KR20190075445A - Smart factory automatic system and automatic method for 3d printing service - Google Patents

Abstract

The present invention relates to a smart factory automation system for a 3D printing service, which can remarkably reduce manufacturing costs and period thereof by differentiating production processes according to a small quantity of 3D printing service and a large quantity of 3D printing service, and can secure complete quality verification and guarantee of produced products through real-time feedbacks according to production situations; and an automation method therefor. The smart factory automation system for the 3D printing service comprises: a 3D printing service control management platform for being provided with a 3D printing order of an orderer; and a plurality of 3D printers for printing 3D output by being provided with a 3D printing output command from the 3D printing service control management platform. In addition, the 3D printing service control management platform can print the 3D output by automatically selecting a fixed printer among the plurality of 3D printers based on the ordered amount of the 3D printing order.

Description

Technical Field [0001] The present invention relates to a smart factory automation system and an automation method for a 3D printing service,

The present invention relates to a smart factory automation system and method for 3D printing service, and more particularly, to a smart factory automation system and method for 3D printing service, The present invention relates to a smart factory automation system and an automation method for a 3D printing service capable of ensuring thorough quality verification and assurance of a product produced through real-time feedback according to production conditions.

3D printing is a technology to eject solid materials such as plastic liquids and freely take out stereoscopic solid materials through a so-called 3D printer. After creating object information through a 3D graphic design program, it is possible to produce powder, liquid, Is a technology that repeatedly stacks thin layers in the shape of an object.

In recent years, various requirements (materials, 3D printer type, output size, color, etc.) of users who want to use a 3D printer have arisen. In addition to a lot of ordinary people having a 3D printer, Mostly, it is difficult to print output that meets various requirements.

Accordingly, users have to search for an output company to request a 3D printer output. However, there are difficulties in searching for a professional output company, and there is a problem in finding an output company that provides a proven service with output technology.

According to Korean Patent No. 1400875 entitled " 3D drawing integrated output network system ", registration and management of belonging 3D printer information distributed to user terminals, various places or areas, and input of design drawings from a user terminal A 3D printer integrated information processing device for detecting a location of a 3D printer nearest to the requested delivery position and outputting a 3D output of a design drawing inputted from the user terminal to a belonging 3D printer located at the detected location, A 3D printer according to a design drawing input from the user terminal under the control of the 3D printer integrated information processing apparatus and distributed in various regions (or places) under the control of the 3D printer integrated information processing apparatus .

The prior art is a service that allows a user who wants to output by using a 3D printer to output from a geographically closest output company. This is because there are various requirements for users who want to output 3D drawings. There is no content about these requirements, and there is a problem that there is no way to deal with them.

The user can easily obtain the 3D output by detecting the location of the 3D printer nearest to the delivery position requested by the user terminal and outputting the 3D output to the area or place close to the user terminal.

These 3D printouts have various materials and requirements according to the various needs of the users, which only connect with the companies in the nearby area, and have problems in that they can not be connected with proved companies that can meet various requirements of users.

And the 3D printer output is characterized by the difference in quality depending on the specifications of the 3D printer and the output technology.

Conventionally, there is no content about a processing scheme (rework, refund, etc.) when the user is not satisfied with the output result, and there is no way to process it.

In order to solve this problem, a Web-based order design 3D printing service system has been proposed, but the production period of the mass production is significantly increased.

(Document 1) Korean Patent Publication No. 10-2017-0107730 (published on September 26, 2017) (Document 2) Korean Registered Patent No. 10-1711581 (published on Mar. 13, 2013) (Document 3) Korean Registered Patent No. 10-1777813 (published on September 26, 2017) (Document 4) Korean Registered Patent Publication No. 10-1400875 (published on April 02, 2014)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a method and apparatus for differentiating production processes according to a small- The present invention provides a smart factory automation system and an automation method for a 3D printing service capable of ensuring thorough quality verification and assurance of manufactured products.

The present invention has been made in view of the above problems, and it is an object of the present invention to provide an apparatus and method for controlling the same.

According to an aspect of the present invention, there is provided a 3D printing service control management platform provided with a 3D printing order of an orderer, And a plurality of 3D printers for receiving 3D printing output commands from the 3D printing service control management platform and printing 3D prints, wherein the 3D printing service control management platform manages, among the plurality of 3D printers, And automatically prints a 3D output image by automatically selecting a predetermined printer. A smart factory automation system for 3D printing service is provided.

In one aspect of the present invention, the 3D printing service control management platform includes: a reception unit receiving 3D printing order information; A determining unit for determining the quantity of the 3D printing object based on the order information received at the receiving unit; A 3D printer automatic setting unit for automatically setting a corresponding 3D printer among the 3D printers based on a result determined by the determination unit; And an output command unit for transmitting an output command to the 3D printer set by the 3D printer automatic setting unit.

According to one aspect of the present invention, the determining unit determines whether the quantity of the 3D printed objects is equal to or greater than a predetermined quantity, and when the order quantity is greater than or equal to a preset reference value, A printer is designated to produce a 3D mold as a 3D output, and when the order quantity is less than a set reference value, the automatic setting unit may designate a 3D printer for outputting finished products to produce an end product as a 3D output.

In one aspect of the present invention, the 3D printing service control management platform includes a 3D mold modeling unit for 3D mold production; A 3D mold feedback unit for transferring the 3D mold model modeled by the 3D mold modeling unit to the corresponding orderer and receiving confirmation information from the orderer; A 3D modeling unit for generating 3D modeling for the finished product with respect to the 3D printing object; And a 3D modeling feedback unit for delivering the 3D modeling generated by the 3D modeling and generating unit to the purchaser and receiving confirmation information from the purchaser.

According to another aspect of the present invention, there is provided an image processing method comprising: receiving an order for 3D printing; An order quantity determination step of determining whether the quantity of the received 3D printing objects is equal to or greater than a set quantity; A 3D mold manufacturing step of automatically manufacturing a 3D mold by setting a printer for 3D mold production for the 3D printing object when it is determined that the quantity of 3D printing objects accepted in the order quantity determination step is equal to or more than a set quantity; And a finished product output step of outputting a finished 3D product to the 3D printing object when it is determined that the number of 3D printing objects received in the order quantity determination step is less than the set quantity, / RTI >

According to another aspect of the present invention, there is provided a 3D mold modeling feedback step of generating 3D mold modeling for 3D mold production in the 3D mold manufacturing step, delivering the generated 3D mold modeling to a corresponding orderer, and receiving confirmation information from the orderer; And a 3D modeling feedback step of generating 3D modeling for the 3D printing object ordered before the finished product outputting step and delivering the generated 3D modeling to the purchaser and receiving confirmation information from the purchaser.

According to the smart factory automation system and automation method for the 3D printing service according to the present invention, it is possible to specify a related 3D printer according to a small amount of 3D printing service and a large amount of 3D printing service, and to differentiate a production process, And it is possible to secure thorough quality verification and assurance for the produced product through real-time feedback according to the production situation.

The effects of the present invention are not limited to those mentioned above, and other solutions not mentioned may be clearly understood by those skilled in the art from the following description.

1 is a block diagram of a smart factory automation system for a 3D printing service according to the present invention.
2 is a flowchart illustrating a smart factory automation method for a 3D printing service according to the present invention.
3 is a flowchart illustrating a smart factory automation method for a 3D printing service according to the present invention.

Further objects, features and advantages of the present invention will become more apparent from the following detailed description and the accompanying drawings.

Before describing the present invention in detail, it is to be understood that the present invention is capable of various modifications and various embodiments, and the examples described below and illustrated in the drawings are intended to limit the invention to specific embodiments It is to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, the terms "comprises" or "having" and the like refer to the presence of stated features, integers, steps, operations, elements, components, or combinations thereof, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

Also, the terms " part, "" unit," " module, "and the like, which are described in the specification, refer to a unit for processing at least one function or operation, Software. ≪ / RTI >

In the following description of the present invention with reference to the accompanying drawings, the same components are denoted by the same reference numerals regardless of the reference numerals, and redundant explanations thereof will be omitted. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Hereinafter, a smart factory automation system and an automation method for a 3D printing service according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, a smart factory automation system for a 3D printing service according to the present invention will be described in detail with reference to FIGS. 1 and 2. FIG. 1 is a block diagram of a smart factory automation system for a 3D printing service according to the present invention. FIG. 2 is a block diagram of a 3D printing service control management platform constituting a smart factory automation system for a 3D printing service according to the present invention. Fig.

As shown in FIGS. 1 and 2, a smart factory automation system for 3D printing service according to the present invention includes a 3D printing service control management platform 100 for receiving 3D printing orders of a customer by wire / wireless; And a plurality of 3D printers 210 and 220 for receiving 3D printing output commands from the 3D printing service control management platform 100 and printing the 3D output. In the 3D printing service control management platform 100, The 3D printer 210 and 220 are selected based on the 3D printing order amount to print the 3D output.

The 3D printing service control management platform 100 includes a reception unit 110 for receiving 3D printing order information including request information, business information and a 3D printing object according to an ordering requirement, An automatic determination unit (120) for determining a quantity and / or a predetermined characteristic of the 3D printing object based on the received order information, and an automatic determination unit (120) And an output command unit 140 for transmitting an output command to the corresponding 3D printer set by the 3D printer automatic setting unit 130. [

The automatic determination unit 120 basically determines whether the number of 3D printing objects ordered is equal to or greater than a predetermined number. In addition, the automatic determination unit 120 can determine the order quantity in addition to the order quantity in consideration of factors influencing the production quantity, for example, the production time according to the shape or the shape.

 The automatic determination unit 120 may be configured to automatically determine whether the quantity of the ordered 3D printing objects is more than 10,000 or less than 10,000, for example.

Here, the reference value of the quantity to be automatically determined by the automatic determination unit 120 may be determined by a manager operating the 3D printing service control management platform 100 by adding a specific additional condition as a criterion, If the condition is satisfied, the reference value of the quantity determination may be automatically set to an upward reference value or a downward reference value.

If the order quantity of the 3D printing object is equal to or larger than the set reference value and the specified additional condition is satisfied, the automatic setting unit 130 sets the automatic setting unit 130 to the metal A 3D printer 210 for manufacturing a mold, which is configured to produce a mold, is designated, and a mold, not an end product, is output as a 3D printing output.

If the order quantity of the 3D printing object is less than the set reference value and deviates from the specific additional condition based on the result of the automatic determination unit 120, the automatic setting unit 130 outputs the finished product The 3D printer 220 for the finished product output is designated to output the finished product immediately.

If it is determined in the automatic determination unit 120 that the order quantity of the 3D printing object is equal to or greater than the set reference value and the specific additional condition is not satisfied, the 3D printer 220 for outputting the finished product for outputting the finished product is designated It can be made to output the finished product immediately.

In the 3D printing service control management platform of the smart factory automation system for the 3D printing service of the present invention, the 3D printing service control management platform includes a 3D mold modeling unit 150 for 3D mold production, A 3D mold feedback unit 160 for delivering the 3D mold model to the corresponding orderer and receiving the confirmation information from the orderer, and a 3D modeling unit 160 for, when the 3D modeling file of the 3D printing object is not included in the acceptance information received by the accepting unit 110, A 3D modeling and generating unit 170 for generating 3D modeling for an ordered 3D printing object, a 3D modeling and feedback unit for delivering the 3D modeling generated by the 3D modeling and generating unit 170 to the purchaser and receiving confirmation information from the purchaser, 180), and a data storage unit (not shown) for storing all data exchanged in the 3D printing service control management platform have.

Next, the 3D printers 210 and 220 are basically a 3D printer (for example, a binder jetting 3D printer) 210 for producing a metal mold capable of producing metal molds and a 3D printer And a printer (e.g., a material jettign 3D printer) 220.

In the smart factory automation system for the 3D printing service of the present invention configured as described above, a 3D printer suitable for the order quantity or the like is automatically set to manufacture a mold for a 3D printing object, and mass production of the finished product is performed through the mold , And in some cases, to produce the finished product of the 3D printing object directly.

In addition, in the process of creating the 3D mold and 3D modeling, feedback can be made to the purchaser in real time so that the request of the purchaser can be reflected in real time, thereby shortening the time period and securing the reliability of the finished product.

Next, a smart factory automation method for a 3D printing service according to the present invention will be described with reference to FIG. 3 is a flowchart illustrating a smart factory automation method for a 3D printing service according to the present invention.

As shown in FIG. 3, the method for automating a smart factory for a 3D printing service according to the present invention includes: an accepting step (S100) of receiving 3D printing; An order quantity determination step (S200) of determining whether the quantity of the received 3D printing objects is equal to or greater than a set quantity; In the case where it is determined that the quantity of 3D printing objects received in the order quantity determination step S200 is equal to or greater than the set quantity (for example), a 3D mold production is performed to produce a 3D mold using the printer for 3D mold production Step S300; And outputting the finished 3D product to the 3D printing object (S400) if it is determined that the number of 3D printing objects received in the order quantity determination step (S200) is less than the set number (No).

In addition, the method for automating a smart factory for a 3D printing service according to the present invention includes generating 3D mold modeling for 3D mold production in the 3D mold manufacturing step (S300), delivering the generated 3D mold modeling to a corresponding orderer, 3D mold modeling feedback step S500 of receiving the confirmation information and 3D modeling file of the 3D printing object are not included in the reception information received in the receiving step S100, And a 3D modeling feedback step (S600) of delivering the generated 3D modeling to the purchaser and receiving confirmation information from the purchaser.

As described above, in the smart factory automation method for the 3D printing service of the present invention, a 3D printer suitable for the order quantity or the like is automatically set to manufacture a mold for a 3D printing object, and a finished product is mass- Accordingly, the finished product of the 3D printing object is directly output-output using the 3D finished product printer, so that the period from order to production is drastically shortened, and more reliable 3D output is provided through the different manufacturing process .

According to the smart factory automation system and automation method for the 3D printing service according to the present invention, it is possible to specify a related 3D printer according to a small amount of 3D printing service and a large amount of 3D printing service, The production period can be drastically reduced, and there is an advantage that thorough quality verification and assurance can be secured for the product through real-time feedback according to the production situation.

The embodiments and the accompanying drawings described in the present specification are merely illustrative of some of the technical ideas included in the present invention. Therefore, it is to be understood that the embodiments disclosed herein are not for purposes of limiting the technical idea of the present invention, but rather are not intended to limit the scope of the technical idea of the present invention. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: 3D printing service control management platform
110: Reception desk
120: Judgment section (automatic judgment section)
130: 3D printer setting section (3D printer automatic setting section)
140: Output command section
150: 3D mold modeling unit
160: 3D mold feedback unit
170: 3D modeling generation unit
180: 3D modeling feedback unit
210: 3D printer for mold making
220: 3D printer for finished product output
S100: 3D printing reception step
S200: Order quantity determination step
S300: 3D mold making step
S400: Finished model 3D modeling production stage
S500: 3D mold modeling feedback step
S600: Finished Product 3D Modeling Feedback Step

Claims (6)

A 3D printing service control management platform that receives the 3D printing order of the purchaser; And
And a plurality of 3D printers for receiving a 3D printing output command from the 3D printing service control management platform and printing a 3D output,
Wherein the 3D printing service control management platform automatically prints a 3D output by automatically selecting a predetermined printer among a plurality of 3D printers based on an ordered 3D printing order amount
Smart Factory Automation System for 3D Printing Service.
The method according to claim 1,
The 3D printing service control management platform
Receipt receiving 3D printing order information;
A determining unit for determining the quantity of the 3D printing object based on the order information received at the receiving unit;
A 3D printer automatic setting unit for automatically setting a corresponding 3D printer among the 3D printers based on a result determined by the determination unit; And
And an output command unit for transmitting an output command to the 3D printer set by the 3D printer automatic setting unit
Smart Factory Automation System for 3D Printing Service.
3. The method of claim 2,
Wherein the determining unit determines whether the quantity of the 3D printing objects ordered is equal to or greater than a predetermined quantity,
The automatic setting unit may designate a 3D printer for producing a mold to produce a 3D mold as a 3D output, and if the order quantity is less than a set reference value, the automatic setting unit may set a 3D printer for outputting finished products To produce the finished product as a 3D output.
Smart Factory Automation System for 3D Printing Service.
The method of claim 3,
The 3D printing service control management platform
3D mold modeling part for 3D mold production;
A 3D mold feedback unit for transferring the 3D mold model modeled by the 3D mold modeling unit to the corresponding orderer and receiving confirmation information from the orderer;
A 3D modeling unit for generating 3D modeling for the finished product with respect to the 3D printing object; And
And a 3D modeling feedback unit for delivering the 3D modeling generated by the 3D modeling and generating unit to the purchaser and receiving confirmation information from the purchaser,
Smart Factory Automation System for 3D Printing Service.
An acceptance step for ordering 3D printing;
An order quantity determination step of determining whether the quantity of the received 3D printing objects is equal to or greater than a set quantity;
A 3D mold manufacturing step of automatically manufacturing a 3D mold by setting a printer for 3D mold production for the 3D printing object when it is determined that the quantity of 3D printing objects accepted in the order quantity determination step is equal to or more than a set quantity; And
And outputting the finished 3D product to the 3D printing object when it is determined that the quantity of the 3D printing object received in the order quantity determination step is less than the set quantity,
Smart Factory Automation System for 3D Printing Service.
6. The method of claim 5,
A 3D mold modeling feedback step of generating 3D mold modeling for 3D mold production in the 3D mold production step and delivering the generated 3D mold modeling to a corresponding orderer and receiving confirmation information from the orderer; And
And a 3D modeling feedback step of generating 3D modeling for the 3D printing object ordered before the finished product outputting step and delivering the generated 3D modeling to the purchaser and receiving confirmation information from the purchaser
Smart Factory Automation System for 3D Printing Service.

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