TW201243744A - Network-based production management system and method - Google Patents

Abstract

Provided are a network-based production management system and method, which can organically integrate production orderers, production manufacturers, and manufacturing device providers. The method stores information regarding a plurality of manufacturing devices, which are included in a plurality of production manufacturers, in a database. The method receives production order information from a production orderer over a network and analyzes the production order information to thereby define a factory line necessary for manufacturing of a product. The method generates work variables for manufacturing devices configuring the defined factory line. The method identifies a production manufacturer capable of configuring the defined factory line, on the basis of a database for manufacturing devices included in a plurality of production manufacturers. The method transmits work performing information including the work variables to a manufacturing device which configures a factory line of the identified production manufacturer over the network, thereby operating the factory line. The method sends operation state information, received from the manufacturing device configuring the factory line, to a manufacturing device provider and, when the operation state information indicates an abnormal state, transmit a message for managing the abnormal state to a corresponding production manufacturer.

Description

201243744 VI. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates to a technology for managing and controlling a product production process of an entire industry through a communication network. [Prior Art] In the mass production and mass consumption industry, the production and supply are carried out through a complete production structure (that is, the production, process management, maintenance and maintenance of the product in a single enterprise), but the production is carried out in a binary structure. And supply, the above-mentioned binary structure refers to an order in which a product orderer who wants to sell a product on the market issues an order for production of a designated product, and then a product producer who has a closed equipment produces the above-mentioned index according to an order placed. However, in the second structure of the court, the product orderer cannot master the production «. The producer uses the production line to produce the product, how much production cost is required, and how to limit the delivery (4), and has to rely on the product producer's opinion. With the rapid development of industrial technology, the requirements for production equipment, product orderers and product producers used in the production of 35 processes are becoming more diverse and complicated. However, there is almost no way to provide the production required for the production of the product. The supplier of the production equipment is ready to respond to the above requirements in the production equipment in a timely manner. In the above production environment, product orderers and product producers cannot determine information about the prediction, management, maintenance, and maintenance of product production. For example, since the product orderer does not have information about the production equipment of the product producer,

S 201243744 Therefore, in terms of cost and efficiency, the product compiler cannot judge which product producer to defer the production of the product to. Moreover, it is difficult for product producers to determine the production line that is suitable for maximizing the productivity of the ordered product. In addition, production equipment suppliers cannot collect opinions or reactions (feedbacks) from their product orderers or product producers on their production equipment. Therefore, the user's opinions cannot be reflected in the design of production equipment in the future. In particular, the production structure of existing products that rely on human resources (technical workers) cannot meet the product orderers, product producers, and production equipment suppliers. For example, when a technical worker responsible for a production facility resigns, the above-mentioned production equipment can maintain its original productivity', so product subscribers and product producers may experience delays in delivery deadlines or increase in non-performing rates. Production equipment suppliers have the difficulty of relying on skilled workers to operate. Moreover, when the optimal set value of the production equipment that has been acquired by the skilled worker is lost or the operator of the production equipment is replaced, the work set value of the production equipment is changed, the product orderer and the product producer may experience inconsistent product quality, etc. difficult. In particular, in the production, management and maintenance of production equipment, which depends on the existing production structure of the skilled workers, not only the supply, demand and education of the skilled workers are not easy for the producers of the products, but also the labor costs of the skilled workers. The increase has led to an increase in production costs and therefore has to suffer from double difficulties. SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems existing in the prior art as described in 201243744. The purpose of the present invention is to provide a network-based network that can combine product orderers and product manufacturers. Production management systems and methods. A network-based production management method according to an aspect of the present invention includes the steps of: receiving, by a network from a terminal of at least one product producer, a first group of production equipment included in at least one of said product producers Related information 'The first group of production equipment includes at least one production equipment; the product ordering tfL for product production is received from the mouth of the mouth orderer through the above network; the above product ordering information is analyzed to determine the production line' Configuring the second group of production equipment including at least one production equipment by the second group of production equipment required by the above-mentioned calving production households; determining whether one or more production equipments of the above-mentioned first-group production equipment can be configured The above-mentioned confirmed production line; and, according to the determination result, the at least one product producer identifies the A i-acceptable i. mouth. Producer. According to another aspect of the present invention, a network-based production management method includes the steps of: receiving production equipment information of each of the plurality of product producers from a terminal of a plurality of product producers through a network; The above network receives product ordering information for product production from the terminal of the product orderer, analyzes the product ordering information to determine the production line for the production of the above products, and determines whether the corresponding product producer can configure the above based on the above-mentioned production equipment information. production line. A network-based production management apparatus according to the third aspect of the present month includes: a database classified by a product producer, and received from the at least one product production phase terminal via the network and containing at least one of the above-mentioned products

S 201243744 The first group of production equipment related information and stores the above received information, the first group of production equipment includes at least one production equipment; the product design and information analysis department analyzes the terminal from the product orderer ^ Receiving product ordering information for product production to determine the production line, the above production line is configured by a second group of production equipment required for product production, the second group of production equipment includes at least one production equipment; and a production line configuration department, determining energy Whether the above determined production line is configured by one or more production apparatuses of the above-described first-stage production equipment, and the at least one product producer is identified as at least one product producer who can accept the order according to the determination result. According to another aspect of the present invention, a network-based production management method includes the steps of: receiving product ordering information for product production from a product subscriber's terminal through a first network; analyzing the product ordering Information for the production line for the production of the above products; generating at least one work variable for each production device in the at least one production facility for configuring the above production line, and transmitting the at least one work variable to the respective productions through the second network device. A network-based production management system according to an aspect of the present invention can be implemented in the following sections: Red Information, Information Processing, Network Communications, Product Design and Information Analysis; By production. . Producer classified database; production equipment supply. - material warehouse, production line configuration department; production process forecasting department; work instruction production process monitoring department; production equipment abnormal processing department; and production equipment design department. According to another aspect of the present invention & p 1 , a network-based production management method can be used to receive at least one product producer from a terminal of at least one product producer through a network. Having information about at least one production facility; receiving product ordering information for product production from a product orderer's terminal through the above network; determining at least one production equipment configuration required for production of the above product by analyzing the above product ordering information a production line and generating at least one work variable relating to said at least one production facility, based on information relating to said at least one production facility, determining whether said determined production line is capable of using said at least one production facility possessed by said at least one product producer Configuring at least a portion of the products; identifying, from the at least one product producer, a product producer determined to be capable of configuring the determined production line; and performing, by the network, the work including the determined production line and the at least one work variable Information, sent to The terminal of the identified production producer; the information indicating the working process of the production equipment to the production line of the above-mentioned Ruiding according to the above-mentioned work execution information, and the transmission of the work process to the production equipment of the y And at least one of the terminal of the product orderer and the manufacturer of the production equipment; and the message indicating that the state of the V(5) production device to the V(5) production device is abnormal according to the work execution information is sent to the message In the above-mentioned production, the level sisters, n ^ . , ^, and, in response to the above message, send the abnormality response message to the package 3 from the terminal of the above-mentioned production equipment supplier through the above-mentioned 'Zhou Lu'. Production equipment of the above-mentioned product producer's terminal. According to this month, | Xiao production equipment produces all the industrial fields of i & 'Industrial activities of the main dragon committee &, to participants such as product orderers, product production And the production equipment for the · · 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑Cheng.

S 201243744 Producers can easily select the most efficient production line and give the most talents. This reduces the training of skilled workers: the cost of breeding and management and the reduction of the efficiency of the production process due to unskilled workers. Further production and production companies set the best job execution information for each production equipment according to the production line, so even if the equipment is replaced by & Α &; μ 也, it can maintain the best in the production equipment and production line. Working condition, therefore, it is possible to produce products with high and uniform quality. (4) Producers can immediately monitor the current status of product production, and can increase productivity, reduce non-performing rates, and pursue skill averaging among workers. Product subscribers can quickly confirm when the product is being produced at what cost. The one-step product orderer can share with the product producer all important information about the producer's production, such as production, and directly and indirectly control the production line of the producer. Production equipment suppliers can quickly respond to faults that occur in the production equipment of the product producers. (4) Establish a fault database for this, so that you can master the production equipment that can create the highest quality and the most profit. From %, production equipment suppliers can optimally design production equipment to provide the best production equipment needed by product producers and product buyers to product producers. According to the present invention, information relating to the production of alpha-port can be reasonably exchanged between product producers and product orderers, thereby improving the quality and yield of the product. Moreover, the information related to the production equipment of Xiao can be quickly exchanged between the producers of the product producers, and the A/s period of the products can be shortened and the Β/ρ service can be provided. That is, according to the present invention, it is possible to configure a system for the production of related information to be instantly exchanged between product orderers, product producers, and production equipment suppliers through the organic 201243744 online connection, and when the system is applied to all industrial fields. 'Production efficiency can be maximized, while standardized and standardized production = can be offered to consumers at a low price. As a result, according to the present invention, it is produced. . Subscribers' product producers and production equipment suppliers can quickly acquire and exchange the best information they need to obtain or exchange in the prior art through an organically connected network, thus providing positive in all industry sectors. The spear has a wide shirt. According to this, the product orderer can perform comprehensive management and direct control on the production process, and the product producer can quickly respond to the requirements of the product orderer in the product and produce and supply the product with high and uniform quality with high production efficiency, and the production. The equipment supplier can respond quickly to various unexpected faults. _ The integrated and defective service of the production equipment can be provided to the product producer. Referring to the attached drawings, the following detailed description, other features of the present invention and The advantages will become more apparent. [Embodiment] The following detailed description includes various embodiments in which the invention can be practiced. The above embodiments are only intended to aid the understanding of the present invention and are not intended to limit the invention. Also, elements or steps that are separately described in one embodiment of the invention may be combined as an element or step in another embodiment. According to one embodiment of the present invention, when a product orderer provides a sample design, a drawing, a work order, and other planting to a network-based production management system, the production line can be configured by combining a plurality of production equipment to produce a corresponding

S 10 201243744 products, and one or more work variables are determined for each of the above production equipment. Moreover, according to an embodiment of the present invention, the product orderer and the product producer can accurately and quickly predict the time and cost required for production, and receive the product production process anytime and anywhere by using various terminals in a graphical form familiar to the user. Status and process. The production equipment supplier can immediately confirm the abnormality of the production line and/or the production equipment, and when an abnormal situation is found, the cause of the abnormality can be analyzed to quickly provide a countermeasure for releasing the abnormality. A network-based production management system in accordance with an embodiment of the present invention will be described with reference to FIG. In the network-based production management system, the product orderer terminal 101 can be connected to the network 121 via the first connection 101. According to an embodiment of the present invention, a plurality of product producer terminals 103_丨 to 103-N may be connected to the network i2i through a plurality of second connections to i〇9_n. In an embodiment, the production equipment supplier terminal m can be connected to the network 121 via the third connection 111. According to an embodiment of the present invention, the product orderer terminal 10, the plurality of product producer terminals 1〇34 to i〇3_n, and the production equipment supplier terminal 105 may be commonly used computer devices, commonly used mobile terminals such as smart phones or dedicated terminal. Each terminal may include a calculation processing unit, a read-only memory (10) M, a Read 〇nly Mem 〇 "), and a random memory (RAM, Rand〇 "ccess Mem〇ry", a storage device, an input/output interface, and a connection. A system bus bar and a parallel bus bar, a network module, and the like of various lower components, but the present invention is not limited thereto. According to an embodiment of the present invention, one product producer may be another product producer. Package producer or outsourced producer, multiple products 201243744 Part of the producer terminal may be a subcontract producer terminal or an outsourced producer terminal. According to one embodiment of the invention & production f service servo $] 5 〇 through the The four connections 113 are connected to the network 121. According to an embodiment of the present invention, the first connection 1〇7, the second connections 109-1 to 109_N', the third connection m, and the fourth connection ι3 may be the same or different. Network connection. According to an embodiment, the connection may include a local area network (LAN) connection, a wide area network (Wide Area Network) connection, and a public switched telephone network (psTN: pubiic Switched T Elephone Network) at least one of a connection and a wireless communication connection', but the embodiment is not limited thereto. According to an embodiment of the present invention, the network 121 may include an Internet (Internet) LAN, a wide area network At least one of the road and the wireless communication network, but the embodiment is not limited thereto. The multi-mode technique can be used to operate the network 121 'known network protocols such as Transmission Control Protocol/Internet Protocol (TCP/IP), File Transfer Protocol (FTP) or Hypertext Transfer Protocol (HTTP), etc. can be used for this. The production management server 150, the product orderer terminal 1 according to one embodiment of the present invention The product producer terminals 103-1 to 103-N and the production equipment supplier terminal 〇5 can be operated in a client server operation mode. And, according to an embodiment of the present invention, the production management server 150 can be installed at At least one of a product orderer, a product producer, and a production equipment supplier, or distributed and installed in each of them. In the above embodiment of the invention, only one product order is shown And a production equipment supplier, but those skilled in the art

S 12 201243744 Manufacturer of production equipment, which is, there can be multiple product subscribers and it is obvious. Figure 2 illustrates the network-based service n 〇 according to one embodiment of the present invention. The network-based production management word processor 150 in accordance with an embodiment of the present invention may include network communication requests. Netcom can send and receive product production orders, materials and messages from product orderers' product producers and production equipment suppliers via network 121 to product subscribers, product producers, and production equipment suppliers. In order to transmit and receive information 'network communication 胄 2Q1 may include a wired connection, a wireless or infrared connection, and a computer network connection, etc.' However, the embodiment is not limited thereto. The network communication 胄2G1 adds information to the carrier signal through signal modulation, or extracts the information contained in the carrier signal by (4) demodulation, thereby changing the data through the network. In addition to such modulation and modulation, the network communication section may include a signal configuration section according to a communication protocol and a security module (not shown) that maintains security. For example, the network communication unit 211 can transmit information into packets according to a code division multiple access (CDMA) technology for digital wireless communication. The network-based production management server 150 according to an embodiment of the present invention may include a product design spear information analysis unit 2〇5. The product design and information analysis section 205 analyzes the information about the product requested by the product orderer, and thereby determines the production line and the production line of each production equipment which are configured by combining the production and production of the production center. One or more work variables. Production. The subscriber only provides the requirements of the product itself to be produced (e.g., sample design or pattern), and may not provide any information for the production process required to meet the above requirements. For example, the sample design provided by the product subscriber may include 13 201243744 product information such as the appearance, constituent elements, and components of the product, but may not include the combination of production equipment required to form the desired appearance and the operational variables for the production equipment described above. . The Product Design and Information Analysis Department 2〇5 analyzes the sample design or pattern, from which it is possible to determine the production line that is configured by combining the production equipment required to produce the above products and one or more work variables for each combined production equipment. . The network-based production management server 150 in accordance with one embodiment of the present invention may include a repository 2〇7 categorized by product producers. The database 207 classified by the product producer can store information on the type, version, quantity, and working status of the production equipment owned by the product producer. The purchase request information and A/s information about the production equipment, and the information prediction product of the product specification. Various information on the production process, as well as information about the production of the product between the product producer and the product orderer through the network, but the invention is not limited thereto. Specifically, the database 2分类7 classified by the product producer can store the type, version, quantity, working status, and A/s information of the production equipment owned by each product producer' and can be executed for information security. User category access control (access c〇ntr〇l). Usually, the producers of the products include different production equipment, and the production line can be configured by combining the above production sighs. Moreover, the database 207 classified by the product producer can store a plurality of production equipment that cannot be used because the product producer is performing the current workflow, and a plurality of + paints that can be used because there is no current operation workflow. μ |,Β ι ^ The living room a is also available, and can be stored for adding: the production equipment itself or the parts of the production equipment, the purchase details and the purchase of Yuedong Information for this product category by product producer 7 Regularly enter the 201243744 line update. Further, the database 207 classified by the product producer can store the type and quantity of the production equipment of each process predicted by the production process prediction unit 213, the quantity that can be produced by the process category per unit time, the daily direct production cost, and the production cycle. Or the date of delivery, and can also store information sent between the product orderer and the product producer via the network (including raw materials such as products and total production quantities, etc.). The network based production management server 150 in accordance with one embodiment of the present invention may include a production equipment supplier database 2〇9. The production equipment supplier database 209 can store the type, quantity, and version machine information of the production equipment that can be supplied by the production equipment supplier, the response message information for the abnormal state of the production equipment, and the specifications of each production equipment. Also, when a new device is sold, information about one or more of the new device, including the type, version, specification, manual, instructional video, and price of the new device, can be updated to the production device supplier database. . The production equipment supplier database 209 can perform access control by user category (access c〇ntr〇i) in order to maintain information security about the production equipment. The network-based production management server 150 according to an embodiment of the present invention may include a line configuration section 211. The production line arranging unit 2 ιι can refer to the product 分类m classified by the product producer to determine the production line for producing the corresponding product according to the product producer. The production line configuration department 2 compares the production process composed by the product design and the information analysis 分析m and the production equipment required for the production of the product with the information stored in the product database m to configure the production according to the product. A production line that can be utilized. According to an embodiment of the present invention, if the analysis of the product design 201243744 and the information analysis unit 205 is considered to require a production process in which the production equipment of the type A, B, and c is combined to perform product production, the production line configuration unit 211 may It is determined whether the producers of the product have the production equipment of type a, b, and c, and if so, whether the production equipment of these types is currently available. Based on such determination, the line arranging section 211 can be configured to produce a corresponding product of a plurality of product producers and corresponding ones of the plurality of production lines respectively corresponding thereto. According to one embodiment of the present invention, when there is no product producer capable of providing a production line for producing a corresponding product, the production line configuration 邛 211 is used to configure the production line. Production equipment, and information on the relevant production equipment is provided by the producer of the product to determine whether the production line can be configured. The network-based production management server 15 according to an embodiment of the present invention may include a production process prediction section 213. When the product requested by the product orderer is produced using the production line which has been determined by the line arranging section 211, the production process predicting section 213 determines when the production and delivery are equal to the required quantity of calving 'and predicts the resulting production cost. . To perform such analysis, the production process prediction section 213 includes a prediction model for each production line, and based on the quantity of production required by the product orderer, raw materials and variables for product production (for example, data stored in the product producer) The delivery time and production cost are predicted in the library 207 according to the production, the time of the line of the king, the expected loss time of the production line, and the working state of the current production line. The production process predicting section 213 can predict and calculate the type, quantity, production amount per unit time, and daily direct production cost of the production equipment required in each process of product production.

The 16 S 201243744' section 213 can transmit the delivery deadline and production cost that have been predicted for a plurality of production lines to the product booklet terminal ι〇ι through the network communication unit 〇1. As a result, product subscribers can compare the delivery deadlines and product production costs of multiple production lines. According to an embodiment of the present invention, even when the production equipment supplier needs to supply a plurality of production equipment to the product producer to configure a new production line, the production process predicting portion 213 can predict the exchange deadline and when the new production line is used. Product production costs. The production process predicting unit 2丨3 can generate a efL regarding the delivery deadline and the production cost of the product in various electronic document formats, for example, 'the above electronic document includes documents in various formats such as Hypertext Mark-up Language (HTML). The xml (Extensible Markup Language), the Portable Document Format (PDF) and the MSWord file can be expanded, but the present invention is not limited thereto. In an embodiment, an electronic document can be sent to the product subscriber terminal 101. Therefore, the product orderer can determine which product line of the product producer to use for production based on the predictive analysis document of the delivery deadline displayed on its own terminal. In an embodiment, after the product subscriber confirms the predictive analysis document for the delivery deadline, the producer may request review and modification or request for product production. The network-based production management server 150 according to an embodiment of the present invention may include a work instructing portion 215. The job instructing section 215 transmits the job execution information to at least one of the plurality of product producers and at least one of the plurality of production lines respectively corresponding to the product producers, wherein the product producer is based on the delivery predicted for the plurality of production lines The term and production cost are determined. The job execution information may include: an IP address for identifying the product producer and the production line of the 201243744, an Internet function variable name, or a target information such as a dedicated network address H variable such as a production device for configuring the production line. Working speed, work items, parts details, production quantities, and equipment setting variables. The work instructing section 215 can provide the guard execution information in a plurality of electronic text format such as HTML mark, XML slot, PDF broadcast or video, or multimedia and short message for the mobile communication network, but the embodiment is not limited thereto. . And, the work instructing portion 215 can change and correct the work execution information according to the instruction of the product orderer and transmit it to the corresponding product producer terminal. The network-based production management server 150 according to an embodiment of the present invention may include a production process monitoring section 217. The production process monitoring unit 217 can process the production amount, the working time, the production equipment state, the work progress rate, and the expected completion time of each production line by processing the status information of each production line received via the network communication unit 211. However, the invention is not limited to this. Also, the production process monitoring section 217 can confirm the production machine that causes the work bottleneck in the corresponding production line based on the working state of the production machine for configuring the production line. The production process monitoring section 217 can combine the acquired information in a plurality of electronic building formats, and transmit the combined information to at least one of the product orderer, the product producer, and the production equipment supplier via the network communication unit 2. The network-based production management server 150 according to an embodiment of the present invention may include a production device abnormality processing section 219. The production equipment abnormality processing unit 219 can determine whether or not a plurality of production facilities for configuring the production line are operating normally. The production equipment abnormality processing unit 219 can store a plurality of production facilities 201243744 and a plurality of failure codes indicating abnormal operation, ... identify the production equipment that is determined not to perform the normal operation. According to an embodiment of the present invention, the production apparatus abnormality processing section 219 can receive and store the identification code of the new production apparatus and the fault code that may be generated from the production equipment supplier. The production equipment abnormality processing section 219 can transmit an electronic document containing the production equipment code and the failure code that has been determined to be in the abnormal state to the production equipment supplier terminal m. The production equipment abnormality processing section 219 can transmit a message requesting response information for the production equipment failure to the production equipment supplier terminal 1G5. The production equipment abnormality processing unit 219 can transmit the exclusive f status response message received from the production equipment supplier terminal 1G5 in response to the abnormal production equipment code and the faulty mother to the product producer terminal owning the relevant production equipment. The abnormal state response message may include an image, a voice support, an update patch of a sewing production device operation program, an online consultation website guide, and a contact information of a staff member who is dispatched to a product producer in order to handle an abnormal state, and dispatch. Period, etc., but the embodiment is not limited thereto. The network-based production management server 150 according to an embodiment of the present invention may include a production equipment design section 2 2 3 . According to an embodiment of the present invention, the production equipment design section 223 may be from the product orderer terminal 〇 The production product development request for generating the highest quality and the maximum profit is received, and the above-described production product development request can be transmitted to the production equipment supplier terminal 105. In an embodiment of the present invention, the production equipment design section may receive the best production line suggestion information from the production equipment supplier terminal i 05, and transmit the above-mentioned optimal production line suggestion information to the product subscriber terminal 201243744. For example, the production equipment The Design Department 2 2 3 initiates information exchange and feedback between product subscribers and production equipment suppliers, thereby facilitating the development of new production facilities or facilitating the improvement of existing production equipment. The network-based production management server benefit 150 in accordance with one embodiment of the present invention may include a central information processing unit 225. The central information processing unit 2 controls and commands the various components of the network-based production management server 150 to perform the necessary series of steps in order to produce the ordered product within the required time limit. According to an embodiment of the present invention, the central information processing unit 252 may be a commonly used computer, a schematic computer 'distribution processing system or an independent operation processing device, but the embodiment is not limited to the I central information processing unit 225. Control network communication 胄 2 () 1 to receive information from the network and send information to the network. The central information processing unit 225 can process the information received via the network communication unit 201 to the components of the network-based production management server for processing. The central information processing unit 2 can transmit the result of processing by the components of the base 150 to the production management server of the network via the network communication unit 201 to the product orderer terminal 1 and the product producer terminal 103. At least one of -1 to i〇3-N and production equipment supplier terminal 1〇5. The network-based production management servo benefit 150 according to one embodiment of the present invention may include a user input/output portion m. User input/output portion 227 can include input means for receiving instructions and information from a user. In the embodiment, the input device includes a keyboard, a pointing device, a microphone, a joystick, a scanner, etc. 'But the embodiment is not limited thereto. The user input/output section 227 may include an output device for providing information to the user. E.g,

S 20 201243744 The output device includes a monitor display, a speaker, a printer, etc., but the embodiment is not limited thereto. The user can obtain the desired information by inputting desired instructions or requests to the network-based production management system via input/output means. Fig. 3 is a configuration diagram showing a production line of a product producer according to an embodiment of the present invention. In an embodiment, the product producer may include Type A production equipment 303, 313 and 3171 type production equipment 3〇5, 3〇9 and 319, and Type C production 6 307, 311 and 315, and by combining production equipment Multiple Factory Lines 1 through N can be configured. The above production facilities 303 to 319 can be controlled by the product producer terminal 1〇3 via the wired/wireless interface. According to an embodiment, the wired/wireless interface may include a data bus, a USB, an infrared connection, a Bluetooth, etc., but the embodiment is not limited thereto. In an embodiment, the production equipment of the product producer side can communicate with the production equipment supplier terminal through the network-based production management server 15". In another embodiment, the production side of the product producer side does not need to be based on the above-mentioned basis. The network's production management feeder 150 can communicate directly with the production equipment supplier terminal via a wired/wireless network. In order to control the production equipment, the product producer terminal 103 may include a controller (not shown). In accordance with an embodiment of the present invention, the product producer terminal 103 can receive a work order command from the work instructions 4 215 of the network-based production management system. Based on the received work instruction command, the controller can send information and materials related to the command to the production device 3〇3 to SB via the wired/wireless interface. When the production equipment 303 JL 31 9, when the work variables received by 21 201243744 are stored and set, the product can be produced even if there is no separate user input during the production process. The controller of the product producer terminal 103 can receive process status information from the production equipment 3 0 3 to 319 via a wired/wireless interface. The process status information includes work time, work speed, normal work or not, throughput, and the like, but the embodiment is not limited thereto. The controller generates production line monitoring information including the working time production and production equipment status of each production line according to the process status information received by each production line, and sends the above-mentioned production line monitoring information to the production management server. When a certain production equipment fails, the controller identifies the identification code and the fault code of the production equipment, etc. and transmits the above identification code and failure code to the production management server 150 via the product producer terminal 1G3, and the controller passes the product. The producer terminal 103 receives a response to the reported failure from the production management server 15A. The production apparatus 3G3 1 319 may include display means for outputting various information and signals acquired during the production process, # for receiving a plurality of letter keys and digit keys or function keys of the key input from the user, but the embodiment is not Limited to this. A method for managing, holding, and controlling network-based product production activities in accordance with one embodiment of the present invention is described with reference to FIG. In step 4 (H' can be received from the product orderer terminal via the network: ordering information. In the implementation of the financial, product ordering information includes code for identification, use materials, combination scheme, production quantity, etc., and can be sample design form Provided in the form of a pattern or a work form. In step 403, according to the analysis of the product provided in step 4〇1

22 S 201243744 The hole can be derived from the production line configured in conjunction with the production equipment required for the production of the product and one or more work variables for each production unit contained in the production line. In an embodiment, by analyzing the sample design or sample information, the product identification code, the materials used, and the combination scheme can be used to derive the required production equipment and the operational variables of each production equipment. At step 405', it is possible to identify the product producer who can execute the series of processes required for the production of the ordered product and the production line of each product producer corresponding to the product producer. In an embodiment of the invention, the production equipment corresponding to each process that needs to be performed for the production of the product is included, and the product producer is identified as being currently available, and the production is combined according to the process order by the product producer. Equipment to configure the production line. According to another embodiment of the present invention, it is also assumed that the production is performed when only the production line currently possessed by the product producer cannot be used to configure the production line required for the production of the product. The production line is configured in the case where the supplier receives the required production equipment. At step 407, it is possible to predict the production period and cost when ordering the product using the production line configured in step 4〇5. According to an embodiment of the present invention, the production amount of the product requested by the product orderer based on the production line of the product producer and the daily working time of each production line stored in the database 2分类7 classified by the product producer, each production line The expected loss time (1 oss ti me ), the current working status of the production line, etc., can predict the delivery deadline and cost. For production lines that need to be configured by production equipment suppliers, it is also possible to predict delivery deadlines and costs based on production information as described above, as will be apparent to those skilled in the art. 23 201243744 In step 409, it is determined which product line of the product producer is the most efficient in producing the ordered product by comparing the production deadlines and costs of the product-producer's production line predicted in the foregoing steps. In the embodiment, by comparing the predicted delivery deadlines, the production line of the product producer who can initially complete the production of the product can be selected, and by comparing the predicted production costs, the production line of the product producer who can produce the product at the lowest cost can be selected. Moreover, the required production line can be determined after considering the above two conditions and other conditions. According to one embodiment of the invention, multiple production lines can be selected for different product producers for the most efficient product production. In an embodiment, multiple production lines can be sent to the product orderer, thereby allowing the product orderer to select at least one of the best production lines. At step 411, job execution information may be sent to at least one production line by product producer determined at step 4 。. The job execution information month includes an Ip address for identifying the product producer and the production line, an Internet domain name, or a target information such as a dedicated network address, and a work banquet such as a production facility for configuring the production line. The working speed, the work item, the component details, the production number 4, and the device setting change (4), but the present invention is not limited thereto. According to an embodiment of the present invention, the security execution information may be provided in a plurality of electronic document formats such as HTML rights, DVDs, PDFs, or multimedia and text messages for a mobile communication network. Limited to this. And the 'product subscriber' can send and paste at least one of the product producers as needed to change and correct the job execution information. According to an embodiment, before the (4) 411 sends the work execution information, the security commission can be sent to at least one production line, and only the security commission is authorized.

Product producers of S 24 201243744 send job execution information. . At step 413, a production line of the product-producer that performs the work process based on the job execution information can be monitored. The operating time, the number of productions, and the operational status of the production equipment contained in the production line of each production line according to an embodiment of the present invention can be reported via the network via the production management feeder 15: the producer, such as the orderer. By combining the working conditions of each production line, the #pre-production status of the production-producer's production line is monitored, and the product orderer can determine the working state of the entire production line for product production by integrating the production line of the product producer. According to the embodiment', the product orderer can be made to grasp the production amount by the production line, the working time, the state of the production equipment, the work progress rate, and the expected completion time of the work, etc., but the present invention is not limited thereto. And, based on the working state of the production machine for arranging the production line, to identify the production machine that causes the X to be the bottleneck in the corresponding production line, and according to the progress of the production process, the orderer can print via the production management word machine. Corrected work execution information is sent over the network to the production line of the corresponding product producer. According to another embodiment of the present invention, when the production equipment contained in the production line of a particular product producer is in an abnormal working state, the abnormal working state information is transmitted to the production via the production management servo@i. At least one of the subscriber and the manufacturer of the production equipment. The abnormal operation status message may include a production equipment identification code and a failure code m for indicating abnormal operation to identify the corresponding production equipment, but the embodiment is not limited thereto. The production equipment supplier receiving the abnormal operational status message can provide a response message for the abnormal operational status via the production official server 150. 25 201243744 According to an embodiment, the response message may include an update of the image and sound support sewing production device operation program, an online consultation website guide, and the like, but the embodiment is not limited thereto. Product production is accomplished at step 415' in accordance with a network-based production management method in accordance with an embodiment of the present invention. According to the embodiment, in the steps of FIG. 4, the information exchanged between the product producer product orderer and the production equipment supplier through the network can be stored in the product producer's single yin yin dynasty dynasty dynasty (4) At least one of a separate database of products (4), a separate database of production equipment, a database classified by product producers, and a database of production equipment suppliers. Hereinafter, a network-based sewing production management system 500 of the present invention will be described in detail with reference to Fig. 5 . The web-based seam 33 production management system 500 may include a sewing production management servo $5〇ι, a sewing product orderer terminal 503, a sewing production equipment supplier terminal 5, and a plurality of: product producer terminal 5G5] i 5G5-N . Interview visit production management servo writing, sewing young product orderer terminal 5 () 3, seaming production equipment supplier end 5H and multiple seam initial product producer terminals 505] to 5〇5_n one connection 533, second connection 563. The plurality of third connections are connected to the fourth connection 5 61. According to the embodiment, the sewing product orderer terminal 503, the sewing production equipment for the numerator 玖~ the supplier end % 511 and the plurality of seam cutting product producer terminals 505-1 to 505-N can be w β M ^

The Mb N can be used for a conventional mobile terminal such as a smartphone or a dedicated terminal, but the embodiment is not limited thereto. Each of the upload terminals may include a calculation processing unit, a calendar, a storage device, and an input: an output interface 'system bus and parallel sinks for connecting various lower components

S 26 201243744 stream, and network module 'but the embodiment is not limited thereto. The initial production management server 501 can be located in a business office of at least one of the sewing product orderer, the sewing product producer 'sewn production equipment supplier, or dispersed in a plurality of sales offices in the form of a dispersion system. The weekly connection 553 i 561 can be the same or a different network connection. According to an embodiment, the above connection may include at least one of a private local area network unconnect, a wide area network connection, a PSTN connection, and a wireless communication connection', but the embodiment is not limited thereto. In the embodiment, the network 5 ΰ τ & k includes at least one of an internet, a LAN, a wide area communication network, and a wireless communication network, but the embodiment is not limited thereto. In order to operate the network 4, a known network protocol such as TCP/IP, FTP, or Ηττρ can be selected depending on the network conditions. In the embodiment of the present invention, only one seam product assembler is shown, and the person skilled in the art can: include a plurality of seam-cut product orderers and seams. The robbery production equipment supplier is obviously based on the network-based seam production management word server 5〇1 can include network communication ^ not shown). The network communication department sends the product to the sewing product through the network 52ι, '·', 'knife product producer and sewing production product holder and supplier to send and live from the sewing product> product producer and sewing production Equipment suppliers receive Lutong r: purchases, materials and information. In order to send and receive information, the network packet adds information to the cutting signal, or the demodulated signal extracts such information as = to exchange data over the network. In addition to 4 and demodulation, the network communication section may include a signal configuration section and a secure encryption module (not shown) according to the communication protocol. The network-based seam-cut production management server 5〇1 includes a sewn product design and information analysis unit (not shown). Sewing product design and information analysis: The sewing product orderer terminal 5〇3 receives the sample design or pattern through the seam production management server. The Sewing Product Design and Information Analysis Department analyzes the sample design or pattern to analyze information about the product requested by the seam product constructor, thereby determining, for example, product design, clothing material, yarn type, and stitch width, etc. The embodiment is not limited to this. Thus, the slitting product design and information analysis department can derive one or more work variables that combine the production line of the second seam production equipment required for the production of slitting products and each combined production equipment. In the embodiment, the slitting production apparatus for performing buttonhole work can be derived for generation! (4) The optimum sewing speed, presser foot tension and yarn tension of the buttonhole diameter. The web-based sewing production management server 〇1 may include a library (not shown) classified by the sewing product producer. According to the embodiment, the library classified by the manufacturer of the sewing product can store the type, version, and quantity of the sewing production equipment of each sewing product producer, and perform the per-user access control for information security. For example, sewing production equipment may include automatic thread trimmer KM-2310, KM250A-7S, super high speed overlock sewing machine SC9204' and high speed tubular bed 3-pin interlocking provided by SunStar Company. Sewing machine SC73〇〇 and so on. Also, the database classified by the producer of the slit product can separately store the production equipment that cannot be used because the sewing product producer is performing the current workflow, and the multiple productions that can be used because there is no current operation workflow.

28 S 201243744 Equipment, for which the database of sewing products production test knives can be updated regularly. 0 Network-based sewing production 佝 佝 501 can include sewing production § and supplier database (not shown The blade production equipment supplier database may store the kind and amount of the sewing production equipment that can be supplied by the sewing production equipment supplier and the specifications of the sewing production equipment, but the present invention is not limited thereto: When the new equipment is locked, the new equipment can be updated to the supplier information of the sewing production equipment. The secret a female 计 犀 中 中 中 鲂 鲂 鲂 鲂 为了 为了 为了 为了 为了 为了 为了 为了 为了 为了 为了 为了 为了 为了 为了 为了 为了 为了 为了 为了 为了The female can perform the access control according to the user category. The network-based sewing production management feeding device 501 includes a seaming production line configuration section (not shown). The sewing production line configuration section is based on the survival of the sewing product producer. The data in the database can be used to judge the production of each seam. Whether the producer can configure the production line for the production of the corresponding (4) product. Sewing: Production line configuration department will be the production line (in The preliminary product design and information analysis department is determined by combining the production equipment required for the production of the seam product.) It is compared with the information stored in the database classified by the manufacturer of the sewing product, and can be configured by the producer of the seam product. Production line utilized. According to one embodiment of the present invention, when an automatic patterning process and an interlocking process are required as an analysis result to be used for producing a ordered sewing product, the identification owns Sunstar Corporation (SUnSta): C〇 mPany) provides electronic control pattern sewing 2 SPS/B-1 306GS-23 and high-speed flat bed 3-needle interlocking sewing machine manufacturer, and determines the manufacturer of the identified sewing products has white, related Whether the sewing production equipment is currently usable. Based on such a determination, 3 29 201243744 configures a plurality of sewing product producers capable of producing the corresponding sewing product and a plurality of production lines respectively corresponding to the plurality of sewing product producers. The embodiment 'when there is no sewing seam product manufacturer can provide the seaming production line for producing the corresponding seam initial product, the seaming production line configuration section is based on the seam Production "The supplier database is also used to identify the sewing production equipment required for the sewing production line, and the sewing production equipment is provided by the manufacturer of the sewing product to determine whether the sewing production line needs to be configured. The network-based sewing production management server 5〇1 may include a sewing production process prediction unit (not shown). When the sewing product requested by the sewing product orderer is produced using a production line that has been determined by the sewing line configuration section, the sewing production process prediction unit determines When the number of seamed products is produced in full, and the corresponding production costs. In order to perform such a knife analysis, the sewing production process forecasting department is based on the production quantity and variables required by the sewing product orderer, for example, stored in the seam production. The classified data: the daily working hours in the day, the expected loss time of the production line, the current production line status, etc., can predict the delivery deadline and production cost. For example, in order to produce 1 piece of shirt, predict each The monthly limit and production cost of a sewing production line, and the generation contains each Information predict the duration and cost of the sewing production line. The sewing production process predicting section can supply the production deadline and the fee to the sewing product orderer terminal 503 in various electronic formats such as HTML' XML, pDF and MSW 〇rd files, but the present invention is not limited thereto. The network-based seam cutting production management feeding machine 5Q1 includes the sewing work instruction section (not shown, the seam, the blade work instruction part sends the work execution information to the

30 S 201243744 The sewing product producer and at least one of the plurality of production lines respectively corresponding to the sewing product producer, wherein the above-mentioned sewing product producer is judged based on the production period and production cost that have been predicted for each production line. In the beginning of the seam work, the seam execution information includes the IP address of the production line for identifying the producer of the seam first product, the name of the Internet function variable, or the target information such as the dedicated network address, but this The embodiment is not limited to this. The sewing work execution information can include detailed sewing work information. According to an embodiment, the design, the sewing speed, the use of the yarn, the use of the cloth, the yarn tension, the stitch width, and the presser foot tension can be assigned to each seam production line of the seam production line by the seam line. The Sewing Guardian Instructions Department generates a re-sewing work information and sends the sewing information to each sewing product producer via the Internet. In the execution of the slit (four) process, when the material environment changes, for example, when the predetermined process work plan is changed due to the supply plan of the cloth or the failure of the production line, the sewing work instruction portion is based on the surrounding work variables. The change can change and correct the sewing spinning work execution information and send the changed and corrected information to the corresponding production line. The loading information can be used to perform the information in a variety of electronic text formats such as brewing tank, hunger, pDF or The young product producer terminal i is sewn, but the embodiment is not limited thereto. The network-based seam production management server 〇1 may include a seam production process monitoring unit (not shown). The seam cutting production process monitoring department processes the status information of the various seam production lines received via the network, thereby grasping the production quantity, working time, sewing production equipment status, work progress rate and jade work completion of a production line. Between, etc., but the invention is not limited to 201243744. Moreover, based on the working state of each sewing production machine in which the production line is arranged, it is possible to identify a sewing production machine that causes a work bottleneck in the corresponding production line. According to the embodiment, in the sewing production line in which the automatic patterning process and the interlocking process are sequentially performed, when the automatic patterning process produces one piece of product per hour but the interlocking process processes 75 pieces of product per hour, 25 pieces of product per hour are It is accumulated in the interlocking process so that the production equipment performing the interlocking process can be displayed. The sewing production process monitoring unit generates the analyzed sewing process state as an electronic document such as an HTML file, an XML file, a PDF file, or an MSW file, and transmits the electronic document to the product order terminal 5〇3, the sewing product producer. At least one of the terminals 505-1 to 505-N and the sewing production equipment supplier terminal 511. The network-based sewing production management server 511 may include a sewing production equipment abnormality processing unit (not shown). The seam initial production equipment abnormality processing section may include a storage device to store the production equipment identification code and a failure code indicating abnormal operation for identifying the production equipment determined to be not performing normal operation, but the embodiment is not limited thereto. In an embodiment, the sewing production equipment abnormality processing section may store an automatic thread cutting machine KM_23l〇, KM25〇a_7s, and an ultra-high-speed overlock sewing machine SC9204 'high-speed cylindrical bed 3 needles, which are produced by Sunstar Company. Interlocking sewing machine SC73〇〇, electronic control pattern sewing machine SPS/B-1 306GS-23 and high-speed flat bed 3-pin interlocking sewing machine SC7500 production equipment identification code, and used to determine the possibility of occurrence in each production equipment The faulty fault code 'stitching production equipment exception handling section can purely store and identify the identification code and possible fault code of the new production equipment from the seaming production equipment supplier. Sewing and robbery production equipment exception handling department

S 201243744 to transmit the production equipment code and the fault generation, sub-document including the determination to be in an abnormal state to the sewing production equipment supplier terminal 5丨1. The sewing production equipment abnormality processing unit may send the request information for the failure of the production equipment to the sewing production equipment supplier, and the sewing production equipment code and the failure code in response to the abnormal state of the initial production equipment abnormality processing unit. 'Send an abnormal status response message to the relevant seam cutting product producer terminal. The abnormal state response message may include an image, a patch for sewing the production equipment operating program, an online consultation guide, etc., but the embodiment is not limited thereto. The network-based sewing production management server 5〇1 includes a sewing production equipment design unit (not shown). (4) The production equipment designing department receives the sewing product development request for producing the highest quality and maximum profit from the sewing product orderer terminal 503' and transmits the above-mentioned sewing production product development request to the seaming production equipment supplier terminal 51. !! In an embodiment of the present invention, the seam initial production equipment design portion receives an optimum production speed, an adjustable line 10 width range, and a compression tension adjustment amount (4) from the seam young product orderer terminal 5〇3, and the above It is recommended to send to the sewing production equipment supplier terminal , i, but the embodiment is not limited thereto. The sewing production equipment design department can receive the optimum sewing line suggestion information from the sewing production supplier terminal 511 and transfer it to the sewing product orderer terminal 5〇3. The Sewing Production Equipment Design Department initiates information exchange and feedback between the sewing product supplier and the supplier of the sewing production equipment, thereby facilitating the development of new production equipment or promoting the improvement of existing production equipment. The web-based sewing production management server 5〇1 may include a sewing machine 33 201243744 central processing unit (not shown). The Central Processing Department of Sewing Production can command the network-based sewing production management server 5:1 to manufacture and execute the required two:: steps in the production of the ordered sewing products within the required time limit. According to the embodiment of the present invention, the center processing 2 special purpose computer 'distribution processing system, or the individual operation processing is set, but the embodiment is not limited thereto. Sewing the sentence = the Ministry of Science and Technology control network communication department to receive information from the network and send the child to the network to produce the central processing department will be sewing and cutting production related information to the base two, the material of the seam, the edge production management health device 5G1 The components are processed for transmission. The web-based seam production management feeder 501 can include an input/output portion (not shown). The user input/output portion may include an input device for receiving an indication and a : for an operator of the seam production management server 501 of the network. For example, the input device may include a keyboard, a fixed point injury, a microphone, a joystick, a scanner, etc., but the embodiment is not limited thereto. And 'When an operator enters instructions and information using a personal information device (eg, personal digital assistant or smart phone), the word processor user input/output portion may include a wired/wireless interface for receiving input instructions and information: . The server user input/output section includes an output device for providing information to the user. For example, the output device includes a monitor display, a speaker, a printer, etc., and further includes a wired/wireless interface for providing information to allow for rotation in the personal information device of the word processor user, but the embodiment is not limited thereto. 0 A method for managing, maintaining, and controlling web-based stitch spinning product production activities in accordance with one embodiment of the present invention is illustrated with reference to FIG.

S 34 201243744 In step 6 01 ' you can receive sewing product ordering information from the sewing product orderer via the network. In an embodiment, the sewing product ordering information includes a code for identifying a seamed product, a material composition information, a combination scheme, a production number, and the like, and may be provided in the form of a sample design form, a pattern form, or a work order form. However, the embodiment is not limited to this. Ordering information for sewing young products in the form of work orders can include product design, initial speed, yarn use, fabric #, yarn tension and stitch width. At step 603, the sewing product production ordering information provided in step 6.1 is analyzed, whereby one or more working variables of the production line and each production equipment included in the production line can be derived, the production line being through the seam, 'Edge production is required to produce the production equipment required for production. In an embodiment, by analyzing the information of the sample design or pattern, taking into account the product identification code, the materials used, and the combination scheme, it is possible to derive the required production equipment and each production equipment: The sewing kit (S) in the form of a sewing machine product s X includes a series of working processes, sewing production equipment and work variables required to produce the corresponding seam-cut products. In an embodiment, the work order may include automatic patterning, overlocking and interlocking processes required to produce the corresponding sewing product, and production equipment for performing the corresponding process and work variables for each production setting. At step 605, it is possible to identify a sewing product producer who can execute a series of processes required for producing the ordered sewing product and a production line of the sewing product producer corresponding to the sewing product producer. In the embodiment of the present invention, the sewing production equipment corresponding to the process to be executed for the production of the sewing product is separately included, and the sewing production equipment is identified by the manufacturer of the sewing product. 35 201243744 Preparation: Whether the product can be cut before use The producers configure the production line according to the sequence of the production process. According to another embodiment of the present invention, when it is not possible to configure the production line required for the production of the seamed product by using the seam production equipment currently contained in the producer of the seamed product, it is also assumed that the production of the yarn from the seam and the 'edge is prepared. The production, line is configured in the case where the supplier receives the required sewing production equipment. According to an embodiment of the present invention, it is possible to identify a production line of a seam-cutting product producer capable of performing an automatic patterning process, a two-line interlocking sewing process, an overlocking process, an interlocking process, and a buttonhole process, but this embodiment does not Limited to this. At step 607, it is possible to predict the production period and cost when the ordered product is produced using the sewing line configured in step 6〇5. According to one embodiment of the present invention, the m production requested by the product orderer and the daily working time of the data bank stored in the slitting s & producer classification t, the production line, are input to the production line of the sewing product producer. Predict the time of loss and the working status of the current production line, and forecast the delivery deadline and cost. Moreover, according to an embodiment of the present invention, the type and amount of production equipment required for each work process can be predicted based on the number of sewing products, and the daily production cost per day is produced per unit time of the work process. Even for a production line configured using the required sewing production equipment supplied by the sewing production equipment supplier, the delivery date and cost can be predicted by inputting the sewing production information as described above, which will be apparent to those skilled in the art. At step 609, by comparing the production deadlines and expenses of the sewing product producer's production line predicted in step 607, it can be determined which sewing product producer's production line is most effective in producing the ordered sewing product.

S 36 201243744 rate. In the embodiment, by comparing the predicted delivery deadlines, the production line of the seam-cutting product producer who can first complete the production of the product can be selected to compare the predicted production costs 帛 'selection of the sewing product producer who can produce the product at the lowest cost. Production line. Also, the required production line can be determined after considering the above two conditions and other conditions. In accordance with an embodiment of the present invention, τ is used to produce a plurality of production lines for different seam production. In an embodiment, a plurality of line prediction information is sent to the seam product orderer' thereby allowing the seam product orderer to select at least one of the best production lines. Sending execution information to 丄 In step 611' will contain the initial production line that the working condition has been determined to be the most efficient. The job execution information may include the name of the Internet function variable used to identify the producer and production line of the seam product, "target information such as a dedicated network address, and the work variables of the seam-free production equipment for configuring the production line, for example. Design, sewing speed 々, use of yarn, use of cloth, yarn tension, stitch width, presser foot tension, etc. 'But the invention is not limited thereto. According to an embodiment of the present invention, work execution information may be provided in a plurality of electronic document formats, such as files, hunger, pDF, or MSWord#' or multimedia and text messages for a mobile communication network, but this embodiment Not limited to this. And, if necessary, the sewing product orderer can change and correct the job execution information, and send the changed and corrected information to the plurality of seam producers using the web-based seam production management server 5〇1. At least _ one. According to an embodiment, before the job execution information is sent in step (1), the service commission request may be sent to at least one of the production product lines, and only the job execution information is transmitted to the seam producer. At step 613', the sewing machine production line of the sewing product production process is controlled. The working time, the current production amount, the remaining working time, (4) speed, yarn tension, and the like can be monitored for each production line, but the embodiment is not limited thereto. Examine the working status of each production line separately executed by the producers of multiple sewing products, and synthesize the status of these production lines, so as to transfer the work of the overall production of the sewing products through the sewing production management word machine training to make the sewing product orderer Master the work process before #. According to an embodiment of the present invention, based on the operating state of the production machine configuring the production line, a sewing production machine that causes a work bottleneck in the corresponding production line can be identified. Based on these production process execution status information, the sewing product orderer can transmit the corrected work instruction via the network to the corresponding sewing product producer's production line via the network-based sewing production management server 501. According to another embodiment of the present invention, when the sewing production equipment contained in the production line of the producer of the particular sewing product is in an abnormal working state, the abnormal working state information is produced through the network via the network-based sewing production management H 501. At least one of the skin delivery, sewing young product orderer, and sewing production equipment supplier. The abnormal working status message may include a seam initial production equipment identification code and a failure code for indicating abnormal operation for identifying the corresponding production equipment, but the embodiment is not limited thereto. The sewing production equipment supplier receiving the abnormal working status message can provide a response message for the corresponding abnormal working state by the network-based sewing production management server 501. According to an embodiment, the above-mentioned response message may include video, voice support, update patch of the sewing production equipment operating program, online consultation 38 a 201243744 website guide, etc. However, the embodiment is not limited thereto. In operation 61 5, the production process of the sewing product is completed. 4 According to the embodiment 'in the steps of Fig. 6' the information exchanged between the sewing product producer, the sewing product orderer and the sewing production equipment supplier can be in the individual f-stock of the producer of the sewing product, and (4) the product orderer Separate database, separate database of sewing production equipment, database classified by sewing product producer, and I-cut production equipment supplier data 4 towel #at least one storage* FIG. 7 is a schematic view showing one according to the present invention An embodiment of a slit 35 production apparatus of an embodiment suitable for use in a soil-to-season seam production system. The sewing production apparatus of Fig. 7 includes a display screen 7〇1. The display screen 7〇1 can include a liquid crystal display (LCD, Liquid Crmal Dispia), a plasma display panel (PDP, Plasma Panel Display), an active matrix organic light emitting diode panel (amoled, Active_Matrix 〇rganic Light)

Emitting Diode) and the like, but the embodiment is not limited thereto. The display screen 701 can display the working variables of the sewing production equipment such as current work instruction, work progress status, working time, remaining working time, design, use of cloth, use of yarn, stitch width and yarn tension. The sewing production equipment includes a bar code printer 703 and a hand scanner 7〇9. The bar code printers 03 print the bar codes used to indicate the working state of the machined or finished semi-finished products. The hand scanner 7〇9 reads the bar code attached to the sewing machine to determine the required processing content and work variables. The sewing production apparatus includes a yarn tension correcting device 7〇5. Yarn tension correction 39 201243744 The positive device 7 0 5 corrects the yarn tension used in the sewing production equipment based on the yarn tension work variable included in the work instruction received via the slitting production management server $ 〇 1 . The sewing production apparatus may include a stitch width adjusting device 707 and a yarn winding device 71. The stitch width adjusting device 7〇7 adjusts the stitch width of the sewing production apparatus based on the stitch width value included in the work variable received via the sewing production management server 5〇1. The yarn winding device 711 determines whether or not to perform the yarn winding operation based on the work variables received via the sewing production management server 5〇1. In order to adjust and control the yarn tension stitch width and the twisting of the yarn, each device includes a mechanical device such as a stepping motor, and a control device that controls the mechanical device by driving the mechanical device with an electrical signal. Figs. 8a to 11 An example of a user interface useful in accordance with an aspect of one embodiment of the present invention. 8a to illustrate an example of a (four) working variable interface that may be used in accordance with at least one embodiment of the present invention. Figures 83 to 8€ respectively show the working variable interface for each process performed by the root-stitching production equipment, including setting the second and second speeds (sewing speed), working yarn, working cloth, yarn tension and throughput. . Figure 8a 5 q - ri 3 to 8C may be included in a user-input/output unit of a network-based biometric system in accordance with an embodiment of the present invention: subscription: end (4) A plurality of product producer terminals _ to the terminal terminal or are displayed on at least one of the display screens 701 in the package. Status information interface:: According to:::: At least - the process used in the embodiment The status information interface 900 of the production line allows

40 S 201243744 The user uses the product producer selection function table 9〇1 to select the product producer of the production product (described as product producer A) and the production line selection function table 9〇3 to select the production line of the selected product producer. One (described as production line 2). The status information of the selected product producer and the production line is displayed on the work speed display unit 905, the work time display unit 907, the single yarn information display unit 909, the production amount display unit 91, and the failure state display unit 913. According to the state information interface of the production line, the user input/output portion 227, the product orderer terminal 1, and the plurality of product producers included in the network-based production management system according to an embodiment of the present invention may be included. The terminal - i to 103-N and the production equipment provider terminal 1 〇 5 are displayed on 'but the embodiment is not limited thereto. Figure 10 illustrates an embroidery line analysis interface iOOO that may be used in accordance with at least one embodiment of the present invention. The user can click on the design open button 1〇〇7 to select the desired design. The design information about the selected design is displayed on the design information display unit 1001, the stitch information display unit 003, and the design size display unit 1〇〇5. The loss time input unit 1 允许 11 allows the user to select the lost time due to the disconnection, the lost time due to the skeleton (B〇bbin) replacement, and the lost time due to other reasons. The production equipment selection section 1014 allows the user to select production equipment, work speed, and the like used in the production line. The embroidery line analysis interface 1000 can be included in the user input/output portion 227, the product orderer terminal 1, and the product producer terminal 103-1 to i of the network-based production management system according to an embodiment of the present invention. The 〇3-N and the production equipment supplier terminal 1 〇5 are displayed on at least one of them, but the embodiment is not limited thereto. 41 201243744 Figure 11 illustrates a stab process state interface 1100 that can be used in accordance with at least one embodiment of the present invention. The embroidery process status information interface 11〇〇 allows the user to select the product producer who produces the embroidery product (described as product producer c) using the embroidery product producer selection function table 11〇1, and selects the embroidery included in the selection using the selection function table 1103. Production line in the product producer (described as line 1 and 2). The status information of the selected embroidery product producers and production lines can indicate the production equipment of the production line and the working time, design, working speed, productivity, production process, / / line cutting J loss time and error of each production equipment. However, the invention is not limited thereto. According to the status information interface of the embroidery production line, the user input/output unit 227, the product orderer terminal 1, and the product producer included in the network-based production management system according to the embodiment of the present invention. At least one of the terminals 103-1 to 103-N and the production device provider terminal 〇5 is displayed, but the embodiment is not limited thereto. Figure 12 shows that the production of the splicing I process, which can be used in accordance with at least one embodiment of the present invention, is the precipitation and prediction interface i 2 〇. . The user can select or input the product to be produced using the item input portion 12G1. The user can enter information on the production line for the production of the selected or imported product via the line information input section 12 n q m Z03. The information on the production line may include information on at least one production, predicted working hours, predicted loss time, number of products required, and workman's work. The production line of the production line is based on the production line input by the user. It analyzes and predicts the productive information of each process used in the production line of the product, and displays information for analysis and prediction. The production metric and prediction interface 1200 of the thorn and embroidery process may be included in the user input/output portion 227, the product orderer terminal 1 of the network-based production management system according to one embodiment of the present invention according to 42 a 201243744 〇丨, at least one of the product producer terminals 103-1 to 103-N and the production equipment supplier terminal 〇5 is displayed 'but the embodiment is not limited thereto. Figure 13 illustrates a stinging process productivity analysis and prediction interface 1 3 〇 可 that may be used in accordance with at least one embodiment of the present invention. The user can select or input the product to be produced using the item input section 1301. The user can input the capital afl of the production line for producing the selected or input product through the line information input unit 1 303. Information on the production line may include information on at least one production facility's predicted working hours, predicted loss time, number of products required, and wages of the operator. The production line production display unit 1 305 can analyze and predict the productivity information of each production equipment used in the production line, and display information for analysis and prediction. Productivity information by production equipment may include information such as process time and labor cost for all actual working hours and lost time by production equipment. The productivity analysis and prediction interface of the embroidery process can be used in the user input/output section 227, the product orderer terminal ι〇ι, the production « in the network-based production management system according to an embodiment of the present invention. ° Production of U 1G3-1 to iQ3_N and at least one of the production equipment supplier terminals are displayed 'But this embodiment is not limited thereto. The network-based production management system and method in accordance with an embodiment of the present invention can be implemented in a computer program (4) on a computer readable medium. A computer readable medium containing a computer program according to an embodiment of the present invention may include a computer, a flash memory, a CD-ray optical storage medium such as a hard disk, a magnetic storage medium such as a magnetic sheet, etc., but the present invention Not 43 201243744 is limited to this. The computer program may include source code written in a programming language and machine code translated by a combined language program, but the present invention is not limited thereto. Computer readable media can distribute source code or machine code to multiple computer systems connected to the network. While the specific embodiments have been described, the embodiments are presented by way of example only and are not intended to limit the scope of the invention. In fact, the novel method and apparatus described above may be embodied in a variety of other forms. Further, various changes, modifications, corrections and substitutions in the form of the above-described embodiments are possible without departing from the spirit of the invention. Moreover, the components and steps of configuring the network-based production management system and method of the present invention can be implemented as a plurality of decentralized hardware modules or software. Therefore, it is intended to cover these forms or modifications, and it is within the scope and spirit of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1A shows a frame circle based on a production management system in accordance with one embodiment of the present invention. The network is not shown in the block diagram of an embodiment of the network-based production management word processor of Figure 1. Figure 3 is a configuration diagram showing a product producer production line in accordance with an embodiment of the present invention. 4 is a flow chart showing the process of managing and controlling production activities in accordance with one embodiment of the present invention. - 5 44 201243744 Figure 5 illustrates a block diagram of a seam-producing production environment using a web-based seam production management system in accordance with one embodiment of the present invention. A block diagram of a management, maintenance, and control of network-sewed product production activities in accordance with one embodiment of the present invention is shown. "The figure is not intended to be a diagram of a sewing production apparatus applicable to a web-based seam according to an embodiment of the present invention. Figure 8 (8HC) is shown with BRIEF DESCRIPTION OF THE DRAWINGS At least one embodiment of the present invention is incorporated in an exemplary embodiment of an interface. Figure 1 is a diagram showing an example of a production activity monitoring interface associated with at least one embodiment of the present invention. At least one embodiment of the invention is used in combination with a process analysis and a prediction interface - an example of an example. A second 11 is an example showing a production line configuration interface for use in conjunction with at least one embodiment of the present invention. The production of the diagram is used in conjunction with at least one embodiment of the present invention, and is a diagram of yet another example of a sizing and predictive interface. The second is shown in conjunction with at least one embodiment of the present invention. A diagram of another example of the knife and the prediction interface. [Main component symbol description] 1〇〇~production management system; 101~ product orderer terminal; 103-1 to 103-N~ product producer terminal; 45 201243744 105~production a supplier terminal; 107 to a first connection; 109-1 to 109-N to a second connection; 111 to a third connection; 113 to a fourth connection; 1 2 to a network; 150 to a production management server; ~ Network Communication Department; 205~ Product Design and Information Analysis Department; 207~ Database by Product Producer; 209~ Production Equipment Supplier Database; 211~ Production Line Configuration Department; 213~ Production Process Prediction Department; Work instruction department; 21 7~ production process monitoring department; 219~ production equipment abnormal processing unit; 223~ production equipment design department; 225~ central information processing department; 227~ user input/output unit; 303, 313~A type production equipment ; 305, 309 and 319~B type production equipment; 307, 311 and 315~C type production equipment; 500~ sewing production management system; 501 ~ sewing production management server; 46 201243744 503~ sewing product orderer terminal; 511~ Sewing production equipment supplier terminal; 505-1 to 505_N~ seam initial product producer terminal; 533~first connection; 555-1 to 555-N~third connection; 56b fourth connection; 563~second connection; 70 Bu sewing production equipment including display Curtain; 7 0 3 ~ bar code printer; 709 ~ hand scanner; 705 ~ yarn tension correction device; 707 ~ stitch width adjustment device; 711 ~ yarn winding device; 900 ~ process state information interface; Product producer selection function table; 903~ production line selection function table; 905~ working speed display unit; 907~ working time display unit; 909~ single yarn information display unit; 911~ production amount display unit; 913~ failure status display unit; 1 000 ~ embroidery production line analysis interface; 1001 ~ design information display part; 1 003 ~ stitch information display part; 47 201243744 1 005 ~ design size display part; 1 007 ~ design open key; I 011 ~ loss time input part; 1014 ~ Production equipment selection department; II 0 0 ~ embroidery process status interface; 110 Bu embroidery product producer selection function table; 1103 ~ selection function table; 1 2 0 0 - production analysis and prediction interface of embroidery process; 1 2 01 ~ Project input unit; 1 203~ production line information input unit; 1 205~ production line production display unit; 1 300~ embroidery process productivity analysis and prediction interface; 13 01 ~ project input unit 1303 - line information input unit; 305~ a production line of the display unit.

48 S

Claims (1)

201243744 - VII. Patent application scope: 1. A network-based production management method, comprising the steps of: receiving, by a network from a terminal of at least one product producer, a first group of productions included in at least one of the above-mentioned product producers; Device-related information, the first group of production equipment includes at least one production equipment; receiving product ordering information for product production from a product orderer's terminal through the above-mentioned network; analyzing the above-mentioned product gambling information to determine a production line, and the above-mentioned production line passes The second group of production equipment required for the production of the above products to configure the second group of production equipment includes at least one production equipment; determining whether the above determined production line is configured with one or more of the first group of production equipment; #备" The result of the determination identifies the at least one product producer as at least one producer of the product that can accept the order. 2. The network-based production management method according to claim 1, wherein the method further comprises: transmitting the work execution information to the terminal of the at least one product producer capable of accepting the order through the network. The network-based production management method according to claim 1, wherein the method further comprises: selecting one of the at least one producer of the at least one product that can be ordered or the producer of the product as the product order The gambling acceptor; and - the job execution information is sent to the terminal of the above-mentioned product ordering party through the above network. 4. The network-based production described in the second or third application of the patent scope 49 201243744 Management method 'which further includes the helmet 7 匕祜 · for the production of the first group of production equipment δ is also generated At least one work variable, wherein the work execution information includes at least one work variable for each of the production devices of the first group of production devices. 5. The network-based production management method described in the "Patent Patent Range 帛1", wherein the step of preparing the production line of the above-mentioned shirt includes: the above-mentioned group production equipment and the second group production described above The device is compared. 6. The network-based production management method according to claim 3, wherein the step of receiving information of the first-group production equipment of the at least one product producer through the network comprises: receiving the above The working status information of the current working state of the first group of production equipment. 7. The network-based production management method of claim 6, wherein 'selecting one or more of the at least one producer of the at least one product that can be ordered as the product order recipient The steps are performed based on the above operational status information. 8. The network-based production management method according to claim 6, wherein the one or more product producers of the at least one product manufacturer capable of accepting the order are used as a step package of the product ordering recipient. =. At least one of the predicted production time and production cost in the above-mentioned confirmed production line of the above-mentioned at least one product manufacturer capable of accepting the order is sent to the terminal of the above-mentioned product orderer through the above-mentioned network. 9. The network-based production management method according to claim 4, wherein the method further comprises: S 50 201243744 in response to the above-mentioned first-group production equipment, each production device works based on the above-mentioned work execution information, and immediately monitors The working state of at least one production device of the first group of production devices. The network-based production management method of claim 9, wherein the step of immediately monitoring the working state of the at least one production device comprises: when the operation of the at least one production device is interrupted, The message that the status of the at least one production device is abnormal is sent to the terminal of the production device provider through the network; and in response to the above message, the abnormal response message is received from the terminal of the production device provider through the network. 11. The network-based production management method of claim 10, wherein the step of immediately monitoring the working state of the at least one production device further comprises: indicating, by the network, the current state of the at least one production device The current operational status information of the operational status is transmitted to at least one of the terminal of the product orderer and the terminal of the production equipment supplier. 12. The network-based production management method according to claim 11, wherein the method further comprises: receiving, by the network, at least one of a terminal of the product orderer and a terminal of the production equipment supplier. A message for correcting at least one work variable of the at least one production device. 13. The network-based production management method according to any one of claims 1 to 3, 5 to 1 wherein the at least one production facility is a sewing production facility. 51 201243744 14. A network-based production management method comprising the steps of: receiving production equipment information of each of the plurality of product producers from a terminal of a plurality of product producers via a network; ordering from the product through the network The terminal of the person receives the product ordering information for product production; analyzes the product ordering information to determine the production line for the production of the above product; and determines whether the corresponding product producer can configure the above production line based on the above-mentioned production equipment information. 15. The network-based production management method of claim 14, wherein the method further comprises: identifying at least one product order recipient from the plurality of product producers based on the determination result. The network-based production management method according to claim 14, wherein the production equipment information is information related to at least one production equipment of each of the plurality of product producers. The network-based production management method as described in claim 16 wherein the method further comprises: transmitting the work execution information to the terminal of the at least one product order recipient via the network. 18. The network-based production management method of claim 17, further comprising: monitoring at least one of the production devices in response to at least one production device operation based on the job execution information product ordering recipient based on the work execution information. Working status. 19. The network-based production management method as described in claim 18, wherein the step of monitoring the behavior of the at least one production device in real time comprises: when the operation of the at least one production device is interrupted At the time, a message indicating that the state of the at least one production device is abnormal is transmitted to the terminal of the production device provider through the above-mentioned network; and in response to the above message, is received by the terminal of the above-mentioned production device supplier at the above-mentioned network Abnormal response message. 20. The network-based production management method according to claim 19, wherein the step of monitoring the working state of the at least one production device in real time further comprises: indicating, by the network, the at least one production device The current operational status information of the current working status is transmitted to at least one of the terminal of the above-mentioned product orderer #terminal of the above-mentioned production equipment supplier. The network-based production management method according to any one of claims 17 to 2, wherein the at least one production facility is a sewing production facility. 22. A network-based production management device, comprising: a database classified by a producer of τισ, received from a terminal of at least one product producer via a network, and a first group included in at least one of said product producers Producing equipment-related information and storing the received information. The first group of production equipment includes at least one production equipment; the product design and information analysis department analyzes product ordering information received from the product orderer's terminal for product production to determine the production line. The above production line is configured by a second group of production equipment required for production, the first group of production equipment includes at least one production equipment; and 53 201243744 Production Line Configuration Department, determining whether one or more of the first group of production equipment can be used The production equipment is configured to configure the above determined production line, and the at least one product producer is identified as at least one product producer capable of accepting the order according to the determination result. 23. The network-based production management device of claim 22, further comprising: a production process forecasting unit that produces one or more of the at least one product producer capable of accepting the order The person selects the product order acceptor; and the work instruction unit transmits the work execution information to the terminal of the product ordering recipient through the above network. 24. The network-based production management apparatus according to claim 23, wherein the production process predicting unit predicts a production period and a predicted production period in the above-mentioned determined production line of the at least one product that can be ordered. At least one of the production costs is sent to the terminal of the above product subscriber through the above network. 25. The network-based production management as described in claim 23, and the preparation of the product design and information analysis, generates at least one working variable for each of the above-mentioned production units of the production of β. The work execution information includes the at least one working variable of each of the production devices of the first group of production devices. The network-based production pipeline according to claim 2, wherein the production line configuration unit determines whether the above-mentioned determined 54 201243744 production line can be configured by comparing the first group production equipment and the second group production equipment. . 27. The network-based production management device of claim 23, wherein the database classified by the product producer receives information on the working status of the current working state of the first group of production devices via the network. And store the above work status information. 28. The network-based production management device according to claim 27, wherein the production process predicting unit generates one or more of the at least one product producer capable of accepting the bet based on the work status information. The product producer chooses to order the recipient for the above product. 29. The network-based production management device according to claim 25, further comprising a production process monitoring unit, in response to the first group of production equipment operations based on the work execution information, monitoring the first group The working state of at least one production equipment in the production equipment. 30. The network-based production management device according to claim 29, further comprising a production equipment abnormality processing unit, wherein the production process monitoring unit monitors at least one of the first group of production devices When the work is interrupted, a message indicating that the state of the at least one production device is abnormal is transmitted to the terminal of the production device provider through the network, and in response to the message 'receiving an abnormal response from the terminal of the production device supplier through the network Message. The network-based production management device according to claim 29, wherein the production process monitoring unit transmits, by using the network, current working status information indicating a current working state of the at least one production device to At least one of the terminal of the above product subscriber and the 55 201243744 terminal of the above-mentioned production equipment supplier. A network-based production management device as described in claim 31, wherein at least one of the terminal of the above-mentioned product orderer, the terminal of the product ordering recipient, and the terminal of the production equipment supplier is a mobile Communication terminal. 33. The network-based production management device as described in claim 22, wherein the method further comprises a production equipment design department, receiving a development request for a new production device from the terminal of the product subscriber through the network, and responding Receiving, transmitting the development request of the new production equipment to the terminal of the production equipment supplier through the network, or receiving the production line suggestion required for the production of the product from the terminal of the above-mentioned production equipment supplier through the above-mentioned network, and receiving the request through the above network The road sends the above production line proposal to the terminal of the above product orderer. 34. The network-based production management apparatus according to claim 31, wherein the work instruction unit receives at least one of a terminal of the product orderer and a terminal of the production equipment supplier to correct the at least A message of at least one work variable of a production device. The network-based production management apparatus according to any one of claims 22 to 34, characterized in that it is a sewing production apparatus. The feature is that at least one of the above-mentioned production establishments 36. A network-based production management method includes the following steps: The product ordering information; the product is produced in the above-mentioned product production to analyze the above product ordering information to determine the use of the 201243744 production line, generating at least one working variable for each production s of at least one production equipment for configuring the above production line; And transmitting the at least one working variable to the respective production devices through the second network. 37. The network-based production management method of claim 36, wherein the method further comprises: monitoring the operational status of each of the production devices in response to each of the production devices operating based on the work variables described above. 38. The network-based production management method according to claim 37, wherein the step of immediately monitoring the working state of each of the production devices comprises: when the operation of one of the production devices is interrupted, a message in which the status of one of the production devices is abnormal is transmitted to the terminal of the production device provider through the first network; and in response to the message 'receives an abnormal response message from the terminal of the production device supplier through the first network . 39. The network-based production management method of claim 38, wherein the step of immediately monitoring the working status of each of the production devices further comprises: indicating, by the first network, the foregoing production devices Then, the current working status information of the working status is transmitted to at least one of the terminal of the product orderer and the terminal of the above-mentioned production equipment supplier. 40. The network-based production management method of claim 38, further comprising: at least 57 of the terminals of the product orderer and the terminal of the production equipment supplier through the first network. A message is received for correcting at least one work variable of each of the production devices. 41. The network-based production management method of claim 36, wherein the method further comprises: transmitting at least one of a production period and a production cost predicted in the determined production line through the first network To the terminal of the above product orderer. The method according to any one of claims 36 to 41, wherein the at least one production facility is a sewing production facility. 43. The network-based production method according to any one of the preceding claims, wherein the first network is different from the second network. 58 S