序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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101 | Packaging plant diagnostic system | JP23221396 | 1996-09-02 | JPH1079599A | 1998-03-24 | OKADA YASUHIRO; SATO KENICHI; YOKOMORI TADASHI; KANEMATSU KOICHI |
PROBLEM TO BE SOLVED: To realize a packaging plant diagnostic system which is capable of making an optimal diagnosis for a packaging plant from practical evaluation by a method, wherein the diagnostic system equipped with a packaging cost examination algorithm and the like makes a diagnosis of a packaging plant from the current packaging cost, production capacity, lead time, and ideal model plan operation index. SOLUTION: A current packaging cost and a model packaging cost are compared with each other by the use of a mounting cost data base 2, a packaging cost examination algorithm 5, and a model operation index data base 4 to evaluate a packaging cost. A current production capacity and a model production capacity are compared with each other by the use of a machine characteristic data base 4, a production capacity examination algorithm 6, and a model plant operation index data base 4 to evaluate the production capacity. Furthermore, the current production lead time and model production lead time are compared with each other by the use of a production lead time examination algorithm 7 and model plant operation index data base 4 for evaluating the production lead times. | ||||||
102 | Method and device for processing product delivery answer and information recording medium | JP27738899 | 1999-09-29 | JP2001100829A | 2001-04-13 | KANESAKA MASAYUKI |
PROBLEM TO BE SOLVED: To provide a more exact delivery date answer without complicating production process grasping processing (operating processing) when giving delivery date answer to the ordered article of market production, to easily prepare planning of a production schedule and a component order schedule to a component vender and to attain reduction in stock at stocktaking. SOLUTION: This device is provided with an input device 1, a delivery date answer processing part 2, a data storage part 3 and an output device 4 and the delivery date answer to the ordered article of scheduled product production in a plant is processed. Also when a delivery date answer request to a product is received, a component constitution in production processes is expanded. Concerning the component of this expanded constitution, corresponding to respective component characteristics, the date of component delivery is found from a predetermined processing form of the delivery date answer. Furthermore, the date of answer delivery corresponding to the inputted delivery date answer request product is calculated from these respective found delivery date answers of respective components. COPYRIGHT: (C)2001,JPO | ||||||
103 | Delivery date reply system | JP33304193 | 1993-12-27 | JPH07192044A | 1995-07-28 | TAKAHARA TORU |
PURPOSE: To accurately reply delivery date in a short time. CONSTITUTION: When an order from a customer is inputted to a terminal computer 6 on the side of sales 5, a computer 2 for preparing a production schedule on the side of a factory 1 prepares production schedule data for each product. then, the computer 3 for preparing a post-process schedule prepares post-process schedule data based on the production schedule data and post-process capacity data. In the preparation of the post-process schedule data, after working loads required for a post-process for performing secondary work are calculated for each day, the working loads are compared with the post-process capacity data of the post-process and the post-process working date is set at the next day when the working load exceed working capacity. Then, a delivery date deciding part decides the delivery date by adding the number of days for delivery required for deliverying the product to a destination to the post-process working date based on the post-process schedule. In such a manner, since the post-process schedule data can be automatically prepared by providing the working capacity of the post-process, the delivery date can be quickly and more accurately replied. COPYRIGHT: (C)1995,JPO | ||||||
104 | TRANSMISSION MODULE AND TRANSMISSION ASSEMBLY METHOD | PCT/IB2008/001227 | 2008-05-16 | WO2008142525A1 | 2008-11-27 | VIITASALO, Ville; RUOKOLA, Timo |
There is provided transmission module (10) for a tractor which is selectively configurable between a CVT arrangement and a multi-ratio powershift transmission arrangement. The module comprises an epicyclic unit (13) in which a first gear element of the epicyclic is driven mechanically from the input shaft (11) and a second gear element of the epicyclic acts as an output of the transmission module. By simply connecting either a CVT unit (24) or a pair of clutches (80) between the input shaft and a third gear element the module (10) can be converted to the desired transmission arrangement. This delivers benefits in a factory for example whereby a large proportion of the assembly can be completed before tailoring the transmission to a customers requirements, thus reducing lead times on delivery. |
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105 | Vanadium containing raw material for redox flow cell | JP2000286282 | 2000-09-21 | JP2002100390A | 2002-04-05 | MIZUTANI HAJIME; ONO HIROAKI; UCHIUMI MISUZU; NOMURA KAZUHIRO |
PROBLEM TO BE SOLVED: To provide a vanadium containing raw material for a redox flow cell at low delivery cost to a user from a vanadium specialty maker (factory). SOLUTION: In the raw material for redox flow cell using a sulfuric acid solution of vanadium as an electrolyte solution, a mixed powder of vanadium oxide having a total composition of V2O3.5 is used. COPYRIGHT: (C)2002,JPO | ||||||
106 | Network system | EP00123334.5 | 2000-10-27 | EP1096403A2 | 2001-05-02 | Monma, Hitoshi; Hayashi, Katsumi; Imajima, Yoshiaki; Nakajima, Mitsuru; Fujii, Mikako |
A network system, accounting processing device, manufacturing processing device and computer readable recording medium storing a program to process transactions requested by a client and received through a network and to conduct accounting of the transactions. The system includes an intermediary computer connected through a network to mediate processing request data forwarded from a user to a suitable content processing factory, and to mediate data forwarded from the content processing factory to the user. The intermediary computer receives the processing request data from a user and forwards the data to a content processing factory. The content processing stores the processing request data and forwards accounting information, including a processing request and a delivery date plus variable days α, to the intermediary computer, and forwards status reports to the user. The intermediary computer includes an accounting device to perform accounting based on the delivery date and processing request data, and sends a cancellation code to the content processing factory and to the user allowing cancellation of processing to be requested. The intermediary computer can request processing by automatically selecting a suitable content processing factory to conduct the processing. The network system may include a plurality of manufacturing processing devices, each of which include a device to set up financial information designating the delivery date based on a time period required to process the request from the client. |
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107 | Systems, applications and products in data processing for expedite orders | US11699152 | 2007-01-26 | US20070271152A1 | 2007-11-22 | Trinh Vo; Gregory D. Raupers |
A system, application and product in data processing is disclosed for processing expedited orders, the method comprising. An existing availability of an order is determined. Expedited processing to the order is allowed above other orders or in advance of the standard manufacturing lead time associated with a material of the order by performing at least one of the following: changing a delivery plant; changing a requested delivery date; changing a delivery priority; and changing a quantity. | ||||||
108 | Systems, applications and products in data processing for expedite orders | US11699152 | 2007-01-26 | US08117093B2 | 2012-02-14 | Trinh Vo; Gregory D. Raupers |
A system, application and product in data processing is disclosed for processing expedited orders, the method comprising. An existing availability of an order is determined. Expedited processing to the order is allowed above other orders or in advance of the standard manufacturing lead time associated with a material of the order by performing at least one of the following: changing a delivery plant; changing a requested delivery date; changing a delivery priority; and changing a quantity. | ||||||
109 | Ordering system for specially ordered article | JP2000320474 | 2000-10-20 | JP2002132883A | 2002-05-10 | KITA KAZUE; NISHIMURA SHINICHI; TAKANO TSUYOSHI |
PROBLEM TO BE SOLVED: To provide an ordering system for a specially ordered article which manages together information that a production management department, a factory, and a distribution department require. SOLUTION: When an article number is inputted through a keyboard 21, a CPU 20 reads information regarding ordering, i.e., a shape, a color, a delivery period, a price, etc., out of an ordering master file 31 of a master file 30 and displays it at a display part 23, information is inputted through the keyboard 21 according to customer's preference, and a printer 24 prints slips necessary for a sales department, the production management department, the factory, and the distribution department. COPYRIGHT: (C)2002,JPO | ||||||
110 | Import and export expense calculation apparatus | US11034870 | 2005-01-14 | US07457783B2 | 2008-11-25 | Katsura Kawabata; Mitsuki Wada; Takashi Tanaka |
An import/export expense calculation apparatus assisting optimal-location purchasing of materials in a global production framework, and a method thereof. The import/export expense calculation apparatus includes: an input unit for receiving contract information, local price, and import/export expense information; a storage unit holding a master table storing the import/export expense information, and a calculation table storing import/export expense ratio calculation logic; a calculation unit calculating the landed price, from the local price of the material, based on input information; a display unit displaying the calculated landed cost; and a communication unit transmitting the landed price to a factory procurement apparatus. The calculation unit standardizes the currency unit for the local price at the importing-side and the landed price of the material based on currency exchange information, and calculates a lead time of the material based on lead time calculation information. | ||||||
111 | Automatic focusing device, automatic exposure device, automatic light controlling device, optical device and camera | JP35821199 | 1999-12-17 | JP2001174690A | 2001-06-29 | YOSHIDA TOMOKAZU |
PROBLEM TO BE SOLVED: To freely correct an adjusted value set by a calibrating process at a delivery time from a factory and also to freely return it to a setting at the delivery time from the factory. SOLUTION: This device possesses defocused amount detecting means 7, 3, 4 and 5 to detect the defocused amount of the optical system, a first storing means 5 to store the adjusted value set by the calibrating process of the defocused amount detecting means, a second storing means 5 to store a correction value by which the adjusted value stored in the first storing means is corrected and changing means 3, 4 and 10 to change the correction value stored in the second storing means in accordance with the intention of a user. COPYRIGHT: (C)2001,JPO | ||||||
112 | Network system, charging processor, dealer processor and recording medium | JP30915799 | 1999-10-29 | JP2001125977A | 2001-05-11 | KADOMA HITOSHI; HAYASHI KATSUMI; IMASHIMA YOSHIAKI; NAKAJIMA MITSURU; FUJII MIKAKO |
PROBLEM TO BE SOLVED: To realize a system to enable a processing request of transmitted data by mediating it to a proper contents processing factory by a mediation computer connected from a user via a network, charging processing by receiving charging information including a delivery date and fluctuating day α, transmission of a status report from the contents processing factory to the user and cancellation by informing the user and the contents processing factory of a cancellation code, to request a processing by automatically selecting the contents processing factory to perform a proper processing and to easily perform proper charging, distribution of processed merchandise to the user and the cancellation between the user and the contents processing factory. SOLUTION: This system is constituted by providing plural dealer processors having a means to set the charging information in which delivery date based on period to be required for a processing of a request from a customer is specified and a charging processor having a means to perform charging based on delivery information to be included in the charging information by receiving the charging information from the dealer processors. | ||||||
113 | System and method for production management, transmitter, receiver, recording medium and program | JP2002009672 | 2002-01-18 | JP2003216212A | 2003-07-31 | TANAKA TAKESHI; MATSUMOTO YOSHIYUKI |
<P>PROBLEM TO BE SOLVED: To provide an environment for enabling even a person, etc., unproficient in operations to surely perform the operations. <P>SOLUTION: A communication terminal 21 of a parts orderer side transmits a JIS code corresponding to a delivery point of parts, etc., in addition to order information designating the type and amount of order object parts and delivery instruction information designating a plant to be parts delivery destination and a date of delivery. When a communication terminal 22 of a receiver side receives transmitted information from the communication terminal 21, the communication terminal 22 prints an aggregate of symbols corresponding to the JIS code as a pattern on an identification tag 24. <P>COPYRIGHT: (C)2003,JPO | ||||||
114 | Delivery date management system in overseas production | JP2000369726 | 2000-12-05 | JP2002169995A | 2002-06-14 | SHIMIZU YASUHIKO |
PROBLEM TO BE SOLVED: To provide a delivery date management system in overseas production which is enabled to manage the progress situation from ordering to delivery without obtaining confirmation from a variety of suppliers existing in between on every case when an orderer has ordered a product to an overseas production base. SOLUTION: The delivery date management system KN in overseas production is provided with a domestic ordering sector (a production and distribution supplier terminal 10), an overseas production sector (a plant terminal 40), and a delivery division (a delivery center terminal 60), and also is provided with a management sector (a management sector server 30) for managing the whole system. The management sector receives product information associated with the product from the ordering sector and delivery date information being desired by the ordering sector, and manages the progress information ranging from the ordering of the product to the delivery to the ordering sector in the block through a network NW. COPYRIGHT: (C)2002,JPO | ||||||
115 | Automatic issue system for repeat order reception ledger | JP4978392 | 1992-03-06 | JPH05250392A | 1993-09-28 | AKITA HIROHISA |
PURPOSE:To predict the movement of demand on an article which is repeatedly ordered and to set an order reception period and a manufacture input period according to the movement of demand. CONSTITUTION:A character-display graph which show the ratio of the delivery quantities of respective months is generated and periodic articles are selected according to the graph. Then the demand quantity of each of the article is estimated from the transition of the delivery quantity of past three months (S1), and the out-of-stock period of inventories is predicted by dividing the volume of inventories by the demand quantity (S2). Then a next-time order reception period for preventing a backlog from being exceeded is calculated by subtracting a standard lead time from the period where the backlog is exceeded and the manufacture input period for unmanufactured articles for preventing an out-of-stock state is calculated by subtracting the standard lead time from the out-of-stock period (S3). Then information on the set next-time order reception period is sent to the sales department for repeat order reception billing and the unmanufactured article input period is sent to the factory (S4). | ||||||
116 | Method for managing delivery of parts | JP3019192 | 1992-01-20 | JPH05197736A | 1993-08-06 | INUI HIROYUKI |
PURPOSE: To save 'delivery instruction tag recovering process' by storing deliv ery commanding information in a tag and reading tag information stuck to an empty container. CONSTITUTION: Delivery commanding information relating to used parts which is stored in a tag stuck to a container emptied due to the use of parts in a parts using plant 50 is read out by a tag information reading/transferring device 60 and transferred to a parts production plant 10 through a communication line 104. In the plant 10, the transferred delivery commanding information is written (22) in the tag returned together with the empty container and information directly necessary for delivering work out of the transferred delivery commanding information is printed out (20) in a stock list. Necessary parts are collected (26) from completed parts 12 based upon the printed stock list, the collected parts, the tag in which the delevery commanding information is written and the printed stock list are united (28) and shipped (30) to the plant 50 by a truck 40. In the plant 50, the stock list is disused (56) after using the parts. COPYRIGHT: (C)1993,JPO&Japio | ||||||
117 | Method for managing production information of product, control center therefor, and management system for production information of product | JP2001320900 | 2001-10-18 | JP2002207507A | 2002-07-26 | INOUE TERUO; SARUMARU MASAYUKI; MATSUDA AKIRA; SUZUKI HIROTOSHI |
PROBLEM TO BE SOLVED: To achieve efficient production of products by making effective use of produc tion information on a product among a purchaser, a primary contractor, and a secon dary contractor. SOLUTION: An apparel maker, a vendor, a parts factory for attachments such as apparel merchandise, its assembly factory, and a control center 6 are connected to communicate one another. The control center 6 displays primary predictive information including information about a rough total output and the final delivery date on a Web page; orders a predetermined parts factory to produce in advance the parts of the attachments for use with the apparel merchandise or the like; displays on the Web page the final predictive information including more precise information about the total output, the final delivery date and the vendor; designates an assembly factory; orders the parts factory and the assembly factory to transport the parts produced in advance and to assemble the attachments; urges the vendor to place an order for the attachments; causes the assembly factory to assemble the attachments for delivery to the vendor; and causes the vendor to incorporate the attachments into the apparel merchandise for delivery to the apparel maker. COPYRIGHT: (C)2002,JPO | ||||||
118 | 오프라인 전시장을 지닌 기계류 전자상거래 시스템 | KR1020020024899 | 2002-05-07 | KR1020020037019A | 2002-05-17 | 이용규 |
PURPOSE: An electronic commerce system for the machinery is provided to prepare a factory manufacturing a machinery, to offer information on the machinery and to enable a user to make an order for manufacturing or leasing the machinery over an electronic commerce service site. CONSTITUTION: The system comprises an information providing system, an information search system, a machinery or system line checking system, an electronic payment system, and a delivery and A/S system. The information providing system collects information on manufactured machinery from a plurality of machinery manufacturing companies, collects information on non-operating facilities or system lines, and provides the collected information over the internet. The information search system enables a machinery buyer to search for desired machinery information from the information stored in a server. The machinery or system checking system enables the buyer to check the machine or the system line exhibited in a pavilion. The electronic payment system enables the buyer to make a payment for the machine or the system line via a bank or a financial organization after making a contract with a machinery or system line supplier. The delivery and A/S system helps a delivery or an after service of the purchased or leased machinery or system line. | ||||||
119 | 물품 관리 시스템 및 이 시스템의 운영 방법 | KR1020000060776 | 2000-10-16 | KR1020020030191A | 2002-04-24 | 유영민 |
PURPOSE: A goods management system and method is provided to manage the goods for enabling a user to check various situations or states of each kind of goods, e.g. to extract data on the goods to be sent back to a goods supplier. CONSTITUTION: The system comprises a data aquisition module(11), a data classification module(12), a database(13) and a controller(14). The data aquisition module(11), connected to a warehouse over an online network, collects data on the stored goods. The data aquisition module, also connected to the controller(14), enables a goods manager to compare the data stored at the controller(14) with the goods stored at the warehouse. The data classification module(12), connected to the data aquisition module(11), classifies the data, transmitted by the data aquisition module(11), by the situation and the sate. The situation can include a temporary storage, a transportation for warehousing or delivery, a prearrangement for delivery or sending back to a factory, an entrustment and so on. The state can include a good state and a bad state or rating criteria. The controller(14) includes a search engine. If a manager requests necessary data, the search engine searches for the requested data and displays on a web page the current situation or state corresponding to the corresponding goods or warehouse. | ||||||
120 | 후판재의 형상 보정을 위한 에지 마스킹 디바이스의 제어방법 | KR1020120150285 | 2012-12-21 | KR1020140081008A | 2014-07-01 | 김민철 |
The present invention relates to a method for controlling an edge masking device (EMD) used for an acceleration cooling process of a thick plate manufacturing process which is characterized by including a step (a) of measuring the thickness of the center and edge of the thick plate has gone through a rolling process; a step (b) of measuring the temperature difference between the center and edge of the thick plate based on the value obtained by the step (a); a step (c) of controlling a flow rate of cooling water injected to the thick plate by obtaining a moved distance of the edge masking device based on the value obtained by the step (b) and then controlling the edge masking device. The present invention can induce the shape of the thick plate to be flat as the length difference between the center and edge of the thick plate caused by the thickness difference in the width direction generated in the rolling process can be damped or minimized by a control of the flow rate in the width direction by the edge masking device during the acceleration cooling process which is a post process so that an additional offline process such as a cold correction process is not necessary. Therefore, the cost of production can be reduced, and a load for the post processes in a factory and a date delay of delivery can be prevented. |