KR20050024733A - Total Service Method for Mold Manufacture using Network - Google Patents

Abstract

PURPOSE: A method for offering a total service to perform all processes for making a mold through the network is provided to perform all processes from a request to mass injection in one-stop by storing work data for all processes to a mold portal server, advancing the processes on the online based on each work process, and automatically performing the process such as mock-up and mold making according to a work order. CONSTITUTION: A client selects a specification for making the mold after connecting to the mold portal server through the Internet(S112). Client information and mold making information are stored in a database(S114). A design computer designs an appearance of a product by the mold making information and stores it in the database(S116). A tool design computer designs a tool fit to the stored design and stores it in the database(S118). The mock-up is made by transmitting the tool design data stored in the database to a mock-up making system(S120). The mold is designed by using a 2D(Dimensional) or 3D modeling processor based on the mold making data and is stored in the database(S124). The product is mass-injected by using the made mold(S126).

Description

Total Service Method for Mold Manufacture using Network}

The present invention relates to a mold manufacturing method, and more particularly, the entire process from design, mechanical design, mock-up, vacuum molding, mold design, mold manufacturing, and injection to in-house. The total service method for mold making through a network that allows the production to get the maximum effect more quickly and with minimal cost.

In general, the mold manufacturing for the production of the product is made through the process of product design, mechanical design, mock-up manufacturing.

The client to produce the product first determines the cavity and then the mold type. After deciding on this, the client visits the manufacturer to request a quotation for mold making, discusses the payment method, and orders the mold and discusses the delivery date.

The mold maker who receives this request enters the product design when the final contract is made with the client, and sends the completed design to the client for review when the design is completed.

After the client confirms the design, the product is designed through the product design process.

After the mold maker finishes the product design, the mockup is produced through the mockup process, and the mold design and production are completed when the mockup is completed through the client's confirmation and correction step.

However, such a mold manufacturing method according to the prior art is requested by the client visits a mold specialized company, and the mold manufacturing body performs a mock-up production or a mold production after requesting a design or mechanical design work, or design or mechanical design There is a problem of delay in accordance with each company's work load until the completion of the product, because the mock-up or mold production is commissioned to a specialized company, and each company is responsible for transferring the responsibility to other companies. In addition, the cost is not uniform for each company had a problem that takes a lot of costs if the wrong choice.

The present invention is to solve the above-mentioned problems of the prior art, the purpose is to network the whole process from product design, mechanical design, mock-up, vacuum mold, mold design, mold manufacturing, injection Work data is stored in the mold total server through online work according to each work flow, and work such as mock-up and mold making are produced automatically according to the order of work. It is related with the total manufacturing method of mold making through a network to be processed.

The mold manufacturing total service process through the network according to the present invention for achieving the object of the present invention is to select the specifications for the mold production after accessing the mold portal server via the Internet to the client computer requesting the mold production of the product Step 1, the second step of storing the client information and the information for the mold production in the database as the mold production request is connected to the mold portal server, and the information stored by the design computer that confirmed the mold production information stored in the database According to the third step of designing the appearance of the product in accordance with the database stored in the database, and the fourth step of designing the instrument design for the design stored in the database with the instrument design computer and storing it in the database; Mock-up by transferring design data to mock-up production system A fifth step of manufacturing, a sixth step of designing a mold using a two-dimensional and three-dimensional modeling processor based on the mold data stored in the database as the mock-up is completed, and storing the mold in the database; And a seventh step of transmitting the stored mold design data to the mold making system and proceeding to manufacture the mold, and an eighth step of mass-producing the product into the manufactured mold.

The present invention made as described above will be described in detail with reference to the accompanying drawings.

1 is a configuration of a mold manufacturing total service system through a network for implementing the present invention.

The client computer 101 connected to the Internet and the client computer 101 connected to the Internet to request mold production or mass production are processed. Mold total server 110 for storing the database in the database 111, and connected to the intranet through a hub, and performs a design of the product and the mold total server 110 for storing the result in the database 111, and A design computer 121 connected to a mold total server 110 as a hub to design an appearance of a client's product stored in the database 111 and storing design data in the database 110, and the mold total server. An instrument design computer 122 that performs instrument design for the designed product stored in the database 111 of 110, and instrument design stored in the database 111; A mock-up production system 124 for performing mock-up production on the finished product, a mold design computer 123 for designing a mold for the mock-up manufactured product, and a mold production system 125 for manufacturing a mold according to the designed mold. And a mass production injection system 125 for mass production injection of a product by a mold manufactured by the mold production system 124.

When described in more detail with reference to Figures 1 and 2 attached to the operation according to the embodiment of the present invention configured as follows.

1 is a block diagram of a mold manufacturing total service system through a network for implementing the present invention, Figure 2 is a flow chart of a mold manufacturing total service process through a network according to an embodiment of the present invention.

First, in the present invention, the customer connects to the mold total server 110 using his client computer 101 connected to the Internet, and requests the mold manufacturing total service (S110).

In other words, everything from designing a product to manufacturing a mold and producing a product is commissioned.

When the detailed information about the product is transmitted together with the request of the mold total service through the client computer 101, the corresponding information is converted into a database and registered in the database 111 (S114).

As the mold total service is registered, the designer first proceeds to the exterior design of the product through the design computer 121, and when the design is completed, it is registered in the database 111 of the mold total server 110 (S116).

The product design stored in the database 111 is confirmed in the client computer 101, and if a modification request is made, the modification is made through the design computer 121, and the product design is reviewed by the client computer 101 again. Is done.

If the approval is made through such a modification / confirmation process, the mechanical design related to the detailed operation is performed. (S118)

In other words, the mechanical design proceeds with the mechanical design using the three-dimensional system to be assembled with the internal mechanical parts of the product to be developed.

The instrument design data according to the instrument design progressed through the instrument design computer 122 is stored in the database 111 and is confirmed again by the client computer 101 and approved through a request for design modification and mock-up production system ( 124) to proceed with the mock-up production process (S120).

Mock-up production or vacuum casting is to make the product the same shape as the product to be produced before mass production. It is used for design confirmation, development review, exhibition, etc., and it can be modified through the review process. To prevent and increase productivity.

Here, the vacuum mold is a process of making a finished product by making a mold from silicon, making a mold out of silicon and pouring it into a silicone mold under vacuum in a vacuum state of a liquid resin of uratan or epoxy. Can produce products.

As the mock-up / vacuum mold is completed, the mold design is entered through the mold design computer 123, and when the mold design is completed, the mold design data is stored in the database 111. (S122)

The mold design checks the mold design information stored in the database 111 by the client computer 101 and then completes the mold design through a modification request or approval process, and accordingly the mold design system 125 according to the mold design information. Proceed through the mold production. (S124)

As the mold manufacturing system 125 transmits the mold design data stored in the database 111 from the mold total server 110, the mold manufacturing system 125 manufactures a mold based on the designed mold data.

In addition, the mold manufacturing is able to produce a mold with high quality, short delivery time by diversifying the standardized core (core) material of the mold parts, using the instant coating (mo coation) technology of the mold surface.

As the mold manufacturing is completed, after the product is injected in the aspect injection system 126 using the completed mold, the quality of the product is again checked and then mass produced.

In this way, the customer connects to the mold total server 110 through the client computer 101 and requests the mold total service. One-stop from product design, mechanical design, mold design, mock-up production, mold production and mass production injection. Proceed to proceed to mass production.

Although the preferred embodiment according to the present invention has been described above, it will be understood by those skilled in the art that various modifications and changes can be made without departing from the scope of the claims of the present invention.

As described above, the mold manufacturing total service method through the network according to the present invention is a mold total server through the network for the entire process ranging from product design, mechanical design, mock-up, vacuum molding, mold design, mold manufacturing, and injection mass production. Work data is stored in each system, and each system is manufactured according to the automatic process, so it can be processed in one-stop from product request to mass production injection, which makes it possible to enter mold development and mass production in a short time and at a low price. .

1 is a block diagram of a mold manufacturing apparatus through a network for implementing a mold manufacturing total service method through a network according to an embodiment of the present invention,

2 is a flow chart of a mold manufacturing total service process through a network according to an embodiment of the present invention.

<Description of Symbols for Major Parts of Drawings>

101: client computer 110: mold total server

111: Database 121: Design Computer

122: mechanical design computer 123: mold design computer

124: mock-up production system 125: mold production system

126: Mass Production Injection System

Claims (4)

Step 1 of selecting a specification for mold manufacturing after accessing the mold portal server through the Internet through the client's computer requesting the mold making of the product. A second step of storing the client information and the information for the mold making in a database as the mold portal server is connected to the mold portal server; A third step of designing the appearance of the product according to the information stored by the design computer confirming the mold making information stored in the database and storing it in the database; A fourth step of designing an instrument design suitable for the design stored in the database with an instrument design computer and storing it in the database; A fifth step of producing a mockup by transmitting the mechanical design data stored in the database to a mockup production system; A sixth step of designing a mold using a two-dimensional and three-dimensional modeling processor based on the mold data stored in the database as the mock-up is completed and storing the mold in the database; A seventh step of transmitting the mold design data stored in the database to a mold making system to perform mold making; Total production method of a mold manufacturing through a network comprising the eighth step of mass-producing the product into the manufactured mold. The method of claim 1, When the client approval data is input from the client computer in addition to the third to sixth step, each step further comprises the steps to proceed to the next step. The method of claim 1, In the fourth step, the mechanical design is a mold manufacturing total service method through a network, characterized in that to produce a three-dimensional three-dimensional design related to the operation of the product through the mechanical design computer in the database. The method of claim 1, The fifth step is a mold manufacturing total service method through a network, characterized in that for producing a mock-up product in a vacuum mold.