US20060031146A1 - Marketing supporting system - Google Patents

Marketing supporting system Download PDF

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Publication number
US20060031146A1
US20060031146A1 US11/236,521 US23652105A US2006031146A1 US 20060031146 A1 US20060031146 A1 US 20060031146A1 US 23652105 A US23652105 A US 23652105A US 2006031146 A1 US2006031146 A1 US 2006031146A1
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Prior art keywords
die
shape
screen
input
marketing object
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Abandoned
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US11/236,521
Inventor
Masanori Nanbu
Toshio Tamura
Kohji Iwamoto
Yukio Fukui
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Amada Co Ltd
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Amada Co Ltd
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Priority to US11/236,521 priority Critical patent/US20060031146A1/en
Publication of US20060031146A1 publication Critical patent/US20060031146A1/en
Abandoned legal-status Critical Current

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q10/00Administration; Management
    • G06Q10/06Resources, workflows, human or project management; Enterprise or organisation planning; Enterprise or organisation modelling
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q10/00Administration; Management
    • G06Q10/08Logistics, e.g. warehousing, loading or distribution; Inventory or stock management
    • G06Q10/087Inventory or stock management, e.g. order filling, procurement or balancing against orders
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q30/00Commerce
    • G06Q30/02Marketing; Price estimation or determination; Fundraising
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q30/00Commerce
    • G06Q30/06Buying, selling or leasing transactions
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q30/00Commerce
    • G06Q30/06Buying, selling or leasing transactions
    • G06Q30/0601Electronic shopping [e-shopping]

Definitions

  • the present invention relates to a marketing supporting system.
  • a die required by a customer is a die with a special shape which is not a standard die
  • the sales person brings a die specification drawn on such a sheet as a paper which is required by the customer back to a design department of his/her company.
  • design and check of drawings (verification about whether or not the special die can be manufactured) are conducted and the result is notified to the salesperson.
  • the sales person prepares an estimate for the die on the basis of the result and visits the customer again to present the estimate and receive an order of the product.
  • the information about this order reception is input into a database in a head office of the company to issue an instruction to a manufacturing department after he/she comes back to his/her sales station or the like.
  • the present invention has been made in order to solve the above problems in the conventional art.
  • An object of the present invention is to present a product to a customer efficiently and in a various manner.
  • Another object of the present invention is to answer a customer's question to a product instantaneously and allow sales or marketing activities in a uniform level.
  • Still another object of the present invention is to determine whether a standard product requested can be manufactured and whether or not a special shaped product requested can be machined in a door-to-door selling place.
  • Another object of the present invention is to allow instantaneous estimation and order reception input in a door-to-door selling place.
  • One feature of the present invention is to provide an increase profit calculating apparatus which can grasp cost consumption easily and can grasp cost reduction easily and rapidly.
  • the increase profit calculating apparatus comprises:
  • the increase profit screen comprises:
  • the increase profit calculating apparatus is provided with calculating means which calculates the first and second costs and the increase profit according to an answer to the questions from an operator.
  • cost consumption can be grasped easily and cost reduction can be grasped easily and rapidly.
  • the question items in the increase profit screen ( 207 ) includes the number of die apparatus exchanges per one day, a time required for die apparatus exchange per one time, personnel expenses per predetermined time, and the number of working days within a predetermined term.
  • a second feature of the present invention is to provide a inferiority phenomenon countermeasure guiding apparatus which allows search and selection of an optimal countermeasure to a inferiority phenomenon.
  • the inferiority phenomenon countermeasure guiding apparatus comprises:
  • the inferiority phenomenon countermeasure guiding apparatus further comprises avoidance information screen creating means which is actuated by clicking a portion displaying one cause in the list of causes and which creates an avoidance information screen ( 213 ) for displaying information for avoiding the one cause.
  • the inferiority phenomenon countermeasure guiding apparatus comprises specific die screen creating means which is actuated by clicking a predetermined portion of the inferiority phenomenon cause screen ( 211 ) or a predetermined portion of the avoidance information screen ( 213 ) and which creates a specific die screen ( 217 ) for displaying a specific die for avoiding the inferiority phenomenon.
  • Another feature of the present invention is to provide a inferiority phenomenon countermeasure guiding apparatus for a die for bending machining.
  • This apparatus comprises cause/countermeasure display screen creating means which creates a cause/countermeasure screen ( 223 ) for displaying a cause of a inferiority phenomenon in a predetermined kind of workpiece such as bending workpiece or the like and a plurality of countermeasures of a first type for avoiding the inferiority phenomenon due to the cause; and
  • This inferiority phenomenon countermeasure guiding apparatus further comprises specific die screen creating means which is actuated by clicking a predetermined portion of the cause/countermeasure screen or the countermeasure explanation screen and which creates a specific bending die screen ( 227 ) for displaying a specific bending die for avoiding the inferiority phenomenon due to the cause.
  • Another feature of the present invention is to provide question answer accumulating apparatus comprising means or inputting a question
  • Another feature of the present invention can provide a die retrieval apparatus comprising input screen creating means which creates input screens ( 231 , 233 ) provided with a field in which a plurality of shapes of a die is input, a field in which the kind of a machine used with the die is input, a field in which a structure of the die is input, and a field in which material for the die is input; and standard die screen creating means which is actuated by inputting data pieces into the respective fields of the input screens and which, when a die meeting the respective data pieces exists, creates a standard die screen ( 235 ) for displaying a sectional configuration of the die, a parts list name, unit prices of respective parts, and, when no die meeting the respective data pieces exists, creates an error display.
  • input screen creating means which creates input screens ( 231 , 233 ) provided with a field in which a plurality of shapes of a die is input, a field in which the kind of a machine used with the die is input, a field in which
  • this apparatus it is made possible to select a die rapidly by inputting intuitive data pieces such as a die adaptive machine, a die shape or the like when a die is specified by combination of complicated symbols and when it is difficult to describe the combination of the symbols.
  • Another feature of the present invention is to provide a product automatic designing apparatus (product parameters setting apparatus) which is made possible to perform automatic designing of a die product at a door-to-door selling place or the like easily in answer to even a requirement for a product except for standard products.
  • This product automatic designing apparatus can design a product shape on the basis of shape/material data of a group of products which have been classified and registered based upon the shape patterns of products in response to an estimate requirement for not only standard products on a product catalog but also specially shaped die products which cannot be substituted for standard products. That is, a die product can be designed parametrically by a simple operation of inputting predetermined size data regarding a selected shape pattern.
  • the structure for implementing this feature is, for example, a product automatic designing apparatus (product parameters setting apparatus) which comprises die shape selection screen creating means which creates shape pattern selection screens ( 237 , 239 ) used for selection of a shape about a die to be designed, and die dimension parameter input screen creating means which is actuated according to selection and input of a specific shape pattern on the die shape selection screen and which creates a die dimension parameter input screen ( 241 ) which allows input of dimension parameters of predetermined portions about the selected die shape, wherein
  • the previously stored shape pattern is stored so as to correspond to a plurality of dimension parameter groups required to specify the die shape belonging to the shape pattern, and the dimension input screen is further provided with a dimension input pattern selection field which allows selection of one dimension parameter group from the plurality of dimension parameter groups.
  • the shape pattern selection screen further comprises adapted shape display field which displays one or a plurality of shape sub-patterns contained in shape variation included in the selected shape pattern.
  • a sales person can design a special shape die parametrically at a door-to-door selling place without such a consciousness that this die is a special shape die. Accordingly, he/she can design the special shape die at the door-to-door selling place without bringing a customer's requirement back to the design department.
  • Another feature of the present invention is to provide a machining possibility calculating apparatus which allows verification of possibility of real machining about the designed die product rapidly and easily.
  • This machining possibility calculating apparatus verifies whether or not a desired machining can be performed on the designed die product on the basis of shape data/material data about the designed product, material quality data of material to be machined, and the like. Also, the apparatus checks consistency among input dimension parameters.
  • the structure realizing this feature comprises, for example, die data input means which inputs die data including shape data of a predetermined die specified by the shape pattern and the dimension pattern of a die to be designed, structure data of the die and material quality data;
  • the machining verification means performs the verification by comparing the resisting pressure of the die which has been obtained according to a strength calculation from the die data and the machining request pressure required for machining performed by the die which has been obtained from the material data with each other.
  • the machining verification means performs the verification by checking the consistency among the input dimension data pieces.
  • Another feature of the present invention is to provide an automatic estimate creating apparatus which provides an estimate about the designed and verified product instantaneously at a marketing place.
  • the automatic estimate creating apparatus which creates an estimate including data necessary to create an estimate of not only price data of a product which has been designed/verified but also price reduction limitation and delivery time limit data.
  • the structure realizing this feature comprises input means which inputs product data of a product for which an estimate is to be prepared, the number of products, and customer data;
  • the product for which the estimate is to be created can be input by specifying the shape and/or material quality of the product.
  • Another feature of the present invention is to provide an order reception information outputting apparatus which allows an instant order reception regarding the estimated product to issue a production instruction.
  • This order reception information outputting apparatus can secure an order reception to issue a manufacture instruction while presenting the contents of an estimate to a customer at a marketing place, and can make a communication with manufacture schedule information a remote place to output a deliverable data according to the manufacture schedule at this time.
  • the structure realizing this feature comprises, for example, order reception information screen creating means which displays an order reception information screen of a product ordered at a marketing place;
  • the order reception information outputting apparatus further comprises delivery data update displaying means which displays change in delivery data of a product on the order reception information screen on the basis of data received in response to transmission of the order reception information.
  • the term “sale object” includes products such as a die apparatus, a machine part, a blade of a machine, a machine or the like, and services such as maintenance of these products.
  • FIG. 1 is a block diagram showing a configuration of a supporting apparatus of the present invention
  • FIG. 2 is an explanatory diagram of a table of contents screen displayed on a display screen of the supporting apparatus of the present invention
  • FIG. 3 is one example of a product catalog screen displayed on the display apparatus
  • FIG. 4 is one example of an increase profit screen displaying increase profit displayed on the display screen
  • FIG. 5 is one example of an inferiority phenomenon screen displayed on the displaying apparatus
  • FIG. 6 is one example of a inferiority phenomenon cause screen displaying a list of causes generating an inferiority phenomenon shown in FIG. 5 ;
  • FIG. 7 is one example of an avoidance information screen displaying information for avoiding inferiority causes shown in FIG. 6 ;
  • FIG. 8 is one example of an information screen displaying another method for solving the cause shown in FIG. 7 ;
  • FIG. 9 is an explanatory screen for explaining a special die for avoiding the inferiority phenomenon shown in FIG. 6 ;
  • FIG. 10 is one example of a clearance diagnostic test screen serving as a reference value screen displayed on the displaying apparatus by clicking a predetermined portion on the screen shown in FIG. 6 in a case that the cause in FIG. 6 is a clearance unsuitableness;
  • FIG. 11 is an accompanying disadvantage and the like display screen which is displayed by clicking a predetermined portion on the screen shown in FIG. 10 , for displaying an accompanying inferiority phenomenon or disadvantage due to the clearance unsuitableness;
  • FIG. 12 is a cause/countermeasure screen which is displayed by clicking a display portion of the characters “BENDING” on the screen in FIG. 2 , for displaying a cause of an inferiority phenomenon in a bending machining and a plurality of countermeasures for avoiding the inferiority phenomenon;
  • FIG. 13 is a screen for explaining the details of a predetermined countermeasure in FIG. 12 ;
  • FIG. 14 is a bending die display screen (special bending die screen) which is displayed by clicking a predetermined portion on the screen in FIG. 12 or FIG. 13 , for explaining a countermeasure bending die (or novel bending die);
  • FIG. 15 is a special bending die detail explanatory screen which is displayed by clicking a predetermined portion on the screen in FIG. 14 , for explaining the details of suitable material for the countermeasure bending die (novel bending die), a suitable apparatus, functions and the like;
  • FIG. 16 is an explanatory diagram of a die list screen showing a list of punching dies/bending dies and a die data input screen in which data of standard dies is input;
  • FIG. 17 is an explanatory diagram of a second die data input screen for selecting a standard die in punching dies
  • FIG. 18 is an explanatory diagram of a second die data input screen for selecting a standard die in punching dies
  • FIG. 19 is an explanatory diagram of a second die data input screen for selecting a standard die in punching dies
  • FIG. 20 is an explanatory diagram of a parts list screen which is displayed according to a standard die selection in punching dies;
  • FIG. 21 is an explanatory diagram of a punching die selection screen displaying a list of punching dies and shape patterns
  • FIG. 22 is an explanatory diagram of a punching die selection screen displayed when a predetermined shape pattern is selected in FIG. 20 ;
  • FIG. 23 is an explanatory diagram of a dimension parameter input screen displayed in response to selection of the shape pattern of the punching die in FIG. 20 and FIG. 21 ;
  • FIG. 24 is an explanatory diagram of a dimension parameter input screen displayed when another dimension parameter group is selected in FIG. 22 ;
  • FIG. 25 is an explanatory diagram of a screen showing the result of machining possibility simulation for a punching die manufactured according to input dimension parameters, material and material quality in FIG. 23 ;
  • FIG. 26 is an explanatory diagram of a parts list screen displayed in response to a special die selection in punching dies
  • FIG. 27 is an explanatory diagram of a punch die selection screen displaying a list of bending dies and shape patterns
  • FIG. 28 is an explanatory diagram of a dimension parameter input screen displayed in response to shape pattern selection for a bending die in FIG. 26 ;
  • FIG. 29 is an explanatory diagram of a special item input screen displayed in response to special item input selection in FIG. 27 ;
  • FIG. 30 is an explanatory diagram of a screen showing the result of machining possibility simulation for a bending die manufactured according to input dimension parameters, material and material quality;
  • FIG. 31 is an explanatory diagram of a screen showing the result of machining possibility simulation of a bending die manufactured according to dimension parameters of different values, material and material quality in FIG. 29 ;
  • FIG. 32 is an explanatory diagram of an estimate detail information input screen displayed in response to a die product selection on the parts list screen;
  • FIG. 33 is an explanatory diagram of an estimate detail information input screen displayed in response to another die product selection on the parts list screen;
  • FIG. 34 is an explanatory diagram of an example of an estimate output in response to selection of estimate issue on the screen in FIG. 31 ;
  • FIG. 35 is an explanatory diagram of an example of a main menu on a portable terminal for sales person according to an embodiment of the present invention.
  • FIG. 36 is an explanatory diagram of a screen for selecting a workpiece shape on the basis of a customer's drawings
  • FIG. 37 is an explanatory diagram of a screen in which workpiece dimensions are input.
  • FIG. 38 is an explanatory diagram of a screen for selecting a die according to workpiece shape/workpiece dimensions
  • FIG. 39 is an explanatory diagram of a screen indicating additional machining to a selected die on the screen in FIG. 38 ;
  • FIG. 40 is an explanatory diagram of a screen displaying resisting pressure calculation of the die which has been subjected to the additional machining specified in FIG. 39 ;
  • FIG. 41 is an explanatory diagram of a screen displaying a price of the die including the additional machining specified in FIG. 39 ;
  • FIG. 42 is an explanatory diagram of a screen indicating anther additional machining to the selected die.
  • FIG. 43 is an explanatory diagram of a screen displaying resisting pressure calculation of the die which has been subjected to the additional machining specified in FIG. 42 .
  • an embodiment of a marketing supporting apparatus of the present 1 1 invention comprises a database 105 in which data is stored, a display apparatus 106 , and a communication apparatus 107 performing communication of data with an external apparatus.
  • a marketing supporting apparatus 101 comprises a product proposal supporting section 102 , an estimate creating section 103 , and an order reception information creating apparatus 104 .
  • the product proposal supporting section 102 comprises an increase profit calculation apparatus 122 , an inferiority phenomenon countermeasure guiding apparatus 123 , and a product catalog output apparatus 121 .
  • the estimate creating section 103 comprises a product automatic designing apparatus (product parameter setting apparatus) (die retrieval apparatus) 132 , a machining possibility calculation apparatus 133 , and an estimate information output apparatus 131 .
  • the product database 105 comprises a standard product database 105 in which data about standard dies is stored, a pattern special die database 152 in which special dies patterned are stored, and a non-patterned special die database 153 in which extremely special dies which cannot be patterned are stored.
  • a program performing processing explained below is created and a computer system which can execute this processing by loading this created program is used.
  • This computer system includes a so-called general purpose machine, a workstation, a PC, a NC (Network Computer) or the like. In the present invention, however, it is preferable that a portable type PC which can be carried to a marketing place.
  • the hardware configuration of the computer system used in the present embodiment is provided with a CPU for performing various processings, a memory such as a program memory/data memory or the like, an external storage apparatus such as a FD, a CD or the like, and an output apparatus such as a display unit or the like.
  • the processings explained below can be performed as off-line processings in a single PC without connection to a computer in a head office or a branch office except for processings which are performed in the order reception information creating apparatus 104 .
  • the program for implementing the marketing supporting apparatus of the present embodiment is can be saved in one of various recording media such as a magnetic disk, an optical disk, a memory card and the like.
  • the present embodiment can be implemented by reading recording medium into the program memory to execute the program.
  • a contents table screen 200 shown in FIG. 2 is displayed on the display apparatus 106 (hereinafter, a case that the term “displayed” is merely used means that “display” is performed on the display apparatus 106 when there is no special explanation).
  • Displayed on this contents table screen are a product introduction field 201 , a various phenomena countermeasure (namely, inferiority phenomena countermeasure) field 203 , and a question answer field 204 .
  • a punching field 203 a and a bending (curving) field 203 b are displayed on the various phenomena countermeasure field 203 .
  • a product introduction screen 205 (a first die apparatus screen) as shown in FIG. 3 is displayed.
  • FIG. 3 as one example, triple holders holding three dies are displayed. According to this holder, once the holder is set on a punch press, punching machining of three kinds corresponding to the three dies mounted on the holder can be performed without exchanging dies.
  • increase profit obtained by using the triple holder can easily be calculated. That is, when a predetermined portion on the display screen 205 in FIG. 3 is clicked, an increase profit screen 207 displayed in FIG. 4 is displayed.
  • the increase profit screen 207 displays increase profit occurring by employing a triple holder instead of a single holder holding only one die. That is, displayed on this screen 207 are a question 207 a for asking the number of holder exchanges per day, a question 207 b for asking an exchanging time required per one time, a question 207 c for asking labor cost of a worker per one hour, and a question 207 for asking working days per one month.
  • Answer fields 207 e , 207 f , 207 g and 207 h in which an operator inputs answers to these questions are provided. That is, the field 207 e in which an answer to the question 207 a is input, the field 207 f in which an answer to the question 207 b is input, the field 207 g in which an answer to the question 207 c is input, and the field 207 h in which an answer to the question 207 d are provided.
  • a labor cost (one month) required for holder exchanges occurring when a single holder is used is displayed on a field 207 i
  • a labor cost per one month corresponding to a case of use of a triple holder is displayed on a field 207 j
  • increase profit per one month occurring when a triple holder is used instead of a single holder is displayed on a field 207 k.
  • the triple holder (the first die apparatus)
  • increase of profit obtained by the use of the triple holder instead of the single holder is calculated easily.
  • the cost waste made by the use of the single holder (the second die apparatus) is grasped easily, and so is the cost reduction by the use of the triple holder (the first die apparatus).
  • the various phenomena countermeasure guiding apparatus (inferiority phenomena countermeasure guiding apparatus) 123 is actuated and an inferiority phenomena screen 209 shown in FIG. 5 is displayed on the display apparatus 106 .
  • Images 209 a , 209 b , 209 c and the like displaying various inferiority phenomena in a punching machining are displayed on the screen 209 . Then, for example, when a display portion of a stripping error 209 b is clicked on the screen 209 , the inferiority phenomena cause screen creating means is actuated, and an inferiority phenomena cause screen 211 displaying a plurality of causes generating the stripping error (inferiority phenomenon) is displayed on the display apparatus 106 ( FIG. 6 ).
  • the stripping error means that a workpiece bites a tip portion of a punch which has performed punching machining and a portion of the workpiece which has been subjected to the punching machining is brought up according to elevation of the tip portion of the punch.
  • punch blade tip melt adhesion 211 a As shown in FIG. 6 , punch blade tip melt adhesion 211 a , lubricant unsuitableness 221 b , clearance unsuitableness 211 c , wear 211 d , spring fatigue 211 e and the like which may be causes of the stripping error are displayed on the screen 211 . Also, a simulation displaying a situation where the stripping error occurs as an animation together with the plurality of causes 211 a to 211 e is displayed on a simulation display section 211 g.
  • An avoidance information screen 213 displaying a method (information) for avoiding this cause is displayed by clicking a display portion of one cause in the cause list ( FIG. 7 ). In this embodiment, for example, when a display portion 211 e of the spring fatigue (cause) is clicked, a spring fatigue avoidance information screen 213 shown in FIG. 7 is displayed.
  • such information that it is necessary to exchange springs periodically in order to avoid the spring fatigue is displayed on this screen 213 .
  • information 213 a that it is necessary to perform exchange for each two years when pressure of 1.2 tons or less is applied (corresponding to 1,000,000 hits), it is necessary to perform exchange for each year when pressure of 1.2 tons to 3.2 tons is applied (corresponding to 500,000 hits), and it is necessary to perform exchange for each half a year when pressure of 3.2 tons to 6 tons is applied (corresponding to 200,000 hits) is displayed as criteria for exchange.
  • a screen 215 shown in FIG. 8 is displayed.
  • a countermeasure performed on a current die to reduce the number of exchanges of the die in possible range and avoid the spring fatigue is displayed on this screen 215 .
  • information 215 a showing necessities of increase in die size and increase in spring force is displayed.
  • information 215 b about increase in cost of a die, necessity of change of the program, or lack in the number of turret stations is also displayed on the screen 215 .
  • a screen 217 shown in FIG. 9 is displayed on the display apparatus 106 .
  • information 217 about a gas spring is displayed as a die for avoiding the stripping error.
  • a sectional configuration of the gas spring is displayed at a portion indicated by reference numeral 217 b .
  • This gas spring uses a apparatus where gas is sealed instead of a mechanical spring in order to urge a punch body 217 e and a punch head 217 f of a punch die upward against a punch guide 217 b.
  • Displayed on the screen 217 is also a graph 217 c showing that the pressure of the gas spring is larger than that of the mechanical spring in a region where a stripping error is easy to occur. Furthermore, displayed on the screen 217 is information 217 d about preferable functions or effects obtained by a punch die of the gas spring.
  • the structure of the gas spring type die, the advantages of the gas spring compared with a standard coil spring and the preferable functions of the gas spring can be understood and grasped at once. Also, a determination can be made about whether or not a gas spring type die should be employed as a countermeasure to the current inferiority phenomenon in punching machining easily and rapidly while profitability is taken in consideration.
  • a display portion 211 of clearance unsuitableness is clicked on the screen 211 .
  • reference value screen creating means is actuated so that a clearance diagnosis test screen 219 is displayed as a screen displaying a reference value ( FIG. 10 ).
  • a question field 219 a for asking machined material to be used for machining a question field 219 b for asking the thickness of the material, and a question field 219 c for asking a clearance in the machining are provided on the screen 219 .
  • On this screen 219 it is displayed in a reference value display field 219 g that a standard value of a clearance to the machined material quality 219 d and the thickness 219 e is 0.3 mm, and a display 219 h showing that a value 219 f of the clearance is small as compared with the reference value is displayed.
  • a screen 221 is displayed on the display apparatus ( FIG. 11 ).
  • This screen 221 is an accompanying disadvantage display screen 221 display other inferiority phenomena or disadvantages which may occur when the clearance is below the suitable clearance.
  • description 221 d is displayed on the screen 221 that, when the current clearance is smaller than the suitable clearance, the secondary shear occurs so that a large load applied to a punch and die.
  • a description 221 a is displayed that according to advance of wear in a punch and a die, cost in consumption increases and the working ratio is lowered.
  • a description 221 b is displayed that product inferiority occurs, loss in material occurs and loss in machining charge occurs.
  • a description 221 c “twice or more decrease in cost can be realized by selecting a die for each material/plate thickness” is displayed.
  • the screen 221 it is understood that, when the current clearance is smaller that a suitable clearance, various disadvantages or inferiority phenomena occur, and it is understood that the double or more decrease in cost can be achieved by using dies having different hole diameters for respective materials or plate thicknesses. Thereby, it is understood that it is important to set a clearance to a suitable value in order to achieve rapidness of machining or accurate machining and for attaining decrease in cost. As a result, by referring to this, a suitable clearance can be achieved, accuracy in machining can be improved, working ratio can be increased, and decrease in cost can be attained.
  • a clearance can be selected suitably, and accuracy in machining, rapidness in machining or decrease in cost can be achieved.
  • a screen 223 shown in FIG. 12 is displayed in the display apparatus.
  • This screen 223 is a cause/countermeasure screen showing bending flaw occurrence of various inferiority phenomena and a plurality of countermeasures (a first kind of countermeasures) for avoiding the bending flaw occurrence.
  • the bending flaw means a flaw occurring at a machined portion of a material indicated by each arrow of an explanation diagram 223 a on the screen 223 .
  • a screen 225 shown in FIG. 13 is displayed. Displayed on this screen 225 is a specific operation “apply oil to a shoulder portion of a die” through a drawing ( 225 a ).
  • each countermeasure 1 can easily be understood through a drawing or characters.
  • This screen 227 is a specific bending die screen showing that a new type die named “Selatic Die” can be used in order to prevent the bending flaw from occurring.
  • a display 227 b that a suitable material capable of using the Selatic Die is stainless steel, iron or the like as well as a display 227 a of features of the Selatic Die.
  • a screen 229 is displayed on the display apparatus ( FIG. 15 ). More specific functions, suitable materials or suitable apparatus are explained on the screen 229 in detail, as shown in FIG. 15 .
  • a new die for bending flaw countermeasure can be evaluated easily and rapidly, so that the problem about the bending flaw can be rapidly solved.
  • the past questions and the answers thereto are displayed in a mutually related state.
  • an operator can refer to the past questions relating to the operations, functions, movements of the die and, when there is any questions relating to the current problem, he/she selects these questions so that he/she can easily obtain the answer about the current outstanding problem of the die by referring to the answers displayed relating to the respective questions. Then, when the question about the currently relating problem cannot be obtained from a list of the questions accumulated in the past, these questions are input by the question input means.
  • the supporting apparatus of the present invention also serves as a die retrieval apparatus for selecting the required die easily and rapidly. That is, when a die is specified with a complicated combinations of symbols and it is difficult to remember the combination of symbols, the die retrieval apparatus can select a standard die easily and rapidly by inputting intuitive data such as a machine suitable for use of a die, the shape of a die or the like.
  • This die retrieval apparatus is provided with input screen creating means which creates input screens 231 , 233 which includes a field in which a plurality of shapes of a die is input, a field in which the kind of a machine using a die is input, a field in which the structure of a die is input, and a field in which material quality of a die is input.
  • the input screen is displayed, for example, as a first input screen 231 shown in FIG. 16 .
  • a list field 231 a which classifies trimming dies or forming dies on this screen 231 .
  • a sectional configuration of this standard die is displayed on a shape field 231 c .
  • a circle, square, oval, rectangle, WD shape, SD shape, center punch, standard burring are displayed as standard shapes.
  • the term “standard shape” denotes the shape determined with two parameters.
  • Displayed on this selection condition input screen 233 are a field 233 a in which the kind of a machine in which a die is used is input, a field 233 b in which a holder size of a die is input, a field 233 c in which the structure of a punch of the dies is input, a field 233 d in which material quality of the punch is input, a field 233 e in which the structure of the die is input, and a field 233 f in which the material quality of the die is input.
  • a standard die screen 235 as shown in FIG. 20 is created. Displayed on this standard die screen 235 are a sectional configuration field 235 a showing a sectional configuration of a die attached with numbers specifying parts, and a part name unit price field 235 b displaying the name and the unit price of each part displayed on the sectional configuration field 235 a.
  • a price for each part in a standard die and a name of the part can be grasped easily. That is, according to the apparatus of the present invention, even when the complicated symbols for specifying the kind of a die is forgotten, it is possible to specify the die and obtain information about the price for each part in the die easily.
  • an error indication is displayed on the screen 231 or 233 , when a die which does not exist is specified.
  • the commercial article mainly denotes a standard product.
  • the article is merely called product, it denotes a standard product and a special shape product.
  • the marketing supporting apparatus according to the present embodiment serves as an automatic designing apparatus.
  • a die shape pattern selection screen creating means When selection and input is performed by clicking a predetermined punch kind from die kinds 237 a on a shape pattern selection screen 37 shown in FIG. 21 (which is merely called “clicked”), a die shape pattern selection screen creating means is actuated, and the die shape pattern selection screen creating means displays a plurality of shapes according to the selected kind on a shape display field 237 c in a linkage manner.
  • the shape pattern to be displayed shows a trimming hole shape formed by the punching die.
  • FIG. 21 according to selection of a special shape 237 b for performing trimming, corresponding shapes are displayed in a field 237 c .
  • die size parameter input screen creating means is actuated.
  • the die size parameter input screen creating means displays a size parameter input screen 241 ( FIG. 23 ) about the selected trimming shape pattern.
  • the product automatic designing apparatus (product parameter setting apparatus) 132 in this embodiment achieves automatic designing by retrieving the database 105 .
  • Shape data, material data, and commercial article data which are classified on the basis of shape patterns are stored in a corresponding manner in the database 105 .
  • Data of a product group corresponding to the shape patterns is divided to standard product database 151 , pattern special shape (non-standard product to which a shape pattern is applicable) database 152 , and non-pattern special shape (non-standard product to which a shape pattern is not applicable) database which are then stored in respective memory regions.
  • various patterns namely, adaptive shapes 239 c , which can obtain a specific shape by performing shape change on the basis of the selected trimming shape pattern in a stage where a predetermined shape pattern has been clicked on the shape pattern selection screen 237 . Accordingly, a confirmation can easily be made about which trimming hole shape pattern the required special shape die belongs to.
  • FIG. 23 shows a die size input/output screen 241 for inputting size parameters corresponding to the shape pattern selected on the screen 237 .
  • FIG. 241 b of the selected trimming hole shape pattern is displayed on the screen while size parameters to be input for specifying a shape is displayed on a shape pattern in a corresponding manner.
  • Reference symbols A, B, K, R and S are size parameters required for specifying a trimming hole shape. While referring to the figure display 241 b , required sizes are input into size parameter input field 241 c .
  • the trimming hole shape portion of the figure in the figure display 241 b is changed in shape according to the input parameter values.
  • enlargement or reduction ( 241 l ) or positioning ( 241 m ) of the figure display 241 b can be performed optionally.
  • the displayed figure can be printed ( 241 n ).
  • the size parameters shown about the shape pattern which is the size input screen 241 are registered as a plurality of combinations thereof in advance, and the respective combinations are limited to the minimum number of combinations required for specifying a shape which includes sizes. For this reason, it is made possible to specify the required special shape die by input of the minimum number of parameter according to the size data specified by a customer.
  • a size input pattern display field 241 a the first parameter combination among 8 pattern-registered size parameter combinations which have been registered has been displayed in FIG. 23 .
  • such an operation may be employed that a next size pattern screen is displayed by clicking an ordinary next screen or an entire screen calling field. It is shown in a size input pattern display field 243 b on the size input screen 243 in FIG. 24 that the current pattern is the third size input pattern.
  • a commercial article code field 241 e data pieces required for specifying die products except for the dies for trimming hole shapes are respectively shown in a commercial article code field 241 e , a holder size field 241 f showing a aperture of a holder supporting a die, and structure fields/material quality fields 241 g to 241 j of a punch or a die.
  • the display contents of these fields include data which has been input in advance on the commercial article selection conditions input screen 233 ( FIG. 18 ).
  • a shape including respective size parameters, a commercial article code, structure, material quality, holder size are specified, so that a design about a special shape die which is not included in standard products is completed.
  • a die specification required through a hand-written drawing(s) and the like is selected from trimming shape patterns defined preliminarily, and the selected trimming hole shape pattern is shape-changed by applying specific size parameters thereto, so that a desired trimming hole shape can be specified.
  • a required product is a bending die used for bending machining.
  • the bending die reference shapes of respective standard products are stored as shape patterns, and a die shape meeting a required product specification can be obtained by shifting the selected shape patterns.
  • die shape pattern selection screen creating means When a predetermined bending kind is clicked from die kinds 249 a on a bending shape pattern selection screen 249 shown in FIG. 27 , die shape pattern selection screen creating means is actuated.
  • the die shape pattern selection screen creating means displays a plurality of shape patterns of bending dies on a shape display field 249 c in an interlocking manner according to the selected kind.
  • FIG. 27 according to selection of a goose neck shape 249 b , a corresponding shape patterns are displayed in a field 249 c .
  • a die size parameter input screen creating means is actuated.
  • the die size parameter input screen creating means displays a size specific input/output screen 251 ( FIG. 28 ) about the selected goose neck shape pattern.
  • various patterns namely, adaptive shapes 249 e , which can obtain a specific shape by performing shape-change on the basis of the selected goose neck shape pattern in a stage where a predetermined shape pattern 249 d has been clicked on the shape pattern selection screen 249 can be displayed.
  • FIG. 28 shows a die shape specifying screen 251 in which size parameters are input according to the shape pattern selected on the screen 249 .
  • a figure 251 b of the selected goose neck shape pattern and a divided ear shape are displayed on the screen 251 with size parameter values for specifying the goose neck shape displayed on the shape pattern.
  • An angle at a tip end portion used for bending is shown as 88° which is a predetermined value.
  • a tip end R roundness of a tip end portion of a bending die
  • a plurality of selectable parameter values namely 0.2, 0.6, 0.8, 1,5 and 3.0, are displayed for the shape pattern.
  • a desired tip end value is input into a tip end R input field 251 c.
  • a shape including respective size parameters, a commercial article code, a catalog number, (and a structure, material quality and the like specified by the commercial article code and the catalog number) are specified, so that designing of a standard product and a special shape die which is not covered with standard products are completed.
  • shape change is performed on the goose neck shape of the display 251 a so that a goose neck shape of a special shape can be obtained.
  • a special mention item field 251 d shown in FIG. 28 is clicked.
  • die shape specifying screen creating means is actuated.
  • the die shape specifying screen creating means displays a special mention item selection screen 253 ( FIG. 29 ).
  • a commercial article code and catalog number 253 a of the selected shape pattern is displayed on the special mention item selection screen 253 together with a corresponding commercial article name 253 a .
  • Special specification items which are applicable to the selected shape pattern are recited on an applicable special mention item field 253 c .
  • FIG. 29 for example, when a customer specifying mark 253 d is selected, it is copied to an application special mention item field 253 g so that special mention items to be applied can be grasped easily.
  • an additional machining item field 253 e accompanying shape change is displayed on the special mention item selection screen 253 . Adjustment or the like of a tip end angle, a tip end R, a special ear shape, a product recess is made selectable using the additional machining item field 253 e .
  • the die shape specifying screen creating means further displays a tip end angel change screen 255 ( FIG. 30 ).
  • the selected goose neck shape pattern is displayed as figure data 255 a while size parameters of portions capable of being additionally machined are shown.
  • the current parameter values of a tip end angle (K) and the tip end R(R) which are changeable size parameter are displayed in a size input field 255 c .
  • a special shape bending die can be designed by replacing the displayed parameter values with desired parameter values.
  • the shape of the figure data 255 a is also changed and displayed in an interlocking manner with the replacement of the parameter values.
  • a shape including respective size parameters, a commercial article code, a structure and material quality are specified so that designing of a special bending die which is not covered with standard products is completed.
  • a die specification required through a hand-written figure(s) or the like is selected from predetermined bending shape patterns without consciousness about whether the die is a standard product or it is a special shape product, and size parameters necessary for additional machining are applied to the selected bending shape pattern so that a desired bending shape can be specified by shape-changing the bending shape pattern.
  • the marketing supporting apparatus functions as a machining possibility calculating apparatus.
  • the die data input means delivers this shape data to the machining verification means.
  • the data pieces shown in 243 e to 243 i data pieces which have been already input through input into the above-mentioned commercial article condition input screen have been displayed.
  • the machining verification means first performs verification about whether or not the design shape can be machined on the basis of these machined material data and die data. Specifically, the machining possibility means performs this verification by comparing resisting pressure obtained by strength calculation from die data of the selected die (shape data/structure data/material quality data) and machining requiring pressure required for punching workpiece on a specified material which is required from material data (plate thickness and material quality) with each other.
  • the machining verification means checks consistency about whether or not the size parameters applied to the shape pattern constitute a trimming hole shape.
  • the plate thickness 255 f and the material quality 255 g of a workpiece to be machined are input into the machined material input field on, for example, the field 255 of the above-mentioned die shape specifying input screen ( FIG. 30 ).
  • Material data input means actuated by clicking the machining possibility field 255 b delivers data of the material to be machined to the machining verification means according to input of these data pieces of material to be machined.
  • the die data input means delivers the die data to the machining verification means according to input of the corrected size data.
  • the V width of the die is further input. Since this V width has been registered in advance as a default value, when input of the width is omitted, the default value is used as the V width.
  • the V width data is also delivered to the machining verification means as a part of the die data.
  • the machining verification means performs verification similar to the case (1) of the punching die on the basis of these material data and die data.
  • a determination about whether or not the bending die which has been designed in the automatic designing apparatus is a die which can bear an actual machining can be grasped by the display of the verification result simultaneously with the designing.
  • the marketing supporting apparatus functions as an estimate information outputting apparatus.
  • parts relating to a punch to be estimated are displayed on a parts display field 247 a by selection of the shape pattern and input of the size parameters as described in FIG. 22 to FIG. 25 without directly inputting a commercial article code, a catalog number and the like.
  • Purchase unit of the die product which has been designed and verified is displayed on a parts list display field 247 b so as to correspond to the display of parts.
  • This detail estimate information creating means reflects and displays the commercial article data of the selected die product on an estimate list field 259 c of the estimate detail screen 259 shown in FIG. 32 .
  • This detail estimate information creating means reflects and displays the commercial article data of the selected die product on an estimate list field 259 c of the estimate detail screen 259 shown in FIG. 32 .
  • FIG. 32 is the estimate detail screen 259 in this embodiment.
  • the commercial article data such as a commercial article code of a die product selected from each list, a catalog number, quantity, shape, a commercial product name and the like is displayed on the estimate list field 259 c .
  • a calculation button 259 m is clicked on the estimate detail screen 259 , the estimate of each die product displayed in the list is displayed.
  • Price data and delivery time data about each die product to be estimated can be confirmed on the estimate detail screen 259 .
  • a die product of a catalog number 45302E has been pointed in the second line of the estimate list field 259 c .
  • unit cost 259 g , price 259 p , discount rate 259 k , discount amount 2591 and the like are displayed as price data together with a commercial article name 259 f .
  • This discount rate 259 k is a value which has been set in advance for each customer and for each product (each product group).
  • the discount amount 259 l is calculated on the basis of the discount rate 259 k and the product unit cost 259 g , and an estimate amount is displayed as a value obtained by subtracting the discount amount 2591 from the product unit cost 259 g . At this time, it is possible to select application of a variable discount rate set for each customer or application of a fixed discount rate.
  • a reference delivery time 259 h a deliverable day 259 i , a customer request delivery day 259 j and the like are displayed as delivery time data.
  • an estimate issue button 259 n When an estimate issue button 259 n is clicked on the detail estimate screen 259 , information on the detail estimate screen 259 is output as an estimate 263 of a formal format which can be submitted to a customer ( FIG. 34 ). As shown in FIG. 34 , an offered price 263 i to which a total discount amount 263 h applied to the estimated die product is applied can be presented. Incidentally, the estimate can be output not only to a printer connected to the marketing supporting apparatus according to the embodiment but also to a facsimile provided on a place specified by a fax output indication button 261 i ( FIG. 33 ).
  • discount data and delivery time data necessary to present an estimate is stored in advance and the estimate is prepared using these data pieces so that an instant response of a required die product can be performed.
  • the marketing supporting apparatus functions as an order reception information creating apparatus.
  • an order reception decision button 259 o is clicked on the estimate detail screen 259 .
  • Order reception information to which an order reception number has been given and which including the contents of the estimate information is prepared by clicking this order reception decision button 259 o .
  • a sales person connects a predetermined portable communication equipment 107 ( FIG. 1 ) to the marketing supporting apparatus according to the embodiment, and he/she online-transmits/reflects the order reception information to a head office database such as order reception database/manufacture database (not shown) or the like through the portable communication equipment 107 .
  • the order reception database in the head office is updated by the transmission of the order reception information, and simultaneously a manufacture instruction can be transmitted to a manufacture department having the manufacture database at real time to instruct manufacture start.
  • the manufacture schedule and the delivery schedule about the order-received die product are stored in the manufacture database in the head office. For this reason, the marketing supporting apparatus according to the embodiment can obtain deliverable day as return data to transmission of the order reception information in view of an actual schedule about the order-received die product.
  • the marketing supporting apparatus in a case that the marketing supporting apparatus according to the embodiment is used off line, after an sales person returns back to a sales branch or the like, he/she may reflect this order reception information to the head office database such as order reception database/manufacture database or the like.
  • FIG. 35 is an explanatory diagram of an example of a main menu 265 on a portable terminal for a sales person according to the embodiment of the present invention.
  • a series of processings of the above marketing support belongs to a consultant 265 d and an estimate 265 e in a day processing menu 265 b on the main menu.
  • processings necessary for morning, day (daytime), and evening according to a timetable of one day of a sales person, respectively can be timely called from one main menu 265 to be processed.
  • FIG. 36 to FIG. 43 show another embodiment of the machining possibility calculating apparatus.
  • a bending die is selected on the basis of a workpiece shape.
  • a display 270 a is clicked on a left field on a workpiece selection screen 270 .
  • selection branches 270 b are displayed on a right field on the screen 270 .
  • a workpiece shape 270 c is selected on the basis of an order drawing from a customer.
  • a work piece size input screen 272 is displayed on the display apparatus. While referring to a workpiece shape 272 a on a right field, desired numerals are input into a size field 272 b on a left field. At this time, a size guide display 272 c is displayed on the right field in an aspect accompanying the workpiece shape 272 a.
  • a standard die 272 e is selected from a die selection field 272 d.
  • an interference state display screen 274 showing an interference state between the workpiece shape 272 and the standard die shape 274 a is displayed.
  • the standard die 274 a interferes with the workpiece
  • another standard die 274 b is selected from the die selection field 274 displayed simultaneously.
  • a die 276 a which does not interfere with the workpiece so much is selected from the standard dies of the die selection field 272 d and it is additionally machined ( FIG. 39 ).
  • an additional machining & resisting pressure calculation field 276 b is clicked.
  • an additional machining specifying screen 278 is displayed. A position and an amount of additional machining are input in an additional machining specifying field 278 a on this screen 278 .
  • a locus of an additional machining is displayed on a screen displaying the die 276 a and the workpiece 272 a . Accordingly, according to this apparatus, the position/amount of additional machining can easily be determined while referring to the screen.
  • a calculation about whether a die which has been machined additionally can be used is made simultaneously, and the calculation result is displayed on a left field 278 c on the screen 278 . Accordingly, a determination about possibility of the additional machining is made easily.
  • a price display screen 280 shown in FIG. 41 is displayed.
  • a die price input field 280 a and an additional machining price input field 280 b are included on this price display screen 280 . Therefore, according to this apparatus, a price of the final die including the additional machining cost can easily be confirmed.
  • FIG. 42 and FIG. 43 show a case that, when the additional machining is performed on an appropriate standard die 274 a , the die has been made unusable as a result.
  • an additional machining result screen 284 shown in FIG. 43 is displayed.
  • a reason that the die which has been subjected to additional machining is unusable is displayed in an impossible reason display field 284 a on this screen 284 .
  • the screens 270 , 272 , 274 , 276 , 278 , 280 , 282 , and 284 are respectively created by respective screen creating means for creating each screen.
  • the present invention is not limited to the above embodiments, but it may be modified in various manners without departing from the scope of the present invention.
  • the present invention provides functions for storing shape patterns and corresponding size parameters of products relating to product data to perform automatic designing/drawing checking/estimating in an interlocking manner. For this reason, it is made possible to propose an estimate about not only standard products but also special shape products instantaneously without returning back to a head office and perform early order reception/early delivery.

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Abstract

A die retrieval apparatus is provided. The die retrieval apparatus includes a die data input screen creator which creates die data input screens provided with a plurality of fields in which features of a marketing object are input. The die retrieval apparatus also includes a standard die screen creator which is actuated by inputting data items into respective fields on the input screens. When a marketing object corresponding to the respective data items exists, the standard die screen creator creates a standard die screen for displaying a price relating to the marketing object. When no marketing object corresponding to the respective data items exists, the standard die screen creator creates an error indication.

Description

  • This application is a divisional of pending U.S. patent application Ser. No. 09/720,250, filed on Jan. 8, 2001, in the names of Masanori NANBU et al., which was the National Stage of International Application No. PCT/JP99/03802, filed Jul. 14, 1999, the disclosure of which is expressly incorporated by reference herein in its entirety. The International Application was not published under PCT Article 21(2)
  • TECHNICAL FIELD
  • The present invention relates to a marketing supporting system. In particular, to a technical field for performing an efficient product proposal, and for implementing instantaneous answer of estimation to various product requirements and order reception input in a marketing place.
  • BACKGROUND ART
  • Conventionally, marketing of a product such as a die for machining is performed through marketing activities in which a sales person visits a working factory or the like to conduct business activity, which is so-called door-to-door selling style.
  • In the door-to-door selling, when such a product as a die is proposed to a customer, a sales person merely selects a product(s) from many products through paper catalogs to explain the product(s) therethrough.
  • Also, when a die required by a customer is a die with a special shape which is not a standard die, the sales person brings a die specification drawn on such a sheet as a paper which is required by the customer back to a design department of his/her company. In this design department, design and check of drawings (verification about whether or not the special die can be manufactured) are conducted and the result is notified to the salesperson. The sales person prepares an estimate for the die on the basis of the result and visits the customer again to present the estimate and receive an order of the product. The information about this order reception is input into a database in a head office of the company to issue an instruction to a manufacturing department after he/she comes back to his/her sales station or the like.
  • In such a process, however, there is a drawback that a product(s) cannot be presented to a customer(s) efficiently. Also, there is another drawback that, when a sales person is asked by a customer, he/she cannot answer the question efficiently.
  • Furthermore, when a die with a special shape (hereinafter, called special die) is ordered, such an order is brought back to the company and a design and check of drawings are conducted in the design department. For this reason, there is still another drawback that an estimate including an appointed data of delivery cannot be presented to the customer immediately, which results in that a long time is required from an order reception to delivery.
  • Simultaneously, since a sales person brings back a specification of a special die based upon a handwriting indication, an oral indication or the like to give a person(s) in the design department the specification, there often occurs an error of an original instruction of a customer or misunderstanding of the sales person. For this reason, there occurs claims from customers because manufactured products do not meet specifications.
  • DISCLOSURE OF INVENTION
  • The present invention has been made in order to solve the above problems in the conventional art.
  • An object of the present invention is to present a product to a customer efficiently and in a various manner.
  • Also, another object of the present invention is to answer a customer's question to a product instantaneously and allow sales or marketing activities in a uniform level.
  • Furthermore, still another object of the present invention is to determine whether a standard product requested can be manufactured and whether or not a special shaped product requested can be machined in a door-to-door selling place.
  • Moreover, another object of the present invention is to allow instantaneous estimation and order reception input in a door-to-door selling place.
  • The summary of a marketing supporting system according to the present invention for solving the above problems is as follows:
  • One feature of the present invention is to provide an increase profit calculating apparatus which can grasp cost consumption easily and can grasp cost reduction easily and rapidly.
  • The increase profit calculating apparatus comprises:
      • first die screen creating means which creates a first die apparatus screen (205) for displaying a first die apparatus; and
      • increase profit screen creating means which is operated in response to a click operation of a specific mark on the first die apparatus screen and which creates an increase profit screen (207) for displaying increase profit occurring by employing the first die apparatus instead of a second die apparatus corresponding to the first die apparatus.
  • The increase profit screen comprises:
      • question item fields (207 a-207 d) on which a plurality of questions about operations of the first die apparatus and the second die apparatus and relating to costs following the operations are presented;
      • a field (207 i) on which a first total cost is displayed within a predetermined time period due to use of the first die apparatus;
      • a field (207 j) on which a second total cost is displayed within the predetermined time period due to use of the second die apparatus; and
      • a field (207 k) on which an increase profit field for displaying increase profit obtained by employing the first die apparatus is displayed.
  • Then, the increase profit calculating apparatus is provided with calculating means which calculates the first and second costs and the increase profit according to an answer to the questions from an operator.
  • According to the above configuration, cost consumption can be grasped easily and cost reduction can be grasped easily and rapidly.
  • It is preferable that the question items in the increase profit screen (207) includes the number of die apparatus exchanges per one day, a time required for die apparatus exchange per one time, personnel expenses per predetermined time, and the number of working days within a predetermined term.
  • A second feature of the present invention is to provide a inferiority phenomenon countermeasure guiding apparatus which allows search and selection of an optimal countermeasure to a inferiority phenomenon. The inferiority phenomenon countermeasure guiding apparatus comprises:
      • inferiority phenomenon screen creating means which creates a inferiority phenomenon screen (209) for displaying a plurality of inferiority phenomena in predetermined kinds of workings such as punching or the like; and
      • inferiority phenomenon cause screen creating means which is actuated by clicking a inferiority phenomenon display portion in the inferiority phenomenon screen and which creates a inferiority phenomenon cause screen (211) for displaying a list of causes (such as fatigue of a spring, a clearance unsuitableness and the like) causing the inferiority phenomenon.
  • It is preferable that the inferiority phenomenon countermeasure guiding apparatus further comprises avoidance information screen creating means which is actuated by clicking a portion displaying one cause in the list of causes and which creates an avoidance information screen (213) for displaying information for avoiding the one cause.
  • It is preferable that the inferiority phenomenon countermeasure guiding apparatus comprises specific die screen creating means which is actuated by clicking a predetermined portion of the inferiority phenomenon cause screen (211) or a predetermined portion of the avoidance information screen (213) and which creates a specific die screen (217) for displaying a specific die for avoiding the inferiority phenomenon.
  • According to these structures, it is made possible to search for and select an optimal countermeasure to an inferiority phenomenon easily.
  • Another feature of the present invention is to provide a inferiority phenomenon countermeasure guiding apparatus for a die for bending machining. This apparatus comprises cause/countermeasure display screen creating means which creates a cause/countermeasure screen (223) for displaying a cause of a inferiority phenomenon in a predetermined kind of workpiece such as bending workpiece or the like and a plurality of countermeasures of a first type for avoiding the inferiority phenomenon due to the cause; and
      • countermeasure explanation screen creating means which is actuated by clicking a portion displaying one countermeasure in the cause/countermeasure screen and which creates a countermeasure explanation screen (225) for explaining specific contents of the countermeasure through a drawing(s) and a character(s).
  • This inferiority phenomenon countermeasure guiding apparatus further comprises specific die screen creating means which is actuated by clicking a predetermined portion of the cause/countermeasure screen or the countermeasure explanation screen and which creates a specific bending die screen (227) for displaying a specific bending die for avoiding the inferiority phenomenon due to the cause.
  • According to the above structure, it is made possible to select an optimal bending die rapidly when an inferiority phenomenon has occurred in a bending machining.
  • Another feature of the present invention is to provide question answer accumulating apparatus comprising means or inputting a question;
      • means for inputting an answer to the question; and
      • means for storing the question and the answer in a state mutually correlated with each other.
  • According to this apparatus, machine operators' questions about dies or the like and answers thereto are accumulated so that knowledge of practically skilled persons responding to the answers are accumulated in a state correlated with the answers and it is possible to respond to a question which will occurs in the future easily.
  • Another feature of the present invention can provide a die retrieval apparatus comprising input screen creating means which creates input screens (231, 233) provided with a field in which a plurality of shapes of a die is input, a field in which the kind of a machine used with the die is input, a field in which a structure of the die is input, and a field in which material for the die is input; and standard die screen creating means which is actuated by inputting data pieces into the respective fields of the input screens and which, when a die meeting the respective data pieces exists, creates a standard die screen (235) for displaying a sectional configuration of the die, a parts list name, unit prices of respective parts, and, when no die meeting the respective data pieces exists, creates an error display.
  • According to this apparatus, it is made possible to select a die rapidly by inputting intuitive data pieces such as a die adaptive machine, a die shape or the like when a die is specified by combination of complicated symbols and when it is difficult to describe the combination of the symbols.
  • Another feature of the present invention is to provide a product automatic designing apparatus (product parameters setting apparatus) which is made possible to perform automatic designing of a die product at a door-to-door selling place or the like easily in answer to even a requirement for a product except for standard products. This product automatic designing apparatus (product parameters setting apparatus) can design a product shape on the basis of shape/material data of a group of products which have been classified and registered based upon the shape patterns of products in response to an estimate requirement for not only standard products on a product catalog but also specially shaped die products which cannot be substituted for standard products. That is, a die product can be designed parametrically by a simple operation of inputting predetermined size data regarding a selected shape pattern.
  • The structure for implementing this feature is, for example, a product automatic designing apparatus (product parameters setting apparatus) which comprises die shape selection screen creating means which creates shape pattern selection screens (237, 239) used for selection of a shape about a die to be designed, and die dimension parameter input screen creating means which is actuated according to selection and input of a specific shape pattern on the die shape selection screen and which creates a die dimension parameter input screen (241) which allows input of dimension parameters of predetermined portions about the selected die shape, wherein
      • the shape pattern selection screen (237) includes at least a field which allows selection of the kind of a die to be designed and a field which allows selection of a shape pattern regarding the die to be designed;
      • the die dimension parameter input screen (241) includes at least a shape parameter input field (241 b) which displays a dimension parameter input portion required to specify the selected die shape pattern and the shape of the die to be designed and a dimension parameter input field (241 c) in which a dimension parameter of the input portion is input; and
      • the product automatic designing apparatus (product parameter designing apparatus) comprises design means which performs a design according to a correspondence relationship between die shapes which have been classified on the basis of die shape patterns and stored previously and dimension parameter groups required to specify the shape of the die.
  • Incidentally, it is preferable that the previously stored shape pattern is stored so as to correspond to a plurality of dimension parameter groups required to specify the die shape belonging to the shape pattern, and the dimension input screen is further provided with a dimension input pattern selection field which allows selection of one dimension parameter group from the plurality of dimension parameter groups.
  • Also, it is preferable that the shape pattern selection screen further comprises adapted shape display field which displays one or a plurality of shape sub-patterns contained in shape variation included in the selected shape pattern.
  • According to this structure, a sales person can design a special shape die parametrically at a door-to-door selling place without such a consciousness that this die is a special shape die. Accordingly, he/she can design the special shape die at the door-to-door selling place without bringing a customer's requirement back to the design department.
  • Another feature of the present invention is to provide a machining possibility calculating apparatus which allows verification of possibility of real machining about the designed die product rapidly and easily.
  • This machining possibility calculating apparatus verifies whether or not a desired machining can be performed on the designed die product on the basis of shape data/material data about the designed product, material quality data of material to be machined, and the like. Also, the apparatus checks consistency among input dimension parameters.
  • The structure realizing this feature comprises, for example, die data input means which inputs die data including shape data of a predetermined die specified by the shape pattern and the dimension pattern of a die to be designed, structure data of the die and material quality data;
      • material data input means which inputs material data including the plate thickness and material quality of a material to be machined which is machined by the die; and
      • machining verification means which verifies whether or not the die to be designed can be machined on the basis of the input die data and material data.
  • Incidentally, it is preferable that the machining verification means performs the verification by comparing the resisting pressure of the die which has been obtained according to a strength calculation from the die data and the machining request pressure required for machining performed by the die which has been obtained from the material data with each other.
  • Furthermore, it is preferable that the machining verification means performs the verification by checking the consistency among the input dimension data pieces.
  • According to this structure, since suitability about numerical values of the dimension parameters is checked, a determination about whether or not it is possible to manufacture the designed product actually, namely it is possible to provide the same, can be made instantaneously during a marketing activity. Accordingly, the number of work steps such as preparation of drawing checking, redesigning or the like is reduced.
  • Another feature of the present invention is to provide an automatic estimate creating apparatus which provides an estimate about the designed and verified product instantaneously at a marketing place.
  • The automatic estimate creating apparatus which creates an estimate including data necessary to create an estimate of not only price data of a product which has been designed/verified but also price reduction limitation and delivery time limit data.
  • The structure realizing this feature comprises input means which inputs product data of a product for which an estimate is to be prepared, the number of products, and customer data;
      • estimate data storage means in which delivery time limit data corresponding to the product and data about price reduction rate to a fixed price of a die product is stored; and
      • detailed estimate information creating means which outputs detailed estimate information on the basis of the input data,
      • wherein the detailed estimate information output includes deliverable data determined according to the delivery time limit data and an amount obtained by discount according to the discount rate data.
  • Incidentally, it is preferable that the product for which the estimate is to be created can be input by specifying the shape and/or material quality of the product.
  • According to the structure, since product data is displayed in a interlocking manner with design data specified from the shape or the like, it becomes unnecessary to perform complicated search/re-input from a large number of product codes, catalog numbers or the like. Also, it becomes possible to create an estimate including all information necessary for estimate rapidly and easily. Accordingly, an estimate is created instantly at a marketing place so that an early sales commitment can be obtained.
  • Another feature of the present invention is to provide an order reception information outputting apparatus which allows an instant order reception regarding the estimated product to issue a production instruction. This order reception information outputting apparatus can secure an order reception to issue a manufacture instruction while presenting the contents of an estimate to a customer at a marketing place, and can make a communication with manufacture schedule information a remote place to output a deliverable data according to the manufacture schedule at this time.
  • The structure realizing this feature comprises, for example, order reception information screen creating means which displays an order reception information screen of a product ordered at a marketing place; and
      • order reception information transmitting means which is actuated by clicking a specific mark on the order reception information screen and which transmits the order reception information to a manufacture end.
  • Incidentally, in addition, it is preferable that the order reception information outputting apparatus further comprises delivery data update displaying means which displays change in delivery data of a product on the order reception information screen on the basis of data received in response to transmission of the order reception information.
  • According to this structure, it is possible to secure an order reception rapidly and start manufacture at an early time. Accordingly, an early delivery of a product is made possible.
  • Incidentally, in the specification of the present application, the term “sale object” includes products such as a die apparatus, a machine part, a blade of a machine, a machine or the like, and services such as maintenance of these products.
  • BRIEF DESCRIPTION OF DRAWINGS
  • FIG. 1 is a block diagram showing a configuration of a supporting apparatus of the present invention;
  • FIG. 2 is an explanatory diagram of a table of contents screen displayed on a display screen of the supporting apparatus of the present invention;
  • FIG. 3 is one example of a product catalog screen displayed on the display apparatus;
  • FIG. 4 is one example of an increase profit screen displaying increase profit displayed on the display screen;
  • FIG. 5 is one example of an inferiority phenomenon screen displayed on the displaying apparatus;
  • FIG. 6 is one example of a inferiority phenomenon cause screen displaying a list of causes generating an inferiority phenomenon shown in FIG. 5;
  • FIG. 7 is one example of an avoidance information screen displaying information for avoiding inferiority causes shown in FIG. 6;
  • FIG. 8 is one example of an information screen displaying another method for solving the cause shown in FIG. 7;
  • FIG. 9 is an explanatory screen for explaining a special die for avoiding the inferiority phenomenon shown in FIG. 6;
  • FIG. 10 is one example of a clearance diagnostic test screen serving as a reference value screen displayed on the displaying apparatus by clicking a predetermined portion on the screen shown in FIG. 6 in a case that the cause in FIG. 6 is a clearance unsuitableness;
  • FIG. 11 is an accompanying disadvantage and the like display screen which is displayed by clicking a predetermined portion on the screen shown in FIG. 10, for displaying an accompanying inferiority phenomenon or disadvantage due to the clearance unsuitableness;
  • FIG. 12 is a cause/countermeasure screen which is displayed by clicking a display portion of the characters “BENDING” on the screen in FIG. 2, for displaying a cause of an inferiority phenomenon in a bending machining and a plurality of countermeasures for avoiding the inferiority phenomenon;
  • FIG. 13 is a screen for explaining the details of a predetermined countermeasure in FIG. 12;
  • FIG. 14 is a bending die display screen (special bending die screen) which is displayed by clicking a predetermined portion on the screen in FIG. 12 or FIG. 13, for explaining a countermeasure bending die (or novel bending die);
  • FIG. 15 is a special bending die detail explanatory screen which is displayed by clicking a predetermined portion on the screen in FIG. 14, for explaining the details of suitable material for the countermeasure bending die (novel bending die), a suitable apparatus, functions and the like;
  • FIG. 16 is an explanatory diagram of a die list screen showing a list of punching dies/bending dies and a die data input screen in which data of standard dies is input;
  • FIG. 17 is an explanatory diagram of a second die data input screen for selecting a standard die in punching dies;
  • FIG. 18 is an explanatory diagram of a second die data input screen for selecting a standard die in punching dies;
  • FIG. 19 is an explanatory diagram of a second die data input screen for selecting a standard die in punching dies;
  • FIG. 20 is an explanatory diagram of a parts list screen which is displayed according to a standard die selection in punching dies;
  • FIG. 21 is an explanatory diagram of a punching die selection screen displaying a list of punching dies and shape patterns;
  • FIG. 22 is an explanatory diagram of a punching die selection screen displayed when a predetermined shape pattern is selected in FIG. 20;
  • FIG. 23 is an explanatory diagram of a dimension parameter input screen displayed in response to selection of the shape pattern of the punching die in FIG. 20 and FIG. 21;
  • FIG. 24 is an explanatory diagram of a dimension parameter input screen displayed when another dimension parameter group is selected in FIG. 22;
  • FIG. 25 is an explanatory diagram of a screen showing the result of machining possibility simulation for a punching die manufactured according to input dimension parameters, material and material quality in FIG. 23;
  • FIG. 26 is an explanatory diagram of a parts list screen displayed in response to a special die selection in punching dies;
  • FIG. 27 is an explanatory diagram of a punch die selection screen displaying a list of bending dies and shape patterns;
  • FIG. 28 is an explanatory diagram of a dimension parameter input screen displayed in response to shape pattern selection for a bending die in FIG. 26;
  • FIG. 29 is an explanatory diagram of a special item input screen displayed in response to special item input selection in FIG. 27;
  • FIG. 30 is an explanatory diagram of a screen showing the result of machining possibility simulation for a bending die manufactured according to input dimension parameters, material and material quality;
  • FIG. 31 is an explanatory diagram of a screen showing the result of machining possibility simulation of a bending die manufactured according to dimension parameters of different values, material and material quality in FIG. 29;
  • FIG. 32 is an explanatory diagram of an estimate detail information input screen displayed in response to a die product selection on the parts list screen;
  • FIG. 33 is an explanatory diagram of an estimate detail information input screen displayed in response to another die product selection on the parts list screen;
  • FIG. 34 is an explanatory diagram of an example of an estimate output in response to selection of estimate issue on the screen in FIG. 31;
  • FIG. 35 is an explanatory diagram of an example of a main menu on a portable terminal for sales person according to an embodiment of the present invention;
  • FIG. 36 is an explanatory diagram of a screen for selecting a workpiece shape on the basis of a customer's drawings;
  • FIG. 37 is an explanatory diagram of a screen in which workpiece dimensions are input;
  • FIG. 38 is an explanatory diagram of a screen for selecting a die according to workpiece shape/workpiece dimensions;
  • FIG. 39 is an explanatory diagram of a screen indicating additional machining to a selected die on the screen in FIG. 38;
  • FIG. 40 is an explanatory diagram of a screen displaying resisting pressure calculation of the die which has been subjected to the additional machining specified in FIG. 39;
  • FIG. 41 is an explanatory diagram of a screen displaying a price of the die including the additional machining specified in FIG. 39;
  • FIG. 42 is an explanatory diagram of a screen indicating anther additional machining to the selected die; and
  • FIG. 43 is an explanatory diagram of a screen displaying resisting pressure calculation of the die which has been subjected to the additional machining specified in FIG. 42.
  • BEST MODE FOR CARRYING OUT THE INVENTION
  • An embodiment of the present invention will be explained below with reference to the drawings.
  • Referring to FIG. 1, an embodiment of a marketing supporting apparatus of the present1 1 invention comprises a database 105 in which data is stored, a display apparatus 106, and a communication apparatus 107 performing communication of data with an external apparatus. A marketing supporting apparatus 101 comprises a product proposal supporting section 102, an estimate creating section 103, and an order reception information creating apparatus 104. Then, the product proposal supporting section 102 comprises an increase profit calculation apparatus 122, an inferiority phenomenon countermeasure guiding apparatus 123, and a product catalog output apparatus 121. Also, the estimate creating section 103 comprises a product automatic designing apparatus (product parameter setting apparatus) (die retrieval apparatus) 132, a machining possibility calculation apparatus 133, and an estimate information output apparatus 131. Also, the product database 105 comprises a standard product database 105 in which data about standard dies is stored, a pattern special die database 152 in which special dies patterned are stored, and a non-patterned special die database 153 in which extremely special dies which cannot be patterned are stored.
  • For the marketing supporting apparatus 101 in the present embodiment, a program performing processing explained below is created and a computer system which can execute this processing by loading this created program is used. This computer system includes a so-called general purpose machine, a workstation, a PC, a NC (Network Computer) or the like. In the present invention, however, it is preferable that a portable type PC which can be carried to a marketing place. The hardware configuration of the computer system used in the present embodiment is provided with a CPU for performing various processings, a memory such as a program memory/data memory or the like, an external storage apparatus such as a FD, a CD or the like, and an output apparatus such as a display unit or the like. The processings explained below can be performed as off-line processings in a single PC without connection to a computer in a head office or a branch office except for processings which are performed in the order reception information creating apparatus 104.
  • Incidentally, the program for implementing the marketing supporting apparatus of the present embodiment is can be saved in one of various recording media such as a magnetic disk, an optical disk, a memory card and the like. The present embodiment can be implemented by reading recording medium into the program memory to execute the program.
  • Next, processing contents of the marketing supporting apparatus according to the embodiment of the present invention will be explained.
  • When the supporting apparatus is actuated, a contents table screen 200 shown in FIG. 2 is displayed on the display apparatus 106 (hereinafter, a case that the term “displayed” is merely used means that “display” is performed on the display apparatus 106 when there is no special explanation). Displayed on this contents table screen are a product introduction field 201, a various phenomena countermeasure (namely, inferiority phenomena countermeasure) field 203, and a question answer field 204. Incidentally, sub-fields of a punching field 203 a and a bending (curving) field 203 b are displayed on the various phenomena countermeasure field 203.
  • In the above, for example, when a display portion of the product introduction field 201 is clicked, the product catalog output apparatus 121 is actuated, and a product introduction screen 205 (a first die apparatus screen) as shown in FIG. 3 is displayed. In FIG. 3, as one example, triple holders holding three dies are displayed. According to this holder, once the holder is set on a punch press, punching machining of three kinds corresponding to the three dies mounted on the holder can be performed without exchanging dies.
  • According to the supporting apparatus of this invention, increase profit obtained by using the triple holder can easily be calculated. That is, when a predetermined portion on the display screen 205 in FIG. 3 is clicked, an increase profit screen 207 displayed in FIG. 4 is displayed. The increase profit screen 207 displays increase profit occurring by employing a triple holder instead of a single holder holding only one die. That is, displayed on this screen 207 are a question 207 a for asking the number of holder exchanges per day, a question 207 b for asking an exchanging time required per one time, a question 207 c for asking labor cost of a worker per one hour, and a question 207 for asking working days per one month. Answer fields 207 e, 207 f, 207 g and 207 h in which an operator inputs answers to these questions are provided. That is, the field 207 e in which an answer to the question 207 a is input, the field 207 f in which an answer to the question 207 b is input, the field 207 g in which an answer to the question 207 c is input, and the field 207 h in which an answer to the question 207 d are provided. Then, when an operator writes answers in these fields, a labor cost (one month) required for holder exchanges occurring when a single holder is used is displayed on a field 207 i, a labor cost per one month corresponding to a case of use of a triple holder is displayed on a field 207 j, and increase profit per one month occurring when a triple holder is used instead of a single holder is displayed on a field 207 k.
  • According to the invention, regarding to the triple holder (the first die apparatus), increase of profit obtained by the use of the triple holder instead of the single holder is calculated easily. In other words, the cost waste made by the use of the single holder (the second die apparatus) is grasped easily, and so is the cost reduction by the use of the triple holder (the first die apparatus). Next, when a field of the punching 203 a in the various phenomena countermeasures 203 is clicked on the contents table screen 200 shown in FIG. 2, the various phenomena countermeasure guiding apparatus (inferiority phenomena countermeasure guiding apparatus) 123 is actuated and an inferiority phenomena screen 209 shown in FIG. 5 is displayed on the display apparatus 106. Images 209 a, 209 b, 209 c and the like displaying various inferiority phenomena in a punching machining are displayed on the screen 209. Then, for example, when a display portion of a stripping error 209 b is clicked on the screen 209, the inferiority phenomena cause screen creating means is actuated, and an inferiority phenomena cause screen 211 displaying a plurality of causes generating the stripping error (inferiority phenomenon) is displayed on the display apparatus 106 (FIG. 6). Incidentally, the stripping error means that a workpiece bites a tip portion of a punch which has performed punching machining and a portion of the workpiece which has been subjected to the punching machining is brought up according to elevation of the tip portion of the punch.
  • As shown in FIG. 6, punch blade tip melt adhesion 211 a, lubricant unsuitableness 221 b, clearance unsuitableness 211 c, wear 211 d, spring fatigue 211 e and the like which may be causes of the stripping error are displayed on the screen 211. Also, a simulation displaying a situation where the stripping error occurs as an animation together with the plurality of causes 211 a to 211 e is displayed on a simulation display section 211 g.
  • Accordingly, a drawback which has occurred in the material to be machined can easily be grasped and understood as a stripping error in punching machining by referring to this simulation screen. Also, since the causes of the stripping error are listed up on the screen 211, the cause of the inferiority phenomenon can easily be grasped and understood by referring to the list and a countermeasure to the inferiority phenomenon can be proposed. An avoidance information screen 213 displaying a method (information) for avoiding this cause is displayed by clicking a display portion of one cause in the cause list (FIG. 7). In this embodiment, for example, when a display portion 211 e of the spring fatigue (cause) is clicked, a spring fatigue avoidance information screen 213 shown in FIG. 7 is displayed. For example, such information that it is necessary to exchange springs periodically in order to avoid the spring fatigue is displayed on this screen 213. In detail, information 213 a that it is necessary to perform exchange for each two years when pressure of 1.2 tons or less is applied (corresponding to 1,000,000 hits), it is necessary to perform exchange for each year when pressure of 1.2 tons to 3.2 tons is applied (corresponding to 500,000 hits), and it is necessary to perform exchange for each half a year when pressure of 3.2 tons to 6 tons is applied (corresponding to 200,000 hits) is displayed as criteria for exchange.
  • Therefore, according to the apparatus of the present invention and the above screens, when a stripping error occurs and its cause is considered to be spring fatigue, the necessity that spring exchange is performed periodically at predetermined intervals in order to avoid such an error is understood so that efficiency can be improved in machining.
  • When a predetermined portion is clicked on the screen 213 shown in FIG. 7, a screen 215 shown in FIG. 8 is displayed. A countermeasure performed on a current die to reduce the number of exchanges of the die in possible range and avoid the spring fatigue is displayed on this screen 215. In this embodiment, for example, information 215 a showing necessities of increase in die size and increase in spring force is displayed. Also, as problems occurring due to use of such a die, information 215 b about increase in cost of a die, necessity of change of the program, or lack in the number of turret stations is also displayed on the screen 215.
  • Accordingly, by referring to these information items 215 a, 215 b, it can easily be understood that the increase in size of the die and the increase in spring force can be applied to avoid the spring fatigue which is the problem but such problems as increase in cost of a die, necessity of program change, lack in the number of stations and the like occur.
  • Then, when a countermeasure product 211 f or 211 h shown in FIG. 6, or a field 213 b of FIG. 7 or a field 215 c of FIG. 8 is clicked, a screen 217 shown in FIG. 9 is displayed on the display apparatus 106. In this screen 217, information 217 about a gas spring is displayed as a die for avoiding the stripping error. In particular, a sectional configuration of the gas spring is displayed at a portion indicated by reference numeral 217 b. This gas spring uses a apparatus where gas is sealed instead of a mechanical spring in order to urge a punch body 217 e and a punch head 217 f of a punch die upward against a punch guide 217 b.
  • Displayed on the screen 217 is also a graph 217 c showing that the pressure of the gas spring is larger than that of the mechanical spring in a region where a stripping error is easy to occur. Furthermore, displayed on the screen 217 is information 217 d about preferable functions or effects obtained by a punch die of the gas spring.
  • Therefore, according to this screen 217, the structure of the gas spring type die, the advantages of the gas spring compared with a standard coil spring and the preferable functions of the gas spring can be understood and grasped at once. Also, a determination can be made about whether or not a gas spring type die should be employed as a countermeasure to the current inferiority phenomenon in punching machining easily and rapidly while profitability is taken in consideration.
  • Incidentally, when an explanation field 217 e is clicked on the screen 217, an animation where the punch body 217 e and the punch head 217 f are moved up and down relative to the punch guide 217 b is displayed in a simulation manner on the field 217 d, and sound for explaining the structure and operation functions of the gas spring die is output from a predetermined sound apparatus. Thereby, the structure, the functions and the operations of the gas spring can be understood more easily.
  • On the screen 211 shown in FIG. 6, when unsuitableness of an clearance size formed between an inner diameter of a die and an outer diameter of a punch chip is considered as a cause of a stripping error, a display portion 211 of clearance unsuitableness is clicked on the screen 211. Thereby, reference value screen creating means is actuated so that a clearance diagnosis test screen 219 is displayed as a screen displaying a reference value (FIG. 10). In this embodiment, a question field 219 a for asking machined material to be used for machining, a question field 219 b for asking the thickness of the material, and a question field 219 c for asking a clearance in the machining are provided on the screen 219. When an operator inserts answers to these questions, a determination is made about whether the clearance value 219 f is too small, suitable or too large in view of the values 219 d and 219 e of the machined material quality and the thickness of the machined material. On this screen 219, it is displayed in a reference value display field 219 g that a standard value of a clearance to the machined material quality 219 d and the thickness 219 e is 0.3 mm, and a display 219 h showing that a value 219 f of the clearance is small as compared with the reference value is displayed.
  • Next, when a display portion 219 i relating to the display 210 h is clicked, a screen 221 is displayed on the display apparatus (FIG. 11). This screen 221 is an accompanying disadvantage display screen 221 display other inferiority phenomena or disadvantages which may occur when the clearance is below the suitable clearance. In detail, description 221 d is displayed on the screen 221 that, when the current clearance is smaller than the suitable clearance, the secondary shear occurs so that a large load applied to a punch and die. Also, a description 221 a is displayed that according to advance of wear in a punch and a die, cost in consumption increases and the working ratio is lowered. Furthermore, a description 221 b is displayed that product inferiority occurs, loss in material occurs and loss in machining charge occurs. Also, a description 221 c “twice or more decrease in cost can be realized by selecting a die for each material/plate thickness” is displayed.
  • Accordingly, referring to the screen 221, it is understood that, when the current clearance is smaller that a suitable clearance, various disadvantages or inferiority phenomena occur, and it is understood that the double or more decrease in cost can be achieved by using dies having different hole diameters for respective materials or plate thicknesses. Thereby, it is understood that it is important to set a clearance to a suitable value in order to achieve rapidness of machining or accurate machining and for attaining decrease in cost. As a result, by referring to this, a suitable clearance can be achieved, accuracy in machining can be improved, working ratio can be increased, and decrease in cost can be attained.
  • Incidentally, displayed on the screen 219 (FIG. 10) is information 219 j that, when the clearance is larger; than a suitable clearance, “deformation of material becomes large prior to start of cutting, which results in the same as a case that the die has been consumed”. Thereby, it is understood that a drawback occurs even when the clearance is too large, and importance of selecting a clearance suitably is understood.
  • Therefore, by referring to these screens, a clearance can be selected suitably, and accuracy in machining, rapidness in machining or decrease in cost can be achieved.
  • Referring to FIG. 2 again, when a bending field 203 b for various phenomena countermeasure is selected, a screen 223 shown in FIG. 12 is displayed in the display apparatus. This screen 223 is a cause/countermeasure screen showing bending flaw occurrence of various inferiority phenomena and a plurality of countermeasures (a first kind of countermeasures) for avoiding the bending flaw occurrence. Incidentally, the bending flaw means a flaw occurring at a machined portion of a material indicated by each arrow of an explanation diagram 223 a on the screen 223. As the countermeasures to the bending flaw, application of oil to a shoulder portion of a die (223 b), attachment of a tape to a die (223 c), application of clamping state bending (223 d), application of vinyl-coating (223 e) and the like are displayed on the screen 223. Incidentally, regarding these countermeasures, their features and directions corresponding to these countermeasures are also displayed, respectively (223 f, 223 g). Also, besides the specific countermeasures, general countermeasures for avoiding bending flaw occurrence are displayed in a field 223 h on the screen 223. Especially, as the third countermeasure of the general countermeasures, setting of proper V width to required tons is displayed.
  • Accordingly, by referring to these displays, it can be understood easily that when bending flaw occurs, what is considered as its cause, or which countermeasures can be employed to the cause (general countermeasures and specific countermeasures). Therefore, one or a plurality of these countermeasures can be employed to minimize bending flaw occurrence in a bending machining.
  • For example, when a display portion 223 b of countermeasure 1 is clicked, a screen 225 shown in FIG. 13 is displayed. Displayed on this screen 225 is a specific operation “apply oil to a shoulder portion of a die” through a drawing (225 a).
  • Accordingly, by referring to a display 225 a on the screen 225, a specific content or specific operation of each countermeasure 1 can easily be understood through a drawing or characters.
  • Next, when a countermeasure product display portion 223 i or 225 b on the screen 223 or the screen 225 is clicked, a screen 227 is displayed on the display apparatus (FIG. 14) This screen 227 is a specific bending die screen showing that a new type die named “Selatic Die” can be used in order to prevent the bending flaw from occurring. Formed on the screen 227 is a display 227 b that a suitable material capable of using the Selatic Die is stainless steel, iron or the like as well as a display 227 a of features of the Selatic Die.
  • When a display 227 c displaying a shape of the Selatic Die through a drawing is clicked on the screen 227, a screen 229 is displayed on the display apparatus (FIG. 15). More specific functions, suitable materials or suitable apparatus are explained on the screen 229 in detail, as shown in FIG. 15.
  • Accordingly, by referring to the screens 227 and 229, a new die for bending flaw countermeasure can be evaluated easily and rapidly, so that the problem about the bending flaw can be rapidly solved.
  • Referring to FIG. 2 again, when the display portion 205 of Question and Answer is clicked on the screen 200, the past questions and the answers thereto are displayed in a mutually related state. By referring to these, an operator can refer to the past questions relating to the operations, functions, movements of the die and, when there is any questions relating to the current problem, he/she selects these questions so that he/she can easily obtain the answer about the current outstanding problem of the die by referring to the answers displayed relating to the respective questions. Then, when the question about the currently relating problem cannot be obtained from a list of the questions accumulated in the past, these questions are input by the question input means. Thereby, these questions are transmitted to a master supporting apparatus for supporting apparatus via a proper communication means 107, and a practically skilled answerer who operates this master supporting apparatus inputs answers to these questions into the master supporting apparatus. Thereby, these answers are transmitted from the master supporting apparatus to the supporting apparatus of the present invention, and they are stored a proper storage apparatus in this supporting apparatus. Accordingly, the current outstanding problem can be solved by utilizing this answer. Also, by storing the answer from this master supporting apparatus in a state relating to the question, an operator can refer to this question and this answer when a question similar thereto will occur, so that he/she can solve a problem which will occur in the future easily and rapidly. Incidentally, regarding a new question, when an operator operating this supporting apparatus can answer the question, the operator inputs the answer into the supporting apparatus at the place. Thereby, the answer is stored in the storage means of the supporting apparatus in a state where it is related to the question.
  • When a die required by a customer is a standard one, the supporting apparatus of the present invention also serves as a die retrieval apparatus for selecting the required die easily and rapidly. That is, when a die is specified with a complicated combinations of symbols and it is difficult to remember the combination of symbols, the die retrieval apparatus can select a standard die easily and rapidly by inputting intuitive data such as a machine suitable for use of a die, the shape of a die or the like.
  • This die retrieval apparatus is provided with input screen creating means which creates input screens 231, 233 which includes a field in which a plurality of shapes of a die is input, a field in which the kind of a machine using a die is input, a field in which the structure of a die is input, and a field in which material quality of a die is input. The input screen is displayed, for example, as a first input screen 231 shown in FIG. 16. Regarding, for example, a punching machining die, a list field 231 a which classifies trimming dies or forming dies on this screen 231. When a standard die field 231 b of the trimming dies is selected from the list field 231 a, a sectional configuration of this standard die is displayed on a shape field 231 c. In this embodiment, a circle, square, oval, rectangle, WD shape, SD shape, center punch, standard burring are displayed as standard shapes. Incidentally, in this embodiment, the term “standard shape” denotes the shape determined with two parameters. When a selection button 231 d is pushed in a state shown in FIG. 16, the selection condition input screen 233 serving as a second input screen is displayed (FIG. 17, FIG. 18 and FIG. 19). Displayed on this selection condition input screen 233 are a field 233 a in which the kind of a machine in which a die is used is input, a field 233 b in which a holder size of a die is input, a field 233 c in which the structure of a punch of the dies is input, a field 233 d in which material quality of the punch is input, a field 233 e in which the structure of the die is input, and a field 233 f in which the material quality of the die is input.
  • Accordingly, when predetermined data is input into the respective fields 233 a to 233 f, whether or not a standard die meeting these conditions exists is retrieved in the supporting apparatus of the present invention. When the standard die exists, a standard die screen 235 as shown in FIG. 20 is created. Displayed on this standard die screen 235 are a sectional configuration field 235 a showing a sectional configuration of a die attached with numbers specifying parts, and a part name unit price field 235 b displaying the name and the unit price of each part displayed on the sectional configuration field 235 a.
  • Accordingly, by referring to the screen 235, a price for each part in a standard die and a name of the part can be grasped easily. That is, according to the apparatus of the present invention, even when the complicated symbols for specifying the kind of a die is forgotten, it is possible to specify the die and obtain information about the price for each part in the die easily.
  • Incidentally, an error indication is displayed on the screen 231 or 233, when a die which does not exist is specified.
  • Next, functions of a marketing supporting apparatus according to the present embodiment performed when a required product does not exist in standard dies will be explained with reference to FIG. 21 to FIG. 31.
  • Incidentally, in the followings, the commercial article mainly denotes a standard product. When the article is merely called product, it denotes a standard product and a special shape product.
  • In this case, the marketing supporting apparatus according to the present embodiment serves as an automatic designing apparatus.
  • (1) One example where, when a required product is a punching die, it is a punch which is used for punching machining will be explained.
  • When selection and input is performed by clicking a predetermined punch kind from die kinds 237 a on a shape pattern selection screen 37 shown in FIG. 21 (which is merely called “clicked”), a die shape pattern selection screen creating means is actuated, and the die shape pattern selection screen creating means displays a plurality of shapes according to the selected kind on a shape display field 237 c in a linkage manner. Incidentally, in a case of a punching die, the shape pattern to be displayed shows a trimming hole shape formed by the punching die.
  • In FIG. 21, according to selection of a special shape 237 b for performing trimming, corresponding shapes are displayed in a field 237 c. When one pattern among the displayed trimming hole shape patterns is clicked and a selection field 237 d is clicked, die size parameter input screen creating means is actuated. Next, the die size parameter input screen creating means displays a size parameter input screen 241 (FIG. 23) about the selected trimming shape pattern.
  • The product automatic designing apparatus (product parameter setting apparatus) 132 in this embodiment achieves automatic designing by retrieving the database 105. Shape data, material data, and commercial article data which are classified on the basis of shape patterns are stored in a corresponding manner in the database 105. Data of a product group corresponding to the shape patterns is divided to standard product database 151, pattern special shape (non-standard product to which a shape pattern is applicable) database 152, and non-pattern special shape (non-standard product to which a shape pattern is not applicable) database which are then stored in respective memory regions.
  • Incidentally, as shown on the screen 239 (FIG. 22), various patterns, namely, adaptive shapes 239 c, which can obtain a specific shape by performing shape change on the basis of the selected trimming shape pattern in a stage where a predetermined shape pattern has been clicked on the shape pattern selection screen 237. Accordingly, a confirmation can easily be made about which trimming hole shape pattern the required special shape die belongs to.
  • FIG. 23 shows a die size input/output screen 241 for inputting size parameters corresponding to the shape pattern selected on the screen 237.
  • A FIG. 241 b of the selected trimming hole shape pattern is displayed on the screen while size parameters to be input for specifying a shape is displayed on a shape pattern in a corresponding manner. Reference symbols A, B, K, R and S are size parameters required for specifying a trimming hole shape. While referring to the figure display 241 b, required sizes are input into size parameter input field 241 c. Here, when the size parameters are input, the trimming hole shape portion of the figure in the figure display 241 b is changed in shape according to the input parameter values. Also, enlargement or reduction (241 l) or positioning (241 m) of the figure display 241 b can be performed optionally. The displayed figure can be printed (241 n).
  • Also, the size parameters shown about the shape pattern which is the size input screen 241 are registered as a plurality of combinations thereof in advance, and the respective combinations are limited to the minimum number of combinations required for specifying a shape which includes sizes. For this reason, it is made possible to specify the required special shape die by input of the minimum number of parameter according to the size data specified by a customer. As shown in a size input pattern display field 241 a, the first parameter combination among 8 pattern-registered size parameter combinations which have been registered has been displayed in FIG. 23. In order to input size parameters of a different combination, such an operation may be employed that a next size pattern screen is displayed by clicking an ordinary next screen or an entire screen calling field. It is shown in a size input pattern display field 243 b on the size input screen 243 in FIG. 24 that the current pattern is the third size input pattern.
  • Incidentally, data pieces required for specifying die products except for the dies for trimming hole shapes are respectively shown in a commercial article code field 241 e, a holder size field 241 f showing a aperture of a holder supporting a die, and structure fields/material quality fields 241 g to 241 j of a punch or a die. The display contents of these fields include data which has been input in advance on the commercial article selection conditions input screen 233 (FIG. 18).
  • According to the above procedure, a shape including respective size parameters, a commercial article code, structure, material quality, holder size are specified, so that a design about a special shape die which is not included in standard products is completed.
  • Accordingly, a die specification required through a hand-written drawing(s) and the like is selected from trimming shape patterns defined preliminarily, and the selected trimming hole shape pattern is shape-changed by applying specific size parameters thereto, so that a desired trimming hole shape can be specified.
  • (2) A case where a required product is a bending die.
  • Next, an example where a required product is a bending die used for bending machining will be explained. In the case of the bending die, reference shapes of respective standard products are stored as shape patterns, and a die shape meeting a required product specification can be obtained by shifting the selected shape patterns.
  • When a predetermined bending kind is clicked from die kinds 249 a on a bending shape pattern selection screen 249 shown in FIG. 27, die shape pattern selection screen creating means is actuated. The die shape pattern selection screen creating means displays a plurality of shape patterns of bending dies on a shape display field 249 c in an interlocking manner according to the selected kind.
  • In FIG. 27, according to selection of a goose neck shape 249 b, a corresponding shape patterns are displayed in a field 249 c. When one pattern is clicked among the displayed goose neck shape patterns and selection field is clicked, a die size parameter input screen creating means is actuated. Next, the die size parameter input screen creating means displays a size specific input/output screen 251 (FIG. 28) about the selected goose neck shape pattern. Incidentally, on the screen 249 (FIG. 27), various patterns, namely, adaptive shapes 249 e, which can obtain a specific shape by performing shape-change on the basis of the selected goose neck shape pattern in a stage where a predetermined shape pattern 249 d has been clicked on the shape pattern selection screen 249 can be displayed.
  • Accordingly, a confirmation can easily be made about which goose neck shape pattern the required special shape die belongs to. Incidentally, as shown in FIG. 27, in the case of the bending dies, respective shape patterns correspond to specific commercial article codes and catalog numbers on a catalog. Accordingly, a stage where this shape pattern has been selected means that size parameters (including an angle) about a main portion has been specified. In FIG. 27, numeral 453 in the selected shape pattern 249 d displays upper three figures of a catalog number to which the shape pattern belongs.
  • FIG. 28 shows a die shape specifying screen 251 in which size parameters are input according to the shape pattern selected on the screen 249.
  • A figure 251 b of the selected goose neck shape pattern and a divided ear shape are displayed on the screen 251 with size parameter values for specifying the goose neck shape displayed on the shape pattern. An angle at a tip end portion used for bending is shown as 88° which is a predetermined value. Meanwhile, as for a tip end R (roundness of a tip end portion of a bending die), a plurality of selectable parameter values, namely 0.2, 0.6, 0.8, 1,5 and 3.0, are displayed for the shape pattern.
  • While referring to this figure data 251 b, a desired tip end value is input into a tip end R input field 251 c.
  • According to the above procedure, a shape including respective size parameters, a commercial article code, a catalog number, (and a structure, material quality and the like specified by the commercial article code and the catalog number) are specified, so that designing of a standard product and a special shape die which is not covered with standard products are completed.
  • Here, shape change is performed on the goose neck shape of the display 251 a so that a goose neck shape of a special shape can be obtained. In this case, a special mention item field 251 d shown in FIG. 28 is clicked. In response to this click, die shape specifying screen creating means is actuated. The die shape specifying screen creating means displays a special mention item selection screen 253 (FIG. 29). A commercial article code and catalog number 253 a of the selected shape pattern is displayed on the special mention item selection screen 253 together with a corresponding commercial article name 253 a. Special specification items which are applicable to the selected shape pattern are recited on an applicable special mention item field 253 c. In FIG. 29, for example, when a customer specifying mark 253 d is selected, it is copied to an application special mention item field 253 g so that special mention items to be applied can be grasped easily.
  • Also, regarding the selected shape pattern, an additional machining item field 253 e accompanying shape change is displayed on the special mention item selection screen 253. Adjustment or the like of a tip end angle, a tip end R, a special ear shape, a product recess is made selectable using the additional machining item field 253 e. Here, when a tip end angle change 253 f is selected, the die shape specifying screen creating means further displays a tip end angel change screen 255 (FIG. 30).
  • In FIG. 30, the selected goose neck shape pattern is displayed as figure data 255 a while size parameters of portions capable of being additionally machined are shown. The current parameter values of a tip end angle (K) and the tip end R(R) which are changeable size parameter are displayed in a size input field 255 c. A special shape bending die can be designed by replacing the displayed parameter values with desired parameter values. The shape of the figure data 255 a is also changed and displayed in an interlocking manner with the replacement of the parameter values.
  • According to the above procedure, a shape including respective size parameters, a commercial article code, a structure and material quality are specified so that designing of a special bending die which is not covered with standard products is completed.
  • Accordingly, a die specification required through a hand-written figure(s) or the like is selected from predetermined bending shape patterns without consciousness about whether the die is a standard product or it is a special shape product, and size parameters necessary for additional machining are applied to the selected bending shape pattern so that a desired bending shape can be specified by shape-changing the bending shape pattern.
  • Next, functions of the marketing supporting apparatus according to the present embodiment which verifies whether or not a product which has been designed according to the automatic designing apparatus can be machined will be explained with reference to FIG. 21 to FIG. 31.
  • In this case, the marketing supporting apparatus according to this embodiment functions as a machining possibility calculating apparatus.
  • (1) In a case of a punching die, first of all, one example where a punching die has been designed will be explained. The thickness and material quality of a workpiece to be machined are input into the machined material input field 243 d on the above-mentioned input screen, for example, 243 (FIG. 24). As shown in FIG. 25, here, a clearance value 245 f, the clearance being formed between an outer diameter of a punch and an inner diameter of a die, and the total number of shots 245 g are further input, and the machining possibility field 245 b is clicked. Material data input means actuated by this click delivers data of material to be machined to machining verification means according to input of the data of material to be machined.
  • Meanwhile, as shown in FIG. 24, according to input of a commercial article code 243 e of a punch, a holder size 243 f, structure and material quality 243 g to 243 i of a punch/a die, the die data input means delivers this shape data to the machining verification means. Incidentally, as the data pieces shown in 243 e to 243 i, data pieces which have been already input through input into the above-mentioned commercial article condition input screen have been displayed.
  • The machining verification means first performs verification about whether or not the design shape can be machined on the basis of these machined material data and die data. Specifically, the machining possibility means performs this verification by comparing resisting pressure obtained by strength calculation from die data of the selected die (shape data/structure data/material quality data) and machining requiring pressure required for punching workpiece on a specified material which is required from material data (plate thickness and material quality) with each other.
  • The machining verification means checks consistency about whether or not the size parameters applied to the shape pattern constitute a trimming hole shape.
  • In FIG. 25, the results of these verifications is displayed as a message “capable of machining” on a message field 245 c.
  • Accordingly, determination about whether or not the die which has been designed in the automatic designing apparatus is a die which can bear an actual machining can be grasped simultaneously with the design of the die.
  • (2) Case of a Bending Die
  • Next, one example where a bending die has been designed will be explained. The plate thickness 255 f and the material quality 255 g of a workpiece to be machined are input into the machined material input field on, for example, the field 255 of the above-mentioned die shape specifying input screen (FIG. 30). Material data input means actuated by clicking the machining possibility field 255 b delivers data of the material to be machined to the machining verification means according to input of these data pieces of material to be machined.
  • Meanwhile, as shown in FIG. 30, when respective size data, material quality data, structure data and a tip end angle or a tip end R of the shape pattern of the bending have been corrected, the die data input means delivers the die data to the machining verification means according to input of the corrected size data.
  • Also, as shown in FIG. 30, in the case of the bending die, the V width of the die is further input. Since this V width has been registered in advance as a default value, when input of the width is omitted, the default value is used as the V width. The V width data is also delivered to the machining verification means as a part of the die data. The machining verification means performs verification similar to the case (1) of the punching die on the basis of these material data and die data.
  • As shown on a machining possibility verification screen 255 (FIG. 30), the verification result about machining possibility “resisting pressure: 45 ton/m and machining requiring pressure: 51 ton/m (calculation as V width=48 mm) is displayed in the message field 255 j. Simultaneously, an alarm message “resisting pressure lack” is displayed on the message field 255 k to call an operator's attention.
  • Accordingly, a determination about whether or not the bending die which has been designed in the automatic designing apparatus is a die which can bear an actual machining can be grasped by the display of the verification result simultaneously with the designing.
  • Next, functions of the marketing supporting apparatus according to this embodiment which creates estimate information of a product which has been designed by the automatic designing apparatus and has been verified by the machining possibility calculating apparatus will be explained with reference to FIG. 26 to FIG. 34.
  • In this case, the marketing supporting apparatus according to the embodiment functions as an estimate information outputting apparatus.
  • As shown on the parts list screen 247 (FIG. 26), parts relating to a punch to be estimated are displayed on a parts display field 247 a by selection of the shape pattern and input of the size parameters as described in FIG. 22 to FIG. 25 without directly inputting a commercial article code, a catalog number and the like. Purchase unit of the die product which has been designed and verified is displayed on a parts list display field 247 b so as to correspond to the display of parts.
  • When a predetermined purchase unit is selected by clicking on this parts list field 247 b, detail estimate information creating means is actuated. This detail estimate information creating means reflects and displays the commercial article data of the selected die product on an estimate list field 259 c of the estimate detail screen 259 shown in FIG. 32.
  • Like the above, regarding the bending die, as shown on the parts list screen 251 (FIG. 28), when a predetermined purchase unit is selected by clicking on this parts list field 251 b, detail estimate information creating means is actuated. This detail estimate information creating means reflects and displays the commercial article data of the selected die product on an estimate list field 259 c of the estimate detail screen 259 shown in FIG. 32.
  • FIG. 32 is the estimate detail screen 259 in this embodiment. The commercial article data such as a commercial article code of a die product selected from each list, a catalog number, quantity, shape, a commercial product name and the like is displayed on the estimate list field 259 c. When a calculation button 259 m is clicked on the estimate detail screen 259, the estimate of each die product displayed in the list is displayed.
  • Price data and delivery time data about each die product to be estimated can be confirmed on the estimate detail screen 259. For example, it is assumed that, for example, a die product of a catalog number 45302E has been pointed in the second line of the estimate list field 259 c. Regarding the pointed die product, unit cost 259 g, price 259 p, discount rate 259 k, discount amount 2591 and the like are displayed as price data together with a commercial article name 259 f. This discount rate 259 k is a value which has been set in advance for each customer and for each product (each product group). The discount amount 259 l is calculated on the basis of the discount rate 259 k and the product unit cost 259 g, and an estimate amount is displayed as a value obtained by subtracting the discount amount 2591 from the product unit cost 259 g. At this time, it is possible to select application of a variable discount rate set for each customer or application of a fixed discount rate.
  • Simultaneously, a reference delivery time 259 h, a deliverable day 259 i, a customer request delivery day 259 j and the like are displayed as delivery time data. As for the reference delivery time, a value (necessary days) which has been set preliminarily for each product (each product group) is displayed with a specific delivery time code in a corresponding manner.
  • Day obtained by decoding this delivery time code to the number of necessary days to add the same to the current date is displayed on the deliverable day 259 i.
  • When an estimate issue button 259 n is clicked on the detail estimate screen 259, information on the detail estimate screen 259 is output as an estimate 263 of a formal format which can be submitted to a customer (FIG. 34). As shown in FIG. 34, an offered price 263 i to which a total discount amount 263 h applied to the estimated die product is applied can be presented. Incidentally, the estimate can be output not only to a printer connected to the marketing supporting apparatus according to the embodiment but also to a facsimile provided on a place specified by a fax output indication button 261 i (FIG. 33).
  • Accordingly, it is made possible to input a die product to be estimated easily and rapidly by specifying commercial article data from the shape pattern and the size parameters without directly inputting a commercial article code or a catalog number. Incidentally, in this time, it is a matter of course that input contents of the shape and size parameters (shape data) which have been input by the design and verification are stored and corresponding commercial article data can be input in an interlocking manner with the input means for estimate information on the basis of the stored shape data.
  • Also, discount data and delivery time data necessary to present an estimate is stored in advance and the estimate is prepared using these data pieces so that an instant response of a required die product can be performed.
  • Finally, the marketing supporting apparatus according to this embodiment which outputs and transmits order reception information according to the prepared estimate information of a product will be explained.
  • In this case, the marketing supporting apparatus according to the embodiment functions as an order reception information creating apparatus.
  • When a customer indicates his/her intention of purchase on the estimate detail screen 259 shown in FIG. 32 or in response to the output result of this estimate detail information, an order reception decision button 259 o is clicked on the estimate detail screen 259.
  • Order reception information to which an order reception number has been given and which including the contents of the estimate information is prepared by clicking this order reception decision button 259 o. Here, a sales person connects a predetermined portable communication equipment 107 (FIG. 1) to the marketing supporting apparatus according to the embodiment, and he/she online-transmits/reflects the order reception information to a head office database such as order reception database/manufacture database (not shown) or the like through the portable communication equipment 107. The order reception database in the head office is updated by the transmission of the order reception information, and simultaneously a manufacture instruction can be transmitted to a manufacture department having the manufacture database at real time to instruct manufacture start.
  • The manufacture schedule and the delivery schedule about the order-received die product are stored in the manufacture database in the head office. For this reason, the marketing supporting apparatus according to the embodiment can obtain deliverable day as return data to transmission of the order reception information in view of an actual schedule about the order-received die product.
  • After transmission of the order reception information, it is possible to output an order acknowledgment through a printer, a facsimile or the like to provide it to a customer by clicking a predetermined button on the screen in FIG. 32.
  • Meanwhile, in a case that the marketing supporting apparatus according to the embodiment is used off line, after an sales person returns back to a sales branch or the like, he/she may reflect this order reception information to the head office database such as order reception database/manufacture database or the like.
  • Accordingly, it is made possible to decide an order reception rapidly and start manufacture early. That is, the order-received die product can be delivered early.
  • Incidentally, FIG. 35 is an explanatory diagram of an example of a main menu 265 on a portable terminal for a sales person according to the embodiment of the present invention. A series of processings of the above marketing support belongs to a consultant 265 d and an estimate 265 e in a day processing menu 265 b on the main menu. Besides the processings for the above-mentioned sales support, processings necessary for morning, day (daytime), and evening according to a timetable of one day of a sales person, respectively can be timely called from one main menu 265 to be processed.
  • FIG. 36 to FIG. 43 show another embodiment of the machining possibility calculating apparatus.
  • In this case, a bending die is selected on the basis of a workpiece shape. For this reason, as shown in FIG. 36, first, a display 270 a is clicked on a left field on a workpiece selection screen 270. Thereby, selection branches 270 b are displayed on a right field on the screen 270. Here, for example, a workpiece shape 270 c is selected on the basis of an order drawing from a customer. Then, as shown in FIG. 37, a work piece size input screen 272 is displayed on the display apparatus. While referring to a workpiece shape 272 a on a right field, desired numerals are input into a size field 272 b on a left field. At this time, a size guide display 272 c is displayed on the right field in an aspect accompanying the workpiece shape 272 a.
  • Accordingly, input of sizes of the workpiece can easily be performed. Thereafter, for example, a standard die 272 e is selected from a die selection field 272 d.
  • As shown in FIG. 38, an interference state display screen 274 showing an interference state between the workpiece shape 272 and the standard die shape 274 a is displayed. As shown in FIG. 38, when the standard die 274 a interferes with the workpiece, another standard die 274 b is selected from the die selection field 274 displayed simultaneously. Thereby, while referring to the interference between a workpiece and a selected die, an optimal die can be selected easily.
  • When there is no die that does not interfere with the workpiece in standard dies included in the die selection field 272 d, a die 276 a which does not interfere with the workpiece so much is selected from the standard dies of the die selection field 272 d and it is additionally machined (FIG. 39). In this case, as shown in FIG. 39, after the minimum interference die 276 a is selected, an additional machining & resisting pressure calculation field 276 b is clicked. Thereby, as shown in FIG. 40, an additional machining specifying screen 278 is displayed. A position and an amount of additional machining are input in an additional machining specifying field 278 a on this screen 278. Thereby, a locus of an additional machining is displayed on a screen displaying the die 276 a and the workpiece 272 a. Accordingly, according to this apparatus, the position/amount of additional machining can easily be determined while referring to the screen. When input of the position/amount of the additional machining is completed, a calculation about whether a die which has been machined additionally can be used is made simultaneously, and the calculation result is displayed on a left field 278 c on the screen 278. Accordingly, a determination about possibility of the additional machining is made easily.
  • According to the above, when the additional machining is determined to be performed and an amount reference field 278 d is clicked, a price display screen 280 shown in FIG. 41 is displayed. A die price input field 280 a and an additional machining price input field 280 b are included on this price display screen 280. Therefore, according to this apparatus, a price of the final die including the additional machining cost can easily be confirmed.
  • FIG. 42 and FIG. 43 show a case that, when the additional machining is performed on an appropriate standard die 274 a, the die has been made unusable as a result.
  • In this case, when a proper amount of additional machining is input into an additional machining specifying field 282 a of an additional machining specifying screen 282 and an additional machining performing field b is clicked, an additional machining result screen 284 shown in FIG. 43 is displayed. A reason that the die which has been subjected to additional machining is unusable is displayed in an impossible reason display field 284 a on this screen 284.
  • Incidentally, the screens 270, 272, 274, 276, 278, 280, 282, and 284 are respectively created by respective screen creating means for creating each screen.
  • Incidentally, the present invention is not limited to the above embodiments, but it may be modified in various manners without departing from the scope of the present invention.
  • INDUSTRIAL APPLICABILITY
  • As explained above, according to the present invention, the following effects can be attained.
  • That is, functions for retrieving/displaying a product to be proposed are provided through various approaches such as increase profit calculation, a problem solving die or the like from many product groups. For this reason, efficient and various product proposal activities can be employed.
  • Also, the present invention provides functions for storing shape patterns and corresponding size parameters of products relating to product data to perform automatic designing/drawing checking/estimating in an interlocking manner. For this reason, it is made possible to propose an estimate about not only standard products but also special shape products instantaneously without returning back to a head office and perform early order reception/early delivery.
  • In this manner, using the present invention, it is made possible to improve marketing productivity in both stages of commercial article proposal and preparation of estimate and to shorten product delivery time and reduce marketing costs.

Claims (12)

1. A die retrieval apparatus comprising:
a die data input screen creator which creates die data input screens provided with a plurality of fields in which features of a marketing object are input; and
a standard die screen creator which is actuated by inputting data items into respective fields on the die data input screens and which, when a marketing object corresponding to the respective data items exists, creates a standard die screen for displaying a price relating to the marketing object and, when no marketing object corresponding to the respective data items exists, creates an error indication.
2. A die retrieval apparatus according to claim 1, wherein the plurality of fields in which features of a marketing object are input include a field in which a shape of the marketing object is input, a field in which the kind of a machine in which the marketing object can be used is input, fields in which the structure of the marketing object is input, and fields in which the material quality of the marketing object is input.
3. A die retrieval apparatus according to claim 2, wherein a part list name of the marketing object and a price of each part are displayed on the standard die screen.
4. A product parameter setting apparatus comprising:
a marketing object shape selection screen creator which creates shape pattern selection screens for selecting a shape relating to a marketing object to be set with parameters; and
a marketing object size parameter input screen creator which is actuated according to selection and input of a specific shape pattern on the marketing object shape selection screens to create a marketing object size parameter input screen which contains size parameters of predetermined portions about the selected marketing object shape.
5. An apparatus according to claim 4, wherein the shape parameter selection screens includes a field for selecting the kind of the marketing object to be set with parameters and a field for allowing a shape pattern relating to the marketing object to be set with parameters.
6. A product parameter setting apparatus according to claim 5, wherein the marketing object size parameter input screen comprises:
a shape pattern display field which displays the selected marketing object shape pattern and a size parameter input portion necessary for specifying the shape of the marketing object to be set with parameters, and
a size parameter input field which allows input of size parameters of the input portion.
7. A product parameter setting apparatus according to claim 6, further comprising:
a parameter setter which performs parameter setting on marketing object products which are classified on the basis of shape patterns of marketing objects, the parameter setting being performed according to correspondence relationship between the shapes of the marketing objects which have been stored in advance and size parameter groups necessary for specifying the shapes of the marketing objects.
8. A product parameter setting apparatus according to claim 7, wherein the shape pattern is stored so as to correspond to a plurality of size parameter groups necessary for specifying the shape of the marketing object which belongs to the shape pattern, and
the marketing object size parameter input screen includes a size input pattern selection field which allows selection of one size parameter from the plurality of size parameter groups.
9. A product parameter setting apparatus according to claim 7, wherein the shape pattern selection screens further comprises an application shape display field which displays at least one shape sub-patterns included in shape variations of the selected shape pattern.
10. An automatic product designing apparatus, comprising:
a marketing object shape pattern selection screen creator which creates a shape pattern selection screen which allows selection of a trimming hole shape of a marketing object apparatus used for machining of a predetermined kind; and
a marketing object size parameter input screen creator which is actuated according to the selection and input of a specific trimming hole shape pattern on the marketing object shape selection screen to create a marketing object size parameter input screen which allows input of size parameters about the trimming hole shape pattern of the selected marketing object, wherein
the shape pattern selection screen includes at least a field which allows selection of the kind of a marketing object to be designed, and
a field which allows selection of the trimming hole shape pattern of the marketing object to be designed; and
the marketing object size parameter input screen includes at least a shape pattern display field which displays the trimming shape pattern of the selected marketing object and an input portion of size parameters necessary for specifying the trimming hole shape of the marketing object to be designed, and
a size parameter input field which allows input of size parameters of the input field.
11. An automatic product designing apparatus, comprising:
a marketing object shape pattern selection screen creator which creates a shape pattern selection screen which allows selection of a shape of a marketing object used for machining of a predetermined kind; and
a marketing object size parameter input screen creator which is actuated according to the selection and input of a specific shape pattern on the marketing object shape selection screen to create a marketing object size parameter input screen which allows input of size parameters about the shape pattern of the selected marketing object, wherein
the shape pattern selection screen includes at least a field which allows selection of the kind of the marketing object to be designed, and
a field which allows selection of the shape pattern relating to the marketing object to be designed; and
the marketing object size parameter input screen includes at least a shape pattern display field which displays the selected marketing object shape pattern and main size data of the marketing object shape pattern, and
a size parameter input field which allows shift of the selected shape pattern and input of size parameters for specifying a desired shape.
12. A product parameter setting apparatus according to claim 8, wherein the shape pattern selection screens further comprise an application shape display field which displays at least one shape sub-patterns included in shape variations of the selected shape pattern.
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CA2337467A1 (en) 2000-01-27
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US6970754B1 (en) 2005-11-29
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