parts that are basically necessary for constructing the press mold 1 designed and incorporated in advance in the basic structure of the press mold 1 are different from the original dimensions, that is, the press mold 1 When a design change is required for the basic structure, the drawing can be changed on the display. When the drawing is changed on the display, the dimensions of the design drawing can be measured with a scale or the like.
In addition, the basic structure of the press die 1 and the optimum parts and design elements that are basically necessary for constructing the press die 1 designed and incorporated in advance in the basic structure of the press die 1 need to be changed in design. In this case, the drawing is changed on the display, and the basic structure, parts, and design element dimensions of the changed press die 1 are automatically calculated by CAD and automatically displayed on the design drawing displayed on the display. Is done.
[0068]
Selecting from the pre-stored part data and design element data and writing it in the design drawing on the display makes it clear that each part and design element in the basic structure of the press die 1 are appropriate and inappropriate. .
[0069]
Therefore, according to the present embodiment, the basic structure that matches the size and dimensions of the press mold to be designed is read from a plurality of basic structures stored in advance in the CAD, and all necessary for the press mold is read out. Designing press dies easily, without dropping the parts and design elements necessary for press die design, with a simple method such as designation of names that identify parts and design elements It can be performed.
Further, according to the present embodiment, the designer is displayed on the display when the basic structure of the press die is changed or when it is necessary to change the once set parts and the design elements thereof. While looking at the design drawing, simply change the outer diameter shape of the basic structure of the press mold on the design drawing displayed on the display, the outer diameter shape of the part and its design elements, Design changes of parts and their design elements allow designers to make design changes freely and accurately while looking at the design drawings themselves, and capture the actual dimensions after the change. Can be made easier.
Further, according to the present embodiment, when a part is changed after it has been designed once with a press die, only the part to be changed is erased from the design drawing on the CAD display, and the design element is left on the design drawing. Therefore, when redesigning, it is not necessary to design the design element again, and the design procedure can be saved, and the press die can be designed in a short time.
[0070]
<< Sixth Embodiment >>
The sixth embodiment of the present invention is basically a press die design system for designing a press die using CAD, and incorporates parts and design elements necessary for the design of the press die into the CAD. The basic structure of the press mold designed by setting and assembling the parts with the machining dimensions and basic dimensions is divided into multiple sizes for each external dimension of the press mold and each of the plurality of plates incorporated in the basic structure. The plate code is stored in advance, the part codes on a plurality of catalogs are stored in advance for the parts pre-assembled in the basic structure, and the design elements pre-assembled in the basic structure are stored in a plurality The design elements are stored in advance, the external dimensions of the press mold to be designed are selected, and the basic structure corresponding to the external dimensions of the selected press mold is selected as the C D is selected from a plurality of basic structures stored in D, displayed on the display, and stored in advance for each of the plurality of plates incorporated in advance in the basic structure of the press mold displayed on the display. The plate is designed by selecting a plate corresponding to the external dimensions of the basic structure of the press mold displayed on the display from the plate data, and pre-installed in the basic structure of the press mold displayed on the display. For the parts necessary for the design of the basic structure of the press mold, a plurality of parts corresponding to the parts necessary for the design of the basic structure of the press mold displayed on the display from the part data stored in advance. Design by selecting the part code on the catalog, and the basic structure of the press mold displayed on the display Design elements necessary for designing the basic structure of a press mold incorporated in advance, among the design elements stored in advance, the design elements necessary for designing the basic structure of the press mold displayed on the display. Design is performed by selecting corresponding design elements in the catalog stored in the CAD, and the design change of the basic structure of the press die read from the CAD is processed on the display And when it is included in a plurality of basic structures stored in advance in CAD, it is selected by selecting from the basic structures stored in advance. Plates that allow design changes to the dimensions of the plates, parts, and design elements that are necessary for the design incorporated in the structure by performing arithmetic processing. When the parts and design elements are included in the plate data stored in the CAD, the part codes and design elements on the catalog, by specifying the pre-stored plates, parts classification and design elements This is a press die design system for designing a press die.
[0071]
The design of the press die in the sixth embodiment is performed using CAD (Computer Aided Design). In designing the press mold as shown in FIG. 1 using this CAD, the design is performed using the basic design drawings shown in FIGS. 2 to 7 are designed in advance in a form in which members and parts which are basic in the design of the press die 1 are mounted. The basic design drawings shown in FIGS. 2 to 7 include parts that are basically necessary for the design of the press die 1 and design elements (reference numerals 2 to 42 in the drawing). A plurality of basic structures are designed in advance corresponding to the outer dimensions of the mold 1, and basic structure data (not shown, but not shown in FIGS. 2 to 7) is attached to each basic structure as a basic design drawing. In the form of a design drawing, it is a collection of multiple types by changing the external dimensions, and the basic design elements and design elements incorporated in the press mold are also changed according to the external dimensions). Pre-stored in CAD.
The basic structure data that incorporates the parts that are fundamentally necessary for design and the design elements that are designed in advance can be freely changed in outer diameter by an arithmetic unit such as a CPU.
[0072]
Calling a basic design drawing that matches the external dimensions of the press mold 1 to be designed from such basic structure data on the display does not end the specific design of the press mold 1. Design elements showing the individual members (plates) constituting the press mold 1, the necessary parts and the machining dimensions / shapes for incorporating the parts, and the design elements showing the machining dimensions / shapes other than the parts mounting The design needs to be done individually.
Therefore, first, the external dimensions of the press mold 1 are specified in accordance with the size of the portion that changes for each product, and the external dimensions of the press mold 1 designed from the basic structure data of the press mold are matched. The basic design drawing is called on the display and the outer shape of the press die attached to the press machine is determined, and the design of the press die is started.
[0073]
In the design of the press die 1, the basic structure of the press die 1 designed in advance by incorporating the parts required for the design and the design elements (reference numerals 2 to 42 in the figure) into the press die 1 is described. The external dimensions of various plates incorporated in the mold 1 are set, and the external shape of the press mold 1 is designed. As for the various plates incorporated in the press die 1, various external dimensions of the various plates incorporated in the press die 1 are designed in advance and stored in the CAD in the form of design drawings as one plate data. It is.
First, the die plate 10 that is the basis of the lower mold 3 is designed. As for this die plate 10, as shown in FIG. 14, die plates of various outer dimensions (in this embodiment, five types) are designed in advance and stored in the CAD in the form of a design drawing as one plate data. ing. A design drawing of the die plate 10 corresponding to the outer dimensions used for the press die 1 is called out on the display from the data on the die plate 10, and a specific die is selected from a plurality of die plates displayed on the display. Select the plate. The design of the die plate 10 can be easily designed by selecting the design drawing of the die plate 10 having the optimum shape from the design drawing of the die plate 10 previously designed in this way.
[0074]
Next, the dicing backing plate 9 constituting the lower mold 3 is designed. The design of the die backing plate 9 is inevitably determined by the outer dimensions of the die plate 10 when the design (outer dimensions, etc.) of the die plate 10 is completed. There is no. Although the outer dimensions are determined in this way, the design of the die backing plate 9 is not completed just by designing the die plate 10. Therefore, although the design for the outer dimensions is completed upon completion of the design for the die plate 10 (outer dimensions, etc.), the specific design of the die backing plate 9 must be performed separately from the design of the die plate 10. Don't be.
In designing the die backing plate 9, die backing plates (5 types are shown in FIG. 13) of all external dimensions are pre-designed as shown in FIG. It is stored in advance in the CAD in the form. A design drawing of the die backing plate 9 corresponding to the external dimensions used for the press die 1 is called out from the data of the die backing plate 9 on the display, and the plurality of die backing plates displayed on the display are selected. Select a specific die backing plate. The design of the die backing plate 9 can be easily designed by selecting the design drawing of the die backing plate 9 having the optimum shape from the design drawings of the die backing plate 9 designed in advance in this way.
[0075]
Next, the die holder 8 constituting the lower mold 3 is designed. The design of the die holder 8 is inevitably determined by the outer dimensions of the die plate 10 when the design (outer dimensions, etc.) of the die plate 10 is completed, and there is actually no degree of design freedom. . Although the outer dimensions are determined in this way, the design of the die holder 8 is not completed just by designing the die plate 10. Therefore, although the design for the outer dimensions ends when the design (outer dimensions, etc.) for the die plate 10 is completed, the specific design of the die holder 8 must be performed separately from the design of the die plate 10.
With respect to the design of the die holder 8, punch plates having various outer dimensions (five types are shown in FIG. 12) are designed in advance as shown in FIG. Stored in CAD. A design drawing of the die holder 8 corresponding to the external dimensions used for the press die 1 is called out from the data of the die holder 8 on the display, and a specific die holder is selected from a plurality of die holders displayed on the display. . The design of the die holder 8 can be easily designed by selecting the design drawing of the die holder 8 having the optimum shape from the design drawing of the die holder 8 designed in advance as described above.
[0076]
As described above, when designing the press die 1 based on the basic design drawings shown in FIGS. 2 to 7, the lower die 3 of the press die 1 is configured. When the design of the plate 10, the die backing plate 9, and the die holder 8 is completed, the stripper plate 7, the punch plate 6, the punch backing plate 5, and the punch holder 4 constituting the upper die 2 of the press die 1 are next designed. Do.
First, the stripper plate 7 that is the basis of the upper mold 2 is designed. The design of the stripper plate 7 is inevitably determined by the outer dimensions of the die plate 10 when the design (outer dimensions, etc.) of the die plate 10 of the lower mold 3 is completed. There is no design freedom regarding dimensions. Although the outer dimensions are determined in this way, the design of the stripper plate 7 is not completed just by designing the die plate 10, and it is necessary to select a stripper plate 7 suitable for the die plate 10. . Therefore, although the design for the outer dimensions is completed upon completion of the design for the die plate 10 (outer dimensions, etc.), the specific design of the stripper plate 7 must be performed separately from the design of the die plate 10. .
When the stripper plate 7 is designed, stripper plates (5 types in the present embodiment) of all external dimensions are designed in advance as shown in FIG. It is remembered. A design drawing of the stripper plate 7 having an outer dimension corresponding to the outer dimension of the die plate 10 used in the press die 1 is called out on the display from the data of the stripper plate 7 and a plurality of die holders displayed on the display. Select a specific die holder from In this way, the stripper plate 7 can be easily designed by selecting the design drawing of the stripper plate 7 having the optimum shape from the design drawings of the stripper plate 7 designed in advance.
[0077]
Next, the punch plate 6 constituting the upper mold 2 is designed. The design of the punch plate 6 is inevitably determined by the outer dimensions of the stripper plate 7 when the design (outer dimensions, etc.) of the stripper plate 7 is completed. Absent. Although the outer dimensions are determined in this way, the design of the punch plate 6 is not completed just by designing the stripper plate 7. Therefore, the design of the outer dimensions is completed upon completion of the design of the stripper plate 7 (outer dimensions, etc.), but the specific design of the punch plate 6 must be performed separately from the design of the stripper plate 7. .
In designing the punch plate 6, punch plates having various outer dimensions (five types are shown in FIG. 10) are designed in advance as shown in FIG. Pre-stored in CAD. From the punch plate 6 data, a design drawing of the punch plate 6 corresponding to the external dimensions used for the press die 1 is called on the display, and a specific punch is selected from the plurality of punch plates displayed on the display. Select the plate. The design of the punch plate 6 can be easily designed by selecting the design drawing of the punch plate 6 having the optimum shape from the design drawing of the punch plate 6 previously designed in this way.
[0078]
Next, the punch backing plate 5 constituting the upper mold 2 is designed. The design of the punch backing plate 5 is inevitably determined by the outer dimensions of the stripper plate 7 when the design (outer dimensions, etc.) of the stripper plate 7 is completed. There is no. Although the outer dimensions are determined in this way, the design of the punch backing plate 5 is not completed just by designing the stripper plate 7. Therefore, the design of the outer dimensions is completed upon completion of the design of the stripper plate 7 (outer dimensions, etc.), but the specific design of the punch backing plate 5 must be performed separately from the design of the stripper plate 7. Don't be.
As for the design of the punch backing plate 5, punch backing plates of various outer dimensions (five types are shown in FIG. 9) are designed in advance as shown in FIG. It is stored in advance in the CAD in the form. A design drawing of the punch backing plate 5 corresponding to the external dimensions used for the press die 1 is called out from the data of the punch backing plate 5 on the display, and the plurality of punch backing plates displayed on the display are selected. Select a specific punch backing plate. The design of the punch backing plate 5 can be easily designed by selecting the design drawing of the punch backing plate 5 having the optimum shape from the design drawings of the punch backing plate 5 previously designed in this way.
[0079]
Next, the punch holder 4 constituting the upper mold 2 is designed. The design of the punch holder 4 is inevitably determined by the outer dimensions of the stripper plate 7 when the design (outer dimensions, etc.) of the stripper plate 7 is completed. Absent. Although the outer dimensions are determined in this way, the design of the punch holder 4 is not completed just by designing the stripper plate 7. Therefore, the design of the outer dimensions is completed upon completion of the design of the stripper plate 7 (outer dimensions, etc.), but the specific design of the punch holder 4 must be performed separately from the design of the stripper plate 7. .
As for the design of the punch holder 4, punch holders of various outer dimensions (seven types are shown in FIG. 8) are designed in advance as shown in FIG. Pre-stored in CAD. A design drawing of the punch holder 4 corresponding to the external dimensions used for the press die 1 is called out from the data of the punch holder 4 on the display, and a specific stripper is selected from the plurality of punch holders displayed on the display. Select the plate. The design of the punch holder 4 can be easily designed by selecting the design drawing of the punch holder 4 having the optimum shape from the design drawings of the punch holder 4 previously designed in this way.
[0080]
When the design of the various plates constituting the upper die 2 and the design of the various plates constituting the lower die 3 are completed in this way, the upper die 2 and the lower die 3 are then combined to function as a press die. Then, the design of the parts required for the design of the press die 1 and its design elements is started.
Parts necessary for design and design elements (reference numerals 11 to 42 in the figure) required for the press die 1 pre-installed in the basic structure of the press die 1 and pre-installed in the basic structure of the press die 1 The parts required for the design of the press mold 1 other than the parts required for the design of the press mold 1 and the design elements thereof and the design elements are designed.
For the parts that are fundamentally necessary for the design that are incorporated in the basic structure of the press die 1 in advance, the parts of all external dimensions to be used are stored in advance in the form of design drawings as CAD data in advance in the CAD. Yes.
As for the necessary parts incorporated in the basic structure of the pre-designed press die 1, parts data of all external dimensions used for each specific part are represented as part data on one drawing, and in advance. For the design elements incorporated in the basic structure of the designed press die 1, each of the design drawings is represented as design element data representing design elements of all external dimensions used for each specific design element on one drawing. In advance in the form of CAD.
Such part data is attached with a drawing code corresponding to each part of a part that is fundamentally necessary for design, which is incorporated in the basic structure of the press die 1 in advance. All the parts required for designing the press die 1 other than the necessary parts are also stored in advance in the form of a design drawing with a drawing code corresponding to each part. In addition, such design elements are given specific name classifications corresponding to each design element with respect to the design elements that are fundamentally necessary for design, which are incorporated in the basic structure of the press die 1 in advance, Design drawings with a drawing code corresponding to each design element for all the design elements required for designing the press die 1 other than the basic design elements necessary for the design In advance in the form of CAD.
[0081]
As for this part data, when each designed part exists as a catalog product, the part code is attached to each part. In the design element, the design element code is assigned to each design element. And is attributed by this design element code.
The parts shown in the part data and the design elements shown in the design element code can be read from the CAD memory onto the display, and any part or any design element can be incorporated into the basic structure of the press die 1. It has become. In addition, the parts and design elements incorporated in this basic structure can be freely changed in outer diameter on a CAD display.
[0082]
Therefore, when the drawing code indicating the specific basic structure is specified from the drawing code indicating the basic structure data of the press die 1 and the basic structure of the press die 1 is read on the display (FIGS. 2 to 7), this reading is performed. The basic structure of the press die 1 shown in FIGS. 2 to 7 incorporates parts and design elements that are fundamentally necessary for an ideal design in advance.
For example, when the tightening bolt 18 is taken as an example of a fundamentally necessary component in the design that is preliminarily incorporated in the basic structure of the press die 1, parts of all external dimensions used for the tightening bolt 18 are the tightening bolts. As shown in FIGS. 15A to 15J as part data on one drawing with a drawing code (for example, PCB) indicating the shape of the design drawing according to the diameter and length of the bolt 18 Is previously stored in the CAD. In FIG. 15, the symbols written for each part indicate a part code indicating the part for which the outer diameter is specified. For example, “PCB3-5” is “PCB” is the type of tightening bolt, and “3-5”. "Indicates the diameter (3 mm) and length (5 mm).
The design element of the external dimensions as a design element for attaching the tightening bolt 18 is shown as a design element on one drawing with a drawing code (for example, PCB-T) indicating the design element for attaching the tightening bolt. As shown in 16 (A) to (J), in accordance with the tightening bolt 18, the diameter is stored in advance in the form of a design drawing according to the size and length of the bolt. In FIG. 16, the symbols written for each design element indicate the design elements that specify the outer diameter. For example, “PCB-T3-5” is “PCB-T”, which is the design element of the tightening bolt. “3-5” indicates that a counterbore process is performed in which a fastening bolt 18 having a diameter of 3 mm and a length of 5 mm to be fitted into the design element is fitted.
[0083]
Therefore, when designing a press die, first, the external dimensions of the basic structure of the press die designed in advance are specified, and the basic structure of the press die stored in advance in the CAD is read on the display. Then, the basic structure of the press die that specifies the external dimensions read on the display is shown in a form in which basically necessary parts and design elements thereof are incorporated. Basically necessary optimum parts incorporated in the basic structure of the press mold preliminarily designed in the basic structure of the press mold and design elements thereof are parts in which the design of the part is stored in advance in the CAD By designating a specific part code (for example, PCB3-5) from the data, a design element design (for example, PCB-T3-) is selected from design element data stored in advance in the CAD. Each is done by specifying 5). However, the design of the press die 1 can be completed only by designing the optimal parts and the design elements that are basically required and incorporated in the basic structure of the press die 1 that has been designed and stored in the CAD. is not. It is necessary to design by writing design elements for smoothly moving the press die 1 into the basic structure of the press die 1. In order to design the parts and design elements necessary for the design of the press mold to be written in the basic structure of the press mold 1, the component code and the design elements are designed in the basic structure of the press mold 1 each time. The design of the press die is completed by writing on the design drawing.
On the design drawing shown on the display, the drawing is automatically displayed with dimensions corresponding to each designated part and each design element.
Further, the dimensions of the optimum parts that are basically necessary for constructing the press mold 1 designed and incorporated in advance in the basic structure of the press mold 1 are different from the original dimensions, that is, the press mold 1 When a design change is required for the basic structure, the drawing can be changed on the display. When the drawing is changed on the display, the dimensions of the design drawing can be measured with a scale or the like.
In addition, the basic structure of the press die 1 and the optimum parts and design elements that are basically necessary for constructing the press die 1 designed and incorporated in advance in the basic structure of the press die 1 need to be changed in design. In this case, the drawing is changed on the display, and the basic structure, parts, and design element dimensions of the changed press die 1 are automatically calculated by CAD and automatically displayed on the design drawing displayed on the display. Is done.
[0084]
Selecting from the pre-stored part data and design element data and writing it in the design drawing on the display makes it clear that each part and design element in the basic structure of the press die 1 are appropriate and inappropriate. .
[0085]
Therefore, according to the present embodiment, the basic structure that matches the size and dimensions of the press mold to be designed is read from a plurality of basic structures stored in advance in the CAD, and all necessary for the press mold is read out. Designing press dies easily, without dropping the parts and design elements necessary for press die design, with a simple method such as designation of names that identify parts and design elements It can be performed.
Further, according to the present embodiment, the designer is displayed on the display when the basic structure of the press die is changed or when it is necessary to change the once set parts and the design elements thereof. While looking at the design drawing, simply change the outer diameter shape of the basic structure of the press mold on the design drawing displayed on the display, the outer diameter shape of the part and its design elements, Design changes of parts and their design elements allow designers to make design changes freely and accurately while looking at the design drawings themselves, and capture the actual dimensions after the change. Can be made easier.
Further, according to the present embodiment, when a part is changed after it has been designed once with a press die, only the part to be changed is erased from the design drawing on the CAD display, and the design element is left on the design drawing. Therefore, when redesigning, it is not necessary to design the design element again, and the design procedure can be saved, and the press die can be designed in a short time.
[0086]
<< Seventh Embodiment >>
In the seventh embodiment of the present invention, parts and design elements necessary for the design of a press die are incorporated, and a plurality of basic structures are designed in advance corresponding to the outer dimensions of the press die. Set a specific basic structure based on the external dimensions of the press mold to be designed, and perform calculation processing of the design change of the press mold in the set basic structure, the size change of necessary parts and the change of the design element, This is done by selecting from a plurality of basic structures that have been designed in advance, and by pressing or selecting a name that specifies the design components that have been incorporated in advance in the basic structure and the changes in their design elements. This is a press die manufacturing method using a press die design system that draws a design drawing of a die and manufactures a press die based on the design drawing.
[0087]
In designing the press die for manufacturing the press die according to the seventh embodiment, the design is performed using the basic design drawings shown in FIGS. 2 to 7 are designed in advance in a form in which members and parts which are basic in the design of the press die 1 are mounted. The basic design drawings shown in FIGS. 2 to 7 include parts that are basically necessary for the design of the press die 1 and design elements (reference numerals 2 to 42 in the drawing). A plurality of basic structures are designed in advance corresponding to the outer dimensions of the mold 1, and basic structure data (not shown, but not shown in FIGS. 2 to 7) is attached to each basic structure as a basic design drawing. In the form of a design drawing, it is a collection of multiple types by changing the external dimensions, and the basic design elements and design elements incorporated in the press mold are also changed according to the external dimensions). Prestored in a RAM or the like.
The basic structure data that incorporates the parts that are fundamentally necessary for design and the design elements that are designed in advance can be freely changed in outer diameter by an arithmetic unit such as a CPU.
[0088]
Even if a basic design drawing that matches the external dimensions of the press die 1 to be designed is selected from such basic structure data, the design of the specific press die 1 is not completed. Design of individual members (plates) that make up the mold 1, design elements that indicate necessary parts and machining dimensions and machining shapes for incorporating the parts, and design elements that represent machining dimensions and machining shapes other than component mounting is necessary.
Therefore, when a basic design drawing that matches the external dimensions of the press mold 1 to be designed is selected from the basic structure data, the external dimensions of the press mold 1 are determined, and the external dimensions of the press mold 1 are matched. Identify the design of the plate (dimension and shape design). Once the dimensional shape of the plate is specified, another design of the press mold is started.
[0089]
In the design of the press die 1, the basic structure of the press die 1 designed in advance by incorporating the parts required for the design and the design elements (reference numerals 2 to 42 in the figure) into the press die 1 is described. The external dimensions of various plates incorporated in the mold 1 are set, and the external shape of the press mold 1 is designed. As for the various plates incorporated in the press die 1, the various plates incorporated in the press die 1 are designed in advance and stored in advance in a RAM or the like in the form of a design drawing.
The design of the various plates constituting the upper die 2 and the design of the various plates constituting the lower die 3 are performed in advance by using a press die that is designed in advance and stored in the RAM or the like in the form of a design drawing. The outer shape is determined according to the outer dimension of 1.
[0090]
When the design of the various plates preliminarily incorporated in the press die 1 is completed, the parts and design elements necessary for designing the press die 1 preliminarily incorporated in the basic structure of the press die 1 (see FIG. No. 2 to 42), and parts necessary for the design of the press die 1 incorporated in advance in the basic structure of the press die 1 and basically necessary for the design of the press die 1 other than its design elements. Design parts and design elements.
For the parts that are fundamentally necessary for the design, which are incorporated in the basic structure of the press die 1 in advance, parts of all external dimensions to be used are stored in advance in a RAM or the like as one part data in the form of a design drawing. ing.
As for the necessary parts incorporated in the basic structure of the pre-designed press die 1, parts data of all external dimensions used for each specific part are represented as part data on one drawing, and in advance. For the design elements incorporated in the basic structure of the designed press die 1, each of the design drawings is represented as design element data representing design elements of all external dimensions used for each specific design element on one drawing. Is previously stored in a RAM or the like.
Such part data is attached with a drawing code corresponding to each part of a part that is fundamentally necessary for design, which is incorporated in the basic structure of the press die 1 in advance. All the parts required for designing the press die 1 other than the necessary parts are also stored in advance in a RAM or the like in the form of a design drawing with a drawing code corresponding to each part. In addition, such design elements are given specific name classifications corresponding to each design element with respect to the design elements that are fundamentally necessary for design, which are incorporated in the basic structure of the press die 1 in advance, Design drawings with a drawing code corresponding to each design element for all the design elements required for designing the press die 1 other than the basic design elements necessary for the design Is previously stored in a RAM or the like.
[0091]
As for this part data, when each designed part exists as a catalog product, the part code is attached to each part. In the design element, the design element code is assigned to each design element. And is attributed by this design element code.
The parts and design elements shown in these parts data can be taken out by an arithmetic device such as a CPU and incorporated into the basic structure of the press die 1. The parts and design elements incorporated in the basic structure can be freely changed in outer diameter by an arithmetic device such as a CPU.
[0092]
Accordingly, when the drawing code indicating the specific basic structure is identified from the drawing code indicating the basic structure data of the press die 1 and the basic structure of the press die 1 is read (FIGS. 2 to 7), this read is performed. The basic structure of the press die 1 shown in FIGS. 2 to 7 incorporates parts and design elements that are fundamentally necessary for an ideal design in advance.
For example, when the tightening bolt 18 is taken as an example of a fundamentally necessary component in the design that is preliminarily incorporated in the basic structure of the press die 1, parts of all external dimensions used for the tightening bolt 18 are the tightening bolts. As shown in FIGS. 15A to 15J as part data on one drawing with a drawing code (for example, PCB) indicating the shape of the design drawing according to the diameter and length of the bolt 18 Are stored in advance in a RAM or the like. In FIG. 15, the symbols written for each part indicate a part code indicating the part for which the outer diameter is specified. For example, “PCB3-5” is “PCB” is the type of tightening bolt, and “3-5”. "Indicates the diameter (3 mm) and length (5 mm).
The design element of the external dimensions as a design element for attaching the tightening bolt 18 is shown as a design element on one drawing with a drawing code (for example, PCB-T) indicating the design element for attaching the tightening bolt. As shown in 16 (A) to (J), in accordance with the tightening bolt 18, it is stored in advance in a RAM or the like in the form of a design drawing according to the size and length of the diameter. In FIG. 16, the symbols written for each design element indicate the design elements that specify the outer diameter. For example, “PCB-T3-5” is “PCB-T”, which is the design element of the tightening bolt. “3-5” indicates that a counterbore process is performed in which a fastening bolt 18 having a diameter of 3 mm and a length of 5 mm to be fitted into the design element is fitted.
[0093]
Therefore, when designing a press die, first, the external dimensions of the basic structure of the press die designed in advance are specified. Then, the basic structure of the press die that specifies the external dimensions is shown in a form in which basically necessary parts and design elements thereof are incorporated. For the optimum parts and the design elements that are basically necessary and incorporated in the basic structure of the press mold that is pre-designed in the basic structure of the press mold, the design of the part is a part code (for example, PCB 3-5 ) By designating a design element (for example, PCB-T3-5). However, the design of the press die is not completed simply by designing the optimal parts and the design elements that are basically required incorporated into the basic structure of the pre-designed press die 1. A design element for smoothly moving the press die 1 by pressing is written in the basic structure of the press die 1 and designed. In order to design the parts and design elements necessary for the design of the press mold to be written in the basic structure of the press mold 1, the component code and the design elements are designed in the basic structure of the press mold 1 each time. The design of the press die is completed by writing on the design drawing.
On the design drawing shown on the display, the drawing is automatically displayed with dimensions corresponding to each designated part and each design element.
Further, the dimensions of the optimum parts that are basically necessary for constructing the press mold 1 designed and incorporated in advance in the basic structure of the press mold 1 are different from the original dimensions, that is, the press mold 1 When a design change is required for the basic structure, the drawing can be changed on the display. When the drawing is changed on the display, the dimensions of the design drawing can be measured with a scale or the like.
In addition, the basic structure of the press die 1 and the optimum parts and design elements that are basically necessary for constructing the press die 1 designed and incorporated in advance in the basic structure of the press die 1 need to be changed in design. In this case, the drawing is changed on the display, and the basic structure, parts, and dimensions of the design element of the changed press die 1 are automatically calculated by the calculation device and automatically displayed on the drawing shown on the display. Is displayed.
[0094]
Selecting from the pre-stored part data and design element data and writing it in the design drawing on the display makes it clear that each part and design element in the basic structure of the press die 1 are appropriate and inappropriate. .
The press die 1 designed in this way is printed as a design drawing, and a press die is manufactured based on this design drawing.
[0095]
Therefore, according to the present embodiment, it is possible to easily change the design of the press die, change the size of the required part, and change the design element without dropping the part and the design element necessary for the design. A press die can be easily manufactured based on the design drawing designed by showing the above part code.
[0096]
<< Eighth Embodiment >>
The eighth embodiment of the present invention uses CAD, and corresponds to the external dimensions of a press die that is stored in a state in which the parts necessary for designing the press die and the design elements thereof are pre-installed in the CAD. From a plurality of basic structures, a specific basic structure is read on the display based on the external dimensions of the press mold to be designed, the design change of the press mold in the basic structure of the read press mold, and the necessary parts The size change and the design element change are performed by calculation processing or by selecting from a plurality of basic structures of press dies stored in advance in the CAD, and incorporated in the basic structure of the press dies in advance. Change the dimensions of the parts required for the design of the press mold and the design elements, or specify specific names in which the parts to be changed and the design elements are stored in the CAD Designing a press die by calling or selecting, drawing a design drawing based on the design, and producing a press die based on the design drawing It is a production method.
[0097]
The design of the press die in the eighth embodiment is performed using CAD (Computer Aided Design). In designing the press mold as shown in FIG. 1 using this CAD, the design is performed using the basic design drawings shown in FIGS. 2 to 7 are designed in advance in a form in which members and parts which are basic in the design of the press die 1 are mounted. The basic design drawings shown in FIGS. 2 to 7 include parts that are basically necessary for the design of the press die 1 and design elements (reference numerals 2 to 42 in the drawing). A plurality of basic structures are designed in advance corresponding to the outer dimensions of the mold 1, and basic structure data (not shown, but not shown in FIGS. 2 to 7) is attached to each basic structure as a basic design drawing. In the form of a design drawing, it is a collection of multiple types by changing the external dimensions, and the basic design elements and design elements incorporated in the press mold are also changed according to the external dimensions). Pre-stored in CAD.
The basic structure data that incorporates the parts that are fundamentally necessary for design and the design elements that are designed in advance can be freely changed in outer diameter by an arithmetic unit such as a CPU.
[0098]
Calling a basic design drawing that matches the external dimensions of the press mold 1 to be designed from such basic structure data on the display does not end the specific design of the press mold 1. Design elements showing the individual members (plates) constituting the press mold 1, the necessary parts and the machining dimensions / shapes for incorporating the parts, and the design elements showing the machining dimensions / shapes other than the parts mounting The design needs to be done individually.
Therefore, when a basic design drawing that matches the external dimensions of the press mold 1 designed from the basic structure data is called up on the display, the external dimensions of the press mold 1 are determined. Identify plate design (dimension shape design) that fits the dimensions. Once the dimensional shape of the plate is specified, another design of the press mold is started.
[0099]
In the design of the press die 1, the basic structure of the press die 1 designed in advance by incorporating the parts required for the design and the design elements (reference numerals 2 to 42 in the figure) into the press die 1 is described. The external dimensions of various plates incorporated in the mold 1 are set, and the external shape of the press mold 1 is designed. Regarding the various plates incorporated in the press mold 1, the various plates incorporated in the press mold 1 are designed in advance and stored in the CAD in the form of design drawings.
Thus, the design of the various plates constituting the upper die 2 and the design of the various plates constituting the lower die 3 are carried out by using the press die 1 that has been previously designed and stored in the CAD in the form of a design drawing. The outer shape is determined in accordance with the outer dimensions of.
[0100]
When the design of the various plates preliminarily incorporated in the press die 1 is completed, the parts and design elements necessary for designing the press die 1 preliminarily incorporated in the basic structure of the press die 1 (see FIG. No. 2 to 42), and parts necessary for the design of the press die 1 incorporated in advance in the basic structure of the press die 1 and basically necessary for the design of the press die 1 other than its design elements. Design parts and design elements.
For the parts that are fundamentally necessary for the design that are incorporated in the basic structure of the press die 1 in advance, the parts of all external dimensions to be used are stored in advance in the form of design drawings as CAD data in advance in the CAD. Yes.
As for the necessary parts incorporated in the basic structure of the pre-designed press die 1, parts data of all external dimensions used for each specific part are represented as part data on one drawing, and in advance. For the design elements incorporated in the basic structure of the designed press die 1, each of the design drawings is represented as design element data representing design elements of all external dimensions used for each specific design element on one drawing. In advance in the form of CAD.
Such part data is attached with a drawing code corresponding to each part of a part that is fundamentally necessary for design, which is incorporated in the basic structure of the press die 1 in advance. All the parts required for designing the press die 1 other than the necessary parts are also stored in advance in the form of a design drawing with a drawing code corresponding to each part. In addition, such design elements are given specific name classifications corresponding to each design element with respect to the design elements that are fundamentally necessary for design, which are incorporated in the basic structure of the press die 1 in advance, Design drawings with a drawing code corresponding to each design element for all the design elements required for designing the press die 1 other than the basic design elements necessary for the design In advance in the form of CAD.
[0101]
As for this part data, when each designed part exists as a catalog product, the part code is attached to each part. In the design element, the design element code is assigned to each design element. And is attributed by this design element code.
The parts shown in the part data and the design elements shown in the design element code can be read from the CAD memory onto the display, and any part or any design element can be incorporated into the basic structure of the press die 1. It has become. In addition, the parts and design elements incorporated in this basic structure can be freely changed in outer diameter on a CAD display.
[0102]
Therefore, when the drawing code indicating the specific basic structure is specified from the drawing code indicating the basic structure data of the press die 1 and the basic structure of the press die 1 is read on the display (FIGS. 2 to 7), this reading is performed. The basic structure of the press die 1 shown in FIGS. 2 to 7 incorporates parts and design elements that are fundamentally necessary for an ideal design in advance.
For example, when the tightening bolt 18 is taken as an example of a fundamentally necessary component in the design that is preliminarily incorporated in the basic structure of the press die 1, parts of all external dimensions used for the tightening bolt 18 are the tightening bolts. As shown in FIGS. 15A to 15J as part data on one drawing with a drawing code (for example, PCB) indicating the shape of the design drawing according to the diameter and length of the bolt 18 Is previously stored in the CAD. In FIG. 15, the symbols written for each part indicate a part code indicating the part for which the outer diameter is specified. For example, “PCB3-5” is “PCB” is the type of tightening bolt, and “3-5”. "Indicates the diameter (3 mm) and length (5 mm).
The design element of the external dimensions as a design element for attaching the tightening bolt 18 is shown as a design element on one drawing with a drawing code (for example, PCB-T) indicating the design element for attaching the tightening bolt. As shown in 16 (A) to (J), in accordance with the tightening bolt 18, the diameter is stored in advance in the form of a design drawing according to the size and length of the bolt. In FIG. 16, the symbols written for each design element indicate the design elements that specify the outer diameter. For example, “PCB-T3-5” is “PCB-T”, which is the design element of the tightening bolt. “3-5” indicates that a counterbore process is performed in which a fastening bolt 18 having a diameter of 3 mm and a length of 5 mm to be fitted into the design element is fitted.
[0103]
Therefore, when designing a press die, first, the external dimensions of the basic structure of the press die designed in advance are specified, and the basic structure of the press die stored in advance in the CAD is read on the display. Then, the basic structure of the press die that specifies the external dimensions read on the display is shown in a form in which basically necessary parts and design elements thereof are incorporated. Basically necessary optimum parts incorporated in the basic structure of the press mold preliminarily designed in the basic structure of the press mold and design elements thereof are parts in which the design of the part is stored in advance in the CAD By designating a specific part code (for example, PCB3-5) from the data, a design element design (for example, PCB-T3-) is selected from design element data stored in advance in the CAD. Each is done by specifying 5). However, the design of the press die 1 can be completed only by designing the optimal parts and the design elements that are basically required and incorporated in the basic structure of the press die 1 that has been designed and stored in the CAD. is not. It is necessary to design by writing design elements for smoothly moving the press die 1 into the basic structure of the press die 1. In order to design the parts and design elements necessary for the design of the press mold to be written in the basic structure of the press mold 1, the component code and the design elements are designed in the basic structure of the press mold 1 each time. The design of the press die is completed by writing on the design drawing.
On the design drawing shown on the display, the drawing is automatically displayed with dimensions corresponding to each designated part and each design element.
Further, the dimensions of the optimum parts that are basically necessary for constructing the press mold 1 designed and incorporated in advance in the basic structure of the press mold 1 are different from the original dimensions, that is, the press mold 1 When a design change is required for the basic structure, the drawing can be changed on the display. When the drawing is changed on the display, the dimensions of the design drawing can be measured with a scale or the like.
In addition, the basic structure of the press die 1 and the optimum parts and design elements that are basically necessary for constructing the press die 1 designed and incorporated in advance in the basic structure of the press die 1 need to be changed in design. In this case, the drawing is changed on the display, and the basic structure, parts, and design element dimensions of the changed press die 1 are automatically calculated by CAD and automatically displayed on the design drawing displayed on the display. Is done.
[0104]
Selecting from the pre-stored part data and design element data and writing it in the design drawing on the display makes it clear that each part and design element in the basic structure of the press die 1 are appropriate and inappropriate. .
[0105]
The press die 1 designed in this way is printed as a design drawing, and a press die is manufactured based on this design drawing.
[0106]
Therefore, according to the present embodiment, the basic structure that matches the size and dimensions of the press mold to be designed is read from a plurality of basic structures stored in advance in the CAD, and all necessary for the press mold is read out. A press die can be easily produced based on the designed design drawing by a simple method such as designation of a name specifying the parts and design elements.
[0107]
<< Ninth embodiment >>
The ninth embodiment of the present invention uses a CAD, and a plurality of parts corresponding to the outer dimensions of a press die in which the design elements necessary for the design of the press die pre-stored in the CAD and its design elements are incorporated. From the basic structure, a specific basic structure is read out on the display based on the external dimensions of the press mold to be designed, and each of the plurality of plates incorporated in advance in the basic structure of the press mold read out on the display. The plate corresponding to the outer dimensions of the basic structure of the press mold displayed on the display is selected from the plate data stored in advance, and is pre-installed in the basic structure of the press mold displayed on the display. For the parts required for the design of the basic structure of the pressed mold, the parts displayed on the display from the part data stored in advance. The basic structure of the press die that is pre-installed in the basic structure of the press die displayed on the display by selecting part codes on a plurality of catalogs corresponding to the parts necessary for the design of the basic structure of the die The design elements corresponding to the design elements necessary for the design of the basic structure of the press mold displayed on the display among the design elements necessary for the design are stored in the CAD. Whether to perform design processing of the design changes of the press dies in the basic structure of the press dies read out on the display, the size change of the plates and necessary parts, and the changes of the design elements , By selecting from among the basic structures of a plurality of press dies stored in advance in the CAD, the pre-built in the basic structure of the press dies. Change the dimensions of plates, parts, and design elements necessary for the design of the mold, or call or select a specific name in which the parts to be changed and the design elements are stored in the CAD. This is a method for producing a press die using a press die design system for designing a press die, drawing a design drawing based on the design, and producing a press die based on the design drawing. .
[0108]
The design of the press die in the ninth embodiment is performed using CAD (Computer Aided Design). In designing the press mold as shown in FIG. 1 using this CAD, the design is performed using the basic design drawings shown in FIGS. 2 to 7 are designed in advance in a form in which members and parts which are basic in the design of the press die 1 are mounted. The basic design drawings shown in FIGS. 2 to 7 include parts that are basically necessary for the design of the press die 1 and design elements (reference numerals 2 to 42 in the drawing). A plurality of basic structures are designed in advance corresponding to the outer dimensions of the mold 1, and basic structure data (not shown, but not shown in FIGS. 2 to 7) is attached to each basic structure as a basic design drawing. In the form of a design drawing, it is a collection of multiple types by changing the external dimensions, and the basic design elements and design elements incorporated in the press mold are also changed according to the external dimensions). Pre-stored in CAD.
The basic structure data that incorporates the parts that are fundamentally necessary for design and the design elements that are designed in advance can be freely changed in outer diameter by an arithmetic unit such as a CPU.
[0109]
Calling a basic design drawing that matches the external dimensions of the press mold 1 to be designed from such basic structure data on the display does not end the specific design of the press mold 1. Design elements showing the individual members (plates) constituting the press mold 1, the necessary parts and the machining dimensions / shapes for incorporating the parts, and the design elements showing the machining dimensions / shapes other than the parts mounting The design needs to be done individually.
Therefore, first, the external dimensions of the press mold 1 are specified according to the size of the product to be pressed, and the basic design that matches the external dimensions of the press mold 1 to be designed from the basic structure data of the press mold The design of the press die is started by calling the figure on the display and determining the outer shape of the press die attached to the press.
[0110]
In the design of the press die 1, the basic structure of the press die 1 designed in advance by incorporating the parts required for the design and the design elements (reference numerals 2 to 42 in the figure) into the press die 1 is described. The external dimensions of various plates incorporated in the mold 1 are set, and the external shape of the press mold 1 is designed. As for the various plates incorporated in the press die 1, various external dimensions of the various plates incorporated in the press die 1 are designed in advance and stored in the CAD in the form of design drawings as one plate data. It is.
First, the punch holder 4 that is the basis of the upper die 2 is designed. As for this punch holder 4, punch holders of various outer dimensions (in this embodiment, seven types) are designed in advance as shown in FIG. 8, and are stored in advance in the form of a design drawing as one plate data in CAD. ing. A design drawing of the punch holder 4 corresponding to the outer dimensions used for the press die 1 is called out from the data of the punch holder 4 on the display, and a specific punch is selected from the plurality of punch holders displayed on the display. Select a holder. The design of the punch holder 4 can be easily designed by selecting the design drawing of the punch holder 4 having the optimum shape from the design drawing of the punch holder 4 designed in advance as described above.
[0111]
Next, the punch backing plate 5 constituting the upper mold 2 is designed. The design of the punch backing plate 5 is inevitably determined by the outer dimensions of the punch holder 4 when the design (outer dimensions, etc.) of the punch holder 4 is completed. There is no. Although the outer dimensions are determined in this way, the design of the punch backing plate 5 is not completed by simply designing the punch holder 4. Therefore, the design of the outer dimensions is completed upon completion of the design of the punch holder 4 (outer dimensions, etc.), but the specific design of the punch backing plate 5 must be performed separately from the design of the punch holder 4. Don't be.
In designing the punch backing plate 5, punch backing plates of various outer dimensions (five types are shown in FIG. 9) are designed in advance as shown in FIG. It is stored in advance in the CAD in the form. A design drawing of the punch backing plate 5 corresponding to the external dimensions used for the press die 1 is called out from the data of the punch backing plate 5 on the display, and the plurality of punch backing plates displayed on the display are selected. Select a specific punch backing plate. The design of the punch backing plate 5 can be easily designed by selecting the design drawing of the punch backing plate 5 having the optimum shape from the design drawings of the punch backing plate 5 previously designed in this way.
[0112]
Next, the punch plate 6 constituting the upper mold 2 is designed. The design of the punch plate 6 is inevitably determined by the outer dimensions of the punch holder 4 when the design (outer dimensions, etc.) of the punch holder 4 is completed. Absent. Although the outer dimensions are determined in this way, the design of the punch plate 6 is not completed by simply designing the punch holder 4. Therefore, although the design of the outer dimensions is completed upon completion of the design (outer dimensions, etc.) of the punch holder 4, the specific design of the punch plate 6 must be performed separately from the design of the punch holder 4. .
As for the design of the punch plate 6, as shown in FIG. 10, punch plates of all outer dimensions (five types are shown in FIG. 10) are designed in advance, and one plate data is in the form of a design drawing. Pre-stored in CAD. From the punch plate 6 data, a design drawing of the punch plate 6 corresponding to the external dimensions used for the press die 1 is called on the display, and a specific punch is selected from the plurality of punch plates displayed on the display. Select the plate. The design of the punch plate 6 can be easily designed by selecting the design drawing of the punch plate 6 having the optimum shape from the design drawing of the punch plate 6 previously designed in this way.
[0113]
Next, the stripper plate 7 constituting the upper mold 2 is designed. The design of the stripper plate 7 is inevitably determined by the outer dimensions of the punch holder 4 when the design (outer dimensions, etc.) of the punch holder 4 is completed. Absent. Although the outer dimensions are determined in this way, the design of the stripper plate 7 is not completed by simply designing the punch holder 4. Therefore, although the design for the outer dimensions is completed upon completion of the design for the punch holder 4 (outer dimensions, etc.), the specific design of the stripper plate 7 must be performed separately from the design of the punch holder 4. .
With respect to the design of the stripper plate 7, stripper plates having various outer dimensions (five types are shown in FIG. 11) are designed in advance as shown in FIG. Pre-stored in CAD. A design drawing of the stripper plate 7 corresponding to the external dimensions used for the press die 1 is called out from the data of the stripper plate 7 on the display, and a specific stripper is selected from the plurality of stripper plates displayed on the display. Select the plate. The design of the stripper plate 7 can be easily designed by selecting a design drawing of the stripper plate 7 having an optimum shape from the design drawing of the stripper plate 7 designed in advance in this way.
[0114]
In this way, when designing the press die 1 based on the basic design drawings shown in FIGS. 2 to 7, the upper die 2 of the press die 1 is configured, and the punch that is the basis of the upper die 2 When the design of the holder 4, punch backing plate 5, punch plate 6 and stripper plate 7 is completed, the design of the die holder 8, die backing plate 9 and die plate 10 constituting the lower die 3 of the press die 1 is next performed. Do.
First, the die holder 8 that is the basis of the lower mold 3 is designed. The design of the die holder 8 is inevitably determined by the external dimensions of the punch holder 4 when the design (external dimensions, etc.) of the punch holder 4 of the upper die 2 is completed. There is no degree of design freedom. Although the outer dimensions are determined in this way, the design of the die holder 8 is not completed just by designing the punch holder 4, and it is necessary to select a die holder 8 suitable for the punch holder 4. Therefore, the design of the outer dimensions is completed upon completion of the design of the punch holder 4 (outer dimensions, etc.), but the specific design of the die holder 8 must be performed separately from the design of the punch holder 4.
In designing the die holder 8, punch holders of various outer dimensions (seven types in the present embodiment) are designed in advance as shown in FIG. 12, and stored in the CAD in the form of a design drawing as one plate data. Has been. A design drawing of the die holder 8 having an outer dimension corresponding to the outer dimension of the punch holder 4 used in the press die 1 is called out from the data of the die holder 8 on the display, and a plurality of die holders displayed on the display are displayed. Select a specific die holder from In this way, the design of the die holder 8 can be easily designed by selecting the design drawing of the optimally shaped die holder 8 from the design drawings of the die holder 8 designed in advance.
[0115]
Next, the die backing plate 9 constituting the lower mold 3 is designed. The design of the die backing plate 9 is inevitably determined by the outer dimensions of the die holder 8 when the design (outer dimensions, etc.) of the die holder 8 is completed, and there is actually no degree of freedom in design. . Although the outer dimensions are determined in this way, the design of the punch backing plate 5 is not completed just by designing the die holder 8. Therefore, although the design of the outer dimensions is completed upon completion of the design of the die holder 8 (outer dimensions, etc.), the specific design of the die backing plate 9 must be performed separately from the design of the die holder 8.
In designing the die backing plate 9, die backing plates (5 types are shown in FIG. 13) of all external dimensions are pre-designed as shown in FIG. It is stored in advance in the CAD in the form. A design drawing of the die backing plate 9 corresponding to the external dimensions used for the press die 1 is called out from the data of the die backing plate 9 on the display, and the plurality of die backing plates displayed on the display are selected. Select a specific die backing plate. The design of the die backing plate 9 can be easily designed by selecting the design drawing of the die backing plate 9 having the optimum shape from the design drawings of the die backing plate 9 previously designed in this way.
[0116]
Next, the die plate 10 constituting the lower mold 3 is designed. The design of the die plate 10 is inevitably determined by the outer dimensions of the die holder 8 when the design (outer dimensions, etc.) of the die holder 8 is completed, and there is actually no degree of design freedom. Although the outer dimensions are determined in this way, the design of the die plate 10 is not completed by simply designing the die holder 8. Therefore, although the design of the outer dimensions is completed upon completion of the design of the die holder 8 (outer dimensions, etc.), the specific design of the die plate 10 must be performed separately from the design of the die holder 8.
Regarding the design of this die plate 10, as shown in FIG. 14, die plates of various outer dimensions (five types are shown in FIG. 14) are designed in advance, and in the form of a design drawing as one plate data. Pre-stored in CAD. A design drawing of the die plate 10 corresponding to the outer dimensions used for the press die 1 is called out on the display from the data on the die plate 10, and a specific die is selected from a plurality of die plates displayed on the display. Select the plate. The design of the die plate 10 can be easily designed by selecting the design drawing of the die plate 10 having the optimum shape from the design drawing of the die plate 10 previously designed in this way.
[0117]
When the design of the various plates constituting the upper die 2 and the design of the various plates constituting the lower die 3 are completed in this way, the upper die 2 and the lower die 3 are then combined to function as a press die. Then, the design of the parts required for the design of the press die 1 and its design elements is started.
In the design of the press die 1, the basic structure of the press die 1 designed in advance by incorporating the parts necessary for the design and the design elements (reference numerals 2 to 40 in the figure) into the press die 1 is described. The external dimensions of various plates incorporated in the mold 1 are set, and the external shape of the press mold 1 is designed. Regarding the various plates incorporated in the press mold 1, the various plates incorporated in the press mold 1 are designed in advance and stored in the CAD in the form of design drawings.
Thus, the design of the various plates constituting the upper die 2 and the design of the various plates constituting the lower die 3 are carried out by using the press die 1 that has been previously designed and stored in the CAD in the form of a design drawing. The outer shape is determined in accordance with the outer dimensions of.
[0118]
When the design of the various plates preliminarily incorporated in the press die 1 is completed, the parts and design elements necessary for designing the press die 1 preliminarily incorporated in the basic structure of the press die 1 (see FIG. No. 2 to 42), and parts necessary for the design of the press die 1 incorporated in advance in the basic structure of the press die 1 and basically necessary for the design of the press die 1 other than its design elements. Design parts and design elements.
For the parts that are fundamentally necessary for the design that are incorporated in the basic structure of the press die 1 in advance, the parts of all external dimensions to be used are stored in advance in the form of design drawings as CAD data in advance in the CAD. Yes.
As for the necessary parts incorporated in the basic structure of the pre-designed press die 1, parts data of all external dimensions used for each specific part are represented as part data on one drawing, and in advance. For the design elements incorporated in the basic structure of the designed press die 1, each of the design drawings is represented as design element data representing design elements of all external dimensions used for each specific design element on one drawing. In advance in the form of CAD.
Such part data is attached with a drawing code corresponding to each part of a part that is fundamentally necessary for design, which is incorporated in the basic structure of the press die 1 in advance. All the parts required for designing the press die 1 other than the necessary parts are also stored in advance in the form of a design drawing with a drawing code corresponding to each part. In addition, such design elements are given specific name classifications corresponding to each design element with respect to the design elements that are fundamentally necessary for design, which are incorporated in the basic structure of the press die 1 in advance, Design drawings with a drawing code corresponding to each design element for all the design elements required for designing the press die 1 other than the basic design elements necessary for the design In advance in the form of CAD.
[0119]
As for this part data, when each designed part exists as a catalog product, the part code is attached to each part. In the design element, the design element code is assigned to each design element. And is attributed by this design element code.
The parts shown in the part data and the design elements shown in the design element code can be read from the CAD memory onto the display, and any part or any design element can be incorporated into the basic structure of the press die 1. It has become. In addition, the parts and design elements incorporated in this basic structure can be freely changed in outer diameter on a CAD display.
[0120]
Therefore, when the drawing code indicating the specific basic structure is specified from the drawing code indicating the basic structure data of the press die 1 and the basic structure of the press die 1 is read on the display (FIGS. 2 to 7), this reading is performed. The basic structure of the press die 1 shown in FIGS. 2 to 7 incorporates parts and design elements that are fundamentally necessary for an ideal design in advance.
For example, when the tightening bolt 18 is taken as an example of a fundamentally necessary component in the design that is preliminarily incorporated in the basic structure of the press die 1, parts of all external dimensions used for the tightening bolt 18 are the tightening bolts. As shown in FIGS. 15A to 15J as part data on one drawing with a drawing code (for example, PCB) indicating the shape of the design drawing according to the diameter and length of the bolt 18 Is previously stored in the CAD. In FIG. 15, the symbols written for each part indicate a part code indicating the part for which the outer diameter is specified. For example, “PCB3-5” is “PCB” is the type of tightening bolt, and “3-5”. "Indicates the diameter (3 mm) and length (5 mm).
The design element of the external dimensions as a design element for attaching the tightening bolt 18 is shown as a design element on one drawing with a drawing code (for example, PCB-T) indicating the design element for attaching the tightening bolt. As shown in 16 (A) to (J), in accordance with the tightening bolt 18, the diameter is stored in advance in the form of a design drawing according to the size and length of the bolt. In FIG. 16, the symbols written for each design element indicate the design elements that specify the outer diameter. For example, “PCB-T3-5” is “PCB-T”, which is the design element of the tightening bolt. “3-5” indicates that a counterbore process is performed in which a fastening bolt 18 having a diameter of 3 mm and a length of 5 mm to be fitted into the design element is fitted.
[0121]
Therefore, when designing a press die, first, the external dimensions of the basic structure of the press die designed in advance are specified, and the basic structure of the press die stored in advance in the CAD is read on the display. Then, the basic structure of the press die that specifies the external dimensions read on the display is shown in a form in which basically necessary parts and design elements thereof are incorporated. Basically necessary optimum parts incorporated in the basic structure of the press mold preliminarily designed in the basic structure of the press mold and design elements thereof are parts in which the design of the part is stored in advance in the CAD By designating a specific part code (for example, PCB3-5) from the data, a design element design (for example, PCB-T3-) is selected from design element data stored in advance in the CAD. Each is done by specifying 5). However, the design of the press die 1 can be completed only by designing the optimal parts and the design elements that are basically required and incorporated in the basic structure of the press die 1 that has been designed and stored in the CAD. is not. It is necessary to design by writing design elements for smoothly moving the press die 1 into the basic structure of the press die 1. In order to design the parts and design elements necessary for the design of the press mold to be written in the basic structure of the press mold 1, the component code and the design elements are designed in the basic structure of the press mold 1 each time. The design of the press die is completed by writing on the design drawing.
On the design drawing shown on the display, the drawing is automatically displayed with dimensions corresponding to each designated part and each design element.
Further, the dimensions of the optimum parts that are basically necessary for constructing the press mold 1 designed and incorporated in advance in the basic structure of the press mold 1 are different from the original dimensions, that is, the press mold 1 When a design change is required for the basic structure, the drawing can be changed on the display. When the drawing is changed on the display, the dimensions of the design drawing can be measured with a scale or the like.
In addition, the basic structure of the press die 1 and the optimum parts and design elements that are basically necessary for constructing the press die 1 designed and incorporated in advance in the basic structure of the press die 1 need to be changed in design. In this case, the drawing is changed on the display, and the basic structure, parts, and design element dimensions of the changed press die 1 are automatically calculated by CAD and automatically displayed on the design drawing displayed on the display. Is done.
[0122]
Selecting from the pre-stored part data and design element data and writing it in the design drawing on the display makes it clear that each part and design element in the basic structure of the press die 1 are appropriate and inappropriate. .
[0123]
The press die 1 designed in this way is printed as a design drawing, and a press die is manufactured based on this design drawing.
[0124]
Therefore, according to the present embodiment, the basic structure that matches the size and dimensions of the press mold to be designed is read from a plurality of basic structures stored in advance in the CAD, and all necessary for the press mold is read out. A press die can be easily produced based on the designed design drawing by a simple method such as designation of a name specifying the parts and design elements.
[0125]
【The invention's effect】
According to the first aspect of the present invention, anyone who has knowledge of design can easily design a press die and drop parts and design elements necessary for the design of the press die. In addition, it is possible to design the main parts simply by calling or selecting the specified names, and it is also possible to easily design the parts necessary for designing other press dies.
[0126]
According to the second aspect of the present invention, anyone who has knowledge of the design can easily design the press mold and drop the parts and design elements necessary for the design of the press mold. Rather, it is possible to design main parts and their design elements simply by calling or selecting specified names, and it is also possible to easily design and install parts and design elements necessary for other press mold designs. .
[0127]
According to the third aspect of the present invention, anyone who has knowledge of the design can easily design the press mold and drop parts and design elements necessary for the design of the press mold. In addition, the dimensional design of main parts such as parts and design elements in the catalog can be simplified, and the mounting design of parts required for the design of other press dies can be easily performed by simply calling or selecting the specified name. be able to.
[0128]
According to the fourth aspect of the present invention, anyone who has knowledge of the design can easily design the press die and drop parts and design elements necessary for the design of the press die. It is possible to simplify the process, and it is also possible to easily design the mounting of parts necessary for the design of other press dies simply by calling or selecting a specified name.
[0129]
According to the fifth aspect of the present invention, anyone who has knowledge of design can easily design a press die by changing the design of the press die, changing the size of necessary parts, and designing the press die. The element can be changed on the display without dropping the design part and the design element, and the part necessary for the design of the press die and the design element are designed according to the specified part name. The design can be simplified by selecting and editing the divisions and design elements, and the installation design of the parts necessary for the design of other press dies can be easily made by selecting the part divisions and design elements corresponding to the specified part names. It can be carried out.
[0130]
According to the sixth aspect of the present invention, anyone with knowledge of design can easily design the dimensions of plates, parts and design elements necessary for the design of the press mold on the display. It is possible to change the design of the press mold, change the design of the necessary plate, change the size of the required part and change its design element on the display without dropping the necessary part and its design element. The design of parts and design elements necessary for the design of press dies can be designed easily by selecting and editing the part classification and design elements corresponding to the specified part names. In addition, it is possible to easily design the installation of parts necessary for selecting the parts classification and design elements corresponding to the specified part names.
[0131]
According to the seventh aspect of the present invention, it is possible to easily change the design of the press die, change the size of the required part, and change the design element on the catalog without dropping the necessary part and the design element. The press mold can be easily manufactured based on the design drawing designed by showing the part code.
[0132]
According to the eighth aspect of the present invention, it is possible to easily change the design of a press die, change the size of a required part, and change the design element on the catalog without dropping the necessary part and the design element. The press mold can be easily manufactured based on the design drawing designed by showing the part code.
[0133]
According to the invention described in claim 9, the dimensions of the plate, parts and design elements necessary for the design of the press die are designed on the display, and the design change of the press die, the necessary plate design change, Change the size of the required parts and change the design elements on the display without dropping the design necessary parts and design elements. The design can be easily done by selecting and editing the part classification and design element corresponding to the name, and the part mounting and design element corresponding to the specified part name is also used for the design of the parts required for the design of other press dies. It is possible to easily produce a press die based on a design drawing made in a short time by selection.
[Brief description of the drawings]
FIG. 1 is a front view showing an overall configuration of a press die according to the present invention.
FIG. 2 is a plan view of the upper mold shown in FIG.
3 is a bottom view of the upper mold shown in FIG. 2. FIG.
4 is a side view of the upper mold shown in FIG. 2. FIG.
5 is a plan view of the lower mold shown in FIG. 1. FIG.
6 is a bottom view of the lower mold shown in FIG. 5. FIG.
7 is a side view of the lower mold shown in FIG. 5. FIG.
8 is a view showing plate data of the upper punch holder shown in FIG. 2. FIG.
9 is a view showing plate data of the upper punch backing plate shown in FIG. 2. FIG.
10 is a view showing plate data of the upper punch plate shown in FIG. 2. FIG.
FIG. 11 is a view showing plate data of the upper stripper plate shown in FIG. 2;
12 is a view showing plate data of the lower die holder shown in FIG. 5. FIG.
13 is a view showing plate data of the lower die backing plate shown in FIG. 5. FIG.
14 is a view showing plate data of the lower die plate shown in FIG. 5. FIG.
FIG. 15 is a diagram showing component data.
FIG. 16 is a diagram showing design element data.
FIG. 17 is a plan view of a press die in a conventional press die design system.
18 is a side view of the die set shown in FIG.
19 is a view showing only the plate of the press mold shown in FIG.
20 is a plan view of the punch holder shown in FIG.
21 is a plan view of the punch backing plate shown in FIG.
22 is a plan view of the punch plate shown in FIG.
FIG. 23 is a plan view of the stripper plate shown in FIG. 19;
24 is a bottom view of the die holder illustrated in FIG.
25 is a plan view of the die plate illustrated in FIG.
26 is a plan view of the die backing plate shown in FIG.
[Explanation of symbols]
1 ………………………………………………… Press Die
2 …………………………………………………… Upper mold
3 ………………………………………………… Lower mold
4 ………………………………………………… Punch Holder
5 ………………………………………………… Punch backing plate
6 ………………………………………………… Punch Plate
7 ………………………………………………… Stripper Plate
8 ………………………………………………… Die Holder
9 ………………………………………………… Die backing plate
10 ……………………………………………… Die Plate

Claims (6)

The basic structure of the press mold that is designed and stored in advance by incorporating the necessary parts and design elements of the press mold into the design drawing.
Parts data of all external dimensions used in the form of design drawings as one piece of data in advance , and the parts necessary for the design of the press die indicated in the data are stored so as to be selectable by the part code on the catalog When,
Design element data in which optimum design elements of parts of all external dimensions to be used are stored in advance in the form of design drawings as one data;
With
Incorporate parts and design elements necessary for the design of pre-stored press dies, and select from a plurality of basic structures corresponding to the external dimensions of the press dies based on the external dimensions of the press dies to be designed. The basic structure is read out, the design change of the press die in the read basic structure, the necessary size change of the part and the change of the design element are made possible by calling or selecting the specified name, and the part and the design element When the part code on the catalog is included, the design change of the press die, the necessary part size change, and the design element change are performed by calling or selecting a specified name set in advance. Press mold design system which is characterized in that the. In a press die design system for designing press dies using CAD,
The basic structure of the press die that has been stored in advance is designed by incorporating onto the press die design necessary parts in advance design drawing the design element,
Parts data of all external dimensions to be used is stored as a single piece of data in the form of a design drawing, and the parts required for the design of the press die indicated in the data are stored so that they can be selected by the part code on the catalog When,
Design element data in which optimum design elements of parts of all external dimensions to be used are stored in advance in the form of design drawings as one data;
With
Determine the basic structure of the press mold by specifying the external dimensions of the basic structure of the press mold to be designed, and display the basic structure of the press mold corresponding to the external dimensions of the press mold specifying the external dimensions on the display A basic structure display means for displaying;
The necessary parts pre-installed in the determined basic structure of the press die are optimal parts corresponding to the external dimensions of the specified basic structure of the press die and the part code on the catalog and the optimal design thereof Parts / design element selection means for selecting elements in the indicated state;
A part / design element size changing means for newly selecting a part code and a design element on the selected catalog and changing the size of the part accompanying the design change and the optimum design element;
The provided press die design system, characterized in that the design of the press die. In a press die design system for designing press dies using CAD,
A basic structure of a press die that is designed by previously incorporating parts and design elements necessary for the design of the press die into a design drawing and is stored in advance for each external dimension of the press die;
Plate code data for storing in advance a plate code specified for each of a plurality of sizes of plates incorporated in the basic structure of the press mold;
Parts data of all external dimensions to be used is stored as a single piece of data in the form of a design drawing, and the parts required for the design of the press die indicated in the data are stored so that they can be selected by the part code on the catalog When,
Design element data in which optimum design elements of parts of all external dimensions to be used are stored in advance in the form of design drawings as one data;
With
Determines the basic structure of the press die to identify the external dimensions of the basic structure of the press die to be designed, the basic structure of the press die that corresponds to the external dimensions of the press die identified the external dimension CA D A basic structure display means for selecting from a plurality of basic structures stored in and displaying on the display;
Parts necessary for the design of the basic structure of the press mold that is pre-installed in the basic structure of the press mold displayed on the display Optimal parts corresponding to the external dimensions of the basic structure of the specified press mold A part / design element selection means that selects the part code and its optimum design element in the catalog ,
The part code and design element on the selected catalog are newly selected from a plurality of basic structures stored in advance in the CAD, and the part that changes the size of the part and its optimum design element accompanying the design change Design element size changing means;
The provided press die design system, characterized in that the design of the press die. Write set on the press die design necessary components and design elements in advance design drawing rare, press mold designed from a plurality of basic structure are designed in advance so as to correspond to the external dimensions of the press die Set a specific basic structure based on the external dimensions of
Incorporate parts and design elements necessary for the design of pre-stored press dies, and select from a plurality of basic structures corresponding to the external dimensions of the press dies based on the external dimensions of the press dies to be designed. By selecting the basic structure, the basic structure is selected in advance by selecting the parts necessary for the design and the design elements that are incorporated in the basic structure from the plurality of parts that are designed and stored in advance and the design elements. The manufacturing method of the press die using the press die design system characterized by changing the design components and design elements incorporated in the press . Using CAD, incorporated into the pre-designed drawings the design elements and flop-less mold design required parts, the design from the plurality of basic structure are designed in advance so as to correspond to the external dimensions of the press die Set a specific basic structure based on the outer dimensions of the press mold to be displayed on the CAD display,
Based on the external dimensions of the press mold to be designed from among a plurality of basic structures corresponding to the external dimensions of the press mold, incorporating parts and design elements necessary for the design of the press mold pre-stored in the CAD By selecting a specific basic structure, the parts and design elements necessary for the design incorporated in advance in the basic structure are selected from a plurality of parts and the design elements that are pre-designed and stored in the CAD. The design elements necessary for the design incorporated in the basic structure and the design elements thereof are changed in advance, and a design drawing based on the design is drawn, and a press die is manufactured based on the design drawing. A press die manufacturing method using a press die design system . Using CAD, the parts and design elements necessary for the design of the press mold are pre-installed on the design drawing, and designed from a plurality of basic structures designed in advance corresponding to the external dimensions of the press mold. A specific basic structure based on the external dimensions of the press mold is set and displayed on the CAD display.
For each of a plurality of plates previously incorporated in the basic structure of the press mold read out on the display, the external dimensions of the basic structure of the press mold displayed on the display from the plate data stored in advance. For the parts required for designing the basic structure of the press mold that is pre-installed in the basic structure of the press mold displayed on the display by selecting the corresponding plate, the display is stored from the part data stored in advance. A press which is pre-installed in the basic structure of the press mold displayed on the display by selecting part codes on a plurality of catalogs corresponding to the parts necessary for designing the basic structure of the press mold displayed above. Design elements necessary for designing the basic structure of the mold are displayed on the display from among the pre-stored design elements. In the basic structure of the press die read out on the display, a design element on the catalog stored in the CAD is selected as a design element corresponding to a design element necessary for designing the basic structure of the pressed die. By changing the design of the press mold, changing the size of the plate and necessary parts and changing the design elements, or by selecting from the basic structure of multiple press dies stored in advance in the CAD Perform the arithmetic processing to change the dimensions of the plate, parts and design elements necessary for the design of the press mold that is incorporated in the basic structure of the press mold in advance, or the parts to be changed and the design elements to design of the press die by a calling or selection of a particular name that is stored in the CAD, and drawing a design drawing based on the set meter, based on the design drawing Manufacturing method of a press die using a press die design system, characterized by fabricating a press die Te.

Images