JPH11123724A - Unit design system for resin molding die, manufacture of resin molding die using unit design system for resin molding die, unit design system for die casting die, and manufacture of die casting die using unit design system for die casting die - Google Patents

Abstract

PROBLEM TO BE SOLVED: To design a resin molding die in a short time simply by anybody just by incorporating respective unit parts into an insert die of the resin molding die and also into the basic structure. SOLUTION: In a resin molding die design system for using a CAD for the design of the resin molding die, standard parts displayed in a catalog and sold in general in the market and process shaping elements required for incorporating the standard parts into the resin molding die are combined together and formed into units, and unit parts designed preliminarily for a plurality of design dimension shapes for respective standard pats are stored in a memory, and optimum unit parts are read out of the memory for a plurality of units parts and incorporated into the resin molding die on the display to carry out the design for the resin molding die.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a CAD (Computer A).
TECHNICAL FIELD The present invention relates to a resin mold design system for designing a resin mold using ided design, and in particular, a unit for combining a standard part and a processing shape element for incorporating the standard part into a unit and incorporating the standard part. A resin mold unit that combines only the processing shape elements into a unit and designs the resin mold using each unit part that is unitized by combining the processing elements required for the resin mold design. The present invention relates to a design system and a die-casting die design system for designing a die-casting die, and in particular, combines a standard part and a processing shape element for incorporating the standard part into a unit, and forms a processing shape for incorporating the standard part. Unitized by combining only the elements and unitized by combining the processing elements required for die casting die design On the unit design system of die casting mold to carry out die-casting mold of the design using a knit parts.

[0002]

2. Description of the Related Art A plastic molded product has various shapes depending on an object and a place where the product is used.
We manufacture products with shapes suitable for the place of use. In the production of this plastic molded product, a resin mold is designed according to its shape, and a resin mold is produced for each product.

Conventionally, the design of this resin mold has been started from a basic mold base. 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 even a skilled designer takes a considerable amount of time to design, and can easily design. could not. Recently, two drawings (basic structure) of a plan view as shown in FIG. 38 and a perspective view of a side view as shown in FIG. Has been proposed, and has an auxiliary function in designing a resin mold. Although FIGS. 38 and 39 are described for designing a resin mold, the present invention is also applied to designing a die for die casting. However, here, for convenience, the description is for the design of a resin mold. FIG.
8, in FIG. 39, 100 is a basic structure of a resin mold, 110 is a fixed side, 120 is a movable side, and 130 is a movable side.
Is a parting line where the fixed side 110 and the movable side 120 are separated. The fixed side 110 and the movable side 1
20 constitute a basic structure 100 of the resin mold. 111 is a tightening bolt attached to the fixed side 110, and 112 is a guide bush. Also,
121 is a tightening bolt attached to the movable side 120, 122 is a tightening bolt, 123 is a return pin,
24 is a guide pin.

[0004]

SUMMARY OF THE INVENTION FIG.
In designing a resin mold using an electronic catalog as shown in FIGS. 8 and 39, as is apparent from the plan view in FIG. 38, only the representative parts are shown in the side perspective view as shown in FIG. Just because it is displayed, many other parts and their design elements are lacking in the resin mold design,
The design of the resin mold is not perfect, and the parts necessary for the design and the design elements are missing. Therefore, when designing the resin mold, the designer of the resin mold needs parts and design elements necessary for designing the basic structure of the basic structure 100 of the resin mold as shown in FIGS. Must be newly designed and added. However, in designing a resin mold according to a conventional electronic catalog as shown in FIGS. 38 and 39, the design diagram shown in FIG. 38 is a plan view of the basic structure of the resin mold and is shown in FIG. FIG. 38 is a side perspective view of FIG. 38, in which the components shown in the basic structure of the resin mold are arranged and displayed on a plane. For this reason,
The positional relationship between typical components and their design elements in the actual resin mold is not clear.

Therefore, parts necessary for designing a resin mold other than the typical parts already mounted on the basic structure 100 of the resin mold shown in FIGS. 38 and 39 and design elements thereof are newly added. Even if it is designed, it cannot be added to the plan view of FIG. 38 and the perspective view of FIG. 39 as it is. Even if it is added to FIG. 39, the representative parts already attached to the basic structure 100 of the resin mold shown in FIGS. The positional relationship between the necessary parts added to 39 and the design elements thereof is not clear, and it does not mean that the design of the resin mold has been completed.

FIG. 38 is a plan view showing a basic structure 100 of a conventional resin mold, and FIG.
FIG. 38 only shows the side perspective view of FIG. 38 and a drawing using parts supplied by a specific manufacturer, and FIG. Since the parts to be formed are shown on a plane, the design of the resin mold is as shown in FIG.
8. Basic structure 10 of resin mold as shown in FIG.
A new assembly drawing in which 0 is developed or a part of FIG. 39 is rewritten to clarify the positional relationship between representative parts and their design elements. In addition, in designing a resin mold according to the conventional electronic catalog, the parts necessary for designing the resin mold other than the typical parts incorporated in the basic structure 100 of the resin mold are described. Design elements (necessary parts to be added and their design elements) will be added to these drawings, and the design will be performed. In addition, since the design drawing is a perspective view, it is not possible to specify on the drawing where the component is to be attached when writing.

A first object of the present invention is that anyone can easily design a resin mold in a short time simply by incorporating each unit part into a nest and a basic structure of the resin mold. Is to do so.

A second object of the present invention is that anyone can easily and quickly design a die casting mold simply by incorporating each unit part into the nest and basic structure of the die casting mold. Is to do so.

[0009]

According to the first aspect of the present invention, there is provided a resin mold unit design system comprising:
In a resin mold design system for designing a resin mold using D, a standard part used for a resin mold that is listed in a catalog and generally used in the market and a resin mold is used for the resin mold. Units are formed by combining processing shape elements necessary for incorporation into the mold. Unit parts designed in advance for multiple dimensions and shapes for each standard part are stored in advance, and the nest of the resin mold to be designed is stored. The external shape is displayed on the CAD display, and all the standard parts required for designing the nest of the resin mold displayed on the display and the processing shapes required for incorporating the standard part into the resin mold. An element is selected from the plurality of unit parts stored in the CAD in advance, and assembled into a nest of the resin mold. It is obtained to perform the resin mold designed by the. By configuring in this way, anyone skilled in the design can easily design the resin mold without dropping the parts and design elements required for designing the resin mold. By simply incorporating each unit part into the nest of the resin mold, the nested main parts can be designed in a short time,
The mounting design of the parts necessary for designing the nest of the other resin molds can be easily performed in a short time.

According to a second aspect of the present invention, there is provided a resin mold unit design system for designing a resin mold using a CAD, wherein the CAD is described in a catalog in the CAD. Standardized parts used for resin molds that are generally commercially available and processing shape elements required to incorporate the standard parts into resin molds are combined into a unit, and multiple standard shapes are set for each standard part. The previously designed unit parts are stored in advance, and the CAD is used to store standard parts basically required for designing a resin mold and processing required for incorporating the standard parts into the resin mold. The basic structure of the resin mold previously designed in combination with the shape elements is stored in advance as basic structure data for each external dimension. Based on the external dimensions of the basic structure of the resin mold to be designed, it is selected from the basic structure data of the resin mold previously stored, displayed on the CAD display, and read out from the CAD. The design change of the basic structure of the resin mold is performed by directly changing the drawing of the basic structure of the resin mold displayed on the display, or the basic structure of the resin mold after the design change is changed. If the data is included in a plurality of basic structure data stored in advance in the CAD, it is selected by selecting from the previously stored basic structure data of the resin mold, and read from the CAD. Change of standard parts pre-incorporated in the basic structure of the issued resin mold and change of the processing shape element accompanying the change of the standard parts, By selecting the unit parts stored in the CAD and changing the standard parts incorporated in the basic structure of the resin mold beforehand and the processing shape elements accompanying the change of the standard parts on the display, Standard parts and standard parts necessary for designing the resin mold other than the standard parts pre-installed in the basic structure of the resin mold read from the CAD and the processing shape elements for attaching the standard parts. A processing shape element for attaching the resin molding die and a processing element required for designing the resin molding die other than the processing element for mounting a standard part required for designing the resin molding die are displayed on the display. Write directly on the design drawing of the basic structure of the mold, or
The resin mold is designed by selecting a plurality of unit parts stored in the AD and incorporating them into the design drawing of the basic structure of the resin mold displayed on the display. . By configuring in this way, anyone skilled in the design can easily design the resin mold without dropping the parts and design elements required for the resin mold design. By simply incorporating each unit part into the basic structure of the resin mold, the main parts of the basic structure can be designed in a short time, and the mounting design of the parts necessary for designing the basic structure of other resin molds is also short. It can be done easily in time.

According to a third aspect of the present invention, there is provided a resin mold unit designing system for designing a resin mold using a CAD, wherein the CAD is described in a catalog in the CAD. Standardized parts used for resin molds that are generally available on the market and processing shape elements necessary for incorporating the standard parts into the resin molds are combined to form a unit. The unit parts designed in advance are stored in advance, and the standard parts which are the basics necessary for designing the resin mold and the processing shape elements necessary for incorporating the standard parts into the resin mold are assembled. The basic structure of the resin mold that is designed in the matched state is stored in advance for each external dimension, and the outer shape of the nest of the resin mold that is designed All the standard parts required for designing the nest of the resin mold displayed on the CAD display and displayed on the display, and the processing shape elements necessary for incorporating the standard parts into the resin mold. Is selected from the plurality of unit parts stored in advance in the CAD, and the nest of the resin mold is designed by incorporating it into the nest of the resin mold. The nest is stored in the CAD, and the outer dimensions of the basic structure of the resin mold to which the nest is mounted are selected based on the outer dimensions of the nest of the designed resin mold, and the selected resin mold is selected. The optimum basic structure of the resin mold is selected from the basic structure data of the resin mold stored in advance based on the external dimensions of the basic structure of the resin mold. Constant, and the CAD
The design change of the basic structure of the resin mold displayed on the display and read from the CAD is performed by directly changing the drawing of the basic structure of the resin mold displayed on the display. Alternatively, when the basic structure of the resin mold after the design change is included in a plurality of basic structure data stored in advance in the CAD, the basic structure of the resin mold which is stored in advance is used. It is performed by selecting from the data, and the change of the standard part previously incorporated in the basic structure of the resin mold read out from the CAD and the change of the processing shape element accompanying the change of the standard part are performed in advance. Select the unit parts stored in the CAD, change the standard parts incorporated in the basic structure of the resin mold in advance, and change the standard parts A standard part previously incorporated in the basic structure of the resin mold read out from the CAD and a resin mold other than the processed shape element for mounting the standard part by exchanging the processing shape element on the display. Standard parts required for mold design, processing shape elements for mounting the standard parts, and processing required for resin mold design other than processing elements for mounting standard parts required for resin mold design Elements are directly written in the design drawing of the basic structure of the resin mold shown on the display, or a plurality of unit parts stored in advance in CAD are selected to display the resin mold on the display. Designed resin molds by incorporating them into the design drawing of the basic structure of the mold. Than it is. By configuring in this way, anyone skilled in the design can easily design the resin mold without dropping the parts and design elements required for the resin mold design. By simply incorporating each unit part into the nest and basic structure of the resin mold, it is possible to design the main parts of the nest and basic structure in a short time, and it is necessary to design the nest and the basic structure of other resin molds. The mounting design of the parts can be easily performed in a short time.

According to a fourth aspect of the present invention, in the unit design system for a resin mold, a plurality of dimensions and shapes of the unit parts are designed in advance for one standard part and stored in the CAD as one drawing data. Things. By configuring in this way, anyone skilled in the design can easily design the resin mold without dropping the parts and design elements required for designing the resin mold. It can be easily performed in a short time.

According to a fifth aspect of the present invention, there is provided a resin mold unit designing system for designing a resin mold using a CAD, wherein the CAD is described in a catalog in the CAD. Standardized parts used for resin molds that are generally available on the market and processing shape elements necessary for incorporating the standard parts into the resin molds are combined to form a unit. A first unit part designed and stored in advance is stored in advance, and a plurality of processing shape elements necessary for incorporating the standard part into a resin mold are combined with the CAD to form a unit. A second unit part designed in advance according to the dimensions and shapes of the standard parts for each shape element is stored in advance and a resin mold to be designed In order to display the outer shape of the mold nest on the CAD display, and to incorporate all the standard parts required for designing the nest of the resin mold shown on the display and the standard parts into the resin mold. By selecting from a plurality of first unit parts stored in advance in the CAD in combination with necessary processing shape elements and incorporating them into the nest of the resin mold, the information is displayed on the display. A combination of a plurality of processing shape elements required to incorporate all the standard parts necessary for the design of the nest of the resin mold into the resin mold is stored in the second CAD stored in advance in the CAD. Designed for a resin mold by selecting from unit parts and incorporating it into the nest of the resin mold. A. By configuring in this way, anyone skilled in the design can easily design the resin mold without dropping the parts and design elements required for the resin mold design. By simply assembling each unit part into the nest of the resin mold, the main nested parts can be designed in a short time, and the mounting design of the parts necessary for designing the nest of other resin molds is also easy in a short time Can be done.

According to a sixth aspect of the present invention, there is provided a resin mold unit designing system for designing a resin mold using a CAD, wherein the CAD is listed in a catalog. Standardized parts used for resin molds that are generally available on the market and processing shape elements necessary for incorporating the standard parts into the resin molds are combined to form a unit. A first unit part designed and stored in advance is stored in advance, and a plurality of processing shape elements necessary for incorporating the standard part into a resin mold are combined with the CAD to form a unit. The second unit parts designed in advance in accordance with the dimensions and shapes of the standard parts for each element are stored in advance and the CAD is stored in the CAD. The basic structure of a resin mold that has been pre-designed in a state where standard parts basically required for designing a metal mold and processing shape elements necessary for incorporating the standard parts into the resin mold are combined. Is stored in advance as basic structure data for each external dimension, and based on the external dimensions of the basic structure of the resin mold to be designed, it is selected from the basic structural data of the resin mold previously stored, and Displayed on the CAD display, the CAD
The design change of the basic structure of the resin mold read out from is performed by directly changing the drawing of the basic structure of the resin mold displayed on the display, or the resin mold after the design change. When the basic structure of the mold is included in a plurality of basic structure data stored in advance in the CAD, it is performed by selecting from the basic structure data of the resin mold previously stored. The change of the standard part previously incorporated in the basic structure of the resin mold read out from the CAD and the change of the processing shape element accompanying the change of the standard part are stored in a plurality of first-order CADs. 1 unit part is selected, and the change of the standard part previously incorporated in the basic structure of the resin mold and the processing shape element accompanying the change of the standard part are described above. It is performed by exchanging on the display to design resin molds other than the standard parts pre-installed in the basic structure of the resin molds read out from the CAD and the processing shape elements for mounting the standard parts. Necessary standard parts and processing shape elements for mounting the standard parts are directly written on a design drawing of a basic structure of a resin mold displayed on the display, or a plurality of first parts stored in advance in CAD.
The unit parts are selected and incorporated into the design drawing of the basic structure of the resin mold displayed on the display, and are incorporated in advance in the basic structure of the resin mold read from the CAD. The display includes a standard part, a processing shape element for mounting the standard part, and a processing element required for designing the resin mold other than the processing shape element for mounting the standard part required for designing the resin mold. The resin molding die displayed on the display by directly writing in the design drawing of the basic structure of the resin molding die displayed above or selecting a plurality of second unit parts stored in advance in CAD. The resin mold is designed by incorporating it into a design drawing of the basic structure of the mold. By configuring in this way, if you have knowledge of the design, the design of the resin mold
Anyone can easily design the main parts of the basic structure by simply incorporating each unit part into the basic structure of the resin mold without dropping the necessary parts and design elements in the design of the resin mold. It can be performed in a short time, and the mounting design of parts necessary for designing the basic structure of another resin mold can be easily performed in a short time.

According to a seventh aspect of the present invention, there is provided a resin mold unit designing system for designing a resin mold using a CAD, wherein the CAD is described in a catalog in the CAD. Standardized parts used for resin molds that are generally available on the market and processing shape elements necessary for incorporating the standard parts into the resin molds are combined to form a unit. A first unit part designed and stored in advance is stored in advance, and a plurality of processing shape elements necessary for incorporating the standard part into a resin mold are combined with the CAD to form a unit. The second unit parts designed in advance in accordance with the dimensions and shapes of the standard parts for each element are stored in advance and the CAD is stored in the CAD. The basic structure of a resin mold that has been pre-designed in a state where standard parts basically required for designing a metal mold and processing shape elements necessary for incorporating the standard parts into the resin mold are combined. Is stored in advance as basic structure data for each external dimension, the external shape of the nest of the resin mold to be designed is displayed on the CAD display, and the design of the nest of the resin mold displayed on the display is designed. All the standard parts required and the machining shape elements necessary for incorporating the standard parts into the resin mold are stored in the plurality of first
By selecting from the unit parts of the above and incorporating it into the nest of the resin mold, a processing shape element for mounting all standard parts required for designing the nest of the resin mold shown on the display. A plurality of combined processing elements for mounting standard parts required for designing a resin mold other than the above are selected from the plurality of second unit parts previously stored in the CAD. The nest of the resin mold is designed by incorporating the nest of the resin mold into the nest of the resin mold. The nest of the designed resin mold is stored in the CAD, and the nest of the designed resin mold is inserted. The external dimensions of the basic structure of the resin mold to which the nest is mounted are selected based on the external dimensions of Select a basic structure of optimal resin mold from the basic structure data of the resin mold that is stored in advance based on the external dimensions of the structure, the CA
The design change of the basic structure of the resin mold displayed on the display of D and read from the CAD is performed by directly changing the drawing of the basic structure of the resin mold displayed on the display. Do or
The basic structure of the resin mold after the design change is CAD
In the case of being included in a plurality of basic structure data stored in the above, the selection is made by selecting from the pre-stored basic structure data of the resin mold,
The change of the standard part previously incorporated in the basic structure of the resin mold read out from the CAD and the change of the processing shape element accompanying the change of the standard part include a plurality of first stored in the CAD in advance. Is selected by changing the standard parts pre-installed in the basic structure of the resin mold and the processing shape elements accompanying the change of the standard parts on the display, and reading from the CAD. Standard parts pre-installed in the basic structure of the molded resin mold and the standard parts required for designing the resin mold other than the processing shape elements for attaching the standard parts and the processing for attaching the standard parts The shape element is directly written on the design drawing of the basic structure of the resin mold displayed on the display, or is written in advance in CAD. A plurality of first unit parts are selected and incorporated into a design drawing of the basic structure of the resin mold displayed on the display, and the first unit part is read out from the CAD. Standard parts pre-installed in the basic structure and processing shape elements for mounting the standard parts, and resin molding molds other than the processing elements for mounting the standard parts required for the resin mold design are required for designing the resin mold. Processing elements to be written are written directly on the design drawing of the basic structure of the resin mold displayed on the display, or
The resin mold is designed by selecting a plurality of second unit parts stored in the AD and incorporating them into the design drawing of the basic structure of the resin mold displayed on the display. Things. By configuring in this way, anyone with a design knowledge can easily design a resin mold for anyone,
Integrate each unit part into the nest and the basic structure of the resin mold, without dropping the necessary parts and design elements in the design of the resin mold, and design the main parts of the nest and basic structure in a short time In addition, it is possible to easily perform the design of the nesting of other resin molds and the mounting of parts necessary for designing the basic structure in a short time.

According to an eighth aspect of the present invention, in the unit design system for a resin mold, a plurality of dimensions and shapes of the first unit parts are designed in advance for one standard part shape as one drawing data. , The second unit part is designed by designing a plurality of dimensions and shapes for each processing shape element in advance, and storing them as one drawing data in the CAD. By configuring in this way, anyone skilled in the design can easily design the resin mold without dropping the parts and design elements required for designing the resin mold. It can be easily performed in a short time.

According to a ninth aspect of the present invention, there is provided a resin mold unit design system for designing a resin mold using CAD, wherein the CAD is described in a catalog in the CAD. Standardized parts used for resin molds that are generally available on the market and processing shape elements necessary for incorporating the standard parts into the resin molds are combined to form a unit. The first unit parts designed and stored in advance are stored in advance, and the CAD is used to design resin molds other than the processing shape elements required for incorporating the standard parts into the resin molds. A second unit designed in advance by combining a plurality of processing elements to form a unit, and designing each processing shape element in advance according to the size and shape of the standard part Are stored in advance, the outer shape of the nest of the resin mold to be designed is displayed on the display of the CAD, and all of the nests required for designing the nest of the resin mold displayed on the display are displayed. In combination with a standard part and a processing shape element necessary for incorporating the standard part into a resin mold, a selection is made from a plurality of first unit parts stored in advance in the CAD,
By incorporating the resin molding die into the resin molding die, the resin molding die other than the processing shape element for incorporating the standard parts required for designing the resin molding die nest displayed on the display into the resin molding die. By selecting a combination of a plurality of processing elements required for designing a mold from a plurality of second unit parts stored in advance in the CAD, and incorporating the combination into the nest of the resin mold. In this case, a resin mold is designed. By configuring in this way, anyone skilled in the design can easily design the resin mold without dropping the parts and design elements required for the resin mold design. By simply assembling each unit part into the nest of the resin mold, the main nested parts can be designed in a short time, and the mounting design of the parts necessary for designing the nest of other resin molds is also easy in a short time Can be done.

According to a tenth aspect of the present invention, there is provided a resin mold unit designing system for designing a resin mold using a CAD, wherein the CAD is described in a catalog in the CAD. Standardized parts used for resin molds that are generally available on the market and processing shape elements necessary for incorporating the standard parts into the resin molds are combined to form a unit. The first unit parts designed and stored in advance are stored in advance in the CAD and are necessary for designing a resin mold other than the processing shape element necessary for incorporating the standard part into the resin mold. A plurality of processing elements to be combined to form a unit, and a second unit Is stored in advance, and the CAD is formed by assembling a standard part basically required for designing a resin mold and a processing shape element necessary for incorporating the standard part into the resin mold. The basic structure of the resin mold previously designed in the combined state is stored in advance as basic structure data for each external dimension, and the resin stored in advance is stored based on the external dimensions of the basic structure of the resin mold to be designed. The data is selected from the basic structure data of the mold and displayed on the CAD display.
The design change of the basic structure of the resin mold read out from is performed by directly changing the drawing of the basic structure of the resin mold displayed on the display, or the resin mold after the design change. When the basic structure of the mold is included in a plurality of basic structure data stored in advance in the CAD, it is performed by selecting from the basic structure data of the resin mold previously stored. The change of the standard part previously incorporated in the basic structure of the resin mold read out from the CAD and the change of the processing shape element accompanying the change of the standard part are stored in a plurality of first-order CADs. 1 unit part is selected, and the change of the standard part previously incorporated in the basic structure of the resin mold and the processing shape element accompanying the change of the standard part are described above. It is performed by exchanging on the display to design resin molds other than the standard parts pre-installed in the basic structure of the resin molds read out from the CAD and the processing shape elements for mounting the standard parts. Necessary standard parts and processing shape elements for mounting the standard parts are directly written on a design drawing of a basic structure of a resin mold displayed on the display, or a plurality of first parts stored in advance in CAD.
This is done by selecting the unit parts and incorporating them into the design drawing of the basic structure of the resin mold shown on the display, which is necessary for the design of the basic structure of the resin mold read from the CAD. A plurality of processing elements required for designing a resin mold other than the processing shape elements for incorporating the standard parts into the resin mold to be processed are included in the basic structure of the resin mold which is displayed on the display. By directly writing in the design drawing or selecting a plurality of second unit parts stored in advance in the CAD and incorporating them into the design drawing of the basic structure of the resin mold shown on the display, the resin molding die This is to design a mold. By configuring in this way, anyone skilled in the design can easily design the resin mold without dropping the parts and design elements required for the resin mold design. By simply incorporating each unit part into the basic structure of the resin mold, the main parts of the basic structure can be designed in a short time, and the mounting design of the parts necessary for designing the basic structure of other resin molds is also short. It can be done easily in time.

According to an eleventh aspect of the present invention, there is provided a resin mold unit design system for designing a resin mold using CAD, wherein the CAD is described in a catalog in the CAD. Standardized parts used for resin molds that are generally available on the market and processing shape elements necessary for incorporating the standard parts into the resin molds are combined to form a unit. The first unit parts designed and stored in advance are stored in advance in the CAD and are necessary for designing a resin mold other than the processing shape element necessary for incorporating the standard part into the resin mold. A plurality of processing elements to be combined are combined into a unit, and a second unit part designed in advance according to the dimensions and shape of the standard part for each processing shape element Is stored in advance, and the CAD is formed by assembling a standard part basically required for designing a resin mold and a processing shape element necessary for incorporating the standard part into the resin mold. The pre-designed basic structure of the resin mold in advance is stored as basic structure data for each external dimension, and the outer shape of the nest of the resin mold to be designed is displayed on the CAD display. All the standard parts necessary for the design of the nest of the resin mold displayed on the display and the processing shape elements required for incorporating the standard parts into the resin mold are combined and stored in the CAD in advance. By selecting from the plurality of first unit parts and incorporating the resin unit into the nest of the resin mold, the resin module displayed on the display is displayed. The combination of a plurality of processing elements required in designing a resin mold other than the processing shape elements for incorporating the standard parts required in the design of the mold nest into the resin mold, By selecting from a plurality of second unit parts stored in the CAD and incorporating them into the nest of the resin mold, the nest of the resin mold is designed, and the designed resin mold is nested. Nest the C
The external dimensions of the basic structure of the resin mold to which the nest is mounted are selected based on the external dimensions of the nest of the designed resin mold and stored in the AD, and the basic structure of the selected resin mold is set. An optimal basic structure of the resin mold is selected from the basic structure data of the resin mold stored in advance on the basis of the external dimensions of the mold, and displayed on a display of the CAD, and read out from the CAD. The design change of the basic structure of the resin mold is performed by directly changing the drawing of the basic structure of the resin mold displayed on the display, or the basic structure of the resin mold after the design change. Is included in a plurality of basic structure data stored in advance in the CAD, the basic structure data of the resin mold previously stored in the The change of the standard part previously incorporated in the basic structure of the resin mold read out from the CAD and the change of the processing shape element accompanying the change of the standard part are stored in advance in the CAD. By selecting a plurality of first unit parts, and changing a standard part previously incorporated in the basic structure of the resin mold and a processing shape element accompanying the change of the standard part on the display. Done and said C
The standard parts pre-installed in the basic structure of the resin mold read out from the AD and the standard parts necessary for designing the resin mold other than the processing shape elements for mounting the standard parts and the standard parts The processing shape element to be attached is directly written on the design drawing of the basic structure of the resin mold displayed on the display, or a plurality of first unit parts stored in advance in CAD are selected to display the display. It is performed by incorporating it into the design drawing of the basic structure of the resin mold shown above, and the standard parts and the standard parts previously incorporated in the basic structure of the resin mold read from the CAD are attached. Resin molds other than the processing elements for mounting the standard parts required for designing the resin mold Directly write the processing elements required for the die design into the design drawing of the basic structure of the resin mold displayed on the display, or select a plurality of second unit parts stored in advance in CAD. Then, the resin mold is designed by incorporating it into a design drawing of the basic structure of the resin mold displayed on the display. By configuring in this way, anyone skilled in the design can easily design the resin mold without dropping the parts and design elements required for the resin mold design. By simply incorporating each unit part into the nest and basic structure of the resin mold, it is possible to design the main parts of the nest and basic structure in a short time, and it is necessary to design the nest and the basic structure of other resin molds. The mounting design of the parts can be easily performed in a short time.

According to a twelfth aspect of the present invention, in the unit design system for a resin mold, a plurality of dimensional shapes of the first unit parts are designed in advance for one standard part shape as one drawing data. , The second unit part is designed as a single piece of drawing data by designing a plurality of dimensions and shapes for each of the processing shape elements in advance, and each of the CAD data is processed by CAD.
It is what was memorized. By configuring in this way, anyone skilled in the design can easily design the resin mold without dropping the parts and design elements required for designing the resin mold. It can be easily performed in a short time.

According to a thirteenth aspect of the present invention, there is provided a resin mold unit designing system for designing a resin mold using a CAD, wherein the CAD is described in a catalog in the CAD. Standardized parts used for resin molds that are generally available on the market and processing shape elements necessary for incorporating the standard parts into the resin molds are combined to form a unit. A first unit part designed and stored in advance is stored in advance, and a plurality of processing shape elements necessary for incorporating the standard part into a resin mold are combined with the CAD to form a unit. The second unit parts designed in advance in accordance with the dimensions and shapes of the standard parts for each element are stored in advance and the CAD is stored in the CAD. Multiple processing elements required for designing the resin mold other than the processing shape elements required to incorporate the quasi-parts into the resin mold are combined into a unit, and standardized parts are created for each processing shape element. The third unit parts designed in advance in accordance with the dimensions and shapes are stored in advance, the outer shape of the nest of the resin mold to be designed is displayed on the CAD display, and the resin mold displayed on the display is displayed. A plurality of first units stored in advance in the CAD in combination with all standard parts necessary for designing the mold nest and processing shape elements required for incorporating the standard parts into the resin mold. By selecting from the parts and incorporating it into the nest of the resin mold, the nest of the resin mold shown on the display is designed. Selected all essential for the standard parts of the combination of a plurality of machining shape elements necessary for incorporation into a resin mold, from a plurality of second unit parts the previously stored in the CAD,
By incorporating the resin molding die into the resin molding die, the resin molding die other than the processing shape element for incorporating the standard parts required for designing the resin molding die nest displayed on the display into the resin molding die. By selecting a combination of a plurality of processing elements required for designing a mold from among a plurality of third unit parts stored in advance in the CAD, and incorporating the combination into the nest of the resin mold. In this case, a resin mold is designed. By configuring in this way, anyone skilled in the design can easily design the resin mold without dropping the parts and design elements required for the resin mold design. By simply assembling each unit part into the nest of the resin mold, the main nested parts can be designed in a short time, and the mounting design of the parts necessary for designing the nest of other resin molds is also easy in a short time Can be done.

According to a fourteenth aspect of the present invention, there is provided a resin mold unit design system for designing a resin mold using CADCAD. Standardized parts used for resin molds that are generally available on the market and processing shape elements necessary for incorporating the standard parts into the resin molds are combined to form a unit. A first unit part designed and stored in advance is stored in advance, and a plurality of processing shape elements necessary for incorporating the standard part into a resin mold are combined with the CAD to form a unit. The second unit parts designed in advance in accordance with the dimensions and shapes of the standard parts for each element are stored in advance, and the CAD is stored in the CAD. Multiple processing elements required for designing the resin mold other than the processing shape elements required to incorporate the quasi-parts into the resin mold are combined into a unit, and standardized parts are created for each processing shape element. The third unit parts designed in advance in accordance with the dimensions and shapes are stored in advance, and the CAD is provided with standard parts which are basically required for designing a resin mold and resin mold parts. The basic structure of the pre-designed resin mold is pre-stored as basic structure data for each external dimension in combination with the processing shape elements necessary for incorporation into the mold. Based on the external dimensions of the structure, it is selected from the pre-stored basic structure data of the resin mold, displayed on the CAD display, and read from the CAD. The design change of the basic structure of the resin mold is performed by directly changing the drawing of the basic structure of the resin mold displayed on the display, or the basic structure of the resin mold after the design change. Is included in a plurality of basic structure data stored in advance in the CAD, selection is made from the basic structure data of the resin mold previously stored in the CAD. A plurality of first unit parts stored in advance in a CAD, wherein the readout of the standard parts incorporated in the basic structure of the read resin mold and the change of the processing shape element accompanying the change of the standard parts are stored in advance in the CAD. And change the standard parts incorporated in the basic structure of the resin mold beforehand and the processing shape elements accompanying the change of the standard parts on the display. It is necessary to design resin molds other than the standard parts pre-installed in the basic structure of the resin molds read out from the CAD and the processing shape elements for mounting the standard parts. A standard part and a processing shape element for mounting the standard part are directly written on a design drawing of a basic structure of a resin mold displayed on the display, or a plurality of first units stored in advance in CAD. By selecting parts and incorporating them into the design drawing of the basic structure of the resin mold shown on the display,
Standard parts pre-installed in the basic structure of the resin mold read out from the AD, processing shape elements for mounting the standard parts, and processing for mounting the standard parts required for designing the resin mold. Processing elements required for designing the resin mold other than the elements are directly written in the design drawing of the basic structure of the resin mold displayed on the display, or a plurality of second elements stored in advance in CAD. This is performed by selecting unit parts and incorporating them into the design drawing of the basic structure of the resin mold displayed on the display, and is required for designing the basic structure of the resin mold read from the CAD. Multiple processing requirements for designing resin molds other than processing shape elements for incorporating standard parts into resin molds Is directly written on the design drawing of the basic structure of the resin mold displayed on the display, or a plurality of third unit parts stored in advance in CAD are selected and displayed on the display. The resin mold is designed by incorporating it into a design drawing of the basic structure of the resin mold. By configuring in this way, anyone skilled in the design can easily design the resin mold without dropping the parts and design elements required for the resin mold design. By simply incorporating each unit part into the basic structure of the resin mold, the main parts of the basic structure can be designed in a short time, and the mounting design of the parts necessary for designing the basic structure of other resin molds is also short. It can be done easily in time.

According to a fifteenth aspect of the present invention, there is provided a resin mold unit design system for designing a resin mold using a CAD, wherein the CAD is described in a catalog in the CAD. Standardized parts used for resin molds that are generally available on the market and processing shape elements necessary for incorporating the standard parts into the resin molds are combined to form a unit. A first unit part designed and stored in advance is stored in advance, and a plurality of processing shape elements necessary for incorporating the standard part into a resin mold are combined with the CAD to form a unit. A second unit part designed in advance for each element in accordance with the size and shape of the standard part is stored in advance and the CA unit is stored.
D, a unit is formed by combining a plurality of processing elements required for designing a resin molding die other than the processing shape elements necessary for incorporating the standard part into the resin molding die, and forming a unit. A third unit part designed in advance in accordance with the dimensions and shape of the standard part is stored in advance, and the CAD includes a standard part and a standard part which are basically necessary for designing a resin mold. The basic structure of the pre-designed resin mold is pre-stored as the basic structure data for each external dimension in combination with the processing shape elements necessary to incorporate the resin mold into the resin mold. The external shape of the mold nest is displayed on the CAD display, and all standard parts and the standard parts required for designing the resin mold mold nest displayed on the display are displayed. In combination with a processing shape element necessary for incorporating the resin mold into the resin mold, selecting from a plurality of first unit parts previously stored in the CAD, and incorporating the resin into the nest of the resin mold. The processing shapes for mounting the standard parts required for the design of the resin mold other than the processing shape elements for mounting all the standard parts required for the design of the nest of the resin mold displayed on the display A plurality of processed shape elements combined with elements are selected from among the plurality of second unit parts stored in advance in the CAD and incorporated into the nest of the resin mold to be displayed on the display. Resin other than the processing shape element for incorporating the standard parts required for the nest design of the molded resin mold into the resin mold A combination of a plurality of processing elements required for designing a mold is selected from a plurality of third unit parts stored in advance in the CAD, and incorporated into the nest of the resin mold. By doing so, the nest of the resin mold is designed, the designed nest of the resin mold is stored in the CAD, and the nest is mounted based on the outer dimensions of the nest of the designed resin mold. The external dimensions of the basic structure of the resin mold to be selected are selected, and the optimum resin is selected from the basic structural data of the resin mold previously stored based on the external dimensions of the basic structure of the selected resin mold. The basic structure of the mold is selected and the CAD
The design change of the basic structure of the resin mold displayed on the display and read from the CAD is performed by directly changing the drawing of the basic structure of the resin mold displayed on the display. Alternatively, when the basic structure of the resin mold after the design change is included in a plurality of basic structure data stored in advance in the CAD, the basic structure of the resin mold which is stored in advance is used. The change of the standard part incorporated in the basic structure of the resin mold read out from the CAD and the change of the processing shape element accompanying the change of the standard part are performed in advance by selecting from the data. A plurality of first unit parts stored in the CAD are selected, standard parts previously incorporated in the basic structure of the resin mold are changed, and the standard parts are changed. A standard part pre-installed in the basic structure of the resin mold read out from the CAD, and a processing shape for attaching the standard part, which are performed by exchanging the processing shape element accompanying the change of the part on the display. The standard parts necessary for the design of the resin mold other than the elements and the processing shape elements for attaching the standard parts are written directly on the design drawing of the basic structure of the resin mold shown on the display,
This is performed by selecting a plurality of first unit parts stored in advance in the CAD and incorporating them into the design drawing of the basic structure of the resin mold displayed on the display, and reading the resin read from the CAD. Standard parts pre-installed in the basic structure of the mold, processing shape elements for mounting the standard parts, and resin molding dies other than processing elements for mounting standard parts required for designing the resin mold. Processing elements required for the design are directly written on the design drawing of the basic structure of the resin mold displayed on the display, or CAD
By selecting a plurality of second unit parts stored in a design drawing of the basic structure of the resin mold displayed on the display,
A standard part pre-installed in the basic structure of the resin mold read out from the CAD, a processing shape element for mounting the standard part, and a standard part for mounting the standard part required for designing the resin mold. The processing elements required for designing the resin mold other than the processing elements are directly written on the design drawing of the basic structure of the resin mold displayed on the display, or a plurality of third elements stored in advance in CAD. The unit mold is selected and incorporated into the design drawing of the basic structure of the resin mold displayed on the display, thereby designing the resin mold. By configuring in this way, anyone skilled in the design can easily design the resin mold without dropping the parts and design elements required for the resin mold design. By simply incorporating each unit part into the nest and basic structure of the resin mold, it is possible to design the main parts of the nest and basic structure in a short time, and it is necessary to design the nest and the basic structure of other resin molds. The mounting design of the parts can be easily performed in a short time.

According to a sixteenth aspect of the present invention, in the unit design system for a resin mold, a plurality of dimensions and shapes of the first unit parts are designed in advance for one standard part shape as one drawing data. , The second unit part is designed with a plurality of dimensions and shapes in advance for each processing shape element, and as one drawing data, the third unit part is formed into a processing shape required to incorporate a standard part into a resin mold. A plurality of dimensions and shapes are designed in advance for one processing element required for designing a resin mold other than the element, and each drawing data is obtained as one drawing data.
D. By configuring in this way, anyone skilled in the design can easily design the resin mold without dropping the parts and design elements required for designing the resin mold. It can be easily performed in a short time.

According to a seventeenth aspect of the present invention, there is provided a resin mold unit design system, wherein the third unit part comprises a resin mold other than a processing shape element necessary for incorporating a standard part into the resin mold. Standard parts used in resin molds that are listed in catalogs and are generally available on the market, and the processing required to incorporate these standard parts into the resin mold It is a unit made by adding shape elements. By configuring in this way, anyone skilled in the design can easily design the resin mold without dropping the parts and design elements required for designing the resin mold. It can be easily performed in a short time.

The unit design system for a resin mold according to the invention described in claim 18 is to design a plurality of dimensions and shapes of the third unit parts in advance with respect to the shape of a standard part to be incorporated in the resin mold. This is stored in the CAD as one drawing data. By configuring in this way, anyone skilled in the design can easily design the resin mold without dropping the parts and design elements required for designing the resin mold. It can be easily performed in a short time.

According to a nineteenth aspect of the present invention, there is provided a method of manufacturing a resin mold using the resin mold unit design system, wherein the outer shape of the nest of the resin mold to be designed is determined using CAD. The standard parts used in resin-molded dies, which are displayed on a display and are used for generally commercially available resin-molded dies listed in a catalog in CAD, and the standard parts and the processing shape elements required for incorporating the standard parts into the resin-molded dies are described. The standard parts are unitized by combining processing shape elements necessary for assembling into a resin mold, and each standard part is selected from a plurality of unit parts designed in advance for a plurality of dimensions and shapes for each standard part. The nest of the resin mold is designed by incorporating the nest of the resin mold into the nest of the mold. The basic structure of the resin mold optimal external dimensions of the basic structure of the resin molding die to wear CA
The parts necessary for the design of the resin mold and the design elements pre-stored in D are incorporated and the optimum resin mold is selected from the basic structure data of a plurality of resin molds corresponding to the external dimensions of the resin mold. The basic structure of the mold is read out on the display, and the design change of the readout basic structure of the resin mold is performed by directly changing the drawing of the basic structure of the resin mold displayed on the display, The basic structure of the resin mold read out from the CAD is selected by selecting from the basic structure data of the resin mold stored in advance in the CAD, and the standard parts incorporated in advance are changed and Changes in machining shape elements due to changes in standard parts
Unitized by combining standard parts used in resin molds that are listed in a catalog stored in advance in CAD and are generally used for resin molds, and processing shape elements necessary for incorporating the standard parts into the resin molds. By selecting from among the plurality of unit parts, and changing the standard parts incorporated in the basic structure of the resin mold in advance and the processing shape elements accompanying the changes of the standard parts on the display, Standard parts and standard parts necessary for designing the resin mold other than the standard parts pre-installed in the basic structure of the resin mold read from the CAD and the processing shape elements for attaching the standard parts. Resin other than the processing elements for mounting the standard components required for the design Either writing processing element that requires the Rudo mold design directly on the design drawing of the basic structure of the resin mold that is displayed on the display, pre CA
Designing a resin mold by selecting a plurality of unit parts stored in D and incorporating them into a design drawing of a basic structure of the resin mold shown on the display, and designing based on the design. The drawings are drawn, and a resin mold is manufactured based on the design drawings. With this configuration, the design change of the basic structure of the resin mold is selected from the basic structure data of the basic structure of the resin mold. Addition of standard parts required for designing resin molds, additional processing of standard parts required for designing resin molds Units for standard parts required for designing resin molds and their design elements By changing or adding parts, anyone can easily design the resin mold in a short time, and the resin mold can be easily manufactured based on the design drawing.

According to a twentieth aspect of the present invention, in a method of manufacturing a resin mold using the unit design system for a resin mold, a CAD is used to change the outer shape of the nest of the resin mold to be designed. A standard part and a standard part used in a resin mold that is generally available in a catalog and displayed in a catalog are displayed on a display, and a standard part and a processing shape element necessary for incorporating the standard part into the resin mold are described. A plurality of first unit parts which are designed in advance for a plurality of dimensions and shapes for each standard part and stored in a CAD are combined into a unit by combining processing shape elements necessary for incorporating the part into the resin mold. From the nest of the resin mold or
A plurality of processing shape elements required to incorporate the standard part into the resin mold are combined into a unit to form a unit, and a plurality of processing shape elements are designed in advance according to the dimensions and shapes of the standard parts and stored in the CAD. The resin mold is selected from the second unit parts and incorporated into the nest of the resin mold, and the standard parts are incorporated into the processing shape elements for incorporating the standard parts selected from the second unit parts. The nesting of the mold is designed, and the basic structure of the resin mold having the optimum outer dimensions of the basic structure of the resin mold to which the nest of the designed resin mold is mounted is stored in the CAD in advance. The basic structure data of multiple resin molds corresponding to the external dimensions of the resin molds, incorporating the parts and design elements necessary for mold design. Read out the basic structure of the optimal resin mold on the display and change the design change of the read basic structure of the resin mold directly to the drawing of the basic structure of the resin mold displayed on the display Or by selecting from the basic structure data of the resin mold previously stored in the CAD in the basic structure of the resin mold read from the CAD, The change of the standard parts pre-installed in the basic structure and the change of the processing shape element accompanying the change of the standard parts are described in advance in C.
It is performed by selecting from the first unit parts stored in the AD and exchanging them on the display, and the standard parts and the standard parts previously incorporated in the basic structure of the resin mold read from the CAD. The standard parts necessary for designing the resin mold other than the processing shape elements for mounting the standard parts and the processing shape elements for mounting the standard parts are the basics of the resin molding die displayed on the display. The CAD is performed by directly writing the design drawing of the structure or by selecting a plurality of first unit parts stored in advance in a CAD and incorporating the first unit parts into a basic structure of a resin mold displayed on the display. The standard parts and the standard parts pre-installed in the basic structure of the resin mold read out from Whether to directly write the processing shape element for mounting the standard parts required for designing the resin mold die other than the processing shape element for cutting into the design drawing of the basic structure of the resin mold die displayed on the display. A plurality of second unit parts previously stored in the CAD are selected and incorporated into the basic structure of the resin mold shown on the display, and the standard parts are incorporated into the processing shape elements for incorporating the standard parts. The basic structure of the resin mold is designed by incorporating the resin mold, a design drawing is created based on the design, and the resin mold is manufactured based on the design drawing. With this configuration, the design change of the basic structure of the resin mold is selected from the basic structure data of the basic structure of the resin mold. Addition of standard parts required for designing resin molds, additional processing of standard parts required for designing resin molds Units for standard parts required for designing resin molds and their design elements By changing or adding parts, anyone can easily design the resin mold in a short time, and the resin mold can be easily manufactured based on the design drawing.

According to a twenty-first aspect of the present invention, there is provided a method of manufacturing a resin mold using the resin mold unit design system, wherein the outer shape of the nest of the resin mold to be designed is determined using CAD. A standard part and a standard part used in a resin mold that is generally available in a catalog and displayed in a catalog are displayed on a display, and a standard part and a processing shape element necessary for incorporating the standard part into the resin mold are described. A plurality of first unit parts which are designed in advance for a plurality of dimensions and shapes for each standard part and stored in a CAD are combined into a unit by combining processing shape elements necessary for incorporating the part into the resin mold. From the nest of the resin mold or
Dimensions of standard parts for each processing shape element by combining multiple processing elements required for designing the resin molding die other than the processing shape elements required to incorporate the standard parts into the resin mold By selecting from a plurality of second unit parts which are designed in advance according to the shape and stored in the CAD, the nests of the resin mold are incorporated into the nest of the resin mold, and the nest of the resin mold is designed. The basic structure of the resin mold with the optimal outer dimensions of the basic structure of the resin mold to which the nest of the designed resin mold is mounted. Based on the basic structure data of multiple resin molds designed to incorporate the design elements and correspond to the external dimensions of the resin mold, the optimal basic structure of the resin mold Or the reading on the display is performed by changing the drawing of the basic structure of the resin mold that is displayed on the display design changes of the basic structure of the read-out resin mold directly,
The basic structure of the resin mold read out from the CAD is selected by selecting from the basic structure data of the resin mold previously stored in the CAD, and the basic structure of the resin mold is previously incorporated into the basic structure of the resin mold. The change of the standard part and the change of the processing shape element accompanying the change of the standard part are performed by selecting from the first unit parts stored in advance in CAD and replacing them on the display. Standard parts and standard parts required for designing the resin mold other than the standard parts pre-installed in the basic structure of the resin mold read from the CAD and the processing shape elements for attaching the standard parts. The processing shape element for mounting is directly attached to the design drawing of the basic structure of the resin mold displayed on the display. Or by selecting a plurality of first unit parts stored in advance in the CAD and incorporating them into the basic structure of the resin mold shown on the display, and read out from the CAD. In the basic structure of the resin mold, a plurality of processing elements required for designing the resin mold other than the processing shape elements required for incorporating the standard parts into the resin mold are displayed on the display. Directly into the design drawing of the basic structure of the resin mold that has been
A plurality of second unit parts stored in the AD are selected and incorporated into the basic structure of the resin mold shown on the display, and the basic structure of the resin mold is designed. A design drawing based on the design drawing is drawn, and a resin mold is manufactured based on the design drawing. With this configuration, the design change of the basic structure of the resin mold is selected from the basic structure data of the basic structure of the resin mold. , Additional design of standard parts required for resin mold design, additional design of standard parts required for resin mold design and processing shape elements for mounting the standard parts are required for resin mold design. A unit that combines multiple processing shape elements required to incorporate a standard part into a resin mold by changing or adding a unit part that unitizes a standard part and a processing shape element for attaching the standard part. Anyone can easily and quickly design a resin mold by changing and adding It can be manufactured easily resin mold based on the drawings.

According to a twenty-second aspect of the present invention, there is provided a method of manufacturing a resin mold using the resin mold unit design system, wherein the outer shape of the nest of the resin mold to be designed is determined using CAD. A standard part and a standard part used in a resin mold that is generally available in a catalog and displayed in a catalog are displayed on a display, and a standard part and a processing shape element necessary for incorporating the standard part into the resin mold are described. A plurality of first unit parts which are designed in advance for a plurality of dimensions and shapes for each standard part and stored in a CAD are combined into a unit by combining processing shape elements necessary for incorporating the part into the resin mold. From the nest of the resin mold or
A plurality of processing shape elements required to incorporate the standard part into the resin mold are combined into a unit to form a unit, and a plurality of processing shape elements are designed in advance according to the dimensions and shapes of the standard parts and stored in the CAD. Selecting from the second unit parts, incorporating into the nest of the resin mold, incorporating the standard parts into the processing shape elements for incorporating the standard parts selected from the second unit parts,
Dimensions of standard parts for each processing shape element by combining multiple processing elements required for designing the resin molding die other than the processing shape elements required to incorporate the standard parts into the resin mold By selecting from a plurality of third unit parts designed in advance and stored in the CAD according to the shape, and incorporating them into the nest of the resin mold, the nest of the resin mold is designed. The basic structure of the resin mold with the optimal outer dimensions of the basic structure of the resin mold to which the nest of the designed resin mold is mounted. Based on the basic structure data of multiple resin molds designed to incorporate the design elements and correspond to the external dimensions of the resin mold, the optimal basic structure of the resin mold Or the reading on the display is performed by changing the drawing of the basic structure of the resin mold that is displayed on the display design changes of the basic structure of the read-out resin mold directly,
The basic structure of the resin mold read out from the CAD is selected by selecting from the basic structure data of the resin mold previously stored in the CAD, and the basic structure of the resin mold is previously incorporated into the basic structure of the resin mold. The change of the standard part and the change of the processing shape element accompanying the change of the standard part are performed by selecting from the first unit parts stored in advance in CAD and replacing them on the display. Standard parts and standard parts required for designing the resin mold other than the standard parts pre-installed in the basic structure of the resin mold read from the CAD and the processing shape elements for attaching the standard parts. The processing shape element for mounting is directly attached to the design drawing of the basic structure of the resin mold displayed on the display. Or by selecting a plurality of first unit parts stored in advance in the CAD and incorporating them into the basic structure of the resin mold shown on the display, and read out from the CAD. In the basic structure of the resin mold, a processing shape element for attaching a standard part necessary for the design of the resin mold other than a standard part pre-installed and a processing shape element for attaching the standard part, The resin mold displayed on the display by directly writing in the design drawing of the basic structure of the resin mold shown on the display or selecting a plurality of second unit parts stored in advance in CAD Incorporated into the basic structure of the mold, the standard part was incorporated into the processing shape element for incorporating the standard part, and the resin mold was In designing this structure, the basic structure of the resin mold read out from the CAD is used to design the resin mold other than the processing shape elements necessary for incorporating the standard parts into the resin mold. A plurality of necessary processing elements are directly written in the design drawing of the basic structure of the resin mold displayed on the display, or a plurality of third unit parts stored in advance in CAD are selected. The basic structure of the resin mold is incorporated into the basic structure of the resin mold shown on the display, and a design drawing based on the design is drawn. This is to make a mold. With this configuration, the design change of the basic structure of the resin mold is selected from the basic structure data of the basic structure of the resin mold. , Additional design of standard parts required for resin mold design, additional design of standard parts required for resin mold design and processing shape elements for mounting the standard parts are required for resin mold design. A unit that combines multiple processing shape elements required to incorporate a standard part into a resin mold by changing or adding a unit part that unitizes a standard part and a processing shape element for attaching the standard part. By changing or adding unitized parts, the user can combine multiple processing elements required to design the resin mold Anyone can easily and quickly design a resin mold by changing / adding a unitized unit, and the resin mold can be easily manufactured based on this design drawing. .

According to a twenty-third aspect of the present invention, there is provided a die-casting die unit designing system for designing a die-casting die by using a CAD. Combine standard parts used for die-casting dies that are generally commercially available with processing shape elements required to incorporate the standard parts into die-casting dies to form a unit. The previously designed unit parts are stored in advance, and the standard parts, which are necessary for designing the die-casting die, and the processing shape elements necessary for incorporating the standard parts into the die-casting die are assembled. The basic structure of the die-casting die designed in the combined state is stored in advance for each external dimension, and the outside of the nest of the die-casting die to be designed is stored. Are displayed on the CAD display, and all standard parts required for designing the die nest of the die casting die displayed on the display and machining shape elements necessary for incorporating the standard parts into the die casting die are displayed. Are selected from the plurality of unit parts stored in advance in the CAD, and the nest of the die casting mold is designed by incorporating it into the nest of the die casting mold. Is stored in the CAD, and based on the outer dimensions of the designed die-casting die, the outer dimensions of the basic structure of the die-casting die to which the die is mounted are selected, and the selected die-casting die is selected. Optimal die casting die basic structure from die die basic die structure data stored in advance based on the external dimensions of the die basic structure The selected, the CA
The design change of the basic structure of the die-casting die displayed on the display of D and read from the CAD is performed by directly changing the drawing of the basic structure of the die-casting die displayed on the display. Do or
The basic structure of the die casting die after the design change is CAD
When included in a plurality of basic structure data stored in the, by performing selection from among the basic structure data of the die-casting die stored in advance,
Change of standard parts incorporated in the basic structure of the die-casting die read from the CAD in advance and change of the processing shape element accompanying the change of the standard parts are selected by selecting unit parts stored in advance in the CAD. The die casting die read out from the CAD by changing the standard parts incorporated in the basic structure of the die casting die in advance and replacing the processed shape elements with the changes of the standard parts on the display. Standard parts necessary for designing a die-casting die other than the standard parts pre-installed in the basic structure and the processing shape elements for mounting the standard parts, the processing shape elements for mounting the standard parts, and the die-casting metal The processing elements required for die-casting die design other than the processing elements for mounting standard parts required for die design Directly write in the design drawing of the basic structure of the die casting die displayed on the spray, or select a plurality of unit parts stored in advance in CAD and select the die casting die displayed on the display. A die-casting die is designed by incorporating it into a design drawing of a basic structure. With this configuration, the design change of the basic structure of the die-casting die is selected from the basic structure data of the basic structure of the die-casting die. , Additional design of standard parts required for die-casting die design, additional processing of standard parts required for die-casting die design Each unit of standard parts required for die-casting die design and their design elements By changing or adding parts, anyone can easily design a die casting die in a short time.

According to a twenty-fourth aspect of the present invention, there is provided a die-casting die unit designing system for designing a die-casting die by using a CAD. Combine standard parts used for die-casting dies that are generally commercially available with processing shape elements necessary to incorporate the standard parts into die-casting dies to form a unit. A first unit part designed and stored in advance is stored in advance, and a plurality of processing shape elements necessary for incorporating the standard part into a die casting die are combined into the CAD to form a unit. The second unit parts designed in advance in accordance with the dimensions and shapes of the standard parts for each element are stored in advance and the die is stored in the CAD. Basics of die-casting dies designed in advance in a state where standard parts basically required for designing a die for casting and processing shape elements required for incorporating the standard parts into the die-casting die are combined. The structure is stored in advance as basic structure data for each outer dimension, the outer shape of the die casting die to be designed is displayed on the CAD display, and the die casting die insert displayed on the display is displayed. All the standard parts required for the design and the processing shape elements required for incorporating the standard parts into the die for die-casting are selected from the plurality of first unit parts stored in advance in the CAD, Incorporation into the die casting mold nest allows for mounting of all standard parts required in the die casting mold nest design shown on the display. The machining shape element a plurality of associated therewith at the machining shape element of the standard component mounting requiring the engineering other shape elements of the die casting mold design,
By selecting from the plurality of second unit parts stored in advance in the CAD and incorporating the die into the nest of the die casting mold, the nest of the die casting mold is designed, and the designed die casting mold is designed. The nest of the die is stored in the CAD, and based on the outer dimensions of the nest of the designed die-casting die, the outer dimensions of the basic structure of the die-casting die to which the nest is mounted are selected. From the basic structure data of the die-casting die stored in advance based on the external dimensions of the basic structure of the die, the optimum basic structure of the die-casting die is selected.
The design change of the basic structure of the die-casting die displayed on the AD display and read from the CAD is performed by directly changing the drawing of the basic structure of the die-casting die displayed on the display. Or the basic structure of the die casting mold after the design change is C
If the data is included in a plurality of basic structure data stored in the AD, it is selected from among the basic structure data of the die-casting die stored in advance and read out from the CAD. The change of the standard parts pre-installed in the basic structure of the die-casting die and the change of the processing shape element accompanying the change of the standard parts are performed in advance by CAD.
A plurality of first unit parts stored in the die are selected, and a standard part incorporated in the basic structure of the die-casting die in advance and a processing shape element accompanying the change of the standard part are replaced on the display. Standard parts pre-installed in the basic structure of the die casting mold read out from the CAD and standard parts necessary for designing the die casting mold other than the processing shape elements for mounting the standard parts. And directly writing a processing shape element for mounting the standard part on a design drawing of a basic structure of a die casting die displayed on the display, or a plurality of first unit parts stored in advance in CAD. By selecting and incorporating it into the design drawing of the basic structure of the die casting die shown on the display, A standard part pre-installed in the basic structure of the die casting die read from the CAD, a processing shape element for mounting the standard part, and a standard part required for designing the die casting die. The processing elements required for die-casting die design other than the processing elements are directly written on the design drawing of the basic structure of the die-casting die displayed on the display, or a plurality of second die stored in advance in CAD. The unit parts are selected and incorporated into the design drawing of the basic structure of the die casting die displayed on the display to design the die casting die. With this configuration, the design change of the basic structure of the die-casting die is selected from the basic structure data of the basic structure of the die-casting die. , Additional design of standard parts required for die-casting die design, additional processing of standard parts required for die-casting die design Each unit of standard parts required for die-casting die design and their design elements By changing or adding parts, anyone can easily design a die-casting die in a short time.

A die-casting die unit designing system according to a twenty-fifth aspect of the present invention is a die-casting die designing system for designing a die-casting die using CAD, which is described in a catalog in the CAD. Combine standard parts used for die-casting dies that are generally commercially available with processing shape elements required to incorporate the standard parts into die-casting dies to form a unit. The first unit parts designed and stored in advance are stored in advance, and the CAD is required for designing a die casting mold other than the processing shape element necessary for incorporating the standard part into the die casting mold. A plurality of processing elements to be combined are combined into a unit, and a second unit part designed in advance according to the dimensions and shape of the standard part for each processing shape element Are stored in advance, and the CAD is composed of a standard part basically required for designing a die-casting die and a processing shape element necessary for incorporating the standard part into the die-casting die. The basic structure of the die-casting die designed in advance in the combined state is stored in advance as basic structure data for each external dimension, and the external shape of the nest of the die-casting die to be designed is displayed on the CAD display. All the standard parts required for designing the nest of the die casting die displayed on the display and the processing shape elements necessary for incorporating the standard parts into the die casting die are stored in the CAD in advance. Selected from the plurality of first unit parts, and assembled into the nest of the die-casting mold, so that the die cast displayed on the display is displayed. The combination of a plurality of processing elements required in designing a die casting mold other than the processing shape elements for incorporating the standard parts required in the design of the nest of the die into the die casting By selecting from a plurality of second unit parts stored in the CAD and incorporating it into the nest of the die casting mold, the nest of the die casting mold is designed, and the designed die casting mold is designed. Nest the C
The external dimensions of the basic structure of the die casting mold to which the nest is mounted are selected based on the external dimensions of the nest of the designed die casting die stored in the AD, and the basic structure of the selected die casting die is selected. From the basic structure data of the die-casting die stored in advance based on the external dimensions of the die, the optimum basic structure of the die-casting die is selected, displayed on the CAD display, and read out from the CAD. The design change of the basic structure of the die-casting die is performed by directly changing the drawing of the basic structure of the die-casting die displayed on the display, or the basic structure of the die-casting die after the design change. Is included in a plurality of basic structure data stored in advance in the CAD, the basic structure data of the die-casting die stored in advance is included. The change of the standard part previously incorporated in the basic structure of the die casting die read out from the CAD and the change of the processing shape element accompanying the change of the standard part are stored in advance in the CAD. By selecting a plurality of first unit parts, and changing the standard parts incorporated in the basic structure of the die-casting mold in advance and the processing shape elements accompanying the changes of the standard parts on the display. Done and said C
The standard parts and the standard parts required for designing the die casting mold other than the processing shape element for mounting the standard parts and the working parts for mounting the standard parts, which are pre-installed in the basic structure of the die casting mold read from the AD. The processing shape element to be attached is directly written on the design drawing of the basic structure of the die-casting die displayed on the display, or a plurality of first unit parts stored in advance in CAD are selected and the display is selected. It is performed by incorporating it into the design drawing of the basic structure of the die-casting die displayed above, and the standard parts and the standard parts pre-installed in the basic structure of the die-casting die read out from the CAD are attached. Die elements other than the processing elements for mounting the standard parts required for designing the die for die casting Machining elements required for die design are directly written on the design drawing of the basic structure of the die casting die displayed on the display, or a plurality of second unit parts stored in advance in CAD are selected. Then, the die-casting die is designed by incorporating it into a design drawing of the basic structure of the die-casting die displayed on the display. With this configuration, a person skilled in the design can change the design of the basic structure of the die casting die by selecting from the basic structure data of the basic structure of the die casting die. Design change of standard part size required for design, additional design of standard parts required for die-casting die design, additional processing of standard parts required for die-casting die design are required for die-casting die design. Change / addition of each unit part for standard parts and their design elements,
Accordingly, anyone can easily design a die casting die in a short time.

According to a twenty-sixth aspect of the present invention, there is provided a die-casting die unit designing system for designing a die-casting die by using a CAD. Combine standard parts used for die-casting dies that are generally commercially available with processing shape elements required to incorporate the standard parts into die-casting dies to form a unit. A first unit part designed and stored in advance is stored in advance, and the CAD is combined with a plurality of processing shape elements required for incorporating the standard part into a die casting die to form a unit. A second unit part designed in advance for each element in accordance with the size and shape of the standard part is stored in advance and the CA unit is stored.
D, a unit is formed by combining a plurality of processing elements required for designing a die casting mold other than the processing shape elements necessary for incorporating the standard parts into the die casting mold, and forming a unit. A third unit part designed in advance in accordance with the dimensions and shape of the standard part is stored in advance, and the CAD includes a standard part and a standard part which are basically necessary for designing a die-casting die. The basic structure of the die-casting die designed beforehand in combination with the processing shape elements necessary to incorporate the die-casting die into the die-casting die is stored in advance as basic structure data for each external dimension, and the die-casting die to be designed is designed. The external shape of the mold nest is displayed on the CAD display, and all the standard parts and the standard parts required for designing the die nest for the die casting die displayed on the display are displayed. In combination with a processing shape element necessary for incorporating the die into the die casting die, selecting from a plurality of first unit parts stored in advance in the CAD, and incorporating the first unit parts into the nest of the die casting die. The processing shape for mounting the standard parts required for designing the die casting mold other than the processing shape elements for mounting all the standard parts necessary for designing the nest of the die casting die displayed on the display A plurality of processed shape elements combined with elements are selected from the plurality of second unit parts stored in the CAD in advance and incorporated into the nest of the die casting mold to be displayed on the display. Die other than the processing shape element for incorporating the standard parts required for the die-casting die nest design into the die-casting die. A combination of a plurality of processing elements required for designing a die for casting is selected from among a plurality of third unit parts stored in advance in the CAD, and a combination of the third unit parts is inserted into the nest of the die casting die. By incorporating, the nest of the die-casting mold is designed, the designed nest of the die-casting mold is stored in the CAD, and the nest of the designed die-casting mold is determined based on the outer dimensions of the nest of the designed die-casting mold. The external dimensions of the basic structure of the die-casting die to be mounted are selected, and based on the external dimensions of the basic structure of the selected die-casting die, the most suitable one is selected from the basic structural data of the die-casting die stored in advance. The basic structure of the die for die casting is selected and the CAD
The design change of the basic structure of the die-casting die displayed on the display and read from the CAD is performed by directly changing the drawing of the basic structure of the die-casting die displayed on the display. Alternatively, when the basic structure of the die-casting die after the design change is included in a plurality of basic structure data stored in advance in the CAD, the basic structure of the die-casting die stored in advance is stored. The change of the standard part previously incorporated in the basic structure of the die for die casting read out from the CAD and the change of the processing shape element accompanying the change of the standard part are performed by selecting from the data. A plurality of first unit parts stored in the CAD are selected, standard parts previously incorporated in the basic structure of the die-casting mold are changed, and the standard parts are changed. A standard part pre-installed in the basic structure of the die casting die read out from the CAD, and a processing shape for attaching the standard part, which are performed by exchanging the processing shape element accompanying the change of the part on the display. A standard part necessary for designing a die-casting die other than an element and a processing shape element for mounting the standard part are directly written on a design drawing of a basic structure of the die-casting die displayed on the display,
This is performed by selecting a plurality of first unit parts stored in advance in the CAD and incorporating them into the design drawing of the basic structure of the die-casting die displayed on the display, and the die-casting read out from the CAD. Standard parts pre-installed in the basic structure of the die and processing shape elements for mounting the standard parts, and die-casting dies other than processing elements for mounting standard parts required for die-casting die design Processing elements required for the design are directly written on the design drawing of the basic structure of the die-casting die displayed on the display, or CAD
By selecting a plurality of second unit parts stored in a design drawing of the basic structure of the die-casting die displayed on the display,
A standard part pre-installed in the basic structure of the die-casting die read from the CAD, a processing shape element for mounting the standard part, and a standard part required for designing the die-casting die. The processing elements required for the die-casting die design other than the processing elements are directly written in the design drawing of the basic structure of the die-casting die displayed on the display, or a plurality of third die previously stored in the CAD. The unit parts are selected and incorporated into the design drawing of the basic structure of the die casting die displayed on the display to design the die casting die. With this configuration, a person skilled in the design can change the design of the basic structure of the die casting die by selecting from the basic structure data of the basic structure of the die casting die. Design change of standard part size required for design,
Additional design of standard parts required for die casting die design,
Additional processing of standard parts required for die-casting die design
Anyone can easily design a die casting die in a short time.

According to a twenty-seventh aspect of the present invention, there is provided a method of manufacturing a die casting mold using the unit design system for a die casting mold, wherein the outer shape of the nest of the die casting mold to be designed is determined by CAD. The standard parts used in die-casting dies, which are displayed on a display and are used in die-casting dies, which are listed in CAD catalogs and are generally commercially available, are provided with standard parts and processing shape elements necessary for incorporating the standard parts into the die-casting dies. The standard parts are combined with processing shape elements necessary for assembling into a die-casting die to form a unit and selected from a plurality of unit parts designed in advance for a plurality of dimensions and shapes for each standard part. The die nest of the die casting mold is designed by incorporating the die nest of the die dies. The basic structure CA of the die casting mold for optimal external dimensions of the basic structure of Chakusuru die casting mold
D is a die-casting die which incorporates the parts and design elements necessary for designing the die-casting die which are stored in advance in D and selects the optimum die-casting die from the basic structure data of a plurality of die-casting die corresponding to the external dimensions of the die-casting die. The basic structure of the die is read on the display, and the design change of the read basic structure of the die casting die is performed by directly changing the drawing of the basic structure of the die casting die displayed on the display, The basic structure of the die-casting die read from the CAD is selected by selecting from the basic structure data of the die-casting die stored in advance in the CAD, and the standard parts incorporated in advance are changed. Changes in machining shape elements due to changes in standard parts
A first unit part stored in advance in CAD is selected, and a standard part incorporated in the basic structure of the die-casting die in advance and a processing shape element accompanying the change of the standard part are replaced on the display. Thus, the standard parts necessary for designing the die casting mold other than the standard parts pre-installed in the basic structure of the die casting mold read out from the CAD and the processing shape elements for attaching the standard parts, and Processing shape elements for mounting the standard parts and processing elements required for die casting mold design other than processing elements for mounting standard parts required for die casting die design are displayed on the display. Write directly to the design drawing of the basic structure of the die-casting die, or write multiple unit parts stored in advance in CAD. Then, the die casting mold is designed by incorporating it into the design drawing of the basic structure of the die casting mold displayed on the display, and a design drawing based on the design is drawn, based on the design drawing. Thus, a die for die casting is manufactured. With this configuration, the design change of the basic structure of the die-casting die is selected from the basic structure data of the basic structure of the die-casting die. , Additional design of standard parts required for die-casting die design, additional processing of standard parts required for die-casting die design Each unit of standard parts required for die-casting die design and their design elements By changing or adding parts, anyone can easily design the die casting die in a short time, and the die casting die can be easily manufactured based on this design drawing.

According to a twenty-eighth aspect of the present invention, there is provided a method for manufacturing a die casting mold using the die casting die unit design system, wherein a CAD is used to design the outer shape of the nest of the die casting mold to be designed. The standard parts used in the die-casting dies that are displayed on the catalog and used in the commercially available die-casting dies are listed in a catalog, and the standard parts and the processing shape elements required for incorporating the standard parts into the die-casting dies are displayed on the display. A plurality of first unit parts which are pre-designed for a plurality of dimensions and shapes for each standard part and stored in CAD are combined into a unit by combining processing shape elements necessary for incorporating the part into the die casting die. From the nest of the die-casting mold,
A plurality of machining shape elements required to incorporate the standard parts into the die casting die are combined into a unit to form a unit, and each machining shape element is designed in advance according to the dimensions and shape of the standard part and stored in the CAD. It is selected from the second unit parts and incorporated into the die nest of the die-casting die, and the standard parts are incorporated into the processing shape elements for incorporating the standard parts selected from the second unit parts and the die-casting parts are formed. The nesting of the die is designed, and the basic structure of the die-casting die having the optimal outer dimensions of the basic structure of the die-casting die to which the designed die-casting die is mounted is stored in the CAD in advance. The basic structure data of multiple die-casting dies corresponding to the external dimensions of the die-casting die incorporating the parts and design elements necessary for the die design. Read out the basic structure of the die-casting die that is optimal on the display, and directly change the drawing of the basic structure of the die-casting die displayed on the display to the design change of the read-out basic structure of the die-casting die Or by selecting from the basic structure data of the die-casting die stored in advance in the basic structure of the die-casting die read out from the CAD, and performing the die-casting die. The change of the standard parts pre-installed in the basic structure and the change of the machining shape element accompanying the change of the standard parts are determined in advance by C
A standard part and a standard part which are selected from among the first unit parts stored in the AD and exchanged on the display and are incorporated in the basic structure of the die casting die read out from the CAD in advance. The standard parts required for designing the die casting die other than the processing shape elements for mounting the standard parts and the processing shape elements for mounting the standard parts are the basics of the die casting die displayed on the display. The above-mentioned CAD is performed by directly writing in the design drawing of the structure or by selecting a plurality of first unit parts stored in advance in the CAD and incorporating them into the basic structure of the die-casting mold displayed on the display. The standard parts and the standard parts pre-installed in the basic structure of the die for The processing shape element for attaching the standard parts necessary for designing the die casting mold other than the processing shape element for cutting is directly written in the design drawing of the basic structure of the die casting mold displayed on the display. Selecting a plurality of second unit parts stored in advance in the CAD, incorporating them into the basic structure of the die-casting die displayed on the display, and adding the standard parts to the processing shape elements for incorporating the standard parts. The basic structure of the die for die casting is designed by incorporating the die, a design drawing is drawn based on the design, and the die for die casting is manufactured based on the design drawing. With this configuration, the design change of the basic structure of the die-casting die is selected from the basic structure data of the basic structure of the die-casting die. , Additional design of standard parts required for die-casting die design, additional processing of standard parts required for die-casting die design Each unit of standard parts required for die-casting die design and their design elements By changing or adding parts, anyone can easily design the resin mold in a short time, and the die for die casting can be easily manufactured based on the design drawing.

According to a twenty-ninth aspect of the present invention, in the method of manufacturing a die casting mold using the die casting die unit design system, the outer shape of the nest of the die casting mold to be designed is made using CAD. The standard parts used in the die-casting dies that are displayed on the catalog and used in the commercially available die-casting dies are listed in a catalog, and the standard parts and the processing shape elements required for incorporating the standard parts into the die-casting dies are displayed on the display. A plurality of first unit parts which are pre-designed for a plurality of dimensions and shapes for each standard part and stored in CAD are combined into a unit by combining processing shape elements necessary for incorporating the part into the die casting die. From the nest of the die-casting mold,
Dimensions of standard parts for each machining shape element by combining multiple machining elements required for designing the die casting mold other than the machining shape elements required to incorporate the standard parts into the die casting mold By selecting from a plurality of second unit parts designed in advance according to the shape and stored in the CAD, the nests of the die casting mold are designed by incorporating them into the nest of the die casting mold, and the nest of the die casting mold is designed. The basic structure of the die-casting die with the optimal outer dimensions of the basic structure of the die-casting die to which the nest of the designed die-casting die is to be attached. The basic structure of the optimal die-casting die from the basic structural data of a plurality of die-casting dies designed according to the external dimensions of the die-casting die incorporating design elements. Or the reading on the display is performed by changing the drawing of the basic structure of the die casting mold for the design change of the basic structure of the read-out die-casting mold being displayed on the display directly,
The basic structure of the die-casting die read out from the CAD is selected from the basic structure data of the die-casting die stored in advance in the CAD, and the basic structure of the die-casting die is previously incorporated into the basic structure of the die-casting die. The change of the standard part and the change of the processing shape element accompanying the change of the standard part are performed by selecting from the first unit parts stored in advance in CAD and replacing them on the display. Standard parts necessary for designing the die casting mold other than the standard parts pre-installed in the basic structure of the die casting mold read out from the CAD and the processing shape elements for attaching the standard parts, and the standard parts The processing shape element for attaching the die directly to the design drawing of the basic structure of the die casting mold displayed on the display Or by selecting a plurality of first unit parts stored in advance in the CAD and incorporating them into the basic structure of the die-casting die displayed on the display, and read out from the CAD. In the basic structure of the die-casting die, a plurality of processing elements required for designing the die-casting die other than the processing shape elements necessary for incorporating the standard parts into the die-casting die are displayed on the display. Directly into the design drawing of the basic structure of the die casting die
A plurality of second unit parts stored in the AD are selected and incorporated into the basic structure of the die-casting die displayed on the display, and the basic structure of the die-casting die is designed. In this case, a design drawing based on the drawing is drawn, and a die for die-casting is manufactured based on the design drawing. With this configuration, the design change of the basic structure of the die-casting die is selected from the basic structure data of the basic structure of the die-casting die. , Additional design of standard parts required for die-casting die design, additional design of standard parts required for die-casting die design and additional processing shape elements for mounting the standard parts are required for die-casting die design A unit that combines multiple processing shape elements required to incorporate a standard part into a die casting mold by changing or adding a unit part that unitizes a standard part and a processing shape element for attaching the standard part. By changing and adding unitized parts, anyone can easily design die casting molds in a short time. It can be manufactured easily die casting mold based on the drawings.

According to a thirtieth aspect of the present invention, there is provided a method of manufacturing a die casting die using the die casting die unit design system, wherein a CAD is used to change the outer shape of the nest of the die casting die to be designed. The standard parts used in the die-casting dies that are displayed on the catalog and used in the commercially available die-casting dies are listed in a catalog, and the standard parts and the processing shape elements required for incorporating the standard parts into the die-casting dies are displayed on the display. A plurality of first unit parts which are pre-designed for a plurality of dimensions and shapes for each standard part and stored in CAD are combined into a unit by combining processing shape elements necessary for incorporating the part into the die casting die. From the nest of the die-casting mold,
A plurality of machining shape elements required to incorporate the standard parts into the die casting die are combined into a unit to form a unit, and each machining shape element is designed in advance according to the dimensions and shape of the standard part and stored in the CAD. Selecting from the second unit parts, incorporating into the nest of the die-casting mold, incorporating the standard parts into the machining shape elements for incorporating the standard parts selected from the second unit parts,
Dimensions of standard parts for each machining shape element by combining multiple machining elements required for designing the die casting mold other than the machining shape elements required to incorporate the standard parts into the die casting mold By selecting from a plurality of third unit parts designed in advance according to the shape and stored in the CAD, and incorporating the third unit parts into the nest of the die casting mold, designing the nest of the die casting mold is performed. The basic structure of the die-casting die with the optimal outer dimensions of the basic structure of the die-casting die to which the nest of the designed die-casting die is to be attached. The basic structure of the optimal die-casting die from the basic structural data of a plurality of die-casting dies designed according to the external dimensions of the die-casting die incorporating design elements. Or the reading on the display is performed by changing the drawing of the basic structure of the die casting mold for the design change of the basic structure of the read-out die-casting mold being displayed on the display directly,
The basic structure of the die-casting die read out from the CAD is selected from the basic structure data of the die-casting die stored in advance in the CAD, and the basic structure of the die-casting die is previously incorporated into the basic structure of the die-casting die. The change of the standard part and the change of the processing shape element accompanying the change of the standard part are performed by selecting from the first unit parts stored in advance in CAD and replacing them on the display. Standard parts necessary for designing the die casting mold other than the standard parts pre-installed in the basic structure of the die casting mold read out from the CAD and the processing shape elements for attaching the standard parts, and the standard parts The processing shape element for attaching the die directly to the design drawing of the basic structure of the die casting mold displayed on the display Or by selecting a plurality of first unit parts stored in advance in the CAD and incorporating them into the basic structure of the die-casting die displayed on the display, and read out from the CAD. In the basic structure of the die-casting die, a processing shape element for mounting a standard part necessary for designing a die-casting die other than a standard part and a processing shape element for mounting the standard part which are pre-installed, Directly write in the design drawing of the basic structure of the die casting die displayed on the display, or select a plurality of second unit parts stored in advance in CAD and display the die casting die displayed on the display. Incorporated into the basic structure of the mold, and the standard part was incorporated into the processing shape element for incorporating the standard part, and the die-casting mold In designing this structure, the die structure for die casting other than the processing shape elements required for incorporating the standard parts into the die casting die is added to the basic structure of the die casting die read from the CAD. A plurality of required processing elements are directly written in a design drawing of a basic structure of a die casting die displayed on the display, or a plurality of third unit parts stored in advance in CAD are selected. The basic structure of the die-casting die is incorporated into the basic structure of the die-casting die displayed on the display, a design drawing based on the design is drawn, and a die-casting die is formed based on the design drawing. This is to make a mold. With this configuration, the design change of the basic structure of the die-casting die is selected from the basic structure data of the basic structure of the die-casting die. , Additional design of standard parts required for die-casting die design, additional design of standard parts required for die-casting die design and additional processing shape elements for mounting the standard parts are required for die-casting die design A unit that combines multiple processing shape elements required to incorporate a standard part into a die casting mold by changing or adding a unit part that unitizes a standard part and a processing shape element for attaching the standard part. By changing / adding unitized parts, it is possible to combine multiple processing elements necessary for designing die casting molds. Anyone can easily and quickly design die-casting dies by changing or adding unitized units, and die-casting dies can be easily manufactured based on this design drawing. .

[0039]

Embodiments of the present invention will be described below. In the die casting method, a metal or alloy in a molten state is injected under high temperature, mechanical pressure, pneumatic pressure or hydraulic pressure into a mold manufactured to the same size as the product by machining, and it is highly accurate and has a cast iron. It is a casting method that produces excellent castings in large quantities in a short time, and is generally used for alloys having relatively low melting temperatures such as aluminum alloys, magnesium alloys, and zinc alloys. In this way, the die casting method of manufacturing a cast product by injecting a molten metal or the like into a mold under pressure is used for manufacturing a cast product that is manufactured by injecting a molten metal or the like into a mold under pressure. Although it was developed, the production of resin molded products has also been applied to the production of resin molded products because it can be produced by injecting molten resin into a mold under pressure. The one applied to the production of this resin molded product is a resin molding method. In other words, in the resin molding method, a molten resin is injected into a mold manufactured to the same size as the product by machining at a high temperature under high pressure with mechanical pressure, pneumatic pressure or hydraulic pressure, and a large amount of resin molded products can be produced in a short time. This is the resin molding method to be produced.

Since the resin molding method has been developed starting from the die casting method as described above, the die casting method and the resin molding method have many points in common. Therefore,
The design of the resin mold and the design of the die for die casting are the same in the basic design. In other words, the design of the resin mold and the die-casting mold includes, in addition to the design of the nest, the design of the basic structure for mounting the nest, the design of the mounting parts to be attached to each of the nest and the basic structure, and the parts. The design of mounting elements (called mounting patterns) that indicate how to mount,
Design of processing shape elements (referred to as part mounting processing patterns) indicating the processing contents (processing shape and processing dimensions) required to attach the components to be attached to each of the nesting and basic structure, and nesting and processing other than the processing shape elements There is a design of a processing element (referred to as an assembling processing pattern) indicating processing contents (processing shape and processing dimensions) required for designing each of the basic structures. These mounting patterns, component mounting processing patterns, and assembly processing patterns are collectively referred to as design elements. Therefore, the design of resin molds and die-casting dies requires the design of nests, the design of the basic structure for mounting the nests, the design of the mounting parts to be attached to each of the nests and the basic structure, and the design of design elements. Becomes

The embodiment according to the present invention is directed to the design of a nest, the design of a basic structure to which the nest is mounted, the design of a mounting part itself to be attached to each of the nest and the basic structure, and the design of design elements. The design of the resin mold used in such a resin molding method and the design of the die casting mold used in the die casting method are the same in the basic structure, and the drawings of FIGS. It is used as a drawing for die design as well as a drawing for die-casting die design, and is a drawing that can be used in common for both.

In the present embodiment, a standard part and a processing shape element (part mounting processing pattern) necessary for incorporating the standard part into a resin mold are combined into a single part to form a unit part. Constitute
This one type of unit part is stored in the CAD in advance. As a unit combining the standard part and the part mounting pattern, for example, there is a unit combining a bolt and a tap. As shown in FIG. 1, the unit parts obtained by combining the bolts and the taps have the unit parts (A) to (J) according to the dimensions of the bolt taps.
Up to 10 types of unit parts,
These ten types of unit parts are stored in the CAD in advance as one bolt assembly part. The bolt tap unit parts as shown in FIG.
And standard parts (parts used in resin molds (or die-casting dies) that are listed in a catalog and are commercially available) and resin molds such as bolt holes and taps shown in FIG. It is designed in advance for each dimension and shape of the bolt in such a manner that the processing shape element (part mounting processing pattern) necessary for mounting on the mold (or die casting die) is inseparable from each other and as if it were one mounting part. It is designed to be treated as a unit. That is, the bolt tap unit parts in FIG. 1A are replaced with the standard bolt parts shown in FIG.
Processing shape elements (part mounting processing patterns) to be applied to the resin mold (or die-casting mold) side necessary for attaching the bolt holes and taps to the resin mold (or die-casting mold) shown in (A) Are inseparably combined. Similarly, the bolt tap unit parts shown in FIGS. 1B to 1J have bolt holes shown in FIGS. 3B to 3J as standard bolt parts shown in FIGS. 2B to 2J. , Which is inseparably combined with the processing shape element (part mounting processing pattern) to be applied to the resin mold (or die-casting mold) side necessary for attaching to the tap resin mold (or die-casting mold) It is.

Also, in this embodiment, the standard parts are combined with processing shape elements (part mounting processing patterns) necessary for incorporating the standard parts into a resin mold (or a die-casting mold). Processing shape elements (part mounting processing pattern) necessary to unitize as one part to constitute a unit part and to incorporate standard parts into resin molds (or die casting dies)
Units are combined into one part to form a unit to form a unit part, and each of these two types of unit parts is stored in advance in the CAD. Among the unitized unit parts, as a unit combining a standard part and a part mounting pattern, for example, a standard part such as the bolt tap unit part shown in FIG. 1 described above and a part mounting pattern are combined. There is unit part data, and such unit part data is stored in the CAD in advance. Also,
Of the unitized unit parts, as a unit combining the component attachment processing patterns, for example,
There are combinations of runners, sprues and gates.
As shown in FIG. 4, the unit part obtained by combining the runner, the sprue, and the gate has five parts (A) to (E) according to the dimensional shape (length / diameter) of the sprue.
The five types of unit parts are stored in the CAD in advance as one runner, sprue, and gate assembly part. The runner sprue gate unit parts as shown in FIG. 4 include a runner (part mounting processing pattern),
The sprue (part attachment processing pattern) and gate (part attachment processing pattern) are integrally designed to be inseparable and are designed in advance for each sprue size and shape, and handled as a unit as if it were one attachment part. It is. That is, the runner sprue gate unit part of FIG. 4 is a combination of a runner a, a sprue b, and a gate c inseparably.

Further, in the present embodiment, a standard part and a processing shape element (part mounting processing pattern) necessary for incorporating the standard part into a resin mold (or a die-casting die) are combined. A machining element (assembly machining) indicating the machining contents (machining shape / machining dimensions) required for designing each of the nest and basic structure other than the machining shape element as a unit as one unit (Patterns) are combined into one part to form a unit to form a unit part, and each of these two types of unit parts is stored in advance in a CAD. Among the unitized unit parts, as a unit combining a standard part and a part mounting pattern, for example, a standard part such as the bolt tap unit part shown in FIG. 1 described above and a part mounting pattern are combined. There is unit part data.
It is stored in AD. In addition, among the unitized unit parts, as a unit in which assembling processing patterns are combined, for example, there is a unit in which a temperature control hole and a tap hole as shown in FIG. 5 are combined. As shown in FIG. 5, the unit part obtained by combining the temperature control hole and the tapped hole has 28 types of unit parts according to the size and shape of the diameter of the temperature control hole. ), And these 28 types of unit parts are stored in advance in the CAD as one tap hole assembly part for temperature control. The tapped holes and unit parts as shown in FIG. 5 are designed in advance for each dimension and shape of the temperature control holes in such a manner that the tap (assembly processing pattern) and the temperature control hole (assembly processing pattern) are integrally inseparable. It is designed to be treated as a unit as if it were two attachment parts. That is, the tap hole / unit part in FIG. 5 is a combination of the temperature control hole and the tap inseparably.

Further, in the present embodiment, the standard parts and the processing shape elements (part mounting processing patterns) necessary for incorporating the standard parts into a resin mold (or a die-casting mold) are combined. Into one unit to form a unit part, and combine the processing shape elements (part mounting processing pattern) necessary to incorporate the standard part into the resin mold (or die-casting mold) to form one unit. A processing element (assembly processing pattern) indicating the processing contents (processing shape and processing dimensions) required to design each of the nests and basic structures other than the processing shape elements while unitizing them as parts Units are combined into one unit to form a unit, and a unit part is constructed. And stored in the pre-CAD each of the tools. Among the unitized unit parts, as a unit combining a standard part and a part mounting pattern, for example, a standard part such as the bolt tap unit part shown in FIG. 1 described above and a part mounting pattern are combined. There is unit part data, and such unit part data is stored in the CAD in advance. Further, among the unitized unit parts, as a unit obtained by combining the component mounting processing patterns, for example, the part mounting processing patterns such as the runner sprue gate unit parts shown in FIG. There is combined unit part data, and such unit part data is stored in the CAD in advance. Further, among the unitized unit parts, as a unit in which assembling processing patterns are combined, for example, there is a unit in which a temperature control hole and a tap hole are combined. As shown in FIG. 5, the unit part obtained by combining the temperature control hole and the tapped hole is composed of 28 types of unit parts (shown by broken lines in FIG. 5) according to the size and shape of the diameter of the temperature control hole. These 28 types of unit parts are stored in the CAD in advance as one temperature control tap assembly part. The tapped holes and unit parts as shown in FIG.
The tap (assembly processing pattern) and the temperature control hole (assembly processing pattern) are integrated into an inseparable relationship and designed in advance for each dimension and shape of the temperature control hole, and handled as a unit as if it were one attachment part It is like that. That is, the tapped holes and unit parts in FIG. 5 are combined with the temperature control holes inseparably with the taps.

FIGS. 6 to 37 show various embodiments according to the present invention. In designing the nest of the resin mold (or die-casting mold), first, as shown in FIG. 6, the resin is molded in accordance with the shape of the resin molded product (or die-cast molded product) manufactured by the resin mold (or die-cast). (Or a molten metal) is designed into a product forming part under pressure, and the dimensions of the nest are specified so as to cover the product forming part. In FIG. 6, reference numeral 1 denotes a nest of a resin mold (or a die-casting mold), and reference numeral 2 denotes a product molding portion. The nest 1 can be divided into two parts in order to take out a resin molded product (or a die-cast molded product) molded by pressure injection of a resin (or a molten metal) in a product molding section 2. Reference numeral 3 denotes a fixed side fixed to the basic structure of a resin mold (or a die-casting mold). Reference numeral 4 denotes a nest 1 opened to take out a resin molded product (or a die-cast molded product) molded in the product molding section 2. Movable side.

First, in designing the nesting of the resin mold (or die casting mold), the resin (or the melt) is shaped according to the shape of the resin molded product (or die cast molded product) manufactured by the resin mold (or die casting). A product forming part 2 for pressurizing and injecting metal) is designed, and the fixed side 3 and the movable side 4
Design the outer shape. Reference numeral 5 denotes a parting line that separates the fixed side 3 and the movable side 4 of the insert 1 from each other. After designing the outer shape of the nest 1, a temperature control circuit for cooling a resin molded product (or a die cast molded product) is designed. The design of the temperature control circuit includes a temperature control passage 6, a temperature control pipe 7, an O-ring 8 attached to the temperature control pipe 7, and a temperature control path 9.
There are each design. The temperature control passage 6 is provided on the movable side 4 of the nest 1.
, A passage for the refrigerant (air, water, oil, etc.) formed in the longitudinal direction, the valve and the path diameter of which are unitized in an inseparable relationship as if they were one attachment part as shown in FIG. It is. Regarding the unitized temperature control passage unit parts, a plurality of sizes (path diameters) are designed in advance and stored in a database as unit parts. In designing the temperature control passage 6, a temperature control passage having an optimum diameter is selected from the unit parts shown in FIG. 7 and is incorporated in an appropriate position on the movable side 4 of the nest 1. Temperature control line 7
Is a conduit communicating with the outside of the movable side 4 of the nest 1, and an O-ring 8 is provided between members constituting the movable side 4 of the nest 1. As shown in FIG. 8, the temperature control pipeline 7 and the O-ring 8 are unitized as an integral part as if they were one attachment part. Regarding the unitized temperature control pipeline unit parts, a plurality of sizes (diameters of pipelines) are designed in advance and stored in a database as unit parts. In designing the temperature control pipe 7 and the O-ring 8, a temperature control pipe and an O-ring having an optimum diameter are selected from the unit parts shown in FIG. It is incorporated so as to communicate with the adjustment passage 6. The temperature control path 9 is a temperature control refrigerant flow path for cooling the vicinity of the product forming part 2 on the movable side 4 of the nest 1, and a flow path formed by a circular hole and the flow path are formed into two flows. In order to branch the unit, the partition plate formed at the center and the hole communicating with each of the two branched flow paths are inseparable from each other as if they were one attachment part as shown in FIG. It has been made. With respect to the unitized temperature control unit, a plurality of sizes (path diameters) are designed in advance and stored in a database as unit parts. In designing the temperature control path 9, a temperature control path having an optimum diameter is selected from the unit parts shown in FIG. 9 and a position where the vicinity of the product forming section 2 on the movable side 4 of the nest 1 can be cooled. Incorporate in.

When the design of the temperature control circuit is completed, a blanking structure is designed. The punching structure determines how the slider 4A is moved (pulled out) when the fixed side 3 and the movable side 4 of the nest 1 are opened. There is a design, a design of the locking block 11, and a design of the angular pin 12.
The slide stop pin 10 is for moving the movable side 4 of the nest 1 to stop the slider 4A at a predetermined distance when the nest 1 is opened, and the pin and the slide stopper are one mounting part as shown in FIG. Are unitized in an integral relationship as if
For the unitized slide stop pin / unit parts, a plurality of sizes (diameters) are designed in advance and stored in a database as unit parts. In designing the slide stop pin 10, a slide stop pin having an optimum diameter is selected from the unit parts shown in FIG. 10 and incorporated into the movable side 4 of the nest 1. The locking block 11 locks the slider 4A of the nest 1 so as not to move at the time of resin molding (or at the time of die casting), and performs positioning when locking the slider 4A to the fixed side 3 of the nest 1. As shown in FIG. 11, the block and the bolts for fixing the block are unitized in a unitary manner as if they were one attachment part as shown in FIG. A plurality of sizes (diameters) of the unitized locking blocks and unit parts are designed in advance and stored in a database as unit parts. In designing the locking block 11, a locking block in which an optimum block and a bolt for fixing the block are unitized is selected from the unit parts shown in FIG. Slider 4
Incorporate into A. The angular pin 12 is used to move the movable side 4 when opening the nest 1 and determine in which direction and how much the slider 4A should be slid.
Is mounted on the slider 4A from the fixed side 3 of the camera. As shown in FIG. 12, the angular pin 12 is unitized in such a manner that the pin and the hole into which the pin is inserted are inseparable as if they were one attachment part. Regarding the unitized angular pin unit parts, a plurality of sizes (diameters) are designed in advance and stored in a database as unit parts. In designing the angular pin 12, an angular pin having an optimum diameter is selected from the unit parts shown in FIG. 12, and the angular pin is mounted on the slider 4A from the fixed side 3 of the nest 1. In the design of the punching structure, in addition to this, after the nest 1 is opened and the fixed side 3 and the movable side 4 are separated from each other, a plastic product (or die-cast product) molded by resin molding (or die-casting) in the product molding section 2 is used. There is a design of a member for wiping from the product forming part 2.

The removal structure for wiping a plastic product (or a die-cast product) from the product molding section 2 is a resin structure that opens the fixed side 3 and the movable side 4 of the nest 1 and sticks to the product molding section 2 on the movable side 4. A plastic product (or a die-cast product) is peeled off from a molded (or a die-cast product) plastic product (or a die-cast product), and the plastic product (or a die-cast product) is taken out from the product forming section 2. The design of the punching structure includes the design of the ejector pin 13,
There are a design of the ejector sleeve 14, a design of the center pin 15, and a design of the fixed side nesting pin 16. The ejector pin 13 is for moving the movable side 4 of the nest 1 to open the nest 1, and then ejecting a plastic product (or a die-cast product) from the product forming section 2 to remove the plastic product (or die-cast product). As shown in FIG. 13, it is unitized as a single attachment part in an integral and inseparable relationship. This unitized ejector pin and unit parts are available in multiple sizes (length,
Diameter) is designed in advance and stored as a database as unit parts. In designing the ejector pin 13, an ejector pin having an optimum diameter is selected from the unit parts shown in FIG. 13 and incorporated into the movable side 4 of the nest 1. The ejector sleeve 14 is a cylindrical component into which the center pin 15 is inserted, and the ejector sleeve and the processing hole are unitized in an integral and inseparable relationship as if they were one attachment component as shown in FIG. It is.
A plurality of sizes (lengths and diameters) of the unitized ejector sleeves and unit parts are designed in advance and stored in a database as unit parts. In designing the ejector sleeve 14, an ejector sleeve having an optimum diameter is selected from the unit parts shown in FIG. The center pin 15 is used to form a boss hole in a plastic product (or a die-cast product) molded in the product molding section 2. The ejector pin and the processing hole are one mounting part as shown in FIG. It is unitized into an integral relationship as shown in FIG. With respect to the unitized center pin and unit parts, a plurality of sizes (lengths and diameters) are designed in advance and stored in a database as unit parts. In designing the center pin 15, a center pin having an optimum diameter is selected from the unit parts shown in FIG.
Incorporate in. The fixed side nesting pin 16 is
In order to form a boss hole in a plastic product (or a die-cast product) molded by the method described above, the boss hole forming pin and the processing hole are inseparable as if they were one attachment part as shown in FIG. Is unitized in the relationship of A plurality of sizes (lengths and diameters) of the fixed-side nesting pins and unit parts which are unitized are designed in advance and are stored in a database as unit parts. In designing the fixed side nesting pin 16, a fixed side nesting pin having an optimum diameter is selected from the unit parts shown in FIG. 16 and inserted into the ejector sleeve 14 and incorporated into the movable side 4 of the nesting 1.

Reference numeral 17 denotes a runner gate lock pin, a gate for supplying molten resin (or molten metal) to the product forming section 2, a sprue which is a processing hole connected to the gate, and a molten resin (or molten metal) inlet. , And a runner lock pin whose tip is inserted into this runner,
As shown in FIG. 17, it is unitized as an integral part as if it were one attachment part. The runner gate lock pin 17 is used to separate the solidified resin (or metal) at the tip of the gate from the solidified plastic product (or die-cast product). That is, molten resin (or molten metal) is supplied from the runner to the product forming section 2 through the sprue and the gate, and the resin filled in the product forming section 2 is cooled and solidified to form a plastic product (or die-cast product). Is performed, the resin (or metal) filling the runner, sprue, and gate is solidified in the same manner. If the nest 1 is opened as it is, the plastic product (or die-casting product) will stick to the resin (or metal) at the tip of the gate and move to the fixed side. Becomes difficult. Therefore,
The member on which the runner, sprue, and gate are machined and the member with the runner lock pin with the tip inserted into the runner are slightly opened before the fixed side 3 and the movable side 4 of the nest 1 are opened. . This runner, sprue,
When the member on which the gate is processed and the member with the runner lock pin with the tip inserted into the runner are opened, the resin (or metal) fixed to the tip of the runner lock pin by the runner lock pin is pulled out. The solidified resin (or metal) filled in the runner, sprue, and gate is pulled out, and the resin (or metal) at the tip of the gate is separated from the plastic product (or die-cast product). Then the fixed side 3 of the nest 1
By opening the movable side 4 and the movable side 4, the plastic product (or the die-cast product) molded by the product molding section 2 is moved to the movable side. Regarding the unitized runner gate lock pin / unit parts, a plurality of sizes (lengths / diameters) are designed in advance as shown in FIG. In designing the fixed side nesting pin 16, FIG.
In FIG. 7, a runner gate lock pin having an optimum diameter is selected from the unit parts shown in the figure, and is incorporated into the fixed side 3 of the insert 1.

Reference numeral 18 denotes a tapered give liner,
18 is a member for positioning such that the fixed side 2 and the movable side 3 are fixed at a predetermined position without a shift when the fixed side 2 and the movable side 3 are closed. Are unitized in an integral relationship as if Regarding the unitized tapered giver liner and unit parts, a plurality of sizes (lengths and diameters) are designed in advance as shown in FIG. In designing the tapered giver liner 18, a taper giver liner having an optimum size is selected from the unit parts shown in FIG.

When the design of the nest 1 of the resin mold is completed, the basic structure of the resin mold for accommodating the nest 1 is designed. 19 to 23 are design drawings of the basic structure of the resin mold, FIG. 19 is a front view of the basic structure of the resin mold, and FIG. 20 is a plan view of the movable structure of the basic structure of the resin mold. 21 is a bottom view on the fixed side of the basic structure of the resin mold, FIG. 22 is a side view of the basic structure of the resin mold, and FIG. 23 is a cross-sectional view of a part of the basic structure of the resin mold shown in FIG. FIG. In designing the basic structure of this resin mold, first,
As shown in FIG. 19, a dimensional shape suitable for storing the nest 1 is specified.

In FIG. 19, reference numeral 20 denotes a basic structure of a resin mold.
In order to take out a resin molded product formed by press-injecting a resin in the resin product molding section 2 of the nest 1, the nest 1 can be divided into two so as to open.
21 is a fixed side to which the fixed side 3 of the nest 1 is attached,
The movable side 22 is provided with the movable side 4 of the nest 1.
A parting line 23 separates the fixed side 21 and the movable side 22 of the basic structure 20 of the resin mold. In designing the basic structure 20 of the resin mold,
After designing the outer shape, the basic structure 20 of this resin mold
Except for the design of the standard parts necessary for the design of the parts, the design of the processing shape elements (component mounting processing patterns) required for incorporating the standard parts into the basic structure 20 of the resin mold, and the processing shape elements (component mounting processing patterns) Of the processing required for the design of the basic structure 20 of the resin mold (
It is necessary to design a processing element (assembly processing pattern) indicating the processing dimension).

When the outer shape of the basic structure 20 of the resin mold is designed, the basic structure 20 of the resin mold is obtained.
Perform various designs necessary for the design of Reference numeral 24 denotes a sprue bushing locating ring, and the sprue bushing and the locating ring are unitized in an integral and inseparable state as if they were one attachment part as shown in FIG. Regarding the unitized sprue bush locating ring and unit parts, a plurality of sizes (diameters) are designed in advance and are made into a database as unit parts. In designing the sprue bushing locate ring 24, an optimal sprue bush and a sprue bush locate ring in which the locate ring is unitized are selected from the unit parts shown in FIG. 20 to the fixed side 21. Reference numeral 25 denotes a bolt, and a processing shape element necessary for mounting the bolt on a standard part in which a bolt and a tap are combined is unitized in an inseparable state as if it were one mounting part as shown in FIG. It was done. A plurality of sizes (diameters) of the unitized bolt / nut / unit parts are designed in advance and are stored in a database as unit parts. In designing the bolt 25, a bolt tap unit in which an optimum bolt and a processing shape element for mounting are unitized is selected from the unit parts shown in FIG. 25, and the basic structure 2 of the resin mold is used.
Incorporate into 0.

Reference numeral 26 denotes an ejector guide pin, and the ejector pin, the ejector guide bush, and the bolt are unitized so as to be inseparable from each other as if they were one attachment part as shown in FIG. Regarding the unitized ejector guide pins and unit parts, a plurality of sizes (road diameters) are designed in advance and are made into a database as unit parts. In designing the ejector guide pin 26, an ejector guide pin unit having an optimum diameter is selected from the unit parts shown in FIG.
Incorporate it into the movable side 4 of 0.

Reference numeral 27 denotes a support pillar set, in which the pillar, its fool hole, and a bolt for fixing the pillar are united in an inseparable relationship as if they were one attachment part as shown in FIG. Regarding the unitized support pillar set and unit parts, a plurality of sizes (road diameters) are designed in advance and are made into a database as unit parts. In designing the support pillar set 27, a support pillar set unit having an optimum diameter is selected from the unit parts shown in FIG. 27 and incorporated into the movable side 4 of the basic structure 20 of the resin mold.

Reference numeral 28 denotes a shoulder bolt, in which the bolt and the tap are unitized so as to be integrally inseparable as if they were one attachment part as shown in FIG.
Regarding the unitized shoulder bolts and unit parts, a plurality of sizes (diameters) are designed in advance and stored in a database as unit parts. In designing the shoulder bolt 28, a bolt tap unit in which optimal bolts and taps are unitized is selected from the unit parts shown in FIG. 28 and incorporated into the basic structure 20 of the resin mold. 29 is a hook, FIG.
As shown in FIG. 9, only parts are designed in advance for each of a plurality of sizes and are made into a database. Therefore, FIG. 29 is a database of standard parts. Reference numeral 30 denotes a parting lock, which locks the movable side 22 of the basic structure 20 of the resin mold. Whether the parting lock, the bolt, and the bolt mounting process are one mounting part as shown in FIG. It is unitized in an inseparable relationship. This unitized parting lock and unit parts are available in multiple sizes (road diameters).
Are designed in advance and are made into a database as unit parts shown in four views of a front view, a plan view, a bottom view, and a side view. In designing the parting lock 30, a parting lock unit having an optimum size is selected from the unit parts shown in FIG. 30, and is incorporated into the movable side 4 of the basic structure 20 of the resin mold.

Reference numeral 31 denotes a nipple of a temperature control component, as shown in FIG. 31, in which nipples of various shapes are designed in advance in terms of mounting state and mounting hole processing, and are made into a database. That is, FIG. 31 shows a database of standard parts and machining elements. Reference numeral 32 denotes a temperature control passage for a temperature control component, which is a refrigerant (air, water,
A passage for running oil or the like, and the valve and the path diameter are unitized in an integral and inseparable relationship as if they were one attachment part as shown in FIG. A plurality of sizes (path diameters) of the temperature control passage unit parts in which the valve and the path diameter are unitized are designed in advance and stored in a database as the unit parts. In designing the temperature control passage 32, a temperature control passage unit having an optimum diameter is selected from the unit parts shown in FIG. 7, and the temperature control passage unit is provided at an appropriate position on the fixed side 21 of the basic structure 20 of the resin mold. Incorporate. The temperature control passage / unit parts shown in FIG. 7 are the same as those used for designing the temperature control passage 6 of the nest 1. Reference numeral 33 denotes an elbow, which is a temperature control part, like the nipple 31 and the temperature control passage 32. This elbow 33
Is a unit in which a joint part and a pipe line attached to the valve of the temperature control passage 32 are combined as shown in FIG. With respect to the elbow unit parts in which the joint portion and the conduit are unitized, a plurality of sizes (path diameters) are designed in advance and stored in a database as unit parts. In designing this elbow 33,
An elbow unit having an optimum diameter is selected from the unit parts shown in FIG. 32, and is exposed on the wall surface of the fixed side 21 of the basic structure 20 of the resin mold. The two elbows are connected and assembled so that they are connected by a conduit.

Numeral 34 denotes a distance spacer, which is an elbow unit part 3 on the fixed side 21 of the basic structure 20 of the resin mold.
3 When the mounting surface is placed on the lower side, the elbow unit part 33 exposed and mounted on the wall surface of the fixed side 21 of the basic structure 20 of the resin mold is broken by the load of the resin mold. It protects you from getting sick. As shown in FIG. 33, the distance spacer 34 is unitized such that the spacer and a bolt for attaching the spacer are inseparable from each other as if they were one attachment part. About this unitized distance spacer and unit parts,
A plurality of sizes (diameters) are designed in advance and stored in a database as unit parts. In designing the distance spacer 34, a distance spacer in which an optimal spacer and a bolt for fixing the spacer are unitized is selected from the unit parts shown in FIG. 33, and the basic structure of the resin mold is selected. 20 to the fixed side 21. Reference numeral 35 denotes a pulling link, which is forcibly operated when the movable side 22 opens the fixed side 21 of the basic structure 20 of the resin mold.
As shown in FIG. 4, the unit is unitized into a single integral part as if it were one attachment part. A plurality of sizes (diameters) of the unitized pulling link unit parts are designed in advance and stored in a database as unit parts. In designing the tension link 35, a tension link unit in which an optimal link and a mounting bolt are unitized is selected from the unit parts shown in FIG. 34, and the basic structure 20 of the resin mold is selected. Of the fixed side 21 and the movable side 22.

Numeral 36 denotes a stop bolt plastic bolt, in which the stop bolt, the plastic bolt, the spring and the machined hole are united in an inseparable manner as if they were one attachment part as shown in FIG. . Regarding the unitized stop bolts, plastic bolts and unit parts, a plurality of sizes (diameters) are designed in advance and stored in a database as unit parts. In designing the stop bolt plastic bolt 36, an optimal stop bolt, plastic bolt, spring, and stop bolt plastic bolt unit in which the processing hole is unitized is selected from the unit parts shown in FIG. As shown in FIG. 23, the selected stop bolt plastic bolt unit is assembled so as to extend from the fixed side 21 to the movable side 22 of the basic structure 20 of the resin mold. Reference numeral 37 denotes a guide pin, in which the guide pin and the guide bush are unitized in an integral and inseparable state as if they were one attachment part as shown in FIG. A plurality of sizes (diameters) are designed in advance for the guide pins and unit parts in which the guide pins and the guide bush are unitized, and are made into a database as unit parts. In designing the guide pin 37, an optimal guide pin and a guide bush unitized with a guide bush are selected from the unit parts shown in FIG. 36 to fix the basic structure 20 of the resin mold. Assemble by hanging on the side 21 and the movable side 22. Reference numeral 38 denotes an interlock, which is a comprehensive positioning set for assembling the fixed side 21 and the movable side 22 of the basic structure 20 of the resin mold so as not to be out of order. This interlock 38 is unitized such that the two bases in which the concave and convex portions are fitted and the bolts for fixing the bases are inseparable as if they were one attachment part as shown in FIG. It was done. A plurality of sizes (diameters) of the unitized interlock unit parts are designed in advance and stored in a database as unit parts. This interlock 3
In the design of No. 8, an interlock unit in which an optimal base and a bolt for fixing the base are unitized is selected from the unit parts shown in FIG. 37, and the basic structure 20 of the resin mold is fixed. Side 21 and movable side 22
Incorporate it in the position where the positioning will be performed

The design of the nest 1 of the resin mold is as described above.
Although the design of the basic structure 20 of the resin mold has been described, the mounting parts to be attached to each of the nest and the basic structure designed here (parts used in the resin mold that are generally available in the catalog and are commercially available are standard). Design of parts) itself, design of mounting elements (called mounting patterns) indicating how to mount the parts, processing details (processing shape and processing) required for mounting parts to be mounted on each of nesting and basic structure Processing shape element showing dimensions) (referred to as part mounting processing pattern)
The design of the processing elements (referred to as “assembly processing patterns”) indicating the processing contents (processing shape and processing dimensions) required for designing each of the nesting and basic structure other than the design and processing shape elements In the design of the mold, it is only a small part, and the design condition of the nest 1 changes depending on the shape of the resin product molded part 2, and the nest 1 cannot be designed only with the parts shown in FIG. However, more parts are required depending on the size of the nest 1 and the shape of the resin product molding 2. In this case,
Although not shown in the present embodiment, necessary standard parts and processing shape elements (part mounting processing patterns) required for incorporating the standard parts into the resin mold are regarded as one mounting part. The optimum unit parts are selected from the unit parts that are unitized into an inseparable state and are made into a database as unit parts. In addition, processing shape elements (component mounting processing patterns) necessary for incorporating necessary standard parts into a resin mold are united into an inseparable state as if they are one mounting part, and a database is created as unit parts. The optimal unit parts will be selected from the existing unit parts. Furthermore, whether the processing elements (assembly processing patterns) indicating the processing contents (processing shapes and processing dimensions) required for designing each of the nest and the basic structure other than the processing shape elements are one attachment part. As described above, the optimum unit parts are selected from the unit parts that are unitized into an inseparable state and are made into a database as unit parts. A unit part including all standard parts required for designing the nest 1 and the basic structure 20 of the resin mold and processing shape elements (part mounting processing patterns) required for incorporating the standard part into the resin mold; The processing contents (processing) required to design each unit part of processing shape elements (component mounting processing pattern) necessary to incorporate standard parts into the resin mold die, nesting other than processing shape elements, and basic structure Unit parts of processing elements (assembly processing patterns) indicating the shape and processing dimensions) are designed in advance for each dimension, and the designed unit parts are stored in a database in advance as a database.

Next, each embodiment of the unit design system for a resin mold according to the present invention will be described. << First Embodiment >> A first embodiment of a resin mold unit design system according to the present invention is a resin mold design system for designing a resin mold using CAD. Parts (parts used in resin molds that are published in catalogs and are generally marketed)
And a processing shape element (part mounting processing pattern) necessary for incorporating the standard part into the resin mold, and unitized into an integral and inseparable unit as if it were one mounting part. The data (unit parts) that was designed in advance as a unit part with the size (diameter) designed in advance is one data (unit part data)
Is stored in advance in the CAD, and the nest 1 of the resin mold is designed using the unit part data. That is, the nest 1 of the resin mold
As shown in FIG. 6, the outer shape of the nest 1 is designed to fit the shape of the resin product forming section 2 for press-fitting a resin on a CAD display to form a product, and the outer shape is specified. The nesting 1 is selected from unit parts (for example, FIGS. 7 to 18) in which standard parts required for the design of the nesting 1 are unitized by combining a standard part stored in advance in the CAD with a part attachment processing pattern. Then C
It is incorporated into the nest 1 on the display of the AD. The unit parts selected from the unit parts and incorporated into the nest 1 on the CAD display were unitized by combining the standard parts with the parts mounting processing pattern when the size was changed or the size did not match. It is possible only by changing for each unit part (for example, each drawing shown in FIGS. 7 to 18), and there is no need to redesign the standard parts and the parts mounting processing pattern. In addition, on the CAD display, the standard parts and the unit mounting processing patterns selected and incorporated from the unit part data can be changed in design by separating the standard parts and the component mounting processing patterns.

Therefore, according to the present embodiment, even if it becomes necessary to change the outer shape of the nest or to change the standard parts once set, the designer can look at the design drawings displayed on the display. On the design drawing displayed on the display, the designer can replace the standard parts to be changed and the unit parts in which the component mounting processing Freely and accurately while looking at the eyes,
Design changes can be made easily. In addition, the design change on the display can be easily grasped in actual size by specifying the scale of the display and the scale on the design drawing. Further, according to the present embodiment, when a standard part is changed after designing once with the nest 1 of the resin mold, the standard part to be changed is deleted from the design drawing on the CAD display and the part mounting process is performed. Since the pattern can be left on the design drawing, it is not necessary to design the component mounting processing pattern again when redesigning, saving the trouble of the design procedure and nesting the resin mold in a short time. Can be designed.

Second Embodiment A second embodiment of a resin mold unit design system according to the present invention is a resin mold design system for designing a resin mold using CAD. The standard parts (parts used in resin molds that are listed in the catalog and are generally available on the market) and the processing shape elements (part mounting processing patterns) required to incorporate the standard parts into the resin molds Combined into one unit as if it were one attachment part, unitized into a unitary state, multiple sizes (diameters) were designed in advance and made into a database as unit parts (unit parts), and one data (unit) (Part data) is stored in advance in the CAD, and the basic structure 20 of the resin mold is designed using the unit part data. Than it is. That is, in designing the basic structure 20 of the resin mold, after designing the nest 1, dimensions and shapes suitable for storing the nest 1 are displayed on a CAD display as shown in FIGS. 19 to 23. With respect to the basic structure of the resin mold having the outer shape specified and designed, the standard parts required for the design of the basic structure 20 of the resin mold are converted to the standard parts stored in advance in the CAD. It is selected from unit parts (for example, FIGS. 24 to 37) which are combined and unitized, and incorporated into the basic structure 20 of the resin mold on the CAD display. The unit parts selected from the unit parts and incorporated into the basic structure 20 of the resin mold shown on the CAD display are changed to standard parts when the size is changed or the size does not match. It is possible only by changing each unit part (for example, each of the drawings shown in FIGS. 24 to 37) which is made into a unit by combining the component mounting processing patterns. Absent.
In addition, on the CAD display, the standard parts and the unit mounting processing patterns selected and incorporated from the unit part data can be changed in design by separating the standard parts and the component mounting processing patterns.

Therefore, according to the present embodiment, even if it is necessary to change the outer shape of the basic structure 20 of the resin mold or to change the standard parts once set, the designer can display the information on the display. While looking at the design drawing
On the design drawing displayed on the display, the designer can look at the design drawing by simply replacing the standardized parts to be changed and the unit parts in which the component mounting processing patterns are unitized with the unit parts of the optimal dimensions. The design can be freely, accurately, and easily changed while looking at the screen. In addition, the design change on the display can be easily grasped in actual size by specifying the scale of the display and the scale on the design drawing. Further, according to the present embodiment, when a standard part is changed after designing once with the basic structure 20 of the resin mold, the standard part to be changed is erased from the design drawing on the CAD display to mount the part. Since the machining pattern can be left on the design drawing, there is no need to redesign the component mounting machining pattern when redesigning, saving the labor of the design procedure and shortening the time required for the resin mold. The basic structure can be designed.

Third Embodiment A third embodiment of a resin mold unit design system according to the present invention is a resin mold design system for designing a resin mold using CAD. The standard parts (parts used in resin molds that are listed in the catalog and are generally available on the market) and the processing shape elements (part mounting processing patterns) required to incorporate the standard parts into the resin molds Combined into one unit as if it were one attachment part, unitized into a unitary state, multiple sizes (diameters) were designed in advance and made into a database as unit parts (unit parts), and one data (unit) Part data) in advance in the CAD, and using the unit part data, insert 1 of resin mold and resin mold In which the design type of the basic structure 20. First, when designing the nest 1 of the resin mold, the outer shape of the nest 1 that matches the shape of the resin product molding unit 2 for press-fitting the resin on a CAD display and molding the product as shown in FIG. With respect to the nest 1 whose outer shape is specified and designed, the standard parts required for the design of the nest 1 are unitized by combining the standard parts pre-stored in the CAD with the part mounting processing patterns (for example, FIG. 7 to 18) and incorporate them into the nest 1 on the CAD display. The unit parts selected from the unit parts and incorporated into the nest 1 on the CAD display were unitized by combining the standard parts with the parts mounting processing pattern when the size was changed or the size did not match. It is possible only by changing for each unit part (for example, each drawing shown in FIGS. 7 to 18), and there is no need to redesign the standard parts and the parts mounting processing pattern. In addition, on the CAD display, the standard parts and the unit mounting processing patterns selected and incorporated from the unit part data can be changed in design by separating the standard parts and the component mounting processing patterns.

Next, in designing the basic structure 20 of the resin mold, after designing the insert 1, dimensions and shapes suitable for accommodating the insert 1 are shown on a CAD display in FIGS. Designed as shown in FIG. 23, with respect to the basic structure 20 of the resin mold having the specified outer shape, the standard parts required for designing the basic structure 20 of the resin mold are replaced with standard parts stored in advance in the CAD. The parts are selected from unit parts (for example, FIGS. 24 to 37) unitized by combining the component mounting processing patterns, and are incorporated into the basic structure 20 of the resin mold on the CAD display. Select from unit parts, CA
The unit parts incorporated in the basic structure 20 of the resin mold shown in the display of D are unitized by combining a standard part with a part mounting pattern when the size is changed or the size does not match. It is possible only by changing each unit part (for example, each of the drawings shown in FIGS. 24 to 37), and there is no need to redesign the standard part and the part mounting pattern. In addition, on the CAD display, the standard parts and the unit mounting processing patterns selected and incorporated from the unit part data can be changed in design by separating the standard parts and the component mounting processing patterns.

Therefore, according to the present embodiment, even if it is necessary to change the outer shape of the nest 1 of the resin mold or the basic structure 20 or to change the standard parts that have been set once, the designer can change the shape on the display. While looking at the design drawing displayed in the above, on the design drawing displayed on the display, perform the work of replacing the unit parts in which the standard parts to be changed and the component mounting processing pattern are unitized with the unit parts of the optimal dimensions The designer alone can freely, accurately, and easily change the design while looking at the design drawing by himself. In addition, the design change on the display can be easily grasped in actual size by specifying the scale of the display and the scale on the design drawing. Further, according to the present embodiment, when the standard parts are changed after designing once with the nest 1 and the basic structure 20 of the resin mold, the standard parts to be changed are deleted from the design drawing on the CAD display. Since the component mounting pattern can be left on the design drawing, there is no need to redesign the component mounting pattern when redesigning, saving time in the design procedure and shortening the time required for resin molding. Mold nesting and basic structure design can be performed.

Fourth Embodiment A fourth embodiment of the resin mold unit design system according to the present invention is a resin mold design system for designing a resin mold using CAD. The standard parts (parts used in resin molds that are listed in the catalog and are generally available on the market) and the processing shape elements (part mounting processing patterns) required to incorporate the standard parts into the resin molds Combine them into one unit as if they were one attachment part, and combine the processing shape elements (part attachment processing patterns) necessary to incorporate the standard parts into the resin mold. One unit, unitized, multiple sizes (diameters) are designed in advance for each unit, and a database is created as a unit part (unit The chromatography Tsu), is stored in advance in CAD as one data (unit part data), and performs nesting 1 design of the resin mold by using the unit part data. In other words, when designing the nest 1 of the resin mold, the outer shape of the nest 1 matching the shape of the resin product molding unit 2 for molding a product by press-fitting a resin on a CAD display as shown in FIG. For the nest 1 that has been designed and identified
The standard parts required for the design of the nest 1 are unitized by combining the standard parts pre-stored in the CAD with the part mounting processing pattern, and the processing shape elements required for incorporating the standard parts into the resin mold ( The parts are selected from the unit parts (for example, FIGS. 7 to 18) which are unitized by combining the parts mounting processing patterns, and are incorporated into the nest 1 on the CAD display. The unit part selected from the unit parts and incorporated in the nest 1 on the CAD display is changed into a unit by combining a standard part with a part mounting processing pattern when the size is changed or the size does not match. At the same time, for each unit part (for example, each drawing shown in FIGS. 7 to 18) obtained by combining processing shape elements (part mounting processing patterns) necessary for incorporating a standard part into a resin mold, and forming a unit. It is possible only by changing, and it is not necessary to redesign the standard parts and the parts mounting processing pattern. Also, C
On the AD display, the standard parts selected from the unit part data and incorporated, the unit parts of the part mounting processing pattern, the unit parts of the part mounting processing patterns, the standard parts and the part mounting processing patterns are separated, and design changes etc. Can also be performed.

Therefore, according to the present embodiment, even if it is necessary to change the outer shape of the nest or to change the standard parts once set, the designer can look at the design drawing displayed on the display. On the design drawing displayed on the display, the standard parts to be changed and the unit parts in which the component mounting processing patterns are unitized and the unit parts in which the component mounting processing patterns are unitized are replaced with unit parts having the optimal dimensions. Just by performing the work, the designer can freely, accurately, and easily change the design while looking at the design drawing by himself. In addition, the design change on the display can be easily grasped in actual size by specifying the scale of the display and the scale on the design drawing. Further, according to the present embodiment, when a standard part is changed after designing once with the nest 1 of the resin mold, the standard part to be changed is deleted from the design drawing on the CAD display and the part mounting process is performed. Since the pattern can be left on the design drawing, it is not necessary to design the component mounting processing pattern again when redesigning, saving the trouble of the design procedure and nesting the resin mold in a short time. Can be designed.

Fifth Embodiment A fifth embodiment of the resin mold unit design system according to the present invention is a resin mold design system for designing a resin mold using CAD. Then, the standard parts (parts used in resin molds that are listed in the catalog and generally available on the market) and the processing shape elements (part mounting processing patterns) required to incorporate the standard parts into the resin molds are described. Combined to form a unit as an integral part as if it were one attachment part, and to combine the processing shape elements (part attachment processing patterns) necessary to incorporate the standard part into the resin mold. One unit, unitized, multiple sizes (diameters) are designed in advance for each unit, and a database is created as a unit part (unit The chromatography Tsu), is stored in advance in CAD as one data (unit part data), and performs a design of the basic structure 20 of the resin mold by using the unit part data. That is,
In designing the basic structure 20 of the resin mold,
As shown in FIG. 6, the outer shape of the basic structure 20 is designed on the CAD display to fit the shape of the resin product forming part 2 for molding the product by press-fitting the resin. In addition to combining the standard parts required in the design of 20 with the standard parts pre-stored in the CAD and the component mounting processing pattern to form a unit, the processing shape elements (parts) required to incorporate the standard parts into the resin mold Selection is made from unit parts (for example, FIGS. 7 to 18) which are unitized by combining the attachment processing patterns, and are incorporated into the basic structure 20 on the CAD display. The unit parts selected from the unit parts and incorporated into the basic structure 20 on the CAD display are changed into units by combining the standard parts with the parts mounting processing pattern when the size is changed or the size does not match. And the processing elements required to incorporate the standard parts into the resin mold (part mounting processing pattern)
It is possible only by changing for each unit part (for example, each drawing shown in FIGS. 7 to 18) which is unitized by combining them, and it is not necessary to redesign the standard part and the part mounting pattern. In addition, on the CAD display, the standard parts selected from the unit part data and incorporated, the unit parts of the part mounting processing pattern, the unit parts of the part mounting processing patterns, the standard parts and the part mounting processing pattern are designed separately. Changes can also be made.

Therefore, according to the present embodiment, even if it is necessary to change the outer shape of the basic structure or change the standard parts once set, the designer can view the design drawings displayed on the display. Meanwhile, on the design drawing displayed on the display, the standard parts to be changed and the unit parts in which the component mounting processing patterns are unitized and the unit parts in which the component mounting processing patterns are unitized are converted into unit parts with the optimal dimensions Just by performing the replacement work, the designer can freely, accurately, and easily change the design while looking at the design drawing by himself.
In addition, the design change on the display can be easily grasped in actual size by specifying the scale of the display and the scale on the design drawing. Further, according to the present embodiment, when a standard part is changed after designing once with the basic structure 20 of the resin mold, the standard part to be changed is erased from the design drawing on the CAD display to mount the part. Since the machining pattern can be left on the design drawing, there is no need to redesign the component mounting machining pattern when redesigning, saving the labor of the design procedure and shortening the time required for the resin mold. The basic structure can be designed.

Sixth Embodiment A sixth embodiment of the resin mold unit design system according to the present invention is a resin mold design system for designing a resin mold using CAD. The standard parts (parts used in resin molds that are listed in the catalog and are generally available on the market) and the processing shape elements (part mounting processing patterns) required to incorporate the standard parts into the resin molds Combine them into one unit as if they were one attachment part, and combine the processing shape elements (part attachment processing patterns) necessary to incorporate the standard parts into the resin mold. One unit, unitized, multiple sizes (diameters) are designed in advance for each unit, and a database is created as a unit part (unit Over Tsu), and one data (unit part data) is stored in advance in CAD as the basic structure 2 of the design and the resin mold of the insert 1 of the resin mold by using the unit part data
0 is designed. First, when designing the nest 1 of the resin mold, the outer shape of the nest 1 that matches the shape of the resin product molding unit 2 for press-fitting the resin on a CAD display and molding the product as shown in FIG. With regard to the nest 1 whose outer shape is specified, the standard parts required for the design of the nest 1 are unitized by combining the standard parts pre-stored in the CAD with the parts mounting processing pattern, and the standard parts are made of resin. A unit part obtained by combining processing shape elements (part attachment processing patterns) necessary for incorporation into a mold die (for example, FIG. 7)
18) and incorporate them into the nest 1 on the CAD display. The unit part selected from the unit parts and incorporated in the nest 1 on the CAD display is changed into a unit by combining a standard part with a part mounting processing pattern when the size is changed or the size does not match. At the same time, for each unit part (for example, each drawing shown in FIGS. 7 to 18) obtained by combining processing shape elements (part mounting processing patterns) necessary for incorporating a standard part into a resin mold, and forming a unit. It is possible only by changing, and it is not necessary to redesign the standard parts and the parts mounting processing pattern. In addition, on the CAD display, the standard parts selected from the unit part data and incorporated, the unit parts of the part mounting processing pattern, the unit parts of the part mounting processing patterns, the standard parts and the part mounting processing pattern are designed separately. Changes can also be made.

Next, in designing the basic structure 20 of the resin mold, after designing the nest 1, dimensions and shapes suitable for housing the nest 1 are shown on a CAD display in FIGS. Designed as shown in FIG. 23, with respect to the basic structure 20 of the resin mold having the specified outer shape, the standard parts required for the design of the basic structure 20 are replaced with the standard parts pre-stored in the CAD. From the unit parts (for example, FIGS. 7 to 18), which are unitized by combining processing shape elements (part attachment processing patterns) necessary for incorporating the standard parts into the resin mold while combining them into a unit. It is selected and incorporated into the basic structure 20 on the CAD display. The unit parts selected from the unit parts and incorporated into the basic structure 20 on the CAD display are changed into units by combining the standard parts with the parts mounting processing pattern when the size changes or the size does not match. Along with
It changes for each unit part (for example, each figure shown in Drawing 7-Drawing 18) which unitized processing shape elements (part attachment processing pattern) necessary for incorporating a standard part into a resin mold, and united. It is possible only with a single component, and there is no need to redesign the standard parts and part mounting pattern. In addition, on the CAD display, the standard parts selected from the unit part data and incorporated, the unit parts of the part mounting processing pattern, the unit parts of the part mounting processing patterns, the standard parts and the part mounting processing pattern are designed separately. Changes can also be made.

Therefore, according to the present embodiment, even if it is necessary to change the outer shape of the nest 1 of the resin mold or the basic structure 20 or to change the standard parts once set, the designer can change the shape on the display. While looking at the design drawing displayed in the above, on the design drawing displayed on the display, the standard parts to be changed and the unit parts in which the component mounting processing patterns are unitized and the unit in which the component mounting processing patterns are unitized with each other By simply replacing parts with unit parts having the optimal dimensions, the designer can freely, accurately, and easily change the design while looking at the design drawings. In addition, the design change on the display can be easily grasped in actual size by specifying the scale of the display and the scale on the design drawing. Further, according to the present embodiment, when the standard parts are changed after designing once with the nest 1 and the basic structure 20 of the resin mold, the standard parts to be changed are deleted from the design drawing on the CAD display. Since the component mounting pattern can be left on the design drawing, there is no need to redesign the component mounting pattern when redesigning, saving time in the design procedure and shortening the time required for resin molding. Mold nesting and basic structure design can be performed.

<< Seventh Embodiment >> A seventh embodiment of the resin mold unit design system according to the present invention is a resin mold design system for designing a resin mold using CAD. The standard parts (parts used in resin molds that are listed in the catalog and are generally available on the market) and the processing elements required to incorporate these standard parts into resin molds (part attachment processing patterns)
To form a unit as an integral part as if it were one attachment part, and the processing contents (processing shape and processing dimensions) required to design the resin mold other than the processing shape element. ) Are combined into one unit as if they were one attachment part by combining processing elements (assembly processing patterns), and a plurality of sizes (diameters) are designed in advance for each and a database is created as a part. The converted parts (unit parts) are stored in advance as one piece of data (unit parts data) in the CAD, and the nest 1 of the resin mold is designed using the unit parts data. That is, when designing the nest 1 of the resin mold, CAD
As shown in FIG. 6, the outer shape of the nest 1 is designed in conformity with the shape of the resin product forming part 2 for press-fitting the resin on the display as shown in FIG. 6, and the nest 1 having the specified outer shape is designed. The required standard parts are combined into standardized parts stored in the CAD in advance with the part mounting processing pattern to form a unit, and the processing contents (processing) required to design the resin mold other than the processing shape elements Processing element (assembly processing pattern) indicating shape / processing dimension)
It is selected from unit parts (for example, FIGS. 7 to 18) which are combined and unitized, and incorporated into the nest 1 on the CAD display. The unit parts selected from the unit parts and incorporated into the nest 1 on the CAD display are unitized by combining a standard part with a part mounting processing pattern when the size is changed or the size does not match. At the same time, a unit part (for example, a unit part formed by combining processing elements (assembly processing patterns) indicating the processing contents (processing shape and processing dimensions) required in designing a resin mold die other than the processing shape elements It is possible only by changing each of the drawings shown in FIGS. 7 to 18), and there is no need to redesign the standard parts and the parts mounting processing patterns. In addition, on the CAD display, the standard parts selected from the unit part data and incorporated, and the unit parts of the part attachment processing pattern,
A design change or the like can be performed by separating the unit parts, the standard parts, and the component mounting processing patterns between the assembly processing patterns.

Therefore, according to the present embodiment, even if it becomes necessary to change the outer shape of the nest or to change the standard parts once set, the designer can look at the design drawings displayed on the display. On the design drawing displayed on the display, the standard parts to be changed and the unit parts in which the component mounting processing patterns are unitized and the unit parts in which the assembling processing patterns are unitized are replaced with unit parts having optimal dimensions. Just by performing the work, the designer can freely, accurately, and easily change the design while looking at the design drawing by himself. In addition, the design change on the display can be easily grasped in actual size by specifying the scale of the display and the scale on the design drawing. Further, according to the present embodiment, when a standard part is changed after designing once with the nest 1 of the resin mold, the standard part to be changed is deleted from the design drawing on the CAD display and the part mounting process is performed. Since the pattern can be left on the design drawing, it is not necessary to design the component mounting processing pattern again when redesigning, saving the trouble of the design procedure and nesting the resin mold in a short time. Can be designed.

<Eighth Embodiment> An eighth embodiment of the resin mold unit design system according to the present invention is a resin mold design system for designing a resin mold using CAD. The standard parts (parts used in resin molds that are listed in the catalog and are generally available on the market) and the processing elements required to incorporate these standard parts into resin molds (part attachment processing patterns)
To form a unit as an integral part as if it were one attachment part, and the processing contents (processing shape and processing dimensions) required to design the resin mold other than the processing shape element. ) Are combined into one unit as if they were one attachment part by combining processing elements (assembly processing patterns), and a plurality of sizes (diameters) are designed in advance for each and a database is created as a part. The converted parts (unit parts) are stored in advance in CAD as one piece of data (unit parts data), and the basic structure 20 of the resin mold is designed using the unit parts data. That is, in designing the basic structure 20 of the resin mold, the basic structure 20 of the resin mold for accommodating the nest 1 matching the shape of the resin molded product on the CAD display.
Of the basic structure 20 of this resin mold
In addition to the standard parts required for the design of the parts, the standard parts pre-stored in the CAD are combined with the parts mounting processing pattern to make a unit, and the processing contents required to design the resin mold other than the processing shape elements Unit parts (for example, FIGS. 7 to 1) which are unitized by combining processing elements (assembly processing patterns) indicating (processing shape and processing dimensions).
8) and incorporate it into the basic structure 20 on the CAD display. The unit parts selected from the unit parts and incorporated into the basic structure 20 on the CAD display are changed into units by combining the standard parts with the parts mounting processing pattern when the size is changed or the size does not match. A processing element (assembly processing pattern) indicating the processing contents (processing shape and processing dimensions) required to design a resin mold other than the processing shape element
It is possible only by changing for each unit part (for example, each drawing shown in FIGS. 7 to 18) which is unitized by combining them, and it is not necessary to redesign the standard part and the part mounting pattern. In addition, on the CAD display, the standard parts selected from the unit part data and incorporated, the unit parts of the part mounting processing pattern, the unit parts of the assembly processing patterns, the standard parts and the part mounting processing pattern are designed separately. Changes can also be made.

Therefore, according to the present embodiment, even if it is necessary to change the outer shape of the basic structure or to change the standard parts once set, the designer can view the design drawings displayed on the display. Meanwhile, on the design drawing displayed on the display, the unit parts where the standard parts to be changed and the part mounting processing patterns are unitized and the unit parts where the assembly processing patterns are unitized are unitized to the optimal dimensions Just by performing the replacement work, the designer can freely, accurately, and easily change the design while looking at the design drawing by himself. In addition, the design change on the display can be easily grasped in actual size by specifying the scale of the display and the scale on the design drawing. Further, according to the present embodiment, when a standard part is changed after designing once with the basic structure 20 of the resin mold, the standard part to be changed is erased from the design drawing on the CAD display to mount the part. Since the machining pattern can be left on the design drawing, there is no need to redesign the component mounting machining pattern when redesigning, saving the labor of the design procedure and shortening the time required for the resin mold. The basic structure can be designed.

Ninth Embodiment A ninth embodiment of a resin mold unit design system according to the present invention is a resin mold design system for designing a resin mold using CAD. The standard parts (parts used in resin molds that are listed in the catalog and are generally available on the market) and the processing elements required to incorporate these standard parts into resin molds (part attachment processing patterns)
To form a unit as an integral part as if it were one attachment part, and the processing contents (processing shape and processing dimensions) required to design the resin mold other than the processing shape element. ) Are combined into one unit as if they were one attachment part by combining processing elements (assembly processing patterns), and a plurality of sizes (diameters) are designed in advance for each and a database is created as a part. The converted parts (unit parts) are stored in advance as one piece of data (unit parts data) in the CAD, and using this unit parts data, the design of the nest 1 of the resin mold and the basic structure of the resin mold 20 designs. First, when designing the nest 1 of the resin mold, the outer shape of the nest 1 matching the shape of the resin product molding unit 2 for molding a product by press-fitting a resin on a CAD display as shown in FIG. Design and
With respect to the nest 1 whose outer shape is specified, standard parts required for the design of the nest 1 are unitized by combining a part mounting processing pattern with standard parts stored in advance in the CAD, and a resin mold other than the processing shape element is formed. Processing contents (processing shape and processing dimensions) required for designing the mold
Parts (for example, FIGS. 7 to 1) which are unitized by combining processing elements (assembly processing patterns) indicating
8), and incorporate it into the nest 1 on the CAD display. The unit parts selected from the unit parts and incorporated into the nest 1 on the CAD display are unitized by combining a standard part with a part mounting processing pattern when the size is changed or the size does not match. At the same time, the processing contents (processing shape,
A unit part obtained by combining processing elements (assembly processing patterns) indicating processing dimensions) into a unit (for example, FIG. 7)
To each of the drawings shown in FIGS. 18 to 18), and it is not necessary to redesign the standard parts and the parts mounting processing patterns. In addition, on the CAD display, the standard parts selected from the unit part data and incorporated, the unit parts of the part mounting processing pattern, the unit parts of the assembly processing patterns, the standard parts and the part mounting processing pattern are designed separately. Changes can also be made.

Next, in designing the basic structure 20 of the resin mold, the outer shape of the basic structure 20 of the resin mold for accommodating the nest 1 conforming to the shape of the resin molded product on the CAD display. The standard parts required for designing and designing the basic structure 20 of the resin mold are unitized by combining the standard parts stored in advance in the CAD with the parts mounting processing pattern, and the resin molds other than the processing shape elements are formed. From the unit parts (for example, FIGS. 7 to 18) in which processing elements (assembly processing patterns) indicating the processing contents (processing shape and processing dimensions) required for designing the mold are combined to form a unit. It is selected and incorporated into the basic structure 20 on the CAD display. The unit parts selected from the unit parts and incorporated into the basic structure 20 on the CAD display are changed into units by combining the standard parts with the parts mounting processing pattern when the size changes or the size does not match. In addition, unit parts (for example, unit parts) that combine processing elements (assembly processing patterns) indicating processing contents (processing shapes and processing dimensions) required to design a resin mold other than the processing shape elements , FIGS. 7 to 18)
It is possible only by changing each time, and there is no need to redesign the standard parts and the parts mounting processing pattern. Also, CAD
On the display of, the standard parts selected from the unit part data and incorporated, the unit parts of the part mounting processing pattern, the unit parts of the assembly processing pattern,
The design change or the like can be performed by separating the standard part and the part mounting pattern.

Therefore, according to the present embodiment, even if it is necessary to change the outer shape of the nest 1 of the resin mold or the basic structure 20 or to change the standard parts that have been set once, the designer can display on the display. While looking at the design drawing displayed in the above, on the design drawing displayed on the display, the standard parts to be changed and the unit parts in which the component mounting processing patterns are unitized and the unit in which the component mounting processing patterns are unitized with each other By simply replacing parts with unit parts having the optimal dimensions, the designer can freely, accurately, and easily change the design while looking at the design drawings. In addition, the design change on the display can be easily grasped in actual size by specifying the scale of the display and the scale on the design drawing. Further, according to the present embodiment, when the standard parts are changed after designing once with the nest 1 and the basic structure 20 of the resin mold, the standard parts to be changed are deleted from the design drawing on the CAD display. Since the component mounting pattern can be left on the design drawing, there is no need to redesign the component mounting pattern when redesigning, saving time in the design procedure and shortening the time required for resin molding. Mold nesting and basic structure design can be performed.

Tenth Embodiment A tenth embodiment of the resin mold unit design system according to the present invention is a resin mold design system for designing a resin mold using CAD. Then, the standard parts (parts used in resin molds that are listed in the catalog and generally available on the market) and the processing shape elements (part mounting processing patterns) required to incorporate the standard parts into the resin molds are described. Combined to form a unit as an integral part as if it were one attachment part, and combined with the processing shape elements (part attachment processing pattern) necessary to incorporate the standard part into the resin mold, one part In addition to being unitized as parts, the processing contents (processing shape and processing dimensions) required for designing resin molds other than processing shape elements are added. Elements (assembly processing patterns) are combined to form a unit as an integral part as if it were a single attachment part, and multiple sizes (diameters) were designed in advance for each and made into a database as unit parts The (unit parts) are stored in advance in the CAD as one data (unit parts data), and the nest 1 of the resin mold is designed using the unit parts data. In other words, when designing the nest 1 of the resin mold, the outer shape of the nest 1 matching the shape of the resin product molding unit 2 for molding a product by press-fitting a resin on a CAD display as shown in FIG. For the nest 1 that has been designed and identified
The standard parts required for the design of the nest 1 are combined with the standard parts stored in advance in the CAD and the part mounting processing pattern to form a unit, and the processing shape elements (part mounting) required to incorporate the standard parts into the resin mold. Processing pattern)
Combine them into a unit and combine processing elements (assembly processing patterns) that indicate the processing contents (processing shape and processing dimensions) required to design the resin mold other than the processing shape elements. It is selected from unit parts (for example, FIGS. 7 to 18) which are unitized in an inseparable state as if they are one attachment part, and are incorporated into the nest 1 on the CAD display. The unit parts selected from the unit parts and incorporated into the nest 1 on the CAD display are changed into units by combining the standard parts with the parts mounting processing pattern when the size is changed or the size does not match, etc. The processing contents required to design the resin molding die other than the processing shape elements, while combining the processing shape elements (component mounting processing patterns) necessary to incorporate the standard parts into the resin molding die to make a unit It is possible only by changing each unit part (for example, each drawing shown in FIGS. 7 to 18) obtained by combining processing elements (assembly processing patterns) indicating (processing shape and processing dimensions). Therefore, there is no need to redesign the standard parts and the parts mounting pattern. Also, on the CAD display, standard parts and unit mounting processing pattern unit parts selected from the unit part data and incorporated, unit parts between component mounting processing patterns, unit parts between assembly processing patterns, standard parts and parts A design change or the like can be performed separately from the mounting processing pattern.

Therefore, according to the present embodiment, even if it becomes necessary to change the outer shape of the nest or to change the standard parts once set, the designer can look at the design drawings displayed on the display. , On the design drawing displayed on the display, the standard parts to be changed and the unit parts where the parts mounting processing patterns are unitized, the unit parts where the parts mounting processing patterns are unitized, and the assembly processing patterns are unitized The designer can change the design freely, accurately, and easily by himself / herself while looking at the design drawings by simply performing the work of replacing the unit unit with the unit unit having the optimum size. In addition, the design change on the display can be easily grasped in actual size by specifying the scale of the display and the scale on the design drawing. According to the present embodiment,
When a standard part is changed after designing once with the nest 1 of the resin mold, the standard part to be changed can be erased from the design drawing on the CAD display and the part mounting processing pattern can be left on the design drawing. Therefore, when redesigning, it is not necessary to design a component mounting pattern again, so that the trouble of the design procedure can be saved, and the nesting of the resin mold can be designed in a short time.

<< Eleventh Embodiment >> An eleventh embodiment of a resin mold unit design system according to the present invention is a resin mold design system for designing a resin mold using CAD. Then, the standard parts (parts used in resin molds that are listed in the catalog and generally available on the market) and the processing shape elements (part mounting processing patterns) required to incorporate the standard parts into the resin molds are described. Combined to form a unit as an integral part as if it were one attachment part, and combined with the processing shape elements (part attachment processing pattern) necessary to incorporate the standard part into the resin mold, one part In addition to being unitized as parts, the processing contents (processing shape and processing dimensions) required for designing resin molds other than processing shape elements are added. Elements (assembly processing patterns) are combined to form a unit as an integral part as if it were a single attachment part, and multiple sizes (diameters) were designed in advance for each and made into a database as unit parts The (unit parts) are stored in advance as one piece of data (unit parts data) in the CAD, and the basic structure 20 of the resin mold is designed using the unit parts data. That is,
In designing the basic structure 20 of the resin mold,
The external shape of the basic structure 20 of the resin mold for accommodating the nest 1 matching the shape of the resin molded product on the CAD display is designed, and the standard parts required for the design of the basic structure 20 of the resin mold are provided. Combine standardized parts pre-stored in the CAD with component mounting processing patterns to form a unit, combine processing shape elements (component mounting processing patterns) necessary to incorporate the standard parts into the resin mold, and unitize them. Whether the processing elements (assembly processing patterns) indicating the processing contents (processing shape and processing dimensions) required in designing the resin mold other than the processing shape elements are combined to determine whether they are one attachment part. From the unit parts (for example, FIGS. 7 to 18) which are unitized in an inseparable state as described above, the basic structure 20 on the CAD display is selected. Go crowded look. Basic structure 20 on CAD display selected from unit parts
When the size of the unit parts incorporated in the unit changes, the size does not match, etc., it is necessary to combine the standard parts with the parts mounting processing pattern to make a unit, and the processing shape elements required to incorporate the standard parts into the resin mold (Part attachment processing patterns) are combined to form a unit, and processing elements (processing shape and processing dimensions) required to design the resin mold other than the processing shape elements (processing shape and processing dimensions) ) Can be changed only for each unit part (for example, each of the drawings shown in FIGS. 7 to 18) which is unitized by combining them, and there is no need to redesign the standard part and the part mounting processing pattern. . Also, C
On the AD display, unit parts of standard parts and component mounting processing patterns selected from unit part data and incorporated, unit parts of component mounting processing patterns, unit parts of assembly processing patterns, standard parts and component mounting processing A design change or the like can be performed separately from the pattern.

Therefore, according to the present embodiment, even if it is necessary to change the outer shape of the basic structure or change the standard parts once set, the designer can view the design drawings displayed on the display. Meanwhile, on the design drawing displayed on the display, the standard parts to be changed and the unit parts in which the component mounting processing patterns are unitized, the unit parts in which the component mounting processing patterns are unitized, and the assembly processing patterns are united The designer can change the design freely, accurately, and easily by himself / herself while looking at the design drawings by simply performing the work of replacing the unitized parts with unit parts having the optimum dimensions. In addition, the design change on the display can be easily grasped in actual size by specifying the scale of the display and the scale on the design drawing. According to the present embodiment,
Once designed with the basic structure 20 of the resin mold,
When changing the standard parts, the standard parts to be changed can be deleted from the design drawing on the CAD display and the part mounting processing pattern can be left on the design drawing. This eliminates the need to design a processing pattern, saves time in the design procedure, and enables the basic structure of the resin mold to be designed in a short time.

Twelfth Embodiment A twelfth embodiment of the resin mold unit design system according to the present invention is a resin mold design system for designing a resin mold using CAD. Then, the standard parts (parts used in resin molds that are listed in the catalog and generally available on the market) and the processing shape elements (part mounting processing patterns) required to incorporate the standard parts into the resin molds are described. Combined to form a unit as an integral part as if it were one attachment part, and combined with the processing shape elements (part attachment processing pattern) necessary to incorporate the standard part into the resin mold, one part In addition to being unitized as parts, the processing contents (processing shape and processing dimensions) required for designing resin molds other than processing shape elements are added. Elements (assembly processing patterns) are combined to form a unit as an integral part as if it were a single attachment part, and multiple sizes (diameters) were designed in advance for each and made into a database as unit parts (Unit parts) is stored in advance as one piece of data (unit parts data) in the CAD, and using this unit parts data, the design of the nest 1 of the resin mold and the basic structure 2 of the resin mold
0 is designed. First, when designing the nest 1 of the resin mold, the outer shape of the nest 1 matching the shape of the resin product molding unit 2 for molding a product by press-fitting a resin on a CAD display as shown in FIG. With regard to the nest 1 whose outer shape is specified, the standard parts required for the design of the nest 1 are unitized by combining the standard parts pre-stored in the CAD with the parts mounting processing pattern, and the standard parts are made of resin mold metal. In addition to combining processing shape elements (component mounting processing patterns) necessary for incorporation into the mold to form a unit, the processing contents (processing shape and processing dimensions) required to design resin molds other than the processing shape elements ), The processing elements (assembly processing patterns) are combined with each other to form a unitary unit as an integral part as if it were one attachment part (for example, , Selected from among FIGS. 7 18), it will be incorporated into nested one on the CAD display. The unit parts selected from the unit parts and incorporated into the nest 1 on the CAD display are changed into units by combining the standard parts with the parts mounting processing pattern when the size is changed or the size does not match, etc. The processing contents required to design the resin molding die other than the processing shape elements, while combining the processing shape elements (component mounting processing patterns) necessary to incorporate the standard parts into the resin molding die to make a unit It is possible only by changing each unit part (for example, each drawing shown in FIGS. 7 to 18) obtained by combining processing elements (assembly processing patterns) indicating (processing shape and processing dimensions). Therefore, there is no need to redesign the standard parts and the parts mounting pattern. Also, on the CAD display, standard parts and unit mounting processing pattern unit parts selected from the unit part data and incorporated, unit parts between component mounting processing patterns, unit parts between assembly processing patterns, standard parts and parts A design change or the like can be performed separately from the mounting processing pattern.

Next, in designing the basic structure 20 of the resin mold, the outer shape of the basic structure 20 of the resin mold for accommodating the nest 1 conforming to the shape of the resin molded product on the CAD display. The standard parts necessary for designing and designing the basic structure 20 of the resin mold are unitized by combining the standard parts stored in advance in the CAD with the part mounting processing pattern, and the standard parts are incorporated into the resin mold. In addition to combining processing shape elements (part attachment processing patterns) necessary for making a unit, the processing contents (processing shape and processing dimensions) required for designing a resin mold other than the processing shape elements are shown. Processing parts (assembly processing patterns) are combined to form a unitary unit as an integral part as if it were one attachment part (for example, 7 to FIG. 18) selected from among, CA
D is incorporated into the basic structure 20 on the display.
The unit parts selected from the unit parts and incorporated into the basic structure 20 on the CAD display are converted into units by combining the standard parts with the parts mounting processing pattern when the size is changed or the size does not match. In addition to the processing components required to incorporate the standard parts into the resin mold, the processing components required to design the resin mold other than the processing components are combined into a unit by combining the processing components (component mounting processing patterns). It is possible only by changing each unit part (for example, each drawing shown in FIGS. 7 to 18) obtained by combining processing elements (assembly processing patterns) indicating contents (processing shape and processing dimensions) into a unit. Therefore, there is no need to redesign the standard parts and the parts mounting pattern. Also, on the CAD display, standard parts and unit mounting processing pattern unit parts selected from the unit part data and incorporated, unit parts between component mounting processing patterns, unit parts between assembly processing patterns, standard parts and parts A design change or the like can be performed separately from the mounting processing pattern.

Therefore, according to the present embodiment, even if it is necessary to change the outer shape of the nest 1 of the resin mold or the basic structure 20 or to change the standard parts that have been set once, the designer can change the shape on the display. While looking at the design drawing displayed on the unit, on the design drawing displayed on the display, a unit part where the standard parts to be changed and the part mounting processing pattern are unitized, and a unit where the component mounting processing patterns are unitized Just by replacing the unit parts in which the parts and assembly processing patterns are unitized with each other to the unit parts of the optimal dimensions, the designer himself can freely and accurately see the design drawings by himself,
Design changes can be made easily. In addition, the design change on the display can be easily grasped in actual size by specifying the scale of the display and the scale on the design drawing. Further, according to the present embodiment, when the standard parts are changed after designing once with the nest 1 and the basic structure 20 of the resin mold, the standard parts to be changed are deleted from the design drawing on the CAD display. Since the component mounting pattern can be left on the design drawing, there is no need to redesign the component mounting pattern when redesigning, saving time in the design procedure and shortening the time required for resin molding. The basic structure of the mold can be designed.

<Thirteenth Embodiment> A thirteenth embodiment of a resin mold unit design system according to the present invention is a resin mold design system for designing a resin mold using CAD. In this way, standard parts (parts used in resin molds that are listed in catalogs and used on the market) are combined with processing shape elements (part attachment processing patterns) required to incorporate these standard parts into resin molds. A single part is formed by combining the processing shape elements (part mounting processing patterns) necessary to incorporate the standard part into the resin mold, as a single unit as if it were a single mounting part. It is not possible to unite as a single attachment part by combining the standard parts, the parts attachment processing pattern, and the assembly processing pattern. Unitized state (e.g., FIG. 1
7) Then, multiple sizes (diameters) are designed in advance and made into a database as unit parts (unit parts)
Is stored in advance as one data (unit part data) in the CAD, and the design of the nest 1 of the resin mold and the design of the basic structure 20 of the resin mold are performed using the unit part data. is there. First,
When designing the nest 1 of the resin mold, CA
As shown in FIG. 6, a nest 1 conforming to the shape of a resin product forming part 2 for press-fitting a resin on the display of FIG.
Of the nest 1 having the specified outer shape, unitizing the standard parts required for the design of the nest 1 by combining the standard parts pre-stored in the CAD with the parts mounting processing pattern, Patterns are combined to form a unit, and standard parts, component attachment processing patterns, and assembly processing patterns are combined to select from unit parts (for example, FIGS. 7 to 18), and displayed on a CAD display. In the nest 1. The unit parts selected from the unit parts and incorporated into the nest 1 on the CAD display are changed into units by combining the standard parts with the parts mounting processing pattern when the size is changed or the size does not match, etc. For each unit part (for example, each of the drawings shown in FIGS. 7 to 18) which is made into a unit by combining the component attachment processing patterns and unitized by combining the standard component, the component attachment processing pattern, and the assembly processing pattern. It is possible only by changing to the standard part, and there is no need to redesign the standard part and the part mounting pattern. In addition, on the CAD display, the standard parts and component mounting processing pattern unit parts selected and incorporated from the unit part data, the unit parts of the component mounting processing patterns, the standard parts and the component mounting processing patterns and the assembly processing pattern The design change or the like can also be performed by separating the unit part, the standard part, the part attachment processing pattern, and the assembly processing pattern.

Next, in designing the basic structure 20 of the resin mold, after designing the insert 1, dimensions and shapes suitable for accommodating the insert 1 are shown on a CAD display in FIGS. Designed as shown in FIG. 23, with respect to the basic structure 20 of the resin mold having the specified outer shape, the standard parts required for the design of the basic structure 20 are stored in the CAD in advance. And unitized by combining the component attachment processing patterns with each other, and unitized by combining the standard parts, the component attachment processing patterns, and the assembly processing patterns (for example, FIGS. 7 to 18). And incorporate it into the basic structure 20 on the CAD display. The unit parts selected from the unit parts and incorporated into the basic structure 20 on the CAD display are changed into units by combining the standard parts with the parts mounting processing pattern when the size is changed or the size does not match. A unit part formed by combining the component attachment processing patterns with each other to form a unit and combining the standard part, the component attachment processing pattern, and the assembly processing pattern into a unit (for example, each drawing shown in FIGS. 7 to 18). It is possible only by changing each time, and there is no need to redesign the standard parts and the parts mounting processing pattern. In addition, on the CAD display, the standard parts and component mounting processing pattern unit parts selected and incorporated from the unit part data, the unit parts of the component mounting processing patterns, the standard parts and the component mounting processing patterns and the assembly processing pattern The design change or the like can also be performed by separating the unit part, the standard part, the part attachment processing pattern, and the assembly processing pattern.

Therefore, according to the present embodiment, even if it is necessary to change the outer shape of the nest 1 of the resin mold or the basic structure 20 or to change the standard parts which have been set once, the designer can change the shape on the display. While looking at the design drawing displayed on the unit, on the design drawing displayed on the display, a unit part where the standard parts to be changed and the part mounting processing pattern are unitized, and a unit where the component mounting processing patterns are unitized By simply replacing the unit parts with the parts and standard parts, the part mounting processing pattern and the assembly processing pattern as a unit, to the unit parts of the optimal dimensions, the designer can freely freely while looking at the design drawings themselves. Design changes can be made accurately and easily. In addition, the design change on the display can be easily grasped in actual size by specifying the scale of the display and the scale on the design drawing. Further, according to the present embodiment, the nest 1 and the basic structure 2 of the resin mold are provided.
If you change the standard parts after designing once with C
Since the standard parts to be changed can be deleted from the design drawing on the AD display and the part mounting pattern can be left on the design drawing, there is no need to design the part mounting processing pattern again when redesigning. It is possible to save the trouble of the completed design procedure and to design the nest of the resin mold and the basic structure in a short time.

Next, each embodiment of a method for manufacturing a resin mold using the resin mold unit design system according to the present invention will be described. << First Embodiment >> A first embodiment of a method of manufacturing a resin mold using a resin mold unit design system according to the present invention uses CAD, and uses standard parts (listed in a catalog). A part that is used in combination with a resin mold that is generally commercially available) and a processing shape element (a part mounting pattern) that is necessary to incorporate the standard part into the resin mold. A unit (unit part) that is made into a unit as an inseparable state, a plurality of sizes (diameters) are designed in advance, and made into a database as unit parts, is stored in advance in CAD as one data (unit part data). In the meantime, using the unit part data, a standard required for designing the resin mold nest 1 and the basic structure 20 of the resin mold is used. By selecting a part and its part mounting processing pattern from the unit part data stored in advance in the CAD and incorporating it into the design drawing of the nest 1 or the basic structure 20 displayed on the display, the resin mold metal The resin mold is manufactured based on the design drawing in which the design of the mold insert 1 and the basic structure 20 of the resin mold is completed.

First, the nest 1 of the resin mold is designed and a design drawing of the nest 1
As shown in FIG. 6, a nest 1 conforming to the shape of a resin product forming part 2 for press-fitting a resin on the display of FIG.
Unit parts data obtained by combining the standard parts required for the design of the nest 1 with the standard parts stored in advance in the CAD and the part mounting processing pattern for the nest 1 with the specified outer shape. (For example,
The optimal unit parts are selected from among FIGS. 7 to 18), and the nest 1 displayed on the CAD display is selected.
And incorporate them into the design drawings. The unit parts selected from this unit part data and incorporated into the nest 1 on the CAD display may need to be changed in size, or may need to be changed because they do not fit. A unit part is newly selected for each unit part data (for example, each of the drawings shown in FIGS. 7 to 18) obtained by combining a standard part with a part attachment processing pattern, and is changed to the newly selected unit part. (Set again on the CAD display), and there is no need to redesign the standard parts and the parts mounting pattern.

On the CAD display, the standard parts and the part mounting processing patterns selected and incorporated from the unit part data are incorporated into the standard parts and the part mounting processing patterns, and the standard parts and the part mounting processing patterns. The design change and the like can be performed separately from the above. In this way, the design of the nest 1 can be completed on the CAD display, and the design drawing completed on this display can be printed by a printer, and the design drawing of the nest 1 can be created on paper. Can be. The design drawing of the completed nest 1 of this design is CA
D can be stored in the memory of D, the design drawing stored in this memory can be read out on the display as needed to make design changes, and the design drawing stored in the memory can be read out on the display It is also possible to print on a paper and print on paper without using a printer.

Next, in designing the basic structure 20 of the resin mold, after designing the insert 1, dimensions and shapes suitable for accommodating the insert 1 are shown on a CAD display in FIGS. Designed as shown in FIG. 23, with respect to the basic structure 20 of the resin mold having the specified outer shape, standard parts required for designing the basic structure 20 of the resin mold are replaced with standard parts previously stored in the CAD. An optimal unit part is selected from unit part data (for example, FIGS. 24 to 37) unitized by combining the component mounting processing patterns, and the basic structure 20 of the resin mold displayed on the CAD display. And incorporate them into the design drawings. If the unit parts incorporated in this basic structure 20 need to be changed in size or need to be changed because they do not fit,
A unit part is newly selected for each unit part data (for example, each of the drawings shown in FIGS. 24 to 37) obtained by combining a standard part with a part mounting pattern.
It is possible only by changing to a newly selected unit part (setting again on the CAD display), and there is no need to redesign the standard part and the part mounting pattern.

On the CAD display, the standard parts and the part mounting processing patterns selected and incorporated from the unit part data are incorporated into the standard parts or the part mounting processing patterns, and the standard parts and the part mounting processing patterns. The design change and the like can be performed by separating them. In this way, the design of the basic structure 20 of the resin mold can be completed on the CAD display, and the design drawing completed on this display is:
It can be printed by a printer, and a design drawing of the basic structure 20 can be created on paper. The design drawing of the completed basic structure 20 of this design can be stored in the memory of the CAD, and the design drawing stored in this memory can be read out on a display as necessary to make design changes. Alternatively, the design drawing stored in the memory can be printed by a printer without being read out on a display and drawn on paper.

Therefore, according to the present embodiment, even if it is necessary to change the outer shape of the nest 1 of the resin mold or the basic structure 20 or to change the standard parts that have been set once, the designer can display on the display. While looking at the design drawing displayed in the above, on the design drawing displayed on the display, the standard part to be changed and the part mounting processing pattern Just by selecting a new unit part with the optimal dimensions from among them and changing it to the newly selected unit part (resetting on the CAD display), the designer himself looks at the design drawing by himself. However, the design can be freely, accurately, and easily changed. Moreover, the design change on the display can be easily grasped in actual size after the change on the display by specifying the relationship between the display scale and the scale on the design drawing in advance. The resin mold can be easily manufactured based on the design drawing thus made. Further, according to the present embodiment, after selecting a unit part which is unitized by combining the standard part and the part attachment processing pattern and designing it by incorporating it into the nest 1 and the basic structure 20 of the resin mold, the standard part Even if the size needs to be changed or only the standard parts need to be changed because the sizes do not match, just delete the standard parts to be changed from the design drawings on the CAD display. Since the mounting processing pattern can be left on the design drawing, there is no need to redesign the component mounting processing pattern when redesigning, saving the labor of the design procedure and shortening the resin mold metal in a short time. The nesting of the mold and the design of the basic structure can be performed, and the resin mold can be easily manufactured based on the design drawing thus made.

<< Second Embodiment >> A second embodiment of a method of manufacturing a resin mold using the resin mold unit design system according to the present invention employs CAD and standard parts (catalogs). Parts used in resin molds that are generally available on the market and are used to combine these standard parts into processing mold elements (part mounting processing patterns) required to incorporate them into resin molds. As well as unitizing it into an integral and inseparable state, and combining the processing shape elements (part attachment processing patterns) necessary to incorporate the standard parts into the resin mold to make one unit, A plurality of sizes (diameters) are designed in advance for each of them, and a database (unit parts) is created as a unit part. Standard parts necessary for the design of the nest 1 of the resin mold and the basic structure 20 of the resin mold and the mounting of the parts are stored in advance in the CAD as data (unit part data) and using the unit part data. By selecting a processing pattern from the unit part data stored in advance in the CAD and incorporating it into the nest 1 or the design drawing of the basic structure 20 displayed on the display, the nest 1 of the resin mold and The resin mold is manufactured based on the design drawing in which the design of the basic structure 20 of the resin mold is completed.

First, the nest 1 of the resin mold is designed and a design drawing of the nest 1
As shown in FIG. 6, a nest 1 conforming to the shape of a resin product forming part 2 for press-fitting a resin on the display of FIG.
For the nest 1 having the specified outer shape, standard parts required for designing the nest 1 are stored in advance in the CAD (for example, FIGS. 7 to 18). Optimum unit parts from the unit part data unitized by combining the processing shape elements (component mounting processing patterns) necessary to incorporate the unit parts data and standard parts into the resin molds It is selected and incorporated into the design drawing of the nest 1 displayed on the CAD display. The unit parts selected from this unit part data and incorporated into the nest 1 on the CAD display may need to be changed in size, or may need to be changed because the size does not match. , Unit parts data that is unitized by combining standard parts with part mounting processing patterns, and unit parts data that is unitized by combining processing shape elements (part mounting processing patterns) necessary to incorporate standard parts into resin molds A unit part is newly selected from the inside (for example, each of the drawings shown in FIGS. 7 to 18), and the currently installed unit part is changed to the newly selected unit part (set on the CAD display). Correction) is possible only, and there is no need to redesign the standard parts and the parts mounting processing pattern.

On the CAD display, the standard parts selected and incorporated from the unit part data and the component parts of the part mounting processing pattern and the processing shape elements (part mounting parts) necessary for incorporating the standard parts into the resin mold. With respect to the unit parts formed by combining the processing patterns, the standard parts and the component mounting processing patterns can be separated and the design can be changed separately, such as only the standard parts or the component mounting processing patterns. In this way, the design of the nest 1 can be completed on the CAD display, and the design drawing completed on this display can be printed by a printer, and the design drawing of the nest 1 can be created on paper. Can be. The design drawing of the completed nest 1 of this design can be stored in the memory of the CAD, and the design drawing stored in this memory can be read out on the display as necessary to make design changes, The design drawing stored in the memory can be printed by a printer without being read out on a display and drawn on paper.

Next, in designing the basic structure 20 of the resin mold, after designing the nest 1, a dimensional shape suitable for accommodating the nest 1 is shown on a CAD display in FIGS. Designed as shown in FIG. 23, for the basic structure 20 of the resin mold having the specified outer shape, standard parts required for designing the basic structure 20 of the resin mold are previously stored in the CAD (for example, FIG.
Fig. 37) Unit parts data unitized by combining a standard part with a part mounting processing pattern and a unit formed by combining processing shape elements (part mounting processing patterns) necessary to incorporate a standard part into a resin mold. An optimum unit part is selected from the part data, and is incorporated into the design drawing of the basic structure 20 of the resin mold displayed on the CAD display. When the size of the unit parts incorporated in the basic structure 20 needs to be changed, or when the size does not match, the size of the unit parts needs to be changed. Processing shape elements (part mounting processing pattern) required to incorporate unit part data and standard parts into resin molds
A unit part is newly selected from unit part data (for example, each of the drawings shown in FIGS. 24 to 37) which are unitized by combining each other, and a newly selected unit part is selected from currently incorporated unit parts. (Reset on the CAD display), and there is no need to redesign the standard parts and the part mounting pattern.

On the CAD display, only standard parts or part mounting processing patterns are used for the standard parts and the part mounting processing patterns selected from the unit part data and incorporated. In addition, the design change and the like can be performed by separating the standard part and the part attachment processing pattern. Thus, the design of the basic structure 20 of the resin mold can be completed on the CAD display, and the design drawing completed on this display can be printed by a printer. Can be created on paper. The design drawing of the completed basic structure 20 of this design can be stored in the memory of the CAD, and the design drawing stored in this memory can be read out on a display as necessary to make design changes. Alternatively, the design drawing stored in the memory can be printed by a printer without being read out on a display and drawn on paper.

Therefore, according to the present embodiment, even if it becomes necessary to change the outer shape of the nest 1 of the resin mold or the basic structure 20 or to change the standard parts that have been set once, the designer can display on the display. On the design drawing displayed on the display, while looking at the design drawing displayed on the display, the unit parts data obtained by combining the standard part and the part mounting processing pattern to be changed into a unit by combining the standard part and the part mounting processing pattern and Newly select unit parts with optimal dimensions from unit part data that has been unitized by combining parts mounting processing patterns, and change to the newly selected unit parts (operation to set again on the CAD display) The designer can make design changes freely, accurately and easily while looking at the design drawings by himself / herself. Door can be. Moreover, the design change on the display can be easily grasped in actual size after the change on the display by specifying the relationship between the display scale and the scale on the design drawing in advance. The resin mold can be easily manufactured based on the design drawing thus made. Further, according to the present embodiment, after selecting a unit part which is unitized by combining the standard part and the part attachment processing pattern and designing it by incorporating it into the nest 1 and the basic structure 20 of the resin mold, the standard part Even if the size needs to be changed or only the standard parts need to be changed because the sizes do not match, just delete the standard parts to be changed from the design drawings on the CAD display. Since the mounting processing pattern can be left on the design drawing, there is no need to redesign the component mounting processing pattern when redesigning, saving the labor of the design procedure and shortening the resin mold metal in a short time. The nesting of the mold and the design of the basic structure can be performed, and the resin mold can be easily manufactured based on the design drawing thus made.

<< Third Embodiment >> A third embodiment of a method of manufacturing a resin mold using the resin mold unit design system according to the present invention employs CAD and standard parts (catalogs). Parts used in resin molds that are generally available on the market and are used to combine these standard parts into processing mold elements (part mounting processing patterns) required to incorporate them into resin molds. And processing elements (processing shape and processing dimensions) required to design a resin mold other than the processing shape elements (processing shape and processing dimensions). 1)
One unit (unit part) is created by unitizing the unit into a single inseparable state as if it were two attachment parts, designing a plurality of sizes (diameters) for each unit in advance, and making each unit part a database (unit part). Data) are stored in advance in the CAD, and using this unit part data, the standard parts required for designing the nest 1 of the resin mold and the basic structure 20 of the resin mold and the part mounting processing pattern are described. CA
D is selected from the unit part data stored in advance in D and is incorporated in the design drawing of the nest 1 or the basic structure 20 displayed on the display, and the nest 1 of the resin mold and the resin mold A resin mold is manufactured based on a design drawing in which the design of the basic structure 20 is completed.

First, the nest 1 of the resin mold is designed and a design drawing of the nest 1 is created by CA
As shown in FIG. 6, a nest 1 conforming to the shape of a resin product forming part 2 for press-fitting a resin on the display of FIG.
And the standard parts required for the design of the nest 1 are stored in advance in the CAD (for example, FIGS. 7 to 18). Combining processing elements (assembly processing patterns) that indicate the processing contents (processing shape and processing dimensions) required in designing the resin mold other than the processing shape elements and the unit part data unitized by combining The optimum unit parts are selected from the unitized unit part data, and are incorporated into the design drawing of the nest 1 displayed on the CAD display. Select from this unit parts data, CA
If the unit parts incorporated in the nest 1 on the display of D need to be changed in size or need to be changed because they do not fit in size, combine the standard parts with the parts mounting processing pattern. A unit part is newly selected from unitized unit part data and unitized unit parts (for example, each of the drawings shown in FIGS. 7 to 18) by combining the assembling processing patterns. It is possible only by changing from the existing unit parts to the newly selected unit parts (resetting on the CAD display), and there is no need to redesign the standard parts and the parts mounting processing pattern.

On the CAD display, only the standard part or the part mounting processing pattern is selected for the standard part and the part mounting processing pattern unit parts selected and incorporated from the unit part data and the unit processing pattern. Alternatively, a standard part, a component mounting pattern, and an assembling pattern can be separated and design changes can be separately made, such as only an assembling pattern. In this way, the design of the nest 1 can be completed on the CAD display, and the design drawing completed on this display can be printed by a printer, and the design drawing of the nest 1 can be created on paper. Can be. The design drawing of the completed nest 1 of this design is CAD
The design drawings stored in this memory can be read out on the display as necessary to make design changes, and the design drawings stored in the memory can be read out on the display. Instead, they can be printed on a printer and plotted on paper.

Next, in designing the basic structure 20 of the resin mold, after designing the insert 1, dimensions and shapes suitable for storing the insert 1 are shown on a CAD display in FIGS. Designed as shown in FIG. 23, for the basic structure 20 of the resin mold having the specified outer shape, standard parts required for designing the basic structure 20 of the resin mold are previously stored in the CAD (for example, FIG.
Figure 37) Select the optimal unit parts from the unit part data that is unitized by combining the component mounting processing pattern with the standard parts and the unit part data that is unitized by combining the assembly processing patterns, and display it on the CAD display. It is incorporated into the design drawing of the basic structure 20 of the resin mold shown. When the size of the unit parts incorporated in the basic structure 20 needs to be changed, or when the size does not match, the size of the unit parts needs to be changed. A unit part is newly selected from the unit part data and the unit part data obtained by combining the assembling processing patterns to form a unit (for example, each of the drawings shown in FIGS. 24 to 37), and the currently installed unit is selected. It is possible only by changing from the part to the newly selected unit part (resetting on the CAD display), standard parts, part mounting processing patterns,
There is no need to redesign the assembly processing pattern.

On the CAD display, only the standard part or the part mounting processing pattern is selected for the standard part selected from the unit part data and incorporated and the unit parts of the part mounting processing pattern and the unit parts of the assembly processing patterns. Alternatively, design change or the like can be performed by separating only the assembly processing pattern from the standard part, the component mounting processing pattern, and the assembly processing pattern. Thus, the design of the basic structure 20 of the resin mold can be completed on the CAD display, and the design drawing completed on this display can be printed by a printer. Can be created on paper. The design drawing of the completed basic structure 20 of this design can be stored in the memory of the CAD, and the design drawing stored in this memory can be read out on a display as necessary to make design changes. Alternatively, the design drawing stored in the memory can be printed by a printer without being read out on a display and drawn on paper.

Therefore, according to the present embodiment, even if it is necessary to change the outer shape of the nest 1 of the resin mold or the basic structure 20 or to change the standard parts once set, the designer can change the shape on the display. While changing the design drawing displayed on the display, the standardized parts to be changed, the part mounting processing pattern and the assembly processing pattern are combined into a unit by combining the standard part and the part mounting processing pattern on the design drawing displayed on the display. Newly selected unit parts with the optimal dimensions are selected from the unit part data that has been assembled and the unit part data that is assembled by combining the assembly processing patterns, and the currently installed unit parts are changed to the newly selected unit parts The designer can look at the design drawings himself by simply performing It is possible to perform freely and accurately, and easily design changes while watching. Moreover, the design change on the display can be easily grasped in actual size after the change on the display by specifying the relationship between the display scale and the scale on the design drawing in advance. The resin mold can be easily manufactured based on the design drawing thus made.

Further, according to the present embodiment, after selecting a unit part which is made into a unit by combining a standard part and a part mounting processing pattern, and incorporating the unit part into the nest 1 of the resin mold and the basic structure 20, the design is performed. Even if it is necessary to change the size of standard parts, or if it is necessary to change only standard parts because the size does not match, CA
Since the component mounting processing pattern can be left on the design drawing only by erasing only the standard parts to be changed from the design drawing on the display of D, when the design is redesigned, the component mounting processing pattern is designed again. This eliminates the need for design procedures, allows for the nesting of the resin mold and the design of the basic structure in a short time, and allows the resin mold to be easily based on the design drawing made in this way. Can be manufactured.

<< Fourth Embodiment >> A fourth embodiment of a method for manufacturing a resin mold using the resin mold unit design system according to the present invention employs CAD and standard parts (catalogs). The parts used in resin molds that are generally marketed and used in the market are combined with the processing shape elements (part mounting processing patterns) required to incorporate this standard part into the resin mold. As a unit, it is integrated into an inseparable state, and the processing shape elements (component mounting processing patterns) required to incorporate the standard parts into the resin mold are combined into one unit, and Processing elements (assembly processing patterns) indicating the processing contents (processing shape and processing dimensions) required for designing the resin mold die other than the processing shape elements One unit is a unit that is united into an inseparable state as if it were a single attachment part, and a plurality of sizes (diameters) are designed in advance for each unit and each unit part is made into a database (unit part). Standard parts necessary for designing the resin mold nest 1 and the basic structure 20 of the resin mold and the component mounting processing are stored in advance in the CAD as (unit part data) and using the unit part data. The pattern is selected from the unit part data stored in advance in the CAD, and is incorporated into the nest 1 or the design drawing of the basic structure 20 displayed on the display, so that the nest 1 of the resin mold and the resin A resin mold based on the design drawing that completes the design of the basic structure 20 of the mold It is intended to produce.

First, the nest 1 of the resin mold is designed and a design drawing of the nest 1 is prepared in accordance with CA.
As shown in FIG. 6, a nest 1 conforming to the shape of a resin product forming part 2 for press-fitting a resin on the display of FIG.
For the nest 1 having the specified outer shape, standard parts required for designing the nest 1 are stored in advance in the CAD (for example, FIGS. 7 to 18). The unit part data and the processing shape which are unitized into one part by combining the processing shape elements (part mounting processing patterns) necessary to incorporate the standard parts into the resin molds Optimum unit from unit part data obtained by combining processing elements (assembly processing patterns) indicating processing contents (processing shape and processing dimensions) required for designing resin molds other than elements The parts are selected and incorporated into the design drawing of the nest 1 displayed on the CAD display. The unit parts selected from this unit part data and incorporated into the nest 1 on the CAD display may need to be changed in size, or may need to be changed because the size does not match. ,
Unit part data that is unitized by combining component mounting processing patterns with standard parts, unit part data that is unitized by combining component mounting processing patterns, and unit parts that are unitized by combining assembly processing patterns (for example, A unit part is newly selected from each of the figures shown in FIGS. 7 to 18), and the currently installed unit part is changed to the newly selected unit part (reset on the CAD display). It is possible, and there is no need to redesign the standard parts and part mounting processing patterns.

On the CAD display, the standard parts selected from the unit part data and incorporated, the unit parts of the component mounting processing patterns, the unit parts of the component mounting processing patterns, and the unit parts of the assembly processing patterns are displayed. Separate standard parts, component mounting processing patterns, and assembly processing patterns and make design changes separately, such as only standard parts, component mounting processing patterns, component mounting processing patterns, or assembly processing patterns only. Can also. In this way, the design of the nest 1 can be completed on the CAD display, and the design drawing completed on this display is:
Printing can be performed by a printer, and a design drawing of the nest 1 can be created on paper. The design of the completed nest 1 of this design can be stored in the CAD memory, and the design stored in this memory can be
The design can be read out on the display to make a design change, and the design drawing stored in the memory can be printed by a printer and drawn on paper without being read out on the display.

Next, in designing the basic structure 20 of the resin mold, after designing the nest 1, dimensions and shapes suitable for accommodating the nest 1 are shown on a CAD display in FIGS. Designed as shown in FIG. 23, for the basic structure 20 of the resin mold having the specified outer shape, standard parts required for designing the basic structure 20 of the resin mold are previously stored in the CAD (for example, FIG.
Fig. 37) Unit part data that is unitized by combining component attachment processing patterns with standard parts, unit part data that is unitized by combining component attachment processing patterns, and unit part data that is unitized by combining assembly processing patterns The optimum unit parts are selected from the inside and incorporated into the design drawing of the basic structure 20 of the resin mold displayed on the CAD display. When the size of the unit parts incorporated in the basic structure 20 needs to be changed, or when the size does not match, the size of the unit parts needs to be changed. In the unit part data obtained by combining the unit part data and the component attachment processing patterns and the unit part data obtained by combining the assembly processing patterns into units (for example, each drawing shown in FIGS. 24 to 37) It is possible only by selecting new unit parts from, and changing the currently installed unit parts to the newly selected unit parts (re-setting on the CAD display), standard parts, part mounting processing patterns,
There is no need to redesign the assembly processing pattern.

On the CAD display, the standard parts selected from the unit part data and incorporated, the unit parts of the part mounting processing patterns, the unit parts of the part mounting processing patterns, and the unit parts of the assembling processing patterns are displayed. The design change or the like can be performed by separating the standard part, the component mounting processing pattern, and the assembling processing pattern only from the standard part, the component mounting processing pattern, or only the assembling processing pattern. Thus, the design of the basic structure 20 of the resin mold can be completed on the CAD display, and the design drawing completed on this display can be printed by a printer. Can be created on paper. The design drawing of the completed basic structure 20 of this design can be stored in the memory of the CAD, and the design drawing stored in this memory can be read out on a display as necessary to make design changes. Alternatively, the design drawing stored in the memory can be printed by a printer without being read out on a display and drawn on paper.

Therefore, according to the present embodiment, even if it is necessary to change the outer shape of the nest 1 of the resin mold or the basic structure 20 or to change the standard parts that have been set once, the designer can display on the display. While looking at the design drawing displayed in the above, on the design drawing displayed on the display, change the standard part, the part mounting processing pattern, the part mounting processing pattern and the assembling processing pattern into the standard part and the part mounting processing pattern. New unit parts with optimal dimensions from unit part data that is unitized by combining and unit part data that is unitized by combining component mounting processing patterns and unit part data that is united by combining assembly processing patterns Unit newly selected from the currently installed unit parts Himself a designer just do the work to change over Tsu (work to re-set on the display of CAD) can be carried out freely and accurately, and easily design changes while looking in the eyes of the design drawings. Moreover, the design change on the display can be easily grasped in actual size after the change on the display by specifying the relationship between the display scale and the scale on the design drawing in advance. The resin mold can be easily manufactured based on the design drawing thus made.

Further, according to the present embodiment, after selecting a unit part unitized by combining a standard part and a part mounting processing pattern and incorporating the unit part into the nest 1 of the resin mold and the basic structure 20, Even if it is necessary to change the size of the standard parts or if it is necessary to change only the standard parts because the size does not match, CA
Since the component mounting processing pattern can be left on the design drawing only by erasing only the standard parts to be changed from the design drawing on the display of D, when the design is redesigned, the component mounting processing pattern is designed again. This eliminates the need for design procedures, allows for the nesting of the resin mold and the design of the basic structure in a short time, and allows the resin mold to be easily based on the design drawing made in this way. Can be manufactured.

Next, each embodiment of the unit design system for a die casting die according to the present invention will be described. << First Embodiment >> A first embodiment of a unit design system for a die casting die according to the present invention is a die casting die design system for designing a die casting die using CAD. Parts (parts used in die-casting dies that are listed in the catalog and are generally marketed)
By combining this standard part with a processing shape element (part mounting processing pattern) necessary for incorporating this standard part into a die casting die, it is unitized into an integral and inseparable state as if it were one mounting part. The data (unit parts) that was designed in advance as a unit part with the size (diameter) designed in advance is one data (unit part data)
The die part 1 of the die-casting die and the basic structure 20 of the die-casting die are designed using the unit part data. First, in designing the nest 1 of the die for die casting,
As shown in FIG. 6, the outer shape of the nest 1 is designed on the display of the CAD to match the shape of the product forming part 2 of the die casting for press-fitting the molten metal to form the product. (1) A standard part required for design is selected from unit parts (for example, FIGS. 7 to 18) obtained by combining a standard part stored in advance in the CAD with a part mounting processing pattern and unitized, and a CAD display is selected. It is incorporated in the nest 1 above. The unit parts selected from the unit parts and incorporated into the nest 1 on the CAD display were unitized by combining the standard parts with the parts mounting processing pattern when the size was changed or the size did not match. It is possible only by changing for each unit part (for example, each drawing shown in FIGS. 7 to 18), and there is no need to redesign the standard parts and the parts mounting processing pattern. In addition, on the CAD display, the standard parts and the unit mounting processing patterns selected and incorporated from the unit part data can be changed in design by separating the standard parts and the component mounting processing patterns.

Next, in designing the basic structure 20 of the die-casting die, after designing the insert 1, dimensions and shapes suitable for accommodating the insert 1 are shown on a CAD display in FIGS. Designed as shown in FIG. 23, for the basic structure 20 of the die-casting die having the specified outer shape, the standard parts required for the design of the basic structure 20 of the die-casting die are replaced with standard parts previously stored in the CAD. The parts are selected from unit parts (for example, FIGS. 24 to 37) unitized by combining the component attachment processing patterns, and are incorporated into the basic structure 20 of the die casting die on the CAD display. Select from unit parts, CA
The unit parts incorporated in the basic structure 20 of the die-casting mold shown on the display of D are unitized by combining a standard part with a part mounting processing pattern when the size is changed or the size does not match. It is possible only by changing each unit part (for example, each of the drawings shown in FIGS. 24 to 37), and there is no need to redesign the standard part and the part mounting pattern. In addition, on the CAD display, the standard parts and the unit mounting processing patterns selected and incorporated from the unit part data can be changed in design by separating the standard parts and the component mounting processing patterns.

Therefore, according to the present embodiment, even if it is necessary to change the outer shape of the die insert 1 and the basic structure 20 of the die-casting die or to change the standard parts that have been set once, the designer can display on the display. While looking at the design drawing displayed in the above, on the design drawing displayed on the display, perform the work of replacing the unit parts in which the standard parts to be changed and the component mounting processing pattern are unitized with the unit parts of the optimal dimensions The designer alone can freely, accurately, and easily change the design while looking at the design drawing by himself. In addition, the design change on the display can be easily grasped in actual size by specifying the scale of the display and the scale on the design drawing. Further, according to the present embodiment, when a standard part is changed after the die part is once designed with the die casting die 1 and the basic structure 20, the standard part to be changed is deleted from the design drawing on the CAD display. Since the component mounting pattern can be left on the design drawing, there is no need to redesign the component mounting pattern when redesigning. Mold nesting and basic structure design can be performed.

<< Second Embodiment >> A second embodiment of a die-casting die unit designing system according to the present invention is a die-casting die designing system for designing a die-casting die using CAD. Then, the standard parts (parts used in die-casting dies that are listed in the catalog and used in the market) and the processing shape elements (part-mounting processing patterns) required to incorporate the standard parts into the die-casting dies are described. Combine them into one unit as if they were one attachment part, and combine the processing shape elements (part attachment processing patterns) necessary to incorporate the standard parts into the die casting die. One unit, unitized, multiple sizes (diameters) are designed in advance for each unit, and a database is created as a unit part (unit Over Tsu), and one data (unit part data) is stored in advance in CAD as the basic structure 2 of the design and the die casting mold for nesting one die casting mold by using the unit part data
0 is designed. First, in designing the die insert 1 of the die casting die, as shown in FIG. 6, the die insert 1 conforming to the shape of the product forming part 2 of the die casting is formed by pressing a molten metal on a CAD display to form a product. The outer shape is designed, and for the nest 1 having the specified outer shape, standard parts required for the design of the nest 1 are unitized by combining the standard parts stored in the CAD in advance with the component mounting processing patterns and the standard parts. Is selected from unit parts (for example, FIGS. 7 to 18) which are unitized by combining processing shape elements (part attachment processing patterns) necessary for assembling into the die for die casting, and nesting on the CAD display. Incorporate in 1. The unit parts selected from the unit parts and incorporated into the nest 1 on the CAD display are unitized by combining a standard part with a part mounting processing pattern when the size is changed or the size does not match. At the same time, for each unit part (for example, each of the drawings shown in FIGS. 7 to 18) obtained by combining processing shape elements (part attachment processing patterns) necessary for incorporating a standard part into a die casting mold. It is possible only by changing, and it is not necessary to redesign the standard parts and the parts mounting processing pattern. Also, C
On the AD display, the standard parts selected from the unit part data and incorporated, the unit parts of the part mounting processing pattern, the unit parts of the part mounting processing patterns, the standard parts and the part mounting processing patterns are separated, and design changes etc. Can also be performed.

Next, in designing the basic structure 20 of the die-casting die, after designing the insert 1, dimensions and shapes suitable for accommodating the insert 1 are shown on a CAD display in FIGS. Designed as shown in FIG. 23, for the basic structure 20 of the die-casting die having the specified outer shape, the standard parts required for the design of the basic structure 20 are set to the standard parts stored in advance in the CAD. From the unit parts (for example, FIGS. 7 to 18) which are unitized by combining processing shape elements (part attachment processing patterns) necessary for incorporating the standard parts into the die-casting mold while combining them into a unit. It is selected and incorporated into the basic structure 20 on the CAD display. The unit parts selected from the unit parts and incorporated into the basic structure 20 on the CAD display are changed into units by combining the standard parts with the parts mounting processing pattern when the size changes or the size does not match. Along with
The unit is changed for each unit part (for example, each drawing shown in FIGS. 7 to 18) obtained by combining processing shape elements (part attachment processing patterns) necessary for incorporating a standard part into a die casting mold. It is only possible, and there is no need to redesign the standard parts and the parts mounting pattern. In addition, on the CAD display, the standard parts selected from the unit part data and incorporated, the unit parts of the part mounting processing pattern, the unit parts of the part mounting processing patterns, the standard parts and the part mounting processing pattern are designed separately. Changes can also be made.

Therefore, according to the present embodiment, even if it becomes necessary to change the outer shape of the die insert 1 and the basic structure 20 of the die-casting die or to change the standard parts once set, the designer can change the shape on the display. While looking at the design drawing displayed in the above, on the design drawing displayed on the display, the standard parts to be changed and the unit parts in which the component mounting processing patterns are unitized and the unit in which the component mounting processing patterns are unitized with each other By simply replacing parts with unit parts having the optimal dimensions, the designer can freely, accurately, and easily change the design while looking at the design drawings. In addition, the design change on the display can be easily grasped in actual size by specifying the scale of the display and the scale on the design drawing. Further, according to the present embodiment, when a standard part is changed after the die part is once designed with the die casting die 1 and the basic structure 20, the standard part to be changed is deleted from the design drawing on the CAD display. Since the component mounting pattern can be left on the design drawing, there is no need to redesign the component mounting pattern when redesigning. Mold nesting and basic structure design can be performed.

<< Third Embodiment >> A third embodiment of a die casting die unit designing system according to the present invention is a die casting die designing system for designing a die casting die using CAD. The standard parts (parts used in die-casting dies that are listed in the catalog and used on the market) and processing elements required to incorporate these standard parts into die-casting dies (part attachment processing patterns)
To form a unit as an integral part as if it were one attachment part, and the processing contents (processing shape and processing dimensions) required to design the die casting die other than the processing shape element. ) Are combined into one unit as if they were one attachment part by combining processing elements (assembly processing patterns), and a plurality of sizes (diameters) are designed in advance for each and a database is created as a part. The converted parts (unit parts) are stored in advance as one piece of data (unit part data) in the CAD, and the design of the die 1 for the die casting die and the basic structure of the die casting die are made using the unit part data. 20 designs. First, in designing the die insert 1 of the die casting die, as shown in FIG. 6, the die insert 1 conforming to the shape of the product forming part 2 of the die casting is formed by press-fitting a molten metal on a CAD display as shown in FIG. The outer shape is designed, and for the nest 1 specified for this outer shape,
The standard parts required for the design of the nest 1 are unitized by combining the standard parts stored in advance in the CAD with the part mounting processing patterns, and the standard parts required for the die casting die other than the processing shape elements are required. Unit parts (for example,
7 to 18), and incorporated into the nest 1 on the CAD display. The unit parts selected from the unit parts and incorporated into the nest 1 on the CAD display are unitized by combining a standard part with a part mounting processing pattern when the size is changed or the size does not match. At the same time, unit parts (for example, unit parts) that combine processing elements (assembly processing patterns) indicating the processing contents (processing shape and processing dimensions) required to design the die casting die other than the processing shape elements It is possible only by changing each of the drawings shown in FIGS. 7 to 18), and there is no need to redesign the standard parts and the parts mounting pattern. In addition, on the CAD display, the standard parts selected from the unit part data and incorporated, the unit parts of the part mounting processing pattern, the unit parts of the assembly processing patterns, the standard parts and the part mounting processing pattern are designed separately. Changes can also be made.

Next, in designing the basic structure 20 of the die casting mold, the outer shape of the basic structure 20 of the die casting mold accommodating the nest 1 conforming to the shape of the die cast molded product on a CAD display. The standard parts required for designing and designing the basic structure 20 of this die-casting die are C
In addition to combining standard parts pre-stored in the AD with component mounting processing patterns to form a unit, the processing contents (processing shape and processing dimensions) required in designing die casting dies other than processing shape elements are shown. Processing elements (assembly processing patterns) are combined and unitized to select from unit parts (for example, FIGS. 7 to 18), and incorporate them into the basic structure 20 on the CAD display. The unit parts selected from the unit parts and incorporated into the basic structure 20 on the CAD display are changed into units by combining the standard parts with the parts mounting processing pattern when the size changes or the size does not match. In addition, unit parts (for example, united parts) that combine processing elements (assembly processing patterns) indicating the processing contents (processing shape and processing dimensions) required in designing the die casting die other than the processing shape elements , FIGS. 7 to 18)
It is possible only by changing each time, and there is no need to redesign the standard parts and the parts mounting processing pattern. Also, CAD
On the display of, the standard parts selected from the unit part data and incorporated, the unit parts of the part mounting processing pattern, the unit parts of the assembly processing pattern,
The design change or the like can be performed by separating the standard part and the part mounting pattern.

Therefore, according to the present embodiment, even if it is necessary to change the outer shape of the die insert 1 and the basic structure 20 of the die-casting mold or to change the standard parts once set, the designer can use the display on the display. While looking at the design drawing displayed in the above, on the design drawing displayed on the display, the standard parts to be changed and the unit parts in which the component mounting processing patterns are unitized and the unit in which the component mounting processing patterns are unitized with each other By simply replacing parts with unit parts having the optimal dimensions, the designer can freely, accurately, and easily change the design while looking at the design drawings. In addition, the design change on the display can be easily grasped in actual size by specifying the scale of the display and the scale on the design drawing. Further, according to the present embodiment, when a standard part is changed after the die part is once designed with the die casting die 1 and the basic structure 20, the standard part to be changed is deleted from the design drawing on the CAD display. Since the component mounting pattern can be left on the design drawing, there is no need to redesign the component mounting pattern when redesigning. Mold nesting and basic structure design can be performed.

<< Fourth Embodiment >> A fourth embodiment of the die-casting die unit designing system according to the present invention is a die-casting die designing system for designing a die-casting die using CAD. The standard parts (parts used in die-casting dies that are listed in the catalog and used on the market) and processing elements required to incorporate these standard parts into die-casting dies (part attachment processing patterns)
Combine with the above to form a unit as an integral part as if it were one attachment part, and combine the processing shape elements (part attachment processing patterns) necessary to incorporate the standard part into the die casting die. In addition to being unitized as one part, the standard parts, the part mounting processing pattern, and the assembling processing pattern are combined to form an integral part as if it were one mounting part (for example, FIG. 17).
Then, multiple sizes (diameters) are designed in advance and made into a database as unit parts (unit parts).
CA as one data (unit part data)
D, and the design of the die insert die 1 and the basic structure 20 of the die casting mold are performed using the unit part data. First, in designing the die insert 1 of the die casting die, as shown in FIG. 6, the die insert 1 conforming to the shape of the product forming part 2 of the die casting is formed by pressing a molten metal on a CAD display to form a product. The outer shape is designed, and for the nest 1 with the specified outer shape, the standard parts required for the design of the nest 1 are C
A unit is formed by combining the component mounting processing pattern with the standard part stored in advance in the AD, and the component mounting processing pattern is combined into a unit, and the standard component, the component mounting processing pattern, and the assembly processing pattern are combined. It is selected from the unitized parts (for example, FIGS. 7 to 18) and is incorporated into the nest 1 on the CAD display. Select from unit parts and CAD
If the unit parts incorporated in the nest 1 on the display of the size change, the size does not fit, etc.,
Unit parts by combining component attachment processing patterns with standard parts, and unitizing by combining component attachment processing patterns, and unit parts that are unitized by combining standard parts, component attachment processing patterns, and assembly processing patterns (for example, It is possible only by changing each of the drawings shown in FIGS. 7 to 18), and there is no need to redesign the standard parts and the parts mounting processing patterns. In addition, on the CAD display, the standard parts selected from the unit part data and incorporated, and the unit parts of the part attachment processing pattern,
It is also possible to perform design changes etc. by separating the unit parts between the part mounting processing patterns, the unit parts of the standard parts, the part mounting processing patterns and the assembly processing patterns, and the standard parts, the part mounting processing patterns and the assembly processing patterns. .

Next, in designing the basic structure 20 of the die for die-casting, after designing the insert 1, dimensions and shapes suitable for storing the insert 1 are shown on a CAD display in FIGS. For the basic structure 20 of the die-casting die which is designed as shown in FIG. 23 and whose outer shape is specified, the standard parts required for the design of the basic structure 20 are stored in the CAD in advance. And unitized by combining the component attachment processing patterns with each other, and unitized by combining the standard parts, the component attachment processing patterns, and the assembly processing patterns (for example, FIGS. 7 to 18). And incorporate it into the basic structure 20 on the CAD display. The unit parts selected from the unit parts and incorporated into the basic structure 20 on the CAD display are changed into units by combining the standard parts with the parts mounting processing pattern when the size is changed or the size does not match. A unit part formed by combining the component attachment processing patterns with each other to form a unit and combining the standard part, the component attachment processing pattern, and the assembly processing pattern into a unit (for example, each drawing shown in FIGS. 7 to 18). It is possible only by changing each time, and there is no need to redesign the standard parts and the parts mounting processing pattern. In addition, on the CAD display, the standard parts and component mounting processing pattern unit parts selected and incorporated from the unit part data, the unit parts of the component mounting processing patterns, the standard parts and the component mounting processing patterns and the assembly processing pattern The design change or the like can also be performed by separating the unit part, the standard part, the part attachment processing pattern, and the assembly processing pattern.

Therefore, according to the present embodiment, even if it is necessary to change the external shape of the die insert 1 and the basic structure 20 of the die-casting die or to change the standard parts that have been set once, the designer can display on the display. While looking at the design drawing displayed on the unit, on the design drawing displayed on the display, a unit part where the standard parts to be changed and the part mounting processing pattern are unitized, and a unit where the component mounting processing patterns are unitized By simply replacing the unit parts with the parts and standard parts, the part mounting processing pattern and the assembly processing pattern as a unit, to the unit parts of the optimal dimensions, the designer can freely freely while looking at the design drawings themselves. Design changes can be made accurately and easily. In addition, the design change on the display can be easily grasped in actual size by specifying the scale of the display and the scale on the design drawing. Further, according to the present embodiment, the nest 1 and the basic structure 2 of the die-casting mold are provided.
If you change the standard parts after designing once with C
Since the standard parts to be changed can be deleted from the design drawing on the AD display and the part mounting pattern can be left on the design drawing, there is no need to design the part mounting processing pattern again when redesigning. It is possible to save time and effort in the completed design procedure, and to design the nest of the die for die casting and the basic structure in a short time.

Next, each embodiment of a method for manufacturing a die casting mold using the unit design system for a die casting mold according to the present invention will be described. << First Embodiment >> A first embodiment of a method of manufacturing a die casting mold using the die casting mold unit design system according to the present invention uses CAD, and uses standard parts (listed in a catalog). One part is a combination of a commercially available die-casting die) and a processing shape element (part mounting processing pattern) necessary for incorporating the standard part into the die-casting die. A unit (unit part) that is made into a unit as an inseparable state, a plurality of sizes (diameters) are designed in advance, and made into a database as unit parts, is stored in advance in CAD as one data (unit part data). In addition, using the unit part data, the standard required for designing the die insert die 1 and the basic structure 20 of the die casting die. By selecting a part and its part mounting processing pattern from the unit part data stored in advance in the CAD and incorporating it into the design drawing of the nest 1 or the basic structure 20 displayed on the display, the die-casting metal is formed. The die casting die is manufactured based on the design drawing in which the design of the die insert 1 and the basic structure 20 of the die casting die are completed.

First, when designing the nest 1 of the die-casting die and creating a design drawing of the nest 1, CA
As shown in FIG. 6, the outer shape of the nest 1 is designed in conformity with the shape of the product forming part 2 of the die casting for press-fitting the molten metal on the display of FIG. (1) Optimum unit parts are selected from unit part data (for example, FIGS. 7 to 18) in which standard parts required for design are combined into standard parts pre-stored in the CAD and part attachment processing patterns to form a unit. It is selected and incorporated into the design drawing of the nest 1 displayed on the CAD display. The unit parts selected from this unit part data and incorporated into the nest 1 on the CAD display may need to be changed in size, or may need to be changed because they do not fit. A unit part is newly selected for each unit part data (for example, each of the drawings shown in FIGS. 7 to 18) obtained by combining a standard part with a part attachment processing pattern, and is changed to the newly selected unit part. (Set again on the CAD display), and there is no need to redesign the standard parts and the parts mounting pattern.

On the CAD display, the standard parts and the parts mounting processing pattern selected and incorporated from the unit parts data are incorporated into the standard parts and the parts mounting processing patterns, and the standard parts and the parts mounting processing patterns. The design change and the like can be performed separately from the above. In this way, the design of the nest 1 can be completed on the CAD display, and the design drawing completed on this display can be printed by a printer, and the design drawing of the nest 1 can be created on paper. Can be. The design drawing of the completed nest 1 of this design is CA
D can be stored in the memory of D, the design drawing stored in this memory can be read out on the display as needed to make design changes, and the design drawing stored in the memory can be read out on the display It is also possible to print on a paper and print on paper without using a printer.

Next, in designing the basic structure 20 of the die for die-casting, after designing the insert 1, dimensions and shapes suitable for storing the insert 1 are shown on a CAD display in FIGS. Designed as shown in FIG. 23, for the basic structure 20 of the die-casting die having the specified outer shape, the standard parts required for the design of the basic structure 20 of the die-casting die are replaced with standard parts previously stored in the CAD. An optimal unit part is selected from unit part data (for example, FIGS. 24 to 37) unitized by combining the part mounting processing patterns, and the die casting basic structure 20 displayed on the CAD display is displayed. And incorporate them into the design drawings. If the unit parts incorporated in this basic structure 20 need to be changed in size or need to be changed because they do not fit,
A unit part is newly selected for each unit part data (for example, each of the drawings shown in FIGS. 24 to 37) obtained by combining a standard part with a part mounting pattern.
It is possible only by changing to a newly selected unit part (setting again on the CAD display), and there is no need to redesign the standard part and the part mounting pattern.

On the CAD display, the standard parts and the parts mounting processing pattern selected from the unit parts data and incorporated, and the standard parts only or the parts mounting processing patterns, the standard parts and the parts mounting processing patterns are selected. The design change and the like can be performed separately from the above. In this way, the design of the basic structure 20 of the die for die casting can be completed on the CAD display, and the design drawing completed on this display is:
It can be printed by a printer, and a design drawing of the basic structure 20 can be created on paper. The design drawing of the completed basic structure 20 of this design can be stored in the memory of the CAD, and the design drawing stored in this memory can be read out on a display as necessary to make design changes. Alternatively, the design drawing stored in the memory can be printed by a printer without being read out on a display and drawn on paper.

Therefore, according to the present embodiment, even if it is necessary to change the external shape of the die insert 1 and the basic structure 20 of the die-casting die or to change the standard parts once set, the designer can use the display on the display. While looking at the design drawing displayed in the above, on the design drawing displayed on the display, the standard part to be changed and the part mounting processing pattern Just by selecting the new unit parts with the optimal dimensions from among them and changing them to the newly selected unit parts (resetting on the CAD display), the designer can see the design drawing himself. However, the design can be freely, accurately, and easily changed. In addition, the design change on the display can be easily grasped in actual size after the change on the display by specifying the relationship between the scale of the display and the scale on the design drawing in advance. The die for die casting can be easily manufactured based on the design drawing made in this way. Further, according to the present embodiment, a unit part which is unitized by combining a standard part and a part mounting processing pattern is selected and incorporated into the die insert 1 and the basic structure 20 of the die-casting die, and the basic part 20 is designed. Even if the size needs to be changed or only the standard parts need to be changed because the sizes do not match, just delete the standard parts to be changed from the design drawings on the CAD display. Since the mounting processing pattern can be left on the design drawing, it is not necessary to design the component mounting processing pattern again when redesigning, so the design procedure can be saved and the die casting metal can be saved in a short time. The nesting of the mold and the design of the basic structure can be performed, and the die for die casting can be easily manufactured based on the design drawing thus made.

<< Second Embodiment >> A second embodiment of a method for manufacturing a die casting die using the die casting die unit design system according to the present invention uses CAD and standard parts (catalog). Parts used in die-casting dies that are generally available on the market and the processing shape elements (part mounting processing patterns) required to incorporate these standard parts into die-casting dies. As well as unitizing it into an integral and inseparable state, and combining the processing shape elements (part mounting processing patterns) necessary to incorporate the standard parts into the die-casting mold to make one unit, A plurality of sizes (diameters) are designed in advance for each of them, and a database (unit parts) is created as a unit part. Standard parts necessary for the design of the die casting die nest 1 and the basic structure 20 of the die casting mold and the mounting of the parts are stored in advance in the CAD as data (unit part data) and using the unit part data. The machining pattern is selected from the unit part data stored in advance in the CAD and incorporated into the nest 1 or the design drawing of the basic structure 20 displayed on the display, so that the nest 1 and The die casting die is manufactured based on the design drawing in which the design of the basic structure 20 of the die casting die is completed.

First, when designing the nest 1 of the die-casting die and preparing a design drawing of the nest 1, CA
As shown in FIG. 6, the outer shape of the nest 1 is designed in conformity with the shape of the product forming part 2 of the die casting for press-fitting the molten metal on the display of D, and the nest 1 having the specified outer shape is nested. The standard parts required in the design 1 are stored in advance in the CAD (for example, FIGS. 7 to 1).
8) Unit part data that is unitized by combining standard parts with part mounting processing patterns and unit parts that are unitized by combining processing shape elements (part mounting processing patterns) required to incorporate standard parts into die-casting dies. Select the optimal unit parts from the data, and nest 1 displayed on the CAD display
And incorporate them into the design drawings. The unit parts selected from this unit part data and incorporated into the nest 1 on the CAD display may need to be changed in size, or may need to be changed because they do not fit. , Unit part data that is unitized by combining the standard part with the part mounting processing pattern, and the unit parts that are unitized by combining the processing shape elements (part mounting processing pattern) necessary to incorporate the standard part into the die casting die Medium (for example, FIGS. 7 to 18)
Newly select unit parts from each figure shown in
It is possible only by changing the currently installed unit parts to newly selected unit parts (re-setting on the CAD display), and there is no need to redesign the standard parts and the part mounting pattern.

On the CAD display, the standard parts selected and incorporated from the unit part data and the processing parts of the part mounting processing pattern and the processing parts required for incorporating the standard parts into the die for die casting (part mounting) With respect to the unit parts formed by combining the processing patterns, the standard parts and the component mounting processing patterns can be separated and the design can be changed separately, such as only the standard parts or the component mounting processing patterns. In this way, the design of the nest 1 can be completed on the CAD display, and the design drawing completed on this display can be printed by a printer, and the design drawing of the nest 1 can be created on paper. Can be. The design drawing of the completed nest 1 of this design can be stored in the memory of the CAD, and the design drawing stored in this memory can be read out on the display as necessary to make design changes, The design drawing stored in the memory can be printed by a printer without being read out on a display and drawn on paper.

Next, in designing the basic structure 20 of the die for die-casting, after designing the insert 1, dimensions and shapes suitable for accommodating the insert 1 are shown on a CAD display in FIGS. Designed as shown in FIG. 23, with respect to the basic structure 20 of the die casting mold having the specified outer shape, standard parts required for designing the basic structure 20 of the die casting mold are stored in advance in the CAD (for example, FIG.
Figure 37) Unit parts data unitized by combining a standard part with a part mounting processing pattern and a unit formed by combining processing shape elements (part mounting processing patterns) necessary to incorporate a standard part into a die casting die. An optimal unit part is selected from the part data and incorporated into the design drawing of the basic structure 20 of the die for die casting displayed on the CAD display. When the size of the unit parts incorporated in the basic structure 20 needs to be changed, or when the size does not match, the size of the unit parts needs to be changed. Processing shape elements (part mounting processing pattern) required to incorporate unit part data and standard parts into die casting molds
A unit part is newly selected from unit part data (for example, each of the drawings shown in FIGS. 24 to 37) which are unitized by combining each other, and a newly selected unit part is selected from currently incorporated unit parts. (Reset on the CAD display), and there is no need to redesign the standard parts and the part mounting pattern.

On the CAD display, only the standard parts or the parts mounting processing patterns are selected for the standard parts and the parts mounting processing patterns selected from the unit part data and incorporated, and the unit parts between the parts mounting processing patterns. In addition, the design change and the like can be performed by separating the standard part and the part attachment processing pattern. In this way, the design of the basic structure 20 of the die for die casting can be completed on the CAD display, and the design drawing completed on this display can be printed by a printer. Can be created on paper. The design drawing of the completed basic structure 20 of this design can be stored in the memory of the CAD, and the design drawing stored in this memory can be read out on a display as necessary to make design changes. Alternatively, the design drawing stored in the memory can be printed by a printer without being read out on a display and drawn on paper.

Therefore, according to the present embodiment, even if it is necessary to change the external shape of the die insert 1 or the basic structure 20 of the die-casting die or to change the standard parts once set, the designer can use the display. On the design drawing displayed on the display, while looking at the design drawing displayed on the display, the unit parts data obtained by combining the standard part and the part mounting processing pattern to be changed into a unit by combining the standard part and the part mounting processing pattern and Newly select unit parts with optimal dimensions from unit part data that has been unitized by combining parts mounting processing patterns, and change to the newly selected unit parts (operation to set again on the CAD display) The designer can freely, accurately and easily make design changes while looking at the design drawings by himself / herself. Door can be. In addition, the design change on the display can be easily grasped in actual size after the change on the display by specifying the relationship between the scale of the display and the scale on the design drawing in advance. The die for die casting can be easily manufactured based on the design drawing made in this way. Further, according to the present embodiment, a unit part which is unitized by combining a standard part and a part mounting processing pattern is selected and incorporated into the die insert 1 and the basic structure 20 of the die-casting die, and the basic part 20 is designed. Even if the size needs to be changed or only the standard parts need to be changed because the sizes do not match, just delete the standard parts to be changed from the design drawings on the CAD display. Since the mounting processing pattern can be left on the design drawing, it is not necessary to design the component mounting processing pattern again when redesigning, so the design procedure can be saved and the die casting metal can be saved in a short time. The nesting of the mold and the design of the basic structure can be performed, and the die for die casting can be easily manufactured based on the design drawing thus made.

<< Third Embodiment >> A third embodiment of a method for manufacturing a die casting mold using the die casting mold unit design system according to the present invention uses CAD and standard parts (catalogs). Parts used for die-casting dies which are generally marketed and published in Japan) and the processing shape elements (part mounting processing patterns) required to incorporate these standard parts into die-casting dies. A machining element (assembly machining) indicating the machining contents (machining shape and machining dimensions) required in designing a die-casting die other than the machining shape element as well as being unitized into an integral state as if 1)
One unit (unit part) is created by unitizing the unit into a single inseparable state as if it were two attachment parts, designing a plurality of sizes (diameters) for each unit in advance, and making each unit part a database (unit part). Data) is stored in advance in the CAD, and using this unit part data, the standard parts required for designing the die casting die nest 1 and the basic structure 20 of the die casting die, and the part mounting processing pattern, CA
D is selected from the unit part data stored in advance in D and is incorporated in the design drawing of the nest 1 or the basic structure 20 displayed on the display, so that the nest 1 of the die casting die and the die casting die A die casting die is manufactured based on a design drawing in which the design of the basic structure 20 is completed.

First, when designing the nest 1 of the die-casting die and creating a design drawing of the nest 1, CA
As shown in FIG. 6, the outer shape of the nest 1 is designed in conformity with the shape of the product forming part 2 of the die casting for press-fitting the molten metal on the display of D, and the nest 1 having the specified outer shape is nested. The standard parts required in the design 1 are stored in advance in the CAD (for example, FIGS. 7 to 1).
8) Unit parts data obtained by combining a standard part with a part mounting processing pattern and processing elements (processing shapes and dimensions) required for designing die-casting dies other than processing shape elements. The optimum unit parts are selected from the unit part data obtained by combining the assembly processing patterns with each other to form a unit, and are incorporated in the design drawing of the nest 1 displayed on the CAD display. The unit parts selected from this unit part data and incorporated into the nest 1 on the CAD display may need to be changed in size, or may need to be changed because they do not fit. A unit part data unitized by combining a component attachment processing pattern with a standard part and a unit part unitized by combining assembly processing patterns with each other (for example, each unit shown in FIGS. 7 to 18); It is possible simply by selecting a new part and changing the currently installed unit part to the newly selected unit part (resetting on the CAD display), and redesigning the standard part and the part mounting pattern No need to do.

Further, on the CAD display, only the standard part or the part mounting processing pattern is selected for the standard part selected from the unit part data and incorporated and the unit part of the part mounting processing pattern and the unit part of the assembly processing pattern. Alternatively, a standard part, a component mounting pattern, and an assembling pattern can be separated and design changes can be separately made, such as only an assembling pattern. In this way, the design of the nest 1 can be completed on the CAD display, and the design drawing completed on this display can be printed by a printer, and the design drawing of the nest 1 can be created on paper. Can be. The design drawing of the completed nest 1 of this design is CAD
The design drawings stored in this memory can be read out on the display as necessary to make design changes, and the design drawings stored in the memory can be read out on the display. Instead, they can be printed on a printer and plotted on paper.

Next, in designing the basic structure 20 of the die for die-casting, after designing the insert 1, dimensions and shapes suitable for accommodating the insert 1 are shown on a CAD display in FIGS. Designed as shown in FIG. 23, with respect to the basic structure 20 of the die casting mold having the specified outer shape, standard parts required for designing the basic structure 20 of the die casting mold are stored in advance in the CAD (for example, FIG.
Figure 37) Select the optimal unit parts from the unit part data that is unitized by combining the component mounting processing pattern with the standard parts and the unit part data that is unitized by combining the assembly processing patterns, and display it on the CAD display. It is incorporated into the design drawing of the basic structure 20 of the die casting die shown. When the size of the unit parts incorporated in the basic structure 20 needs to be changed, or when the size does not match, the size of the unit parts needs to be changed. A unit part is newly selected from the unit part data and the unit part data obtained by combining the assembling processing patterns to form a unit (for example, each of the drawings shown in FIGS. 24 to 37), and the currently installed unit is selected. It is possible only by changing from the part to the newly selected unit part (resetting on the CAD display), standard parts, part mounting processing patterns,
There is no need to redesign the assembly processing pattern.

On the CAD display, only the standard parts or the part mounting processing patterns are selected for the standard parts and the unit mounting processing pattern unit parts selected and incorporated from the unit part data. Alternatively, the design change or the like can be performed by separating only the assembly processing pattern from the standard part, the component mounting processing pattern, and the assembly processing pattern. In this way, the design of the basic structure 20 of the die for die casting can be completed on the CAD display, and the design drawing completed on this display can be printed by a printer. Can be created on paper. The design drawing of the completed basic structure 20 of this design can be stored in the memory of the CAD, and the design drawing stored in this memory can be read out on a display as necessary to make design changes. Alternatively, the design drawing stored in the memory can be printed by a printer without being read out on a display and drawn on paper.

Therefore, according to the present embodiment, even if it is necessary to change the outer shape of the die insert 1 and the basic structure 20 of the die-casting mold or to change the standard parts once set, the designer can change the shape on the display. While changing the design drawing displayed on the display, the standardized parts to be changed, the part mounting processing pattern and the assembly processing pattern are combined into a unit by combining the standard part and the part mounting processing pattern on the design drawing displayed on the display. Newly selected unit parts with the optimal dimensions are selected from the unit part data that has been assembled and the unit part data that is assembled by combining the assembly processing patterns, and the currently installed unit parts are changed to the newly selected unit parts The designer can look at the design drawings himself by simply performing It is possible to perform freely and accurately, and easily design changes while watching. In addition, the design change on the display can be easily grasped in actual size after the change on the display by specifying the relationship between the scale of the display and the scale on the design drawing in advance. The die for die casting can be easily manufactured based on the design drawing made in this way.

Further, according to the present embodiment, after selecting a unit part unitized by combining a standard part and a part attachment processing pattern and designing it by incorporating it into the nest 1 and the basic structure 20 of the die-casting mold, Even if it is necessary to change the size of the standard parts or if it is necessary to change only the standard parts because the size does not match, CA
Since the component mounting processing pattern can be left on the design drawing only by erasing only the standard parts to be changed from the design drawing on the display of D, when the design is redesigned, the component mounting processing pattern is designed again. This eliminates the need for the design procedure, allows the nesting of the die casting mold and the design of the basic structure in a short time, and facilitates the die casting mold based on the design drawing thus drawn. Can be manufactured.

<< Fourth Embodiment >> A fourth embodiment of a method for manufacturing a die casting mold using the die casting mold unit design system according to the present invention uses a CAD and a standard part (catalog). Parts used in die-casting dies that are generally available on the market and the processing shape elements (part mounting processing patterns) required to incorporate these standard parts into die-casting dies. As a unit, it is unitized into an inseparable state, and the processing shape elements (part attachment processing patterns) necessary to incorporate the standard parts into the die casting die are combined into one unit, and Processing elements (assembly processing patterns) that indicate the processing contents (processing shape and processing dimensions) required to design the die casting die other than the processing shape elements One unit is a unit that is united into an inseparable state as if it were a single attachment part, and a plurality of sizes (diameters) are designed in advance for each unit and made into a database as unit parts (unit parts). (Unit part data) is stored in advance in the CAD, and using this unit part data, the standard parts required for designing the die insert die 1 and the basic structure 20 of the die casting die, and the processing for mounting the parts. The pattern is selected from the unit part data stored in advance in the CAD and is incorporated into the nest 1 or the design drawing of the basic structure 20 displayed on the display, so that the nest 1 and the die casting Die casting mold based on the design drawing that completed the design of the basic structure 20 of the mold It is intended to produce.

First, when designing the nest 1 of the die-casting die and preparing a design drawing of the nest 1, CA
As shown in FIG. 6, the outer shape of the nest 1 is designed in conformity with the shape of the product forming part 2 of the vertical cast as shown in FIG. The standard parts required in the design 1 are stored in advance in the CAD (for example, FIGS. 7 to 1).
8) Combine the unit part data obtained by combining the standard part with the part mounting processing pattern to form a unit, and the processing shape elements (part mounting processing patterns) required to incorporate the standard part into the die-casting die to form one part. Unitized by combining processing elements (assembly processing patterns) indicating the processing contents (processing shape and processing dimensions) required to design unitized unit part data and die casting molds other than processing shape elements Select the optimal unit parts from the unit part data, and
D is incorporated into the design drawing of the nest 1 displayed on the display of D. The unit parts selected from this unit part data and incorporated into the nest 1 on the CAD display may need to be changed in size, or may need to be changed because the size does not match. The unit part data which is unitized by combining the component attachment processing patterns with the standard parts, the unit part data which is unitized by combining the component attachment processing patterns, and the unit parts which are unitized by combining the assembly processing patterns (for example, , Each unit shown in FIGS. 7 to 18), and newly changing unit parts from currently installed unit parts to newly selected unit parts (reset on the CAD display). It is not necessary to redesign the standard parts and the parts mounting processing pattern.

On the CAD display, the standard parts selected from the unit part data and incorporated, the unit parts of the part mounting processing patterns, the unit parts of the part mounting processing patterns, and the unit parts of the assembling processing patterns are displayed. Separate standard parts, component mounting processing patterns, and assembly processing patterns and make design changes separately, such as only standard parts, component mounting processing patterns, component mounting processing patterns, or assembly processing patterns only. Can also. In this way, the design of the nest 1 can be completed on the CAD display, and the design drawing completed on this display is:
Printing can be performed by a printer, and a design drawing of the nest 1 can be created on paper. The design of the completed nest 1 of this design can be stored in the CAD memory, and the design stored in this memory can be
The design can be read out on the display to make a design change, and the design drawing stored in the memory can be printed by a printer and drawn on paper without being read out on the display.

[0153]

According to the first aspect of the present invention, anyone who has knowledge of the design can easily design the resin mold, and can easily design the parts necessary for designing the resin mold. By simply incorporating each unit part into the nest of the resin mold without dropping its design elements, the nested main parts can be designed in a short time, and the parts required for the nest design of other resin molds Can be easily designed in a short time.

According to the second aspect of the present invention, anyone who has knowledge of the design can easily design the resin mold and the parts necessary for the design of the resin mold. The main parts of the basic structure can be designed in a short time only by incorporating each unit part into the basic structure of the resin mold without dropping design elements, and it is necessary to design the basic structure of other resin molds. The mounting design of the parts can be easily performed in a short time.

According to the third aspect of the present invention, anyone who has knowledge of the design can easily design the resin mold and the parts required for the design of the resin mold. By simply incorporating each unit part into the nest of the resin mold and the basic structure without dropping the design elements, the design of the main parts of the nest and the basic structure can be performed in a short time, and the nest and basic of other resin molds The mounting design of the parts necessary for designing the structure can be easily performed in a short time.

According to the fourth aspect of the present invention, anyone who has knowledge of the design can easily design the resin mold and the parts necessary for the design of the resin mold. It can be easily performed in a short time without dropping design elements.

According to the fifth aspect of the present invention, anyone who has knowledge of the design can easily design the resin mold and the parts necessary for the design of the resin mold. The main nested parts can be designed in a short time simply by incorporating each unit part into the nest of the resin mold without dropping the design elements, and mounting the parts necessary for designing the nest of other resin molds Design can be performed easily in a short time.

According to the sixth aspect of the present invention, anyone who has knowledge of the design can easily design the resin mold and the parts necessary for the design of the resin mold. The main parts of the basic structure can be designed in a short time only by incorporating each unit part into the basic structure of the resin mold without dropping design elements, and it is necessary to design the basic structure of other resin molds. The mounting design of the parts can be easily performed in a short time.

According to the seventh aspect of the present invention, anyone who has knowledge of the design can easily design the resin mold and the parts necessary for the design of the resin mold. By simply incorporating each unit part into the nest of the resin mold and the basic structure without dropping the design elements, the design of the main parts of the nest and the basic structure can be performed in a short time, and the nest and the basic of other resin molds The mounting design of the parts necessary for designing the structure can be easily performed in a short time.

According to the eighth aspect of the present invention, anyone who has knowledge of the design can easily design the resin mold and the parts necessary for the design of the resin mold. It can be easily performed in a short time without dropping design elements.

According to the ninth aspect of the present invention, anyone who has knowledge of the design can easily design the resin mold and the parts necessary for the design of the resin mold. The main nested parts can be designed in a short time simply by incorporating each unit part into the nest of the resin mold without dropping the design elements, and mounting the parts necessary for designing the nest of other resin molds Design can be performed easily in a short time.

According to the tenth aspect of the present invention, anyone who has knowledge of the design can easily design the resin mold and the parts necessary for the design of the resin mold. The main parts of the basic structure can be designed in a short time only by incorporating each unit part into the basic structure of the resin mold without dropping design elements, and it is necessary to design the basic structure of other resin molds. The mounting design of the parts can be easily performed in a short time.

According to the eleventh aspect of the present invention, anyone who has knowledge of the design can easily design the resin mold and the parts necessary for the design of the resin mold. By simply incorporating each unit part into the nest of the resin mold and the basic structure without dropping design elements, it is possible to design the main parts of the nest and the basic structure in a short time,
The mounting design of the nest of other resin molds and the parts necessary for designing the basic structure can be easily performed in a short time.

According to the twelfth aspect of the present invention, anyone who has knowledge of the design can easily design the resin mold and the parts necessary for the design of the resin mold. It can be easily performed in a short time without dropping design elements.

According to the thirteenth aspect of the present invention, anyone who has knowledge of the design can easily design the resin mold and the parts necessary for the design of the resin mold. The main nested parts can be designed in a short time simply by incorporating each unit part into the nest of the resin mold without dropping the design elements, and mounting the parts necessary for designing the nest of other resin molds Design can be performed easily in a short time.

According to the fourteenth aspect of the present invention, anyone who has knowledge of the design can easily design the resin mold and the parts necessary for the design of the resin mold. The main parts of the basic structure can be designed in a short time only by incorporating each unit part into the basic structure of the resin mold without dropping design elements, and it is necessary to design the basic structure of other resin molds. The mounting design of the parts can be easily performed in a short time.

According to the fifteenth aspect of the present invention, anyone who has knowledge of the design can easily design the resin mold and the parts required for the design of the resin mold. By simply incorporating each unit part into the nest of the resin mold and the basic structure without dropping design elements, it is possible to design the main parts of the nest and the basic structure in a short time,
The mounting design of the nest of other resin molds and the parts necessary for designing the basic structure can be easily performed in a short time.

According to the sixteenth aspect of the present invention, anyone who has knowledge of the design can easily design the resin mold and the parts necessary for the design of the resin mold. It can be easily performed in a short time without dropping design elements.

According to the seventeenth aspect of the present invention, anyone who has knowledge of the design can easily design the resin mold and the parts necessary for the design of the resin mold. It can be easily performed in a short time without dropping design elements.

According to the eighteenth aspect of the present invention, anyone who has knowledge of the design can easily design the resin mold and the parts necessary for the design of the resin mold. It can be easily performed in a short time without dropping design elements.

According to the nineteenth aspect of the present invention, the design change of the basic structure of the resin mold is selected from the basic structure data of the basic structure of the resin mold, and the design change of the basic structure of the resin mold is required. Design change of standard part size,
Additional design of standard parts required for resin mold design,
Any part of the standard parts required for the design of the resin mold can be changed and added to the standard parts required for the design of the resin mold and the design elements. A mold can be designed, and a resin mold can be easily manufactured based on the design drawing.

According to the twentieth aspect of the present invention, the design change of the basic structure of the resin mold is selected from the basic structure data of the basic structure of the resin mold, thereby making it necessary to design the resin mold. Design change of standard part size,
Additional design of standard parts required for resin mold design,
Any part of the standard parts required for the design of the resin mold can be changed and added to the standard parts required for the design of the resin mold and the design elements. A mold can be designed, and a resin mold can be easily manufactured based on the design drawing.

According to the twenty-first aspect of the present invention, the design change of the basic structure of the resin mold is selected from the basic structure data of the basic structure of the resin mold, and the design change of the basic structure of the resin mold is required. Design change of standard part size,
Additional design of standard parts required for resin mold design,
Addition of standard parts required for resin mold design and processing shape elements for mounting the standard parts Units of standard parts required for resin mold design and processing shape elements for mounting the standard parts Anyone can easily shorten by changing and adding unitized unit parts, by changing and adding unitized unit parts that combine multiple processing shape elements required to incorporate standard parts into resin molds. The resin mold can be designed in a short time, and the resin mold can be easily manufactured based on the design drawing.

According to the twenty-second aspect of the present invention, the design change of the basic structure of the resin mold is selected from the basic structure data of the basic structure of the resin mold, and the design change of the basic structure of the resin mold is required. Design change of standard part size,
Additional design of standard parts required for resin mold design,
Addition of standard parts required for resin mold design and processing shape elements for mounting the standard parts Units of standard parts required for resin mold design and processing shape elements for mounting the standard parts By changing and adding unitized parts, resin molds are designed by changing and adding unit parts that combine multiple processing shape elements required to incorporate standard parts into resin molds. Anyone can design a resin mold easily and in a short time by changing and adding unit parts that are made into a unit by combining multiple processing elements required for The resin mold can be easily manufactured.

According to the twenty-third aspect of the present invention, the design change of the basic structure of the die-casting die is required by selecting from the basic structure data of the basic structure of the die-casting die. Design change of standard part size,
Additional design of standard parts required for die casting die design,
Anyone can easily and quickly modify the standard parts required for die-casting die design by changing / adding each unit part to the standard parts required for die-casting die design and their design elements. A tooling design can be made.

According to the twenty-fourth aspect of the present invention, the design change of the basic structure of the die-casting die is required by selecting from the basic structure data of the basic structure of the die-casting die. Design change of standard part size,
Additional design of standard parts required for die casting die design,
Additional processing of standard parts required for die-casting die design
Anyone can easily design a die casting die in a short time.

According to the twenty-fifth aspect of the present invention, a person who has knowledge of the design can change the design of the basic structure of the die-casting die by selecting from the basic structure data of the basic structure of the die-casting die. Die casting die design change of standard parts size required for die casting die design, additional design of standard parts required for die casting die design, additional processing of standard parts required for die casting die design Anyone can design a die-casting die easily and in a short time by changing / adding each unit part with respect to standard parts and its design elements required for die design.

According to the twenty-sixth aspect of the present invention, a person who has a design knowledge can change the design of the basic structure of the die casting die by selecting from the basic structure data of the basic structure of the die casting die. Die casting die design change of standard parts size required for die casting die design, additional design of standard parts required for die casting die design, additional processing of standard parts required for die casting die design Anyone can design a die-casting die easily and in a short time by changing / adding each unit part with respect to standard parts and its design elements required for die design.

According to the twenty-seventh aspect of the present invention, the design change of the basic structure of the die-casting die is required by selecting from the basic structure data of the basic structure of the die-casting die. Design change of standard part size,
Additional design of standard parts required for die casting die design,
Anyone can easily and quickly modify the standard parts required for die-casting die design by changing / adding each unit part to the standard parts required for die-casting die design and their design elements. The die can be designed, and the die for die casting can be easily manufactured based on the design drawing.

According to the twenty-eighth aspect of the present invention, the design change of the basic structure of the die-casting die is required by selecting from the basic structure data of the basic structure of the die-casting die. Design change of standard part size,
Additional design of standard parts required for die casting die design,
The standard parts required for die-casting die design can be modified by changing and adding the standard parts required for die-casting die design and their design elements to each unit part. A mold can be designed, and a die for die casting can be easily manufactured based on the design drawing.

According to the twenty-ninth aspect of the present invention, the design change of the basic structure of the die-casting die is required by selecting from the basic structure data of the basic structure of the die-casting die. Design change of standard part size,
Additional design of standard parts required for die casting die design,
Standard design required for die-casting die design and additional design of processing shape element for mounting the standard part Unit required for standard design required for die-casting die design and processing shape element for mounting the standard part By changing and adding unitized unit parts, anyone can easily shorten by changing and adding unit parts that are unitized by combining multiple processing shape elements required to incorporate standard parts into die casting molds. The die-casting die can be designed in a short time, and the die-casting die can be easily manufactured based on the design drawings.

According to the thirty-first aspect of the present invention, the design change of the basic structure of the die-casting die is required by selecting from the basic structure data of the basic structure of the die-casting die. Design change of standard part size,
Additional design of standard parts required for die casting die design,
Standard design required for die-casting die design and additional design of processing shape element for mounting the standard part Unit required for standard design required for die-casting die design and processing shape element for mounting the standard part Designing die-casting dies by changing / adding unitized unit parts to change / add unitized unit parts by combining multiple processing shape elements required to incorporate standard parts into die-casting dies Anyone can design die casting molds easily and in a short time by changing and adding unit parts, which are unitized by combining multiple processing elements required for manufacturing, based on this design drawing. The die for die casting can be easily manufactured.

[Brief description of the drawings]

FIG. 1 is a diagram showing bolt / nut / unit part data.

FIG. 2 is a diagram showing data obtained by combining bolts and nuts in the bolt / nut unit parts shown in FIG.

FIG. 3 is a view showing data of a processing shape element for mounting a bolt / nut in the bolt / nut unit part shown in FIG. 1;

FIG. 4 is a diagram showing runner sprue gate unit part data.

FIG. 5 is a diagram showing tap hole / unit part data.

FIG. 6 is a design diagram of a nest.

FIG. 7 is a diagram showing temperature control passage unit part data.

FIG. 8 is a diagram showing temperature control pipe unit data;

FIG. 9 is a diagram showing temperature control unit part data.

FIG. 10 is a diagram showing slide removal pin / unit part data.

FIG. 11 is a diagram showing locking block / unit part data.

FIG. 12 is a diagram showing angular pin unit part data.

FIG. 13 is a diagram showing ejector pin / unit part data.

FIG. 14 is a diagram showing ejector sleeve / unit part data.

FIG. 15 is a diagram showing center pin / unit part data.

FIG. 16 is a diagram showing fixed-side nesting pin / unit part data.

FIG. 17 is a diagram showing runner gate lock pin / unit part data.

FIG. 18 is a diagram showing taper giver liner unit part data.

FIG. 19 is a front view of a basic structure of a resin mold.

FIG. 20 is a plan view on the movable side of the basic structure of the resin mold.

FIG. 21 is a bottom view of the fixed side of the basic structure of the resin mold.

FIG. 22 is a side view of a basic structure of a resin mold.

FIG. 23 is a partial cross-sectional view of a part of the basic structure of the resin mold illustrated in FIG. 19;

FIG. 24 is a diagram showing sprue bush locating ring / unit part data.

FIG. 25 is a diagram showing bolt / nut / unit part data.

FIG. 26 is a diagram showing ejector guide pin / unit part data.

FIG. 27 is a diagram showing ejector set / unit part data.

FIG. 28 is a diagram showing shoulder bolt / unit part data.

FIG. 29 is a diagram illustrating hook part data.

FIG. 30 is a diagram showing parting lock / unit part data.

FIG. 31 is a diagram showing nipple part data.

FIG. 32 is a diagram showing elbow unit part data.

FIG. 33 is a diagram showing distance spacer / unit part data.

FIG. 34 is a diagram showing tension link / unit part data.

FIG. 35 is a diagram showing stop bolt plastic bolt / unit part data.

FIG. 36 is a diagram showing guide pin / unit part data.

FIG. 37 is a diagram showing interlock / unit part data.

FIG. 38 is a plan view showing a design drawing of a resin mold.

FIG. 39 is a side perspective view of a design drawing of the resin mold shown in FIG. 38;

[Explanation of symbols]

1 ……………………… Nesting 2 ……………………………………………………………………………………………………………………………………………………… ………………………………………………………………………………………………………… Movable side 5 …………………… ……………… Parting line 6 ………………………………………………………………………………………………………………………………………………………………………………………………………… 7 ……………………………………………………………………………… O-ring 9 …………………………………………………… Temperature control path 10 ……………………………………………… ············································· Locking block 12 ……………………… Angular pin 13 ……………………………… Ejector E 14 .............................. Ejector sleeve 15 .................. Center pin 16 ............ ............ Fixed side nesting pin 17 ............... Runner gate lock pin 18 ............... ……………………………………………………………………………………………………………………………………………………………… Basic Structure 21 ……………………………………… … Fixed side 22 ………………………… Movable side 23 …………………………………………………… Parting line 24 …………………………………………………………………………………………………………………………………………………………… Bolt nuts 26 ……………………… …………………… Eje Tar guide pin 27 ……………………………… Ejector set 28 …………………………………………………………………………………………………………………………………………………………………………… ………………………………………………………………………………………………………………………………………………… Parting Lock 31 ……… Nipple 32 for temperature control parts 32 ……………………………………………………………………………………………………………………………………………………………………………………………………… …… Elbow 34 ………………………………… Distance spacer 35 ……………………………………… Pull link 36 ………………………………………………………………………………………………………………………………………………… ································ ………………… In Turlock

 ────────────────────────────────────────────────── ─── Continued on the front page (54) [Title of the Invention] A resin mold unit design system, a resin mold manufacturing method using the resin mold unit design system, and a die casting mold. Unit design system and method for manufacturing die casting mold using unit design system for die casting die

Claims (30)

[Claims] 1. A resin mold design system for designing a resin mold using CAD,
AD combines standard parts used in resin molds that are listed in catalogs and are generally used in the market and processing shape elements necessary for incorporating the standard parts into the resin molds to form a unit. Unit parts designed in advance for a plurality of dimensions and shapes are stored in advance, the outer shape of the nest of the resin mold to be designed is displayed on the CAD display, and the resin mold displayed on the display is displayed. All the standard parts necessary for the design of the mold nest and the processing shape elements necessary for incorporating the standard parts into the resin mold are selected from a plurality of unit parts stored in advance in the CAD. ,
A unit design system for a resin mold, wherein the resin mold is designed by being incorporated into the nest of the resin mold. 2. A resin mold design system for designing a resin mold using CAD.
The AD is combined with standard parts used in resin molds that are listed in catalogs and used in general and resin-molded molds, and is combined into processing units to incorporate the standard parts into the resin molds. Unit parts designed in advance for each of a plurality of dimensions and shapes are stored in advance, and standard parts basically required for designing resin molds and the standard parts are formed in the CAD. The basic structure of the pre-designed resin mold is pre-stored as basic structure data for each external dimension in combination with the machining shape elements necessary for incorporation into the basic structure of the resin mold to be designed. From the basic structure data of the resin mold stored in advance on the basis of the external dimensions of the resin mold, and display on the CAD display, The design change of the basic structure of the resin mold read out from is performed by directly changing the drawing of the basic structure of the resin mold displayed on the display, or the resin mold after the design change. When the basic structure of the mold is included in a plurality of basic structure data stored in advance in the CAD, it is performed by selecting from the basic structure data of the resin mold previously stored. The change of the standard part previously incorporated in the basic structure of the resin mold read out from the CAD and the change of the processing shape element due to the change of the standard part are performed by the unit part previously stored in the CAD. Select and change the standard parts incorporated in the basic structure of the resin mold beforehand and the processing shape elements accompanying the change of the standard parts. By exchanging the above, it is necessary to design the resin molds other than the standard parts pre-installed in the basic structure of the resin molds read out from the CAD and the processing shape elements for mounting the standard parts. The standard component, the processing shape element for mounting the standard component, and the processing element required for designing the resin mold other than the processing element for mounting the standard component required for designing the resin mold are displayed on the display. Design of the basic structure of the resin mold that is directly written into the design drawing of the basic structure of the resin mold or selecting a plurality of unit parts stored in advance in CAD and designing the basic structure of the resin mold that is displayed on the display Unit design of resin molds characterized by designing resin molds by incorporating them into drawings system. 3. A resin mold design system for designing a resin mold using CAD.
The AD is combined with standard parts used in resin molds that are published in catalogs and used in general and resin-molded molds, and the standardized parts are combined to form a unit. Unit parts designed in advance for a plurality of dimensions and shapes are stored in advance, and the standard parts, which are the basic parts required for designing the resin mold, and the standard parts necessary for incorporating the standard parts into the resin mold. The basic structure of the resin mold designed in combination with various processing shape elements is stored in advance for each external dimension, and the external shape of the nest of the resin mold to be designed is displayed on the CAD display. , All the standard parts required for the design of the nest of the resin mold displayed on the display and the necessity for incorporating the standard parts into the resin mold. And Do machining shape elements, said pre CA
D is selected from the plurality of unit parts stored in D, and the nest of the resin mold is designed by incorporating the nest of the resin mold into the nest of the resin mold. Memorized in
Based on the outer dimensions of the nest of the designed resin mold, the outer dimensions of the basic structure of the resin mold to which the nest is attached are selected, and based on the outer dimensions of the basic structure of the selected resin mold. The most suitable basic structure of the resin mold is selected from the basic structure data of the resin mold stored in advance, and the basic structure of the resin mold is displayed on the display of the CAD, and read from the CAD. The design change of the basic structure of the resin mold is performed by directly changing the drawing of the basic structure of the resin mold displayed on the display, or the basic structure of the resin mold after the design change is stored in advance in the CAD. If it is included in a plurality of basic structure data, the selection is made from the previously stored basic structure data of the resin mold. The change of the standard part previously incorporated in the basic structure of the resin mold read out from the CAD and the change of the processing shape element accompanying the change of the standard part are stored in the CAD in advance. The parts read out from the CAD by selecting parts, changing the standard parts incorporated in the basic structure of the resin mold in advance, and replacing the processed shape elements with the changes of the standard parts on the display. Standard parts necessary for the design of the resin mold other than the standard parts pre-installed in the basic structure of the mold and the processing shape elements for mounting the standard parts, and the processing shape elements for mounting the standard parts; Required for resin mold design other than processing elements for mounting standard parts required for resin mold design Engineering elements are directly written on the design drawing of the basic structure of the resin mold shown on the display, or a plurality of unit parts stored in advance in CAD are selected and displayed on the display. A resin mold unit design system characterized by designing a resin mold by incorporating it into a design drawing of a basic structure of the mold. 4. The resin mold according to claim 1, wherein the unit parts are designed in advance with a plurality of dimensions and shapes for one standard part and stored in a CAD as one drawing data. Unit design system. 5. A resin mold design system for designing a resin mold using CAD,
The AD is combined with standard parts used in resin molds that are listed in the catalog and are generally used in the market and processing shape elements required for incorporating the standard parts into the resin molds to form a unit. A first unit part is designed in advance for each of a plurality of dimensions and shapes, and a first unit part is stored in advance, and a plurality of processing shape elements necessary for incorporating the standard part into a resin mold are set in the CAD. A second unit part designed in advance according to the dimensions and shapes of the standard parts for each processing shape element is stored in advance, and the outer shape of the nest of the resin mold to be designed is displayed on the CAD display. All the standard parts required for the design of the nest of the resin mold shown on the display and the By selecting from a plurality of first unit parts stored in advance in the CAD in combination with processing shape elements necessary for assembling into the CAD and assembling them into the nest of the resin mold, the display unit is mounted on the display. The combination of a plurality of processing shape elements required to incorporate all the standard parts necessary for the design of the nest of the resin mold shown in the above into the resin mold is stored in advance in the CAD. A resin molding die unit designing system, wherein the resin molding die is designed by selecting from the second unit parts and incorporating the resin into the nest of the resin molding die. 6. A resin mold design system for designing a resin mold using CAD.
The AD is combined with standard parts used in resin molds that are published in catalogs and used in general and resin-molded molds, and the standardized parts are combined to form a unit. A first unit part is designed in advance for each of a plurality of dimensions and shapes, and a first unit part is stored in advance, and a plurality of processing shape elements necessary for incorporating the standard part into a resin mold are combined with the CAD. A second unit part designed in advance in accordance with the dimensions and shapes of the standard parts for each processing shape element is stored in advance, and the CAD is used for designing a resin mold in the CAD. Basic structure of a resin mold mold designed in advance in a state where standard parts required for the process and processing shape elements necessary for incorporating the standard parts into the resin mold are combined The basic structure data is stored in advance as the basic structure data for each external dimension, and selected from the pre-stored basic structural data of the resin mold based on the external dimensions of the basic structure of the resin mold to be designed. The design change of the basic structure of the resin mold displayed on the display and read from the CAD is performed by directly changing the drawing of the basic structure of the resin mold displayed on the display. Alternatively, when the basic structure of the resin mold after the design change is included in a plurality of basic structure data stored in advance in the CAD, the basic structure of the resin mold which is stored in advance is used. This is done by selecting from the data, and changing the standard parts that are pre-installed in the basic structure of the resin mold read from the CAD. The change of the machining shape element accompanying the change of the standard part is performed by selecting a plurality of first unit parts stored in advance in the CAD and changing the standard part previously incorporated in the basic structure of the resin mold. And changing the processed shape elements on the display according to the change of the standard parts.
The standard parts pre-installed in the basic structure of the resin mold read out from the AD and the standard parts necessary for designing the resin mold other than the processing shape elements for mounting the standard parts and the standard parts The processing shape element to be attached is directly written on the design drawing of the basic structure of the resin mold displayed on the display, or a plurality of first unit parts stored in advance in CAD are selected to display the display. It is performed by incorporating it into the design drawing of the basic structure of the resin mold shown above, and the standard parts and the standard parts previously incorporated in the basic structure of the resin mold read from the CAD are attached. And other resin components other than those for mounting standard parts required for resin mold design Either writing processing element that requires the Rudo mold design directly on the design drawing of the basic structure of the resin mold that is displayed on the display, pre CA
D is designed by selecting a plurality of second unit parts stored in D and incorporating them into the design drawing of the basic structure of the resin mold displayed on the display. Unit design system for resin molds. 7. A resin mold design system for designing a resin mold using CAD.
The AD is combined with standard parts used in resin molds that are published in catalogs and used in general and resin-molded molds, and the standardized parts are combined to form a unit. A first unit part is designed in advance for each of a plurality of dimensions and shapes, and a first unit part is stored in advance, and a plurality of processing shape elements necessary for incorporating the standard part into a resin mold are combined with the CAD. A second unit part designed in advance in accordance with the dimensions and shapes of the standard parts for each processing shape element is stored in advance, and the CAD is used for designing a resin mold in the CAD. Basic structure of a resin mold mold designed in advance in a state where standard parts required for the process and processing shape elements necessary for incorporating the standard parts into the resin mold are combined The outer shape of the nest of the resin mold to be designed is stored in advance as basic structure data for each outer dimension, the outer shape of the nest of the resin mold to be designed is displayed on the CAD display, and the nest of the resin mold is displayed on the display. Selecting all necessary standard parts and processing shape elements necessary for incorporating the standard parts into a resin mold from a plurality of first unit parts stored in advance in the CAD; The incorporation into the nest of the mold makes it necessary for the design of the resin mold other than the processing shape elements for mounting all the standard parts required for the design of the nest of the resin mold shown on the display. A plurality of processed shape elements combined with a plurality of processed shape elements for mounting standard parts are converted into a plurality of second units stored in advance in the CAD. The nesting of the resin mold is designed by selecting from the articles and incorporating the nest of the resin mold, the nest of the designed resin mold is stored in the CAD, and the design is performed. Based on the outer dimensions of the nest of the resin mold, the outer dimensions of the basic structure of the resin mold to which the nest is attached are selected and stored in advance based on the outer dimensions of the basic structure of the selected resin mold. The most appropriate basic structure of the resin mold is selected from the basic structure data of the resin mold, and the basic structure of the resin mold read out from the CAD is displayed on the display of the CAD. Design change by directly changing the drawing of the basic structure of the resin mold displayed on the display, or the resin after the design change When the basic structure of the mold is included in a plurality of basic structure data stored in advance in CAD,
It is performed by selecting from the pre-stored basic structure data of the resin mold, changing the standard parts pre-installed in the basic structure of the resin mold read from the CAD, and changing the standard A plurality of first unit parts stored in advance in CAD are selected, and the change of the standard parts incorporated in the basic structure of the resin mold beforehand is performed. A standard part pre-installed in the basic structure of the resin mold read out from the CAD, and a processing shape for attaching the standard part, which are performed by exchanging the processing shape element accompanying the change of the part on the display. The standard parts necessary for designing the resin mold other than the elements and the processing shape elements for mounting the standard parts are provided on the display. Directly writing on the design drawing of the basic structure of the resin mold shown in the above, or selecting a plurality of first unit parts stored in advance in the CAD and displaying the resin mold shown on the display A standard part preliminarily incorporated in the basic structure of the resin mold read out from the CAD, a processing shape element for mounting the standard part, and a resin mold. Whether the processing elements required for the resin mold design other than the processing elements for mounting the standard parts required for the mold design are directly written in the design drawing of the basic structure of the resin mold displayed on the display. Selecting a plurality of second unit parts stored in advance in the CAD, and selecting a resin mode displayed on the display. Unit design system of the resin molding die and performing resin molding mold design by incorporating in the design drawing of the basic structure of the de-mold. 8. The first unit part is obtained by designing a plurality of dimensions and shapes for one standard part shape in advance and storing them in a CAD as one drawing data.
The unit design system for a resin mold according to claim 5, wherein a plurality of dimensional shapes of each processing shape element are designed in advance and stored in the CAD as one drawing data. 9. A resin mold design system for designing a resin mold using CAD,
The AD is combined with standard parts used in resin molds that are listed in the catalog and are generally used in the market and processing shape elements required for incorporating the standard parts into the resin molds to form a unit. A first unit part is designed in advance for each of a plurality of dimensions and shapes, and a first unit part is stored in advance, and a resin molding die other than a processing shape element necessary for incorporating the standard part into a resin molding die is stored in the CAD. A plurality of processing elements required for designing a mold are combined to form a unit, and a second unit part designed in advance according to the dimensions and shapes of the standard parts for each processing shape element is stored in advance, The outer shape of the nest of the resin mold to be designed is displayed on the CAD display, and the nest of the resin mold is displayed on the display. In combination with all necessary standard parts and processing shape elements necessary for incorporating the standard parts into the resin mold, a selection is made from among the plurality of first unit parts stored in advance in the CAD, By incorporating the resin molding die into the resin molding die, the resin molding die other than the processing shape element for incorporating the standard parts required for the design of the resin molding die nest displayed on the display into the resin molding die. The combination of a plurality of processing elements required for designing a mold is
A resin mold unit designed by selecting from a plurality of second unit parts stored in D and incorporating it into the nest of the resin mold unit. Design system. 10. A resin mold design system for designing a resin mold using CAD. In the CAD, a standard part used in a resin mold that is published in a catalog and is generally commercially available is used in the CAD. A unit is formed by combining processing shape elements necessary for incorporating the part into the resin mold, and a plurality of dimensions and shapes are designed in advance for each standard part, and the first unit part is stored in advance, and The CAD is combined with a plurality of processing elements required for designing a resin mold other than the processing shape elements required for incorporating the standard parts into the resin molding die to form a unit. The second unit parts designed in advance according to the dimensions and shapes of the standard parts are stored in advance, and a resin mold is designed in the CAD. The basic structure of a resin mold that has been designed in advance in a state where the standard parts that are basically required for It is stored in advance as basic structure data, and selected from the pre-stored basic structure data of the resin mold based on the external dimensions of the basic structure of the resin mold to be designed, and is displayed on the CAD display. The design change of the basic structure of the resin mold displayed and read from the CAD is performed by directly changing the drawing of the basic structure of the resin mold displayed on the display, or the design change is performed. If the basic structure of the later resin mold is included in a plurality of basic structure data stored in advance in the CAD, the resin stored in advance may be used. Of the standard parts pre-installed in the basic structure of the resin mold read out from the CAD by selecting from the basic structure data of the mold and the processing shape accompanying the change of the standard parts. To change the element, select a plurality of first unit parts stored in advance in the CAD, change the standard part incorporated in the basic structure of the resin mold in advance, and the machining shape accompanying the change of the standard part By swapping the elements on the display,
The standard parts pre-installed in the basic structure of the resin mold read out from the AD and the standard parts necessary for designing the resin mold other than the processing shape elements for mounting the standard parts and the standard parts The processing shape element to be attached is directly written on the design drawing of the basic structure of the resin mold displayed on the display, or a plurality of first unit parts stored in advance in CAD are selected to display the display. The standard parts required for the design of the basic structure of the resin mold read out from the CAD are incorporated into the design drawing of the basic structure of the resin mold shown above. A plurality of processing elements required for designing a resin mold other than the processing shape elements to be incorporated are displayed on the display. By writing directly on the design drawing of the basic structure of the resin mold, or selecting a plurality of second unit parts stored in advance in CAD and displaying the basic structure of the resin mold on the display. A resin mold unit design system, wherein a resin mold is designed by incorporating it into a structural design drawing. 11. A resin mold design system for designing a resin mold using CAD, wherein the CAD includes standard parts used in a resin mold that are listed in a catalog and are generally available on the market. A unit is formed by combining processing shape elements necessary for incorporating the part into the resin mold, and a plurality of dimensions and shapes are designed in advance for each standard part, and the first unit part is stored in advance, and The CAD is combined with a plurality of processing elements required for designing a resin mold other than the processing shape elements required for incorporating the standard parts into the resin molding die to form a unit. The second unit parts designed in advance according to the dimensions and shapes of the standard parts are stored in advance, and a resin mold is designed in the CAD. The basic structure of a resin mold that has been designed in advance in a state where the standard parts that are basically required for It is stored in advance as basic structure data, the outer shape of the nest of the resin mold to be designed is displayed on the display of the CAD, and all of the nests required for designing the nest of the resin mold displayed on the display are displayed. In combination with a standard part and a processing shape element necessary for incorporating the standard part into a resin mold, the resin mold is selected from a plurality of first unit parts stored in advance in the CAD, and By incorporating into the mold nest, standard parts required for the design of the resin mold nest displayed on the display are incorporated into the resin mold. A combination of a plurality of processing elements required in designing a resin mold other than the processing shape element for the purpose is selected from a plurality of second unit parts stored in advance in the CAD, and The nest of the resin mold is designed by incorporating it into the nest of the resin mold, the designed nest of the resin mold is stored in the CAD, and the outer dimensions of the nest of the designed resin mold are stored. The external dimensions of the basic structure of the resin mold to which the nest is mounted are selected based on the basic dimensions of the resin mold previously stored based on the external dimensions of the basic structure of the selected resin mold. An optimal basic structure of the resin mold is selected from the structural data, displayed on a display of the CAD, and read from the CAD. The design change of the basic structure is performed by directly changing the drawing of the basic structure of the resin mold displayed on the display, or the basic structure of the resin mold after the design change is stored in advance in the CAD. Is included in multiple basic structure data
It is performed by selecting from the pre-stored basic structure data of the resin mold, changing the standard parts pre-installed in the basic structure of the resin mold read from the CAD, and changing the standard A plurality of first unit parts stored in advance in CAD are selected, and the change of the standard parts incorporated in the basic structure of the resin mold beforehand is performed. A standard part pre-installed in the basic structure of the resin mold read out from the CAD, and a processing shape for attaching the standard part, which are performed by exchanging the processing shape element accompanying the change of the part on the display. The standard parts necessary for designing the resin mold other than the elements and the processing shape elements for mounting the standard parts are provided on the display. Directly writing on the design drawing of the basic structure of the resin mold shown in the above, or selecting a plurality of first unit parts stored in advance in the CAD and displaying the resin mold shown on the display A standard part preliminarily incorporated in the basic structure of the resin mold read out from the CAD, a processing shape element for mounting the standard part, and a resin mold. Whether the processing elements required for the resin mold design other than the processing elements for mounting the standard parts required for the mold design are directly written in the design drawing of the basic structure of the resin mold displayed on the display. Selecting a plurality of second unit parts stored in advance in the CAD, and selecting a resin mode displayed on the display. Unit design system of the resin molding die and performing resin molding mold design by incorporating in the design drawing of the basic structure of the de-mold. 12. The first unit part is obtained by designing a plurality of dimensions and shapes for one standard part shape in advance.
The second unit part is designed as a single drawing data by designing a plurality of dimensions and shapes for each processing shape element in advance.
The resin mold unit design system according to claim 9, 10 or 11, wherein the unit design system is stored. 13. A resin mold design system for designing a resin mold using CAD, wherein the CAD includes a standard part used in a resin mold that is published in a catalog and is generally commercially available. A unit is formed by combining processing shape elements necessary for incorporating the part into the resin mold, and a plurality of dimensions and shapes are designed in advance for each standard part, and the first unit part is stored in advance, and A CAD is combined with a plurality of processing shape elements required for incorporating the standard part into a resin mold, and unitized, and a second designed in advance in accordance with the dimensions and shape of the standard part for each processing shape element. The unit parts are stored in advance and the CAD is used to store the resin other than the processing shape elements necessary for incorporating the standard part into the resin mold. A plurality of processing elements required for designing a mold are combined into a unit, and a third unit part designed in advance in accordance with the dimensions and shape of the standard part for each processing shape element is stored in advance and stored. The outer shape of the nest of the resin mold to be designed is displayed on the CAD display, and all the standard parts and the standard parts required for designing the nest of the resin mold shown on the display are made of resin. In combination with a processing shape element necessary for incorporation into a mold, it is selected from a plurality of first unit parts stored in advance in the CAD,
A plurality of processing shapes required for incorporating all the standard parts required for designing the nest of the resin mold displayed on the display into the resin mold by incorporating the resin mold into the nest of the resin mold. By selecting a combination of elements from among the plurality of second unit parts stored in the CAD in advance and incorporating the combination into the nest of the resin mold, the resin mold displayed on the display is displayed. The combination of a plurality of processing elements required for designing a resin mold other than the processing shape elements for incorporating the standard parts required for the nest design into the resin mold is
D is designed from among a plurality of third unit parts stored in D and incorporated in the nest of the resin mold to design the resin mold. Design system. 14. A resin mold design system for designing a resin mold using CAD. In the CAD, a standard part used in a resin mold that is published in a catalog and is generally commercially available is used in the CAD. A unit is formed by combining processing shape elements necessary for incorporating the part into the resin mold, and a plurality of dimensions and shapes are designed in advance for each standard part, and the first unit part is stored in advance, and A CAD is combined with a plurality of processing shape elements required for incorporating the standard part into a resin mold, and unitized, and a second designed in advance in accordance with the dimensions and shape of the standard part for each processing shape element. The unit parts are stored in advance, and the CAD is used to store the resin molding other than the processing shape elements necessary for incorporating the standard parts into the resin mold. A plurality of processing elements required for designing a metal mold are combined to form a unit, and each processing shape element is designed in advance in accordance with the dimensions and shape of a standard part.
Are stored in advance and the C
A resin mold mold previously designed in a state where AD is combined with standard parts basically required for designing the resin mold and processing shape elements necessary for incorporating the standard parts into the resin mold. The basic structure of the mold is stored in advance as basic structure data for each outer dimension, and the basic structure data of the resin mold is stored in advance based on the outer dimensions of the basic structure of the resin mold to be designed. Select and display on the CAD display,
The design change of the basic structure of the resin mold read out from is performed by directly changing the drawing of the basic structure of the resin mold displayed on the display, or the resin mold after the design change. When the basic structure of the mold is included in a plurality of basic structure data stored in advance in the CAD, it is performed by selecting from the basic structure data of the resin mold previously stored. The change of the standard part previously incorporated in the basic structure of the resin mold read out from the CAD and the change of the processing shape element accompanying the change of the standard part are stored in a plurality of first-order CADs. 1 unit part is selected, and the change of the standard part previously incorporated in the basic structure of the resin mold and the processing shape element accompanying the change of the standard part are described above. It is performed by exchanging on the display to design resin molds other than the standard parts pre-installed in the basic structure of the resin molds read out from the CAD and the processing shape elements for mounting the standard parts. Necessary standard parts and processing shape elements for mounting the standard parts are directly written on a design drawing of a basic structure of a resin mold displayed on the display, or a plurality of first parts stored in advance in CAD.
The unit parts are selected and incorporated into the design drawing of the basic structure of the resin mold displayed on the display, and are incorporated in advance in the basic structure of the resin mold read from the CAD. The standard parts and the processing shape elements for mounting the standard parts, and the processing elements required for designing the resin mold other than the processing elements for mounting the standard parts required for designing the resin mold, are displayed on the display. Directly writing in the design drawing of the basic structure of the resin mold shown in the above, or selecting a plurality of second unit parts stored in advance in CAD and displaying the resin mold in the above display The basic structure of the resin mold is read out from the CAD by incorporating it into the design drawing of the basic structure. A plurality of processing elements required for designing a resin mold other than a processing shape element for incorporating a standard part required for design into the resin mold, and a plurality of processing elements required for designing the resin mold are displayed on the display. Directly into the design drawing of the basic structure of
Designing a resin mold by selecting a plurality of third unit parts stored in the display unit and incorporating them into a design drawing of a basic structure of the resin mold displayed on the display. Resin mold unit design system. 15. A resin mold design system for designing a resin mold using CAD, wherein the CAD includes a standard part used in a resin mold that is listed in a catalog and is generally available on the market. A unit is formed by combining processing shape elements necessary for incorporating the part into the resin mold, and a plurality of dimensions and shapes are designed in advance for each standard part, and the first unit part is stored in advance, and A CAD is combined with a plurality of processing shape elements required for incorporating the standard part into a resin mold, and unitized, and a second designed in advance in accordance with the dimensions and shape of the standard part for each processing shape element. Unit parts are stored in advance, and a resin molding other than the processing shape elements necessary for incorporating the standard parts into a resin mold is stored in the CAD. A plurality of processing elements required for designing a metal mold are combined to form a unit, and each processing shape element is designed in advance in accordance with the dimensions and shape of a standard part.
Are stored in advance and the C
A resin mold mold previously designed in a state where AD is combined with standard parts basically required for designing the resin mold and processing shape elements necessary for incorporating the standard parts into the resin mold. The basic structure of the mold is stored in advance as basic structure data for each outer dimension, the outer shape of the nest of the resin mold to be designed is displayed on the CAD display, and the resin mold displayed on the display is displayed. In combination with all the standard parts necessary for the nest design and the processing shape elements required for incorporating the standard parts into the resin mold, the plurality of first unit parts stored in advance in the CAD are combined. By selecting from among them and incorporating them into the nest of the resin mold, all necessary for the design of the nest of the resin mold displayed on the display are displayed. A plurality of processing shape elements combined with a plurality of processing shape elements for mounting standard parts required for designing a resin mold other than the processing shape elements for mounting quasi-parts are stored in advance in the CAD. By selecting from the second unit parts and incorporating them into the nest of the resin mold, the standard parts required for the design of the nest of the resin mold displayed on the display are converted into the resin mold. A combination of a plurality of processing elements required for designing a resin mold other than a processing shape element for incorporation is selected from a plurality of third unit parts stored in advance in the CAD, By incorporating the nest of the resin mold, the nest of the resin mold is designed. The external dimensions of the basic structure of the resin mold to which the nest is mounted are selected based on the external dimensions of the nest of the designed resin mold, stored in the CAD, and the basic structure of the selected resin mold is set. An optimal basic structure of the resin mold is selected from the basic structure data of the resin mold stored in advance on the basis of the external dimensions of the mold, and displayed on a display of the CAD, and read out from the CAD. The design change of the basic structure of the resin mold is performed by directly changing the drawing of the basic structure of the resin mold displayed on the display, or the basic structure of the resin mold after the design change. Is included in a plurality of basic structure data stored in advance in CAD,
It is performed by selecting from the pre-stored basic structure data of the resin mold, changing the standard parts pre-installed in the basic structure of the resin mold read from the CAD, and changing the standard A plurality of first unit parts stored in advance in CAD are selected, and the change of the standard parts incorporated in the basic structure of the resin mold beforehand is performed. A standard part pre-installed in the basic structure of the resin mold read out from the CAD, and a processing shape for attaching the standard part, which are performed by exchanging the processing shape element accompanying the change of the part on the display. The standard parts necessary for designing the resin mold other than the elements and the processing shape elements for mounting the standard parts are provided on the display. Directly writing on the design drawing of the basic structure of the resin mold shown in the above, or selecting a plurality of first unit parts stored in advance in the CAD and displaying the resin mold shown on the display A standard part preliminarily incorporated in the basic structure of the resin mold read out from the CAD, a processing shape element for mounting the standard part, and a resin mold. Whether the processing elements required for the resin mold design other than the processing elements for mounting the standard parts required for the mold design are directly written in the design drawing of the basic structure of the resin mold displayed on the display. Selecting a plurality of second unit parts stored in advance in the CAD, and selecting a resin mode displayed on the display. A standard part preliminarily incorporated in the basic structure of the resin mold read out from the CAD, and a working shape element for mounting the standard part, and The processing elements required for the resin mold design other than the processing elements for mounting the standard parts required for the resin mold design are shown in the design drawing of the basic structure of the resin mold displayed on the display. Designing a resin mold by directly writing or selecting a plurality of third unit parts pre-stored in CAD and incorporating them into the design drawing of the basic structure of the resin mold shown on the display. And a unit design system for resin molds. 16. The first unit part is obtained by designing a plurality of dimensions and shapes for one standard part shape in advance.
The second unit part is designed as a single drawing data by designing a plurality of dimensions and shapes for each processing shape element in advance.
And the third unit part includes a plurality of processing elements required for designing a resin mold other than a processing shape element necessary for incorporating a standard part into the resin mold. 16. The unit design system for a resin mold according to claim 13, wherein the dimensional shape is designed in advance and stored in CAD as one drawing data. 17. The third unit part includes a plurality of processing elements required for designing a resin mold other than a processing shape element necessary for incorporating the standard part into the resin mold. 2. A unit formed by adding a standard part used in a resin mold and a commercially available resin mold described in a catalog and a processing shape element necessary for incorporating the standard part into the resin mold.
16. The unit design system for a resin mold according to 3, 14, or 15. 18. The third unit part according to claim 17, wherein a plurality of dimensions and shapes are designed in advance for the shape of a standard part to be incorporated into a resin mold and stored in a CAD as one drawing data. Unit design system for resin molds. 19. Using a CAD, an outer shape of a nest of a resin mold to be designed is displayed on a CAD display, and a standard part and a processing shape element required for incorporating the standard part into the resin mold are displayed. Is combined with standard parts used in resin molds which are listed in CAD catalogs and are generally available in the market, and processing shape elements necessary for incorporating the standard parts into the resin molds to form a unit. The nest of the resin mold is designed by selecting from a plurality of unit parts designed in advance for a plurality of dimensions and shapes in each case and incorporating the nest of the resin mold. The basic structure of the resin mold with the optimal external dimensions of the basic structure of the resin mold with the mold nest installed
The parts necessary for the design of the resin mold and the design elements pre-stored in D are incorporated and the optimum resin mold is selected from the basic structure data of a plurality of resin molds corresponding to the external dimensions of the resin mold. The basic structure of the mold is read out on the display, and the design change of the readout basic structure of the resin mold is performed by directly changing the drawing of the basic structure of the resin mold displayed on the display, The basic structure of the resin mold read out from the CAD is selected by selecting from the basic structure data of the resin mold stored in advance in the CAD, and the standard parts incorporated in advance are changed and Changes in machining shape elements due to changes in standard parts
Unitized by combining standard parts used in resin molds that are listed in a catalog stored in advance in CAD and are generally used for resin molds, and processing shape elements necessary for incorporating the standard parts into the resin molds. By selecting from among the plurality of unit parts, and changing the standard parts incorporated in the basic structure of the resin mold in advance and the processing shape elements accompanying the changes of the standard parts on the display, Standard parts and standard parts necessary for designing the resin mold other than the standard parts pre-installed in the basic structure of the resin mold read from the CAD and the processing shape elements for attaching the standard parts. Resin other than the processing elements for mounting the standard components required for the design Either writing processing element that requires the Rudo mold design directly on the design drawing of the basic structure of the resin mold that is displayed on the display, pre CA
Designing a resin mold by selecting a plurality of unit parts stored in D and incorporating them into a design drawing of a basic structure of the resin mold shown on the display, and designing based on the design. A method of manufacturing a resin mold using a unit design system for a resin mold, wherein a drawing is drawn and a resin mold is manufactured based on the design drawing. 20. Using a CAD, an outer shape of a nest of a resin mold to be designed is displayed on a CAD display, and a standard part and a processing shape element necessary for incorporating the standard part into the resin mold are provided. Into a unit by combining standard parts used in resin molds that are listed in the catalog and are generally used in the market and processing shape elements necessary for incorporating the standard parts into the resin mold. Select from a plurality of first unit parts designed in advance for a plurality of dimensions and stored in the CAD, and incorporate them into the nest of the resin mold,
A plurality of processing shape elements required to incorporate the standard part into the resin mold are combined into a unit to form a unit, and a plurality of processing shape elements are designed in advance according to the dimensions and shapes of the standard parts and stored in the CAD. The resin mold is selected from the second unit parts and incorporated into the nest of the resin mold, and the standard parts are incorporated into the processing shape elements for incorporating the standard parts selected from the second unit parts. The nesting of the mold is designed, and the basic structure of the resin mold having the optimum outer dimensions of the basic structure of the resin mold to which the nest of the designed resin mold is mounted is stored in the CAD in advance. The basic structure data of multiple resin molds corresponding to the external dimensions of the resin molds, incorporating the parts and design elements necessary for mold design. Read out the basic structure of the optimal resin mold on the display and change the design change of the read basic structure of the resin mold directly to the drawing of the basic structure of the resin mold displayed on the display Or by selecting from the basic structure data of the resin mold previously stored in the CAD in the basic structure of the resin mold read from the CAD, The change of the standard parts pre-installed in the basic structure and the change of the processing shape element accompanying the change of the standard parts are described in advance in C.
It is performed by selecting from the first unit parts stored in the AD and exchanging them on the display, and the standard parts and the standard parts previously incorporated in the basic structure of the resin mold read from the CAD. The standard parts necessary for designing the resin mold other than the processing shape elements for mounting the standard parts and the processing shape elements for mounting the standard parts are the basics of the resin molding die displayed on the display. The CAD is performed by directly writing the design drawing of the structure or by selecting a plurality of first unit parts stored in advance in a CAD and incorporating the first unit parts into a basic structure of a resin mold displayed on the display. The standard parts and the standard parts pre-installed in the basic structure of the resin mold read out from Whether to directly write the processing shape elements for attaching the standard parts required for designing the resin molding die other than the processing shape elements to be mounted on the design drawing of the basic structure of the resin molding die displayed on the display. A plurality of second unit parts stored in advance in CAD are selected and incorporated into the basic structure of the resin mold displayed on the display, and the standard parts are processed into the standard part-incorporated processing shape elements. A resin mold unit comprising: designing a basic structure of the resin mold by incorporating the same; creating a design drawing based on the design; and manufacturing the resin mold based on the design drawing. A method of manufacturing a resin mold using a design system. 21. Using a CAD, an outer shape of a nest of a resin mold to be designed is displayed on a CAD display, and a standard part and a processing shape element necessary for incorporating the standard part into the resin mold are provided. Into a unit by combining standard parts used in resin molds that are listed in the catalog and generally used in resin molds, and processing shape elements necessary for incorporating the standard parts into the resin mold. Select from a plurality of first unit parts designed in advance for a plurality of dimensions and stored in a CAD, and incorporate them into the nest of the resin mold,
Dimensions of standard parts for each processing shape element by combining multiple processing elements required for designing the resin molding die other than the processing shape elements required to incorporate the standard parts into the resin mold By selecting from a plurality of second unit parts which are designed in advance according to the shape and stored in the CAD, the nests of the resin mold are incorporated into the nest of the resin mold, and the nest of the resin mold is designed. The basic structure of the resin mold with the optimal outer dimensions of the basic structure of the resin mold to which the nest of the designed resin mold is mounted. Based on the basic structure data of multiple resin molds designed to incorporate the design elements and correspond to the external dimensions of the resin mold, the optimal basic structure of the resin mold Or the reading on the display is performed by changing the drawing of the basic structure of the resin mold that is displayed on the display design changes of the basic structure of the read-out resin mold directly,
The basic structure of the resin mold read out from the CAD is selected by selecting from the basic structure data of the resin mold previously stored in the CAD, and the basic structure of the resin mold is previously incorporated into the basic structure of the resin mold. The change of the standard part and the change of the processing shape element accompanying the change of the standard part are performed by selecting from the first unit parts stored in advance in CAD and replacing them on the display. Standard parts and standard parts required for designing the resin mold other than the standard parts pre-installed in the basic structure of the resin mold read from the CAD and the processing shape elements for attaching the standard parts. The processing shape element for mounting is directly attached to the design drawing of the basic structure of the resin mold displayed on the display. Or by selecting a plurality of first unit parts stored in advance in the CAD and incorporating them into the basic structure of the resin mold shown on the display, and read out from the CAD. In the basic structure of the resin mold, a plurality of processing elements required for designing the resin mold other than the processing shape elements required for incorporating the standard parts into the resin mold are displayed on the display. Directly into the design drawing of the basic structure of the resin mold that has been
A plurality of second unit parts stored in the AD are selected and incorporated into the basic structure of the resin mold shown on the display, and the basic structure of the resin mold is designed. A method of manufacturing a resin mold using a unit design system for a resin mold, wherein a design drawing based on the design drawing is created and a resin mold is manufactured based on the design drawing. 22. Using a CAD, an outer shape of a nest of a resin mold to be designed is displayed on a CAD display, and a standard part and a processing shape element necessary for incorporating the standard part into the resin mold are provided. Into a unit by combining standard parts used in resin molds that are listed in the catalog and are generally used in the market and processing shape elements necessary for incorporating the standard parts into the resin mold. Select from a plurality of first unit parts designed in advance for a plurality of dimensions and stored in the CAD, and incorporate them into the nest of the resin mold,
A plurality of processing shape elements required to incorporate the standard part into the resin mold are combined into a unit to form a unit, and a plurality of processing shape elements are designed in advance according to the dimensions and shapes of the standard parts and stored in the CAD. Selecting from the second unit parts, incorporating into the nest of the resin mold, incorporating the standard parts into the processing shape elements for incorporating the standard parts selected from the second unit parts,
Dimensions of standard parts for each processing shape element by combining multiple processing elements required for designing the resin molding die other than the processing shape elements required to incorporate the standard parts into the resin mold By selecting from a plurality of third unit parts designed in advance and stored in the CAD according to the shape, and incorporating them into the nest of the resin mold, the nest of the resin mold is designed. The basic structure of the resin mold with the optimal outer dimensions of the basic structure of the resin mold to which the nest of the designed resin mold is mounted. Based on the basic structure data of multiple resin molds designed to incorporate the design elements and correspond to the external dimensions of the resin mold, the optimal basic structure of the resin mold Or the reading on the display is performed by changing the drawing of the basic structure of the resin mold that is displayed on the display design changes of the basic structure of the read-out resin mold directly,
The basic structure of the resin mold read out from the CAD is selected by selecting from the basic structure data of the resin mold previously stored in the CAD, and the basic structure of the resin mold is previously incorporated into the basic structure of the resin mold. The change of the standard part and the change of the processing shape element accompanying the change of the standard part are performed by selecting from the first unit parts stored in advance in CAD and replacing them on the display. Standard parts and standard parts required for designing the resin mold other than the standard parts pre-installed in the basic structure of the resin mold read from the CAD and the processing shape elements for attaching the standard parts. The processing shape element for mounting is directly attached to the design drawing of the basic structure of the resin mold displayed on the display. Or by selecting a plurality of first unit parts stored in advance in the CAD and incorporating them into the basic structure of the resin mold shown on the display, and read out from the CAD. In the basic structure of the resin mold, a processing shape element for attaching a standard part necessary for the design of the resin mold other than a standard part pre-installed and a processing shape element for attaching the standard part, The resin mold displayed on the display by directly writing in the design drawing of the basic structure of the resin mold shown on the display or selecting a plurality of second unit parts stored in advance in CAD Incorporated into the basic structure of the mold, the standard part was incorporated into the processing shape element for incorporating the standard part, and the resin mold was In designing this structure, the basic structure of the resin mold read from the CAD is used to design a resin mold other than the processing shape elements necessary for incorporating the standard parts into the resin mold. A plurality of necessary processing elements are directly written in a design drawing of a basic structure of a resin mold displayed on the display, or a plurality of third unit parts stored in advance in CAD are selected. The basic structure of the resin mold is incorporated into the basic structure of the resin mold shown on the display, a design drawing based on the design is drawn, and the resin mold is formed based on the design drawing. A method of manufacturing a resin mold using a resin mold unit design system characterized by manufacturing the mold. 23. A die-casting die designing system for designing a die-casting die using CAD, wherein the CAD includes a standard part used for a die-casting die which is described in a catalog and is generally commercially available. A unit is formed by combining the processing shape elements necessary for incorporating the part into the die casting die, and unit parts designed in advance for a plurality of dimensions and shapes for each standard part are stored in advance, and the die casting die is stored. The basic structure of the die-casting mold designed in combination with the standard parts necessary for the design of the mold and the processing shape elements required for incorporating the standard parts into the die-casting mold is described for each external dimension. In advance, the outer shape of the nest of the die casting die to be designed is displayed on the CAD display, and displayed on the display. All the standard parts necessary for designing the nest of the die for die casting and the processing shape elements necessary for incorporating the standard parts into the die for die casting are described above in advance.
AD is selected from a plurality of unit parts stored in the AD, and the nest of the die casting mold is designed by incorporating the die into the nest of the die casting mold. The external dimensions of the basic structure of the die-casting die to which the nest is mounted are selected based on the external dimensions of the nest of the designed die-casting die, and the basic dimensions of the basic structure of the selected die-casting die are determined. From the basic structure data of the die-casting die stored in advance based on the external dimensions, the optimum basic structure of the die-casting die is selected, displayed on the CAD display, and read out from the CAD. The design change of the basic structure of the die-casting mold is performed by directly changing the drawing of the basic structure of the die-casting die displayed on the display. Performed or, if the basic structure of the die casting mold after the design change is included in the plurality of basic structural data previously stored in the CAD by,
A change is made to the standard parts pre-installed in the basic structure of the die casting die read out from the CAD by selecting from the basic structure data of the die casting die stored in advance, and the standard The change of the processing shape element due to the change of the part is performed by selecting the unit part stored in advance in the CAD, changing the standard part incorporated in the basic structure of the die-casting die in advance, and changing the standard part. By replacing the machined shape elements on the display, standard parts pre-installed in the basic structure of the die casting mold read out from the CAD and die casting metal other than the machined shape elements for mounting the standard parts. Standard parts required for mold design, processing shape elements for mounting the standard parts, and die-casting mold design Processing elements required for die-casting die design other than processing elements for mounting standard parts are directly written in the design drawing of the basic structure of the die-casting die displayed on the display, or stored in advance in CAD. A die casting mold is designed by selecting a plurality of unit parts and incorporating them into a design drawing of a basic structure of the die casting mold displayed on the display. Unit design system. 24. A die-casting die design system for designing a die-casting die by using CAD, wherein the CAD includes standard parts used in die-casting dies which are listed in a catalog and are generally commercially available. A unit is formed by combining a processing shape element necessary for incorporating a part into a die casting die, a plurality of dimensions and shapes are designed in advance for each standard part, and a first unit part is stored in advance, and A plurality of machining shape elements required to incorporate the standard part into the die for die casting are combined into a CAD to form a unit, and each machining shape element is designed in advance according to the dimension and shape of the standard part. The unit parts are stored in advance, and standard parts basically required for designing a die for die casting and the standard parts are stored in the CAD. The basic structure of the die-casting die designed in advance in combination with the processing shape elements necessary for incorporation into the die for die-casting is stored in advance as basic structure data for each external dimension, and the die-casting die to be designed is designed. In order to display the external shape of the mold nest on the CAD display, and to incorporate all the standard parts necessary for designing the die nest of the die casting mold displayed on the display and the standard parts into the die casting mold. A required machining shape element is selected from the plurality of first unit parts stored in advance in the CAD, and is incorporated in the die casting die, so that the die casting die displayed on the display is displayed. For mounting all standard parts required for mold nest design For mounting standard parts required for die-casting mold design other than machining shape elements By selecting a plurality of combined processing shape elements from among the plurality of second unit parts stored in advance in the CAD, and incorporating them into the nest of the die casting mold, a die casting mold is formed. The nest of the die is designed, the nest of the designed die-casting die is stored in the CAD, and based on the outer dimensions of the nest of the designed die-casting die, the die nest of the die-casting die is mounted. The external structure of the basic structure is selected, and the basic structure of the optimal die-casting die is selected from the basic structure data of the die-casting die stored in advance based on the external size of the basic structure of the selected die-casting die. Is displayed on the display of the CAD, and the design change of the basic structure of the die casting die read out from the CAD is displayed on the display. This can be done by directly changing the drawing of the basic structure of the die-casting die displayed, or the basic structure of the die-casting die after the design change can be stored in a plurality of basic structure data stored in advance in CAD. If included,
This is performed by selecting from the basic structure data of the die-casting die stored in advance and changing the standard parts pre-installed in the basic structure of the die-casting die read out from the CAD, and A plurality of first unit parts stored in advance in CAD are selected to change the machining shape element in accordance with the change of the part, and the standard parts incorporated in the basic structure of the die casting die in advance and the standard parts are changed. A standard part pre-installed in the basic structure of the die casting die read out from the CAD, and a processing shape for attaching the standard part, which are performed by exchanging the processing shape element accompanying the change of the part on the display. The standard parts necessary for designing the die for die casting other than the elements and the processing shape elements for mounting the standard parts are provided on the display. Is directly written in the design drawing of the basic structure of the die casting die displayed on the display, or a plurality of first unit parts stored in advance in CAD are selected and the die casting die displayed on the display is displayed. A standard part preliminarily incorporated in the basic structure of the die-casting die read out of the CAD, a processing shape element for mounting the standard part, and a die-casting metal. Whether the processing elements required for die-casting die design other than the processing elements for mounting standard parts required for die design are directly written in the design drawing of the basic structure of the die-casting die displayed on the display. Selecting a plurality of second unit parts stored in advance in the CAD and displaying the diecass displayed on the display. Die casting mold unit design system which is characterized in that the die-casting mold design by incorporating the design drawing of the basic structure of the mold. 25. A die-casting die design system for designing a die-casting die using CAD, wherein the CAD includes a standard part used in a die-casting die generally described in a catalog and commercially available. A unit is formed by combining a processing shape element necessary for incorporating a part into a die casting die, a plurality of dimensions and shapes are designed in advance for each standard part, and a first unit part is stored in advance, and A CAD is combined with a plurality of processing elements required for designing a die casting mold other than the processing shape elements required for incorporating the standard parts into the die casting mold, and unitized. The second unit parts designed in advance in accordance with the dimensions and shapes of the standard parts are stored in advance, and a die for die casting is designed in the CAD. The basic structure of the die-casting die designed in advance in a state where the standard parts basically required for the process and the processing shape elements necessary to incorporate the standard part into the die-casting die The external shape of the die casting die to be designed is stored in advance as basic structure data, and the outer shape of the die casting die to be designed is displayed on the CAD display. In combination with a standard part and a processing shape element necessary for incorporating the standard part into a die-casting die, the die-casting die is selected from a plurality of first unit parts stored in advance in the CAD. By incorporating the die into the die nest, the standard parts required for the die casting die design shown on the display are incorporated into the die casting die. A combination of a plurality of processing elements required in designing a die-casting die other than the processing shape element is selected from a plurality of second unit parts stored in advance in the CAD, and The nest of the die casting mold is designed by incorporating the nest of the die casting mold, the designed nest of the die casting mold is stored in the CAD, and the outer dimensions of the designed nest of the die casting mold are set. Based on the external dimensions of the basic structure of the die-casting die to which the nest is to be mounted, and based on the external dimensions of the basic structure of the selected die-casting die, the basic dimensions of the die-casting die stored in advance. The most suitable basic structure of the die-casting die is selected from the structural data, displayed on the CAD display, and read out from the CAD. The design change of the basic structure is performed by directly changing the drawing of the basic structure of the die casting die displayed on the display, or the basic structure of the die casting die after the design change is stored in advance in the CAD. Is included in multiple basic structure data
This is performed by selecting from the basic structure data of the die-casting die stored in advance and changing the standard parts pre-installed in the basic structure of the die-casting die read out from the CAD, and A plurality of first unit parts stored in advance in CAD are selected to change the machining shape element in accordance with the change of the part, and the standard parts incorporated in the basic structure of the die casting die in advance and the standard parts are changed. A standard part pre-installed in the basic structure of the die casting die read out from the CAD, and a processing shape for attaching the standard part, which are performed by exchanging the processing shape element accompanying the change of the part on the display. The standard parts necessary for designing the die for die casting other than the elements and the processing shape elements for mounting the standard parts are provided on the display. Is directly written in the design drawing of the basic structure of the die casting die displayed on the display, or a plurality of first unit parts stored in advance in CAD are selected and the die casting die displayed on the display is displayed. A standard part preliminarily incorporated in the basic structure of the die-casting die read out of the CAD, a processing shape element for mounting the standard part, and a die-casting metal. Whether the processing elements required for die-casting die design other than the processing elements for mounting standard parts required for die design are directly written in the design drawing of the basic structure of the die-casting die displayed on the display. Selecting a plurality of second unit parts stored in advance in the CAD and displaying the diecass displayed on the display. Die casting mold unit design system which is characterized in that the die-casting mold design by incorporating the design drawing of the basic structure of the mold. 26. A die-casting die design system for designing a die-casting die by using a CAD, wherein standard parts used for a die-casting die which is generally described in a catalog and is commercially available in the CAD, and the standard part. A unit is formed by combining a processing shape element necessary for incorporating a part into a die casting die, a plurality of dimensions and shapes are designed in advance for each standard part, and a first unit part is stored in advance, and A plurality of machining shape elements required to incorporate the standard part into the die for die casting are combined into a CAD to form a unit, and each machining shape element is designed in advance according to the dimension and shape of the standard part. The unit parts are stored in advance, and the CAD is used for the die casting other than the processing shape elements necessary for incorporating the standard parts into the die casting die. A plurality of processing elements required for designing a tooling die are combined to form a unit, and each processing shape element is designed in advance in accordance with the dimensions and shape of a standard part.
Are stored in advance and the C
A die-casting die designed in advance in a state where a standard part basically required for designing a die-casting die and a processing shape element necessary for incorporating the standard part into the die-casting die are combined with the AD. The basic structure of the die is stored in advance as basic structure data for each external dimension, the external shape of the nest of the die casting die to be designed is displayed on the CAD display, and the die casting die displayed on the display is displayed. In combination with all the standard parts required for the nest design and the processing shape elements required for incorporating the standard parts into the die-casting die, the plurality of first unit parts stored in advance in the CAD are combined. By selecting from among them and incorporating them into the nest of the die-casting mold, all necessary elements for designing the nest of the die-casting mold displayed on the display are displayed. A plurality of processing shape elements combined with a plurality of processing shape elements for standard part mounting required for the design of a die casting die other than the processing shape elements for mounting of quasi-parts are stored in the CAD in advance. By selecting from the second unit parts and incorporating it into the nest of the die casting mold, the standard parts required for designing the nest of the die casting mold displayed on the display are converted into the die casting mold. A combination of a plurality of processing elements required for designing a die casting die other than the processing shape element to be incorporated is selected from a plurality of third unit parts stored in advance in the CAD, The nest of the die-casting mold is designed by incorporating the nest of the die-casting mold, and The external dimensions of the basic structure of the die-casting die to which the nest is mounted are selected based on the external dimensions of the die-casting die designed and stored in the CAD, and the basic structure of the selected die-casting die is set. From the basic structure data of the die-casting die stored in advance based on the external dimensions of the die, the optimum basic structure of the die-casting die is selected, displayed on the CAD display, and read out from the CAD. The design change of the basic structure of the die-casting die is performed by directly changing the drawing of the basic structure of the die-casting die displayed on the display, or the basic structure of the die-casting die after the design change. Is included in a plurality of basic structure data stored in advance in CAD,
This is performed by selecting from the basic structure data of the die-casting die stored in advance and changing the standard parts pre-installed in the basic structure of the die-casting die read out from the CAD, and A plurality of first unit parts stored in advance in CAD are selected to change the machining shape element in accordance with the change of the part, and the standard parts incorporated in the basic structure of the die casting die in advance and the standard parts are changed. A standard part pre-installed in the basic structure of the die casting die read out from the CAD, and a processing shape for attaching the standard part, which are performed by exchanging the processing shape element accompanying the change of the part on the display. The standard parts necessary for designing the die for die casting other than the elements and the processing shape elements for mounting the standard parts are provided on the display. Is directly written in the design drawing of the basic structure of the die casting die displayed on the display, or a plurality of first unit parts stored in advance in CAD are selected and the die casting die displayed on the display is displayed. A standard part preliminarily incorporated in the basic structure of the die-casting die read out of the CAD, a processing shape element for mounting the standard part, and a die-casting metal. Whether the processing elements required for die-casting die design other than the processing elements for mounting standard parts required for die design are directly written in the design drawing of the basic structure of the die-casting die displayed on the display. Selecting a plurality of second unit parts stored in advance in the CAD and displaying the diecass displayed on the display. A standard part pre-installed in the basic structure of the die-casting die read out from the CAD and a working shape element for attaching the standard part, and The processing elements required for die-casting die design other than the processing elements for mounting standard parts required for die-casting die design are shown in the design drawing of the basic structure of the die-casting die displayed on the display. Designing a die casting mold by directly writing or selecting a plurality of third unit parts pre-stored in CAD and incorporating them into the design drawing of the basic structure of the die casting mold displayed on the display. And a unit design system for a die casting die. 27. Using a CAD, an outer shape of a nest of a die casting die to be designed is displayed on a display of the CAD, and a standard part and a processing shape element necessary for incorporating the standard part into the die casting die are provided. Is combined with standard parts used in die-casting dies that are listed in the catalog in CAD and used in general and die-casting dies, and processed shape elements necessary for incorporating the standard parts into die-casting dies. The nest of the die casting mold is designed by selecting from a plurality of unit parts designed in advance for each of a plurality of dimensions and shapes and incorporating the die into the nest of the die casting mold. The basic structure of the die-casting die with the optimal external dimensions of the basic structure of the die-casting die to which the mold nest is attached is CA.
D is a die-casting die which incorporates the parts and design elements necessary for designing the die-casting die which are stored in advance in D and selects the optimum die-casting die from the basic structure data of a plurality of die-casting die corresponding to the external dimensions of the die-casting die. The basic structure of the die is read on the display, and the design change of the read basic structure of the die casting die is performed by directly changing the drawing of the basic structure of the die casting die displayed on the display, The basic structure of the die-casting die read from the CAD is selected by selecting from the basic structure data of the die-casting die stored in advance in the CAD, and the standard parts incorporated in advance are changed. Changes in machining shape elements due to changes in standard parts
A first unit part stored in advance in CAD is selected, and a standard part incorporated in the basic structure of the die-casting die in advance and a processing shape element accompanying the change of the standard part are replaced on the display. Thus, the standard parts necessary for designing the die casting mold other than the standard parts pre-installed in the basic structure of the die casting mold read out from the CAD and the processing shape elements for attaching the standard parts, and Processing shape elements for mounting the standard parts and processing elements required for die casting mold design other than processing elements for mounting standard parts required for die casting die design are displayed on the display. Write directly to the design drawing of the basic structure of the die-casting die, or write multiple unit parts stored in advance in CAD. Then, a die casting mold is designed by incorporating it into a design drawing of the basic structure of the die casting mold displayed on the display, a design drawing based on the design is drawn, and based on the design drawing, A method for manufacturing a die casting die using a unit design system for a die casting die, wherein the die casting die is manufactured by using the method. 28. Using a CAD, an outer shape of a nest of a die casting mold to be designed is displayed on a display of the CAD, and a standard part and a processing shape element necessary for incorporating the standard part into the die casting mold are provided. The standard parts used in the die-casting dies listed in the catalog and used in the market are combined with the processing shape elements necessary to incorporate the standard parts into the die-casting dies. Select from a plurality of first unit parts designed in advance for a plurality of dimensions and stored in the CAD, and incorporate them into the nest of the die casting mold,
A plurality of machining shape elements required to incorporate the standard parts into the die casting die are combined into a unit to form a unit, and each machining shape element is designed in advance according to the dimensions and shape of the standard part and stored in the CAD. It is selected from the second unit parts and incorporated into the die nest of the die-casting die, and the standard parts are incorporated into the processing shape elements for incorporating the standard parts selected from the second unit parts and the die-casting parts are formed. The nesting of the die is designed, and the basic structure of the die-casting die having the optimal outer dimensions of the basic structure of the die-casting die to which the designed die-casting die is mounted is stored in the CAD in advance. The basic structure data of multiple die-casting dies corresponding to the external dimensions of the die-casting die incorporating the parts and design elements necessary for the die design. Read out the basic structure of the die-casting die that is optimal on the display, and directly change the drawing of the basic structure of the die-casting die displayed on the display to the design change of the read-out basic structure of the die-casting die Or by selecting from the basic structure data of the die-casting die stored in advance in the basic structure of the die-casting die read out from the CAD, and performing the die-casting die. The change of the standard parts pre-installed in the basic structure and the change of the machining shape element accompanying the change of the standard parts are determined in advance by C
A standard part and a standard part which are selected from among the first unit parts stored in the AD and exchanged on the display and are incorporated in the basic structure of the die casting die read out from the CAD in advance. The standard parts required for designing the die casting die other than the processing shape elements for mounting the standard parts and the processing shape elements for mounting the standard parts are the basics of the die casting die displayed on the display. The above-mentioned CAD is performed by directly writing in the design drawing of the structure or by selecting a plurality of first unit parts stored in advance in the CAD and incorporating them into the basic structure of the die-casting mold displayed on the display. The standard parts and the standard parts pre-installed in the basic structure of the die for Whether the working shape element for attaching the standard parts required for designing the die casting mold other than the working shape element for cutting is directly written on the design drawing of the basic structure of the die casting mold displayed on the display. Selecting a plurality of second unit parts stored in advance in the CAD, incorporating them into the basic structure of the die-casting die displayed on the display, and adding the standard parts to the processing shape elements for incorporating the standard parts. Incorporating the basic structure of the die casting die, designing a design drawing based on the design, and manufacturing the die casting die based on the design drawing. Manufacturing method of die for die casting using unit design system. 29. Using a CAD, an outer shape of a nest of a die-casting die to be designed is displayed on a display of the CAD, and a standard part and a processing shape element necessary for incorporating the standard part into the die-casting die are provided. Into a unit by combining standard parts used in die-casting dies listed in catalogs and processing shape elements necessary for incorporating the standard parts into die-casting dies. Select from a plurality of first unit parts designed in advance for a plurality of dimensions and stored in the CAD, and incorporate them into the nest of the die casting mold,
Dimensions of standard parts for each machining shape element by combining multiple machining elements required for designing the die casting mold other than the machining shape elements required to incorporate the standard parts into the die casting mold By selecting from a plurality of second unit parts designed in advance according to the shape and stored in the CAD, the nests of the die casting mold are designed by incorporating them into the nest of the die casting mold, and the nest of the die casting mold is designed. The basic structure of the die-casting die with the optimal outer dimensions of the basic structure of the die-casting die to which the nest of the designed die-casting die is to be attached. The basic structure of the optimal die-casting die from the basic structural data of a plurality of die-casting dies designed according to the external dimensions of the die-casting die incorporating design elements. Or the reading on the display is performed by changing the drawing of the basic structure of the die casting mold for the design change of the basic structure of the read-out die-casting mold being displayed on the display directly,
The basic structure of the die-casting die read out from the CAD is selected from the basic structure data of the die-casting die stored in advance in the CAD, and the basic structure of the die-casting die is previously incorporated into the basic structure of the die-casting die. The change of the standard part and the change of the processing shape element accompanying the change of the standard part are performed by selecting from the first unit parts stored in advance in CAD and replacing them on the display. Standard parts necessary for designing the die casting mold other than the standard parts pre-installed in the basic structure of the die casting mold read out from the CAD and the processing shape elements for attaching the standard parts, and the standard parts The processing shape element for attaching the die directly to the design drawing of the basic structure of the die casting mold displayed on the display Or by selecting a plurality of first unit parts stored in advance in the CAD and incorporating them into the basic structure of the die-casting die displayed on the display, and read out from the CAD. In the basic structure of the die-casting die, a plurality of processing elements required for designing the die-casting die other than the processing shape elements necessary for incorporating the standard parts into the die-casting die are displayed on the display. Directly into the design drawing of the basic structure of the die casting die
A plurality of second unit parts stored in the AD are selected, incorporated into the basic structure of the die casting die displayed on the display, and the basic structure of the die casting die is designed. A method for manufacturing a die-casting die using a die-casting die unit design system, comprising drawing a design drawing based on the design drawing and manufacturing the die-casting die based on the design drawing. 30. Using a CAD, an outer shape of a nest of a die casting die to be designed is displayed on a display of the CAD, and a standard part and a processing shape element necessary for incorporating the standard part into the die casting die are provided. The standard parts used in the die-casting dies listed in the catalog and used in the market are combined with the processing shape elements necessary to incorporate the standard parts into the die-casting dies. Select from a plurality of first unit parts designed in advance for a plurality of dimensions and stored in the CAD, and incorporate them into the nest of the die casting mold,
A plurality of machining shape elements required to incorporate the standard parts into the die casting die are combined into a unit to form a unit, and each machining shape element is designed in advance according to the dimensions and shape of the standard part and stored in the CAD. Selecting from the second unit parts, incorporating into the nest of the die-casting mold, incorporating the standard parts into the machining shape elements for incorporating the standard parts selected from the second unit parts,
Dimensions of standard parts for each machining shape element by combining multiple machining elements required for designing the die casting mold other than the machining shape elements required to incorporate the standard parts into the die casting mold By selecting from a plurality of third unit parts designed in advance according to the shape and stored in the CAD, and incorporating the third unit parts into the nest of the die casting mold, designing the nest of the die casting mold is performed. The basic structure of the die-casting die with the optimal outer dimensions of the basic structure of the die-casting die to which the nest of the designed die-casting die is to be attached. The basic structure of the optimal die-casting die from the basic structural data of a plurality of die-casting dies designed according to the external dimensions of the die-casting die incorporating design elements. Or the reading on the display is performed by changing the drawing of the basic structure of the die casting mold for the design change of the basic structure of the read-out die-casting mold being displayed on the display directly,
The basic structure of the die-casting die read out from the CAD is selected from the basic structure data of the die-casting die stored in advance in the CAD, and the basic structure of the die-casting die is previously incorporated into the basic structure of the die-casting die. The change of the standard part and the change of the processing shape element accompanying the change of the standard part are performed by selecting from the first unit parts stored in advance in CAD and replacing them on the display. Standard parts necessary for designing the die casting mold other than the standard parts pre-installed in the basic structure of the die casting mold read out from the CAD and the processing shape elements for attaching the standard parts, and the standard parts The processing shape element for attaching the die directly to the design drawing of the basic structure of the die casting mold displayed on the display Or by selecting a plurality of first unit parts stored in advance in the CAD and incorporating them into the basic structure of the die-casting die displayed on the display, and read out from the CAD. In the basic structure of the die-casting die, a processing shape element for mounting a standard part necessary for designing a die-casting die other than a standard part and a processing shape element for mounting the standard part which are pre-installed, Directly write in the design drawing of the basic structure of the die casting die displayed on the display, or select a plurality of second unit parts stored in advance in CAD and display the die casting die displayed on the display. Incorporated into the basic structure of the mold, and the standard part was incorporated into the processing shape element for incorporating the standard part, and the die-casting mold In designing this structure, the die structure for die casting other than the processing shape elements required for incorporating the standard parts into the die casting die is added to the basic structure of the die casting die read from the CAD. A plurality of required processing elements are directly written in a design drawing of a basic structure of a die casting die displayed on the display, or a plurality of third unit parts stored in advance in CAD are selected. The basic structure of the die-casting die is incorporated into the basic structure of the die-casting die displayed on the display, and a design drawing based on the design is drawn. A method for manufacturing a die-casting die using a die-casting die unit design system characterized by manufacturing the die.