KR101837473B1 - Smart ordering and manufacturing system and method thereof - Google Patents

Abstract

The present invention relates to a smart machining ordering system and a method thereof, and more particularly, to a web-based smart machining ordering system and method for connecting a machining company having a professional machining apparatus to a user who requests machining . In addition, the present invention provides a system and method for providing information on a product requested to be processed by a user terminal, and a method and system for registering business information from a processing request server and vendor terminals that receive processing request information, It is possible to easily and quickly connect the machining companies capable of performing the machining process required by the user, and the machining company can easily and quickly connect the machining companies to the professional machining equipment Thereby ensuring a sufficient amount of machining.

Description

Technical Field [0001] The present invention relates to a smart machining ordering system,

The present invention relates to a smart machining ordering system and a method thereof, and more particularly, to a web-based smart machining ordering system and method for connecting a machining company having a professional machining apparatus to a user who requests machining .

In recent years, as interest in hobbies has increased and DIY (Do it yourself) has expanded, more and more users are asking for designing and ordering products directly, rather than purchasing only manufactured products. Also, in the case of small-sized venture companies, there is an increasing demand to request a process order to process a product in a desired form. For reference, the processing means in the present invention is a concept including all kinds of operations for drilling, grooving, and cutting a base metal such as metal, plastic, or wood.

However, in the conventional machining order system, the user directly searches for the homepage or e-mail of the machining company having the professional machining tool and then requests the machining order through e-mail or the user goes to the address of the machining machining company and requests the machining order There is a problem that a lot of time and difficulties arise in the process of searching for a processing company desired by the user.

On the other hand, there is a problem that it is difficult to obtain sufficient processing amount because the processing companies are mostly small-scale companies that can perform the processing steps required by the user but do not have the capacity to externally advertise.

Therefore, it is required to develop a technique that can connect a user who requests a machining process and a machining company having a professional machining device more easily and quickly.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a smart machining ordering system and a machining method capable of easily and conveniently requesting a machining operation, The purpose is to provide.

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

In order to solve the above-described problems, a smart machining ordering system according to a preferred embodiment of the present invention receives machining request information including machining request and machining drawing requesting machining of a workpiece from a user terminal, The business information including the information about the machine tool held by the business is registered from the registered business information and the processing company which can perform the processing request of the user by comparing the previously registered business information with the processing request information.

In addition, the smart machining order system sets an optimal tool path for each machining type for performing the machining represented in the machining drawing, and determines the machining type of the work, the machining accuracy of the work, the size of the work, And an NC code extracting program for extracting NC codes necessary for performing machining of a workpiece requested by the user, and calculating an expected machining time according to the extracted NC codes, And provides a simulation result to a user terminal, and the NC code extraction program is a program for performing a simulation for calculating a predicted machining cost based on the input information and data storing information about machine tools provided by machine tool manufacturers Using the machining tool information and machining controller information of the machine tools stored in the base Groups may be able to extract the NC code.

In addition, the smart machining ordering system outputs a problem to the user terminal if the machining requested by the user terminal is impossible as a result of simulation, and the user terminal confirms the expected machining time, the expected machining cost and the problem, At least one of the machining drawings may be modified to provide machining request information to the smart machining ordering system again.

The smart machining ordering system may further include a machining ordering server for receiving machining order information including a machining request and a machining drawing requesting machining of the workpiece from the user terminal; And information on the machine tool held by the vendor is registered from the terminal of the maker, and the maker who can perform the machining request of the user by comparing the previously registered maker information with the machining request information And an ordering server for performing the simulation using the processing request information and outputting the simulation result to the user terminal.

The processing request server may include a processing request accepting unit for receiving the processing request information from the user terminal and transmitting the processing request information to the ordering server and outputting information about matching processing companies from the ordering server.

The processing request server may further include a processing drawing sales department for storing previously created processing drawings and for retrieving the stored processing drawings from a user terminal and making a purchase.

The processing request server receives the consignment information of the drawing to be created from the user terminal, requests creation of the drawing to another user terminal, receives a consigned drawing created from another user terminal, and creates a consignment drawing to be provided to the user terminal And < / RTI >

In addition, the smart machining ordering system may further include a joint drawing maker for allowing the machining commissioning server to jointly work out drawings of a specific product at a plurality of user terminals.

The processing request accepting unit displays an interface for inputting the processing request information and includes a name, a quantity, a processing type, a processing material, an accuracy, a size, a processing air and a specific matter of the product to be processed from the user terminal Request input means for inputting a machining request and a machining drawing; A matching history outputting means for outputting a matching history which is information on matched processors from the ordering server; And an order acceptance unit that receives from the user terminal an order acceptance information for a machining performing company to be machined among the machining companies included in the matching history and transmits the order acceptance information for the machining performing company to the ordering server; . ≪ / RTI >

In addition, the ordering server includes: a business information registration unit for receiving information including a type of a holding machine, a kind of a holding material, a working period for each product, and a processing cost from a business terminal and registering the information as business information; A machining request review unit for verifying and reviewing whether the machining request information received from the machining request server is suitable and errorful; Wherein when the verification and review of the machining request information is completed in the machining request review unit, the machining company capable of performing the machining request can be matched by comparing the vendor information with the machining request information, A matching unit for transmitting the matching history to the processing request server; And the ordering server includes an ordering instruction unit for receiving the ordering approval information from the processing requesting server to the processing execution company and transmitting a processing instruction requesting the processing to the processing execution company.

Further, the machining request review unit receives the machining request information from the machining request server, checks the suitability of the type, material, precision, and machining time of the machining equipment requested by the user, and checks whether the validity Inspection means; Parameter conversion means for converting each item of the machining request information into a predetermined parameter and outputting the parameter to the matching unit when the validity checking is completed; And simulation means for performing the simulation to output a simulation result.

According to another aspect of the present invention, there is provided a smart machining ordering method, including: (1) a smart machining ordering system that includes information about a machine tool held by a maker, Registering and storing the business information; (2) The smart machining ordering system includes: receiving machining order information including a machining request and a machining drawing for requesting machining from a user terminal of a user; (3) The smart machining ordering system comprises: matching machining companies to be machined by comparing the machining request information with previously registered maker information; (4) the smart machining ordering system selecting at least one machining performer among the matched machining operators from a user terminal; And (5) the smart machining order system instructs the machining performer to place a machining order.

The step (3) further includes: (3-3) the smart machining order system sets an optimal tool path for each type of machining for performing the machining represented in the machining drawing, and machining Type, the machining accuracy of the workpiece, the size of the workpiece, the material of the workpiece, and the optimum tool path for each machining type into the NC code extraction program, and extracts the NC codes necessary for performing the machining of the workpiece requested by the user Performing a simulation for calculating a predicted machining time and a predicted machining cost in accordance with the extracted NC codes and providing a simulation result to a user terminal, A processing tool for machine tools stored in a database storing information about machine tools provided by machine manufacturers Using the correction information and the processing controller may extract the NC code.

In the step (3-3), if the machining requested by the user terminal is impossible as a result of simulation, the smart machining ordering system outputs a problem to the user terminal, and the user terminal calculates the estimated machining time, Identify the problem, correct at least one of the machining request and the machining drawing, and provide the machining order information to the smart machining ordering system again.

The step (3) includes the steps of: (3-1) the smart machining ordering system checks the type, material, precision and machining time of the machining machine according to the machining request information, ; (3-2) The smart machining order system converts each item of the machining order information into a predetermined parameter after the validation is completed; (3-3); And (3-4) The smart machining ordering system compares the vendor information with the machining request information converted into the parameters, and matches machining companies capable of performing machining requests, and transmits the matching details to the user terminal Step.

In the step (1), the smart machining ordering system may receive information including the type of the holding machine, the type of the holding material, the operation period for each product, and the machining cost from the business terminal and register the information as business information .

In the step (2), the smart machining ordering system may further include a machining request including a product name to be machined, a quantity, a machining type, a work material, an accuracy, a size, The processing drawing can be inputted.

In the step (2), the smart machining ordering system may allow the user terminal to search for and purchase the created machining drawings when the machining drawing does not exist.

In the step (2), if the machining drawing does not exist, the smart machining ordering system receives the consignment information of the drawing to be created from the user terminal, requests creation of the drawing to another user terminal, And can receive the entrusted drawing created from the user terminal and provide it to the user terminal.

In the step (2), the smart machining ordering system may allow a plurality of user terminals to collaboratively work on a drawing of a specific product when there is no machining drawing.

According to the above-mentioned problem solving means, the present invention provides an information processing apparatus and a method for processing business information, which are provided to a processing terminal and a business terminal that receive processing request information including information of a product to be requested for processing and a processing drawing from a user terminal, And an ordering server that compares the machining request information with machining companies capable of performing a machining request of a user, so that it is possible to easily and quickly connect a machining company capable of performing a machining process required by the user .

Therefore, the present invention makes it possible to secure a sufficient amount of machining for a professional machine owned by a machining company.

In addition, the present invention provides an environment in which a user who does not have a drawing of a product to be processed can purchase drawings or commission drawings or create drawings in cooperation with other users, thereby making a request for processing.

In addition, the present invention allows the user to confirm the expected machining time, the expected machining cost, and the problems of the machining request and the machining drawing through simulation beforehand, thereby saving time and cost.

1 is a diagram for explaining a smart machining ordering system according to an embodiment of the present invention;
2 is a view for explaining a machining order server of a smart machining ordering system;
3 is a diagram for explaining a processing request reception section of the machining request server;
Fig. 4 is a diagram for explaining a processing drawing sales section of the processing request server. Fig.
5 is a diagram for explaining a consigned drawing creating unit of the processing request server;
Fig. 6 is a diagram for explaining a common drawing creating unit of the machining request server. Fig.
7 is a diagram for explaining an ordering server of a smart machining ordering system;
8 is a view for explaining a machining request review unit of an ordering server;
9 is a diagram for explaining an example of a simulation performed by a smart machining ordering system according to an embodiment of the present invention.
10 is a diagram for explaining a smart machining ordering method according to an embodiment of the present invention.
11 is a diagram for explaining a process of accepting processing request information including a processing request and a processing drawing;

It should be understood that the specific details of the invention are set forth in the following description to provide a more thorough understanding of the present invention and that the present invention may be readily practiced without these specific details, It will be clear to those who have knowledge.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to FIGS. 1 to 10.

1 is a view for explaining a smart machining ordering system according to an embodiment of the present invention.

Referring to FIG. 1, a smart machining ordering system 1000 according to an embodiment of the present invention includes a machining commissioning server 100 and an ordering server 200.

The machining commissioning server 100 and the ordering server 200 are connected to a user terminal 10 of a user and a vendor terminal 20 of a processing company through a communication network and the user can access the system 1000 It can be implemented in any form of communication network, which is usually an Internet network. However, the processing request server 100 and the ordering server 200 may be directly connected to each other by wire.

The processing request server 100 and the ordering server 200 can provide a web-based connection environment (e.g., a web site) to which the user terminal 10 and the business terminal 20 can connect, respectively.

The processing request server 100 receives a processing request for a product to be processed from the user terminal 10 through the connection environment described above, It is possible to request the processing terminal 20 of the processing company matching the processing request of the user by matching with the information of the processing company.

Meanwhile, the components of the processing request server 100 and the ordering server 200 may be implemented in hardware, but may also be implemented in software that operates together with the hardware. In addition, the processing request server 100 and the ordering server 200 may not be provided as independent server devices, but may be implemented to perform respective functions on the same single server.

Hereinafter, the detailed configuration of the processing request server 100 and the ordering server 200 constituting the smart processing ordering system 1000 according to an embodiment of the present invention will be described in detail.

Although the processing request server 100 and the order server 200 are implemented by different components separated from each other in the following description, the processing request server 100 and the order server 200 are one Can be integrated and implemented in a smart processing ordering system. When the machining order server 100 and the ordering server 200 are integrated into one smart machining ordering system, the machining order accepting unit 110, the machining drawing sales unit 120, 7, a vendor information registration unit 210, a machining request review unit 220, a matching unit 230, and an order designation unit 240, which are described later with reference to FIG. 7, It is included together in one system.

2 is a diagram for explaining a processing request server of a smart machining ordering system.

2, the machining commissioning server 100 not only provides an environment for receiving machining request information including a machining request and a machining drawing for requesting machining from the user terminal 10 of the user, The processing drawing sales department 120, the consigning drawing drawing forming part 130, and the joint drawing drawing part (refer to FIG. 1) 140).

Preferably, the processing request server 100 may be implemented as a server device based on a public cloud.

Fig. 3 is a diagram for explaining a processing request reception section of the machining request server. Fig.

3, the processing request accepting unit 110 accepts the processing request information input from the user terminal 10 and transmits the processing request information to the ordering server 200. The processing server 200 receives the processing request information from the ordering server 200, And outputs the result to the user terminal 10 so that it can be confirmed by the user terminal 10. When the user terminal 10 selects a processing performing company to be requested to process, the user terminal 10 transmits the selected result to the ordering server 200, An input means 111, a matching history output means 112, and an order acceptance means 113. [

The request contents input means 111 receives the processing request information including the processing request and the processing drawing from the user terminal 10, and transmits the processing request information to the ordering server 200.

Here, the above-mentioned machining request can be information including the name of the product to be machined, the quantity, the type of machining, the material to be machined, the precision, the size, the machining air (in days) and the uniqueness The request contents input means 111 can receive the processing request as shown in Table 1 from the user terminal 10.

Processing request Product Name cell-phone holder Quantity One Processing type CNC machining Processing material STS 304, Precision 0.09mm Size (w * d * h) 200 * 200 * 10 Processing air 15th Uniqueness Heat treatment and painting required

The request contents input means 111 may provide an interface for inputting the processing request and the processing drawing from the user terminal 10. In the interface screen displayed on the user terminal 10, Material, precision, machining period and additional machining process can be selected by the user through pull-down menu.

The matching history output unit 112 receives the matching details, which are information on matched processing companies from the ordering server 200, and outputs the matching details so that the matching information can be confirmed by the user terminal 10. At this time, the user terminal 10 can select a processing company to perform processing after confirming the processing companies included in the matching history.

When at least one of the processing companies included in the matching history is selected from the user terminal 10, the order acceptance unit 113 receives the order approval information for the corresponding processing performing company, 200).

On the other hand, when receiving the machining request information from the user terminal 10, the machining request accepting unit 110 receives the machining drawing, and it is impossible or difficult for the user to create the drawing depending on the user. In this case, drawings may be purchased, or entrusted or jointly worked, may be input by using the processing drawing sales department 120, the consigning drawing drawing creating part 130 and the common drawing drawing creating part 140 which will be described later.

4 is a diagram for explaining a processing drawing sales section of the processing request server.

Referring to FIG. 4, the machining drawing sales department 120 stores previously created machining drawings, and allows the user terminal 10 to search for and purchase the stored machining drawings. To this end, the processing drawing sales department 120 provides various purchasing environments including a personal store, an enterprise store, and a theme store.

Accordingly, the user can search the machining drawings in the machining drawing sales department 120 using the user terminal 10, and can select the machining drawing of the desired design to perform settlement. The machining drawing sales department 120 may input the machining drawing for which settlement has been completed to the machining order accepting unit 110 or transmit it to the user terminal 10.

At this time, the machining request receiving unit 110 receives the machining drawing and the machining request which the user has completed settlement in the machining drawing selling unit 120, and transmits the machining drawing and the machining request to the ordering server 200 .

That is, even in the case of a user having difficulty in drawing the drawing, the machining drawing can be purchased through the machining drawing selling part 120 and the machining request can be proceeded.

On the other hand, when the design desired by the user does not exist in the processing drawing sales department 120 or has a specific idea, the drawing drawing request may be made through the consigning drawing preparation part 130, which will be described later.

5 is a diagram for explaining a consignment drawing section of the machining request server.

Referring to FIG. 5, the consigning drawing creating unit 130 receives consignment information of a drawing to be created from a user through the user terminals 10, requests creation of the drawing from another user, And receives the created entrusted drawing and provides it to the user.

For example, the consigning drawing preparation unit 130 receives the consignment information from the user terminal A 11 of the user to request the consignment drawing. Here, the above-mentioned consignment information may be text information including a form, a size and a specific item of a product to be drawn, and may be a picture file directly sketched by a user.

In addition, the consignment drawing preparation unit 130 transmits the consignment information to the user terminal B 12 of another user to create the consignment drawing. At this time, the consignee drawing preparation unit 130 may provide a selection menu for selecting one of a plurality of other users to create a consigned drawing, or may provide consignment information (including drawing drawing fee) received from the user terminal A And a bulletin board for recruiting other users to post a drawing and to create a drawing.

In addition, the referent drawing creating unit 130 receives the entrusted drawing completed from the user terminal B 12, and causes the user terminal A 11 who commissioned the entrusted drawing to perform the settlement of the entrusted drawing. At this time, all or part of the settlement amount is paid to the other user who created the consignment drawing, and the consignment drawing is owned by the user of the user terminal A (11).

When the settlement drawing of the consigned drawing is completed, the consigning drawing creating unit 130 transmits the consignment drawing to the user terminal A (11) of the user requesting the consignment drawing or inputs the consignment drawing to the processing request accepting unit 110, The processing request receiving unit 110 transmits the consigned drawing and the processing request inputted from the user to the ordering server 200. [ In addition, the consigning drawing creating unit 130 may upload the consignment drawing to the drawing drawing selling unit 120 in response to a request from the user terminal A 11 to allow the drawing to be made.

Therefore, even in the case of a user who has difficulty in drawing the drawing but has a specific idea, the user can request the drawing drawing through the drawing drawing creating unit 130 and proceed with the machining request using the drawing entrusted by another user.

6 is a diagram for explaining a common drawing creating unit of the machining request server.

Referring to FIG. 6, the common drawing creating unit 140 may provide a working environment for creating a common drawing by jointly working a drawing of a specific product in a plurality of user terminals 10. FIG.

For example, the common drawing creating unit 140 receives the machining drawing created from the user terminal A 11 and the modification and improvement requirements for the drawing. At this time, the co-drawing maker 140 may further input information about another user to perform cooperative work from the user terminal A 11, or may upload the co-drawing to the drawing drawing sales department 120 May be input.

In addition, although a user other than the user A 11 may cooperate with the user A 11, an unspecified number of users may arbitrarily collaborate with the user A 11, It may commit to pay a predetermined fee to other users, recruit users to perform the collaboration, and pay the commission after the collaboration ends.

In addition, the common drawing creation unit 140 may store the processing drawing received from the user terminal A 11 and the modification and improvement requirements thereof in a separate storage space or a common work space, The user terminal C (13) and the user terminal D (14) of the users can download the machining drawing or upload the modified machining drawing.

When the creation of the common drawing is completed by the user terminal A 11, the user terminal C 13 and the user terminal D 14, the common drawing creating unit 140 adds the common drawing to the processing request accepting unit 110, and the machining request receiving unit 110 transmits the joint drawing and the machining request inputted by the user to the ordering server 200.

Meanwhile, the common drawing drawing creating unit 140 may upload the drawing to the drawing drawing selling unit 120 in response to a request from the user terminal A 11 to allow the drawing to be made.

7 is a diagram for explaining an ordering server of a smart machining ordering system.

7, the ordering server 200 provides an environment connected to the machining commissioning server 100 and to which a plurality of business terminals 20 can access, and includes a business information registration unit 210, (220), a matching unit (230), and an order designation unit (240).

Preferably, the ordering server 200 compares the machining request information transmitted from the machining commissioning server 100 with previously registered business information to match the machining companies that can perform the machining request of the user, And a server device that receives the order approval information from the server 100 and instructs a process ordering process.

The business information registration unit 210 receives information including a type of a processing machine and a material held by the processing company, a working period for each product, and a machining cost from the business terminal 20 and registers the information as business information.

In addition, the business information registered in the business information registration unit 210 may be converted into a predetermined data table and stored in a database.

8 is a diagram for explaining a machining request review unit of the ordering server.

8, the machining request review unit 220 performs verification and review of whether or not the machining request information transmitted from the machining request server 100 is appropriate and error, and checks the validity checking means 221, parameters Conversion means 222 and simulation means 223, as shown in Fig.

The machining request information transmitted from the machining commissioning server 100 is input to the validating means 221. The validating means 221 checks the type of the machining tool requested by the user based on the machining request information, Check the conformity of material, precision and machining time, and perform validation to verify the error.

For example, the validity checking unit 221 may verify the following items.

- Appropriateness of selection of material and size on machining drawings and machining requirements

- Determining suitability for machine tool type selection on machining drawings and machining requirements

- Determining the accuracy of machining request and the suitability of machining time

- Whether the machining plane itself is faulty

When the validity check is completed from the validity checking means 221, the parameter converting means 222 converts each item of the machining request information into a predetermined parameter, and outputs the parameter to the matching unit 230.

For example, the parameter converting means 222 can convert each item of the machining request information as shown in Table 2 below.

Processing Request Information parameter Product Name cell-phone holder MTM-N-2016-1234 Quantity One One Processing type CNC machining CNC machining Processing material STS 304, STS304 Precision 0.09mm CL10 Size (w * d * h) 200 * 200 * 10 S200X200Y10Z Processing air 15th D15 Uniqueness Heat treatment and painting required + 001DDD
+ 003CCC-Br0005

Here, the parameter conversion unit 222 may be provided to convert each item of the machining request information in accordance with the data table of the business information registered in the business information registration unit 210, and each item of the machining request information The parameters for conversion can be defined in advance.

The simulation unit 223 provides a simulation result including a predicted machining time, a predicted cost, and a workpiece preview for a product to be machined. The results can be checked to change the machining conditions or adjust the cost conditions.

Here, the above-mentioned estimated machining time is calculated by the following formula: (1) the working time of the similar product group, the tool path length through NC (Numerical Control) code (concept including Gcode) extracted from the machining drawing, The estimated cost refers to the cost calculated by analyzing the machining difficulty according to the user's requirements, and the machining type refers to the machining process shape.

When the user terminal 10 is connected to the machining commission server 100, the simulation means 223 inputs the information to be simulated and transmits a simulation result corresponding to the information to the machining commissioning server 100 So as to confirm it at the user terminal 10.

9, the function of the simulation means 223 of the present invention will be described in more detail. First, the simulation means 223 sets an optimal tool path for each type of machining to perform the machining represented in the machining drawing . At this time, it is preferable that the optimum tool path is the tool path path having the shortest distance.

In the example shown in Fig. 9, when there is a circular hole structure in the workpiece in the drawing, the simulation means 223 selects from the user whether to perform any operation such as drilling, backlash, or thread milling for the hole . Then, the simulation means 223 calculates various toolpath paths and selects the shortest toolpath path as the optimum toolpath path, as shown in Fig.

In the same manner, the simulation means 223 also calculates the toolpath for each type of machining for machining other than the hole machining, and selects the shortest toolpath path as the optimum toolpath path. Typical machining types for which toolpaths are to be selected include paced machining (machining of the upper surface of the workpiece), machining of the machined portion (machining of the machined portion), pocketing (machining of the machined portion of the machined portion) Chamfering (edge processing), and so on.

Then, the simulation means 223 compares the machining type of the workpiece (CNC machining, laser machining, lathe machining, and the like) indicated in the machining request document, the machining accuracy (indicating tolerance) of the workpiece, (Indicating the size of the base material of the workpiece), information about the workpiece material (determining the machining speed), and the calculated optimum toolpath for each machining type into the NC code extraction program.

Then, the NC code extracting program extracts NC machining tool information of the machine tools stored in a database (not shown) storing information on the input information and information on the machine tools provided by a plurality of machine tool (machining machine) manufacturers, And extracts NC codes necessary for performing the machining of the workpiece requested by the user, using the machining controller information comprehensively.

The NC code is a program code for controlling an NC machine tool. For example, in NC code, it can be expressed by a combination of G01 [target position coordinate] [speed information]. In the case of "G01 X10 Y10 Z10 F100", it is interpreted to mean that the target position coordinates (X10 [mm], Y10 [mm], Z10 [mm]) are cut at the current position at a speed of 100 [m / min] .

The NC code extraction program is a program that extracts the control method of the tool about the machining shape by using the CAD drawing and various machining conditions. There are various extraction programs, and the required processing conditions for extracting each program are various, and the results of the extracted NC code also show a big difference (NC code capacity, tool path length, machining time, etc.). Such NC code extraction program is well known to those skilled in the art, and therefore, a detailed description thereof will be omitted.

The simulation means 223 calculates the expected machining time by summing the time of all the NC codes required for machining the workpiece requested to be machined. For example, assuming that machining of one workpiece is performed by drilling, punching, pocketing, ointment (roughing, finishing) and chamfering, the estimated machining time is calculated as " Tool change time + tool change time + tool change time + tool change time + tool change time + chamfer machining time "Tool change time + tool change time + tool change time + . ≪ / RTI >

Further, the simulation means 223 calculates a predicted machining cost according to the estimated machining time, quantity, material, and machining accuracy.

On the other hand, the simulation means 223 can provide a machining shape preview function for each machining procedure. That is, the simulation means 223 can set a machining range on the drawing, and can graphically display the shape of the machining result corresponding to each NC code and the shape of the machining result.

When the simulation is successfully completed, the simulation means 223 determines the type of the machine tool and the type of the tool that can successfully execute the machining request of the user along with the estimated machining time, the estimated machining cost, and the preview function It is possible to provide an organized table to the user terminal.

On the other hand, the simulation means 223 detects the NC code in the simulation process when the NC code collided with each other due to the reason of the inconsistency of the extracted NC code and the processing requested by the user is impossible, And the problem of the machining drawing can be provided to the user terminal.

The user terminal 10 confirms the machining expected time, the estimated machining cost, and the problem received from the simulation means 223, corrects at least one of the machining request and the machining drawing, and transmits the machining request information to the machining request server 100 ), It is possible to reduce the machining time and the machining cost, and the problem can be eliminated in advance.

On the other hand, when the machining request review unit 220 completes the verification of the machining request information and the parameter conversion, it is matched with the business information by the matching unit 230 to be described later.

Referring again to FIG. 7, the matching unit 230 compares processing companies registered in the vendor information registration unit 210 with the processing request information to perform processing requests. At this time, the matching unit 230 may match each processing company according to a processing procedure according to the processing request information.

In addition, the matching unit 230 transmits a matching history including processing companies capable of performing a processing request to the processing request server 100. At this time, the matching details transmitted from the matching unit 230 to the processing request server 100 are output from the matching details output unit 112 of the processing request server 100.

The ordering instruction unit 240 receives the machining performing company and order acceptance information from the machining commissioning server 100 and transmits a machining instruction requesting machining to the maker terminal 20 of the machining performing company.

When the ordering instruction unit 240 receives the ordering approval information for one machining performing company from the machining commissioning server 100, the ordering instructing unit 240 transmits a machining ordering instruction to the maker terminal 20 of the machining performing company, .

Then, the processing company receiving the processing instruction sheet proceeds the processing process according to the processing instruction sheet, and when the product is completed, the completed product is delivered to the user address on the processing instruction sheet.

Meanwhile, the order designation unit 240 may receive the order approval information for a plurality of processing execution companies from the processing request server 100.

For example, when different machining processes are to be performed in the machining company A and the machining performer B, the order instructing unit 240 requests the machining performer A and the machining performer B from the machining commission server 100 Information is received.

At this time, the order designation unit 240 transmits the respective processing instructions to the processing terminals A and B of the processing company B, processes the processing steps in the processing company A, And the processing operator B can receive the processed product and proceed to the processing step so that the finished product can be delivered to the user address on the processing instruction book when the product is completed.

Accordingly, the smart machining ordering system 1000 according to an embodiment of the present invention allows a user to make a machining request more easily and conveniently, and a machining company can secure a machining amount corresponding to a professional machining tool possessed by a machining company.

In addition, the smart machining ordering system 1000 according to an embodiment of the present invention provides an environment for purchasing or commissioning drawings or creating drawings in collaboration with other users, even in the case of a user who does not have a drawing on a product to be processed can do.

FIG. 10 is a diagram for explaining a smart machining ordering method according to an embodiment of the present invention, and FIG. 11 is a view for explaining a process of accepting machining order information including a machining request and a machining drawing.

10 and 11, a smart machining ordering method performed in a smart machining ordering system according to an embodiment of the present invention will be described.

However, the functions performed in the smart machining ordering method shown in Figs. 10 and 11 are all performed in the smart machining ordering system described with reference to Figs. 1 to 9, so that even if no explicit description is given, All the functions described above are performed in the smart machining ordering method according to the preferred embodiment of the present invention and all the functions described with reference to Figs. 10 and 11 are performed in the smart machining ordering system according to the preferred embodiment of the present invention Be careful.

First, the ordering server receives and registers the vendor information from the vendor terminal of the processing companies (S110).

At this time, the ordering server can receive the information including the type of the holding machine, the type of the material to be held, the operation period for each product, and the machining cost from the business terminal and register the information as the business information.

Next, the machining request server receives the machining request information including the machining request and the machining drawing to request machining from the user terminal of the user (S120).

At this time, the machining commissioning server first inputs whether or not the machining drawing exists from the user terminal (S115). If it is determined that the machining drawing exists, the machining ordering server acquires from the user terminal the product name, quantity, (S121), which includes the material, the precision, the size, the processing air, and the uniqueness.

On the other hand, if the machining drawing does not exist, the machining ordering server can output a selection menu for allowing the user terminal to purchase or commission the drawing or to create a joint drawing (S122).

At this time, when the machining commissioning server desires to purchase the machining drawing from the user terminal, the pre-machining drawing can be searched and purchased. When the user selects the machining drawing of the desired design using the user terminal and completes the settlement (S123 ), The machining request server receives the machining drawing and the machining request completed by the user as the machining request information (S124).

When the user terminal requests the consignment drawing, the machining ordering server receives the consignment information of the drawing to be created from the user terminal and transmits consignment information to the user terminal of another user to request the consignment drawing (S125 When the user who has requested the consignment drawing completes the settlement and receives the consigned drawing prepared from the other user terminal, the consigning drawing is provided to the user terminal and a predetermined fee is paid to the other user terminals (S126).

Then, the machining request server receives the consignment drawing and the machining request that the user has completed settlement as processing request information (S127).

Meanwhile, the processing request server may provide a collaborative work space in which a plurality of user terminals can jointly create drawings of specific products when the user terminal requests the cooperative drawing creation (S128).

When the joint drawing is completed by the collaboration between users, the machining request server receives the joint drawing and the machining request from the user terminal of the user as the machining request information (S129). In step S128, the user terminal requesting the creation of the common drawing can agree to pay a predetermined fee to other users participating in the creation of the common drawing. If the creation of the common drawing is completed in step S129, A fee may be paid and the amount paid may be distributed to other users participating in the co-drawing.

On the other hand, the machining request server may provide a simulation result including the estimated machining time, the estimated cost, and the machining form corresponding to the machining request information that the user desires to request machining through the ordering server. That is, the user can change the machining condition or adjust the cost condition by confirming the simulation result before inputting the machining request information.

Then, the ordering server performs a simulation using the machining request information according to the user's selection, compares the machining request information with the pre-registered vendor information, and matches machining companies to be machined (S130).

In step S130, the machining request review unit of the ordering server examines whether the type, material, precision, and machining time of the machining machine in accordance with the machining request information are appropriate and performs a validity check to verify the error (S131 ), Each item of the machining request information is converted into a predetermined parameter (S132).

Thereafter, when the user selects the execution of the simulation (S133), the simulation section performs the simulation to display the simulation results such as the estimated machining time, the estimated machining cost, the preview of the workpiece, and the problems occurring during machining (S134 ). The simulation method performed in step S134 is the same as the method performed in the simulation unit 223 described with reference to FIGS. 8 and 9, and thus a detailed description thereof will be omitted.

If the simulation result is displayed, the user can proceed to step S120 to modify the existing machining order information to lower the anticipated machining cost or reduce the anticipated machining time. If the simulation result is satisfied, the process proceeds to step 136 And orders smart machining according to existing machining request information.

If the user does not perform the simulation or is satisfied with the simulation result and continues using the existing processing request information, the matching unit of the ordering server compares the vendor information with the processing request information converted into the parameter, And transmits the matching details to the processing request server (S136).

Then, the machining request server receives the matching details and receives at least one machining performer among the matched machining providers from the user terminal (S140).

At this time, the machining commissioning server accepts the matching details, which are information on matching machining companies from the ordering server, and transmits the matching details to the user terminal (S141) (S142), and then transmits the order approval information to the ordering server (S143).

However, if the processing terminal is not selected from the user terminal or if the order approval information is not input, the process of inputting the processing request information may be performed again in accordance with operation 120 described above.

Then, the ordering server transmits a processing instruction to the processing performing company (S150). For example, when the ordering server receives the order acceptance information for the machining performing company from the machining order server, the ordering server can transmit a machining order requesting the machining performing company to the machining performing company.

Then, the processing company performs the processing according to the processing instruction sheet, and then delivers the finished product to the user.

The present invention has been described with reference to the preferred embodiments. It will be understood by those skilled 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. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is indicated by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

100: Process commission server
110: a processing request reception unit 111: a request content input means
112: matching history output means 113: order acceptance means
120: Processing drawing sales department 130:
140: Joint Drawing Creation Department
200: Order server
210: business information registration unit 220: processing request review unit
221: Validation means 222: Parameter conversion means
223: Simulation means 230:
240: Order designation part

Claims (20)

delete delete delete A processing request information requesting the machining of the workpiece from the user terminal and machining request information including the machining drawing is received and the business information including the information about the machine tool held by the vendor is registered from the vendor terminals of the machining company, A smart machining ordering system for matching machining companies capable of performing a machining request of a user by comparing the machining order information with the machining order information,
Wherein the smart machining ordering system sets an optimal tool path for each machining type for performing the machining represented in the machining drawing, and determines the machining type of the work, the machining accuracy of the work, the size of the work, Information on the workpiece and an optimum tool path for each machining type into the NC code extraction program to extract NC codes necessary for machining the workpiece requested by the user, Performs a simulation for calculating a predicted machining cost, provides a simulation result to a user terminal,
The NC code extraction program extracts the NC codes using the input information and the machining tool information of the machine tools stored in the database storing the information about the machine tools provided by the machine tool manufacturers and the machining controller information. and,
The smart machining ordering system outputs a problem to the user terminal if the machining requested by the user terminal is impossible as a result of simulation, and the user terminal confirms the estimated machining time, the estimated machining cost and the problem, To provide the machining request information to the smart machining ordering system again,
The smart machining ordering system
A machining request server for receiving machining request information including a machining request and a machining request for requesting machining of a workpiece from the user terminal; And
The company information including the information about the machine tool held by the company is registered from the terminal of the processing company, and the processing company matching the previously registered business information with the processing request information is matched And an ordering server for performing the simulation using the processing request information and outputting the simulation result to the user terminal,

The processing request server
A consignment drawing preparation unit for receiving consignment information of a drawing to be created from a user terminal, requesting the creation of the drawing to another user terminal, receiving a consigned drawing created from another user terminal, and providing the drawing to the user terminal; And
And a common drawing creating unit for creating a drawing of a specific product by working jointly in a plurality of user terminals,

The ordering server
A business information registration unit for receiving information including a type of a holding machine, a kind of a holding material, a working period for each product, and a processing cost from a business terminal and registering the received information as business information;
A machining request review unit for verifying and reviewing whether the machining request information received from the machining request server is suitable and errorful;
Wherein when the verification and review of the machining request information is completed in the machining request review unit, the machining company capable of performing the machining request can be matched by comparing the vendor information with the machining request information, A matching unit for transmitting the matching history to the processing request server; And
The ordering server includes an ordering instruction unit for receiving the ordering approval information for the machining performing company from the machining ordering server and transmitting a machining instruction requesting machining to the machining performing company

The machining request review unit
Validity checking means for receiving the machining request information from the machining request server and performing validity checking for checking whether the type, material, precision and machining time of the machining equipment requested by the user are suitable or not and verifying the error;
Parameter conversion means for converting each item of the machining request information into a predetermined parameter and outputting the parameter to the matching unit when the validity checking is completed; And
And a simulation means for performing the simulation and outputting a simulation result. 5. The method of claim 4,
And a processing request accepting unit for receiving the processing request information from the user terminal and transmitting the processing request information to the ordering server and outputting information on matching processing companies from the ordering server, Ordering system. 6. The method of claim 5,
Wherein the machining order server further stores a machining drawing created by the machining order server, and causes the user terminal to search for and store the machining drawings stored in the machining ordering server. delete delete 6. The method of claim 5,
The processing request accepting unit
Wherein the interface for inputting the machining request information is displayed and the machining request and the machining drawing including the name of the product to be machined, the quantity, the machining type, the machining material, the precision, the size, the machining air and the uniqueness are inputted A request entry content input means;
A matching history outputting means for outputting a matching history which is information on matched processors from the ordering server; And
An order acceptance unit that receives an order acceptance information for a machining performing company to be machined among the machining companies included in the matching history from the user terminal and transmits the order acceptance information for the machining performing company to the ordering server; And a smart machining order system. delete delete delete delete delete A smart machining ordering method performed in a smart machining ordering system,
(1) The smart machining ordering system includes: registering and storing business information including information on a machine tool held by a vendor from a vendor terminal of processing companies;
(2) The smart machining ordering system includes: receiving machining order information including a machining request and a machining drawing for requesting machining from a user terminal of a user;
(3) The smart machining ordering system comprises: matching machining companies to be machined by comparing the machining request information with previously registered maker information;
(4) the smart machining ordering system selecting at least one machining performer among the matched machining operators from a user terminal; And
(5) the smart machining order system instructing the machining company to order machining,

The step (3)
(3-1) The smart machining ordering system performs a validity check to check whether the type, material, precision, and machining time of the machining machine conform to the machining request information and whether the machining time is appropriate.
(3-2) The smart machining order system converts each item of the machining order information into a predetermined parameter after the validation is completed;
(3-3) The smart machining ordering system sets an optimal tool path for each machining type for performing the machining represented in the machining drawing, and determines the machining type of the work, the machining accuracy of the work, Information on the workpiece material and an optimum tool path for each machining type are input to the NC code extraction program to extract NC codes necessary for machining the workpiece requested by the user, Therefore, a simulation for calculating the expected machining time and the expected machining cost is performed, and the simulation result is provided to the user terminal. And
(3-4) The smart machining ordering system compares the vendor information with machining request information converted into the parameters to match machining companies capable of performing machining requests, and transmits the matching details to the user terminal ≪ / RTI >
The NC code extraction program extracts the NC codes using the input information and the machining tool information of the machine tools stored in the database storing the information about the machine tools provided by the machine tool manufacturers and the machining controller information. and,
In the step (3-3), the smart machining ordering system outputs a problem to the user terminal if the machining requested by the user terminal is impossible as a result of simulation, and the user terminal calculates the estimated machining time, And corrects at least one of the machining request and the machining drawing to provide the machining order information to the smart machining ordering system again,
In the step (2), if the machining drawing does not exist, the smart machining ordering system receives the consignment information of the drawing to be created from the user terminal, requests creation of the drawing to another user terminal, And provides the created drawing to a user terminal, and when there is no drawing drawing, a plurality of user terminals jointly work with drawings of a specific product to create the drawing. 16. The method of claim 15,
In the step (1), the smart machining ordering system receives information including a type of a holding machine, a type of a holding material, a working period for each product, and a machining cost from a business terminal and registers the received information as business information Smart machining ordering method. 16. The method of claim 15,
In the step (2), the smart machining ordering system may include a machining request including the product name, quantity, machining type, machining material, precision, size, machining air and uniqueness to be machined from the user terminal Is input to the smart machining process. 18. The method of claim 17,
Wherein in the step (2), the smart machining ordering system allows the user terminal to search for and purchase pre-created machining drawings when no machining drawing exists. delete delete

Images