JP2004206352A - Defect input device, repair input device, defect display device, defective product reporting system, defective product processing system, and programs therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To perform an input with a simple input operation in a defect input device for inputting the defect position and kind of defect recognized by visual inspection of products by enabling the easy visual confirmation of a defect position and a defective part having the defect position on an image even if parts are close to each other or have a complicated form. <P>SOLUTION: The defect input device comprises a means for inputting product information for specifying a product, an image storage means for retaining a position designation image in which a product image consisting of a plurality of element images and having a pointer presence detecting function in its own area is arranged in a prescribed position, a means for reading the position designating image from the image storage means and displaying it on a position designating window, a means for detecting a pointer position designated by input operation in the position designating window and determining it as the defect position, a means for inputting the kind of defect, and a means for storing the defect position, the element position with the detected defect position, and the kind of defect in a predetermined product database in association with a product designated by the product information. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention provides a defect input device for inputting a defect position and a defect type recognized by a visual inspection of a product, and a repair input for inputting a repair performed on a product in which the defect position and the defect type are displayed. Device, defect display device for totalizing the defects of the products to be totaled and displaying the totaling result and defect position, defect totaling result of the product defects input by the defect input device and totaled by the defect totaling device via the wireless network A product defect notification system that transmits to a display device for display, a product defect processing system including a server provided with a defect input device and a product database, a repair input device, and a defect display device connected via a LAN, and And a program for causing a computer to function as these devices and systems.
[0002]
[Prior art]
The center position of each component mounted separately from each other on the printed circuit board is held as the coordinates of the component, and the coordinates designated and input by the user on the image showing the printed board are the coordinates of the components. In comparison, there is known an apparatus that processes a component having the closest coordinates as if the component was instructed and input by the user (= input as a defective component) (see Patent Document 1).
[0003]
[Patent Document 1]
JP-A-2000-131242.
[0004]
The defect location and defective parts of the product entered by the inspection department are attached to the product requiring repair and sent to the repair department to help in repairing, and the occurrence of defects within a certain period is tabulated for each defect type and defective part. There is no known device or system capable of promptly taking countermeasures by sending it to a management department, or a program for causing a computer to function as such a device or system.
[0005]
[Problems to be solved by the invention]
The apparatus disclosed in Patent Document 1 holds the center position of a component as the coordinates of the component, and determines the component to which the point designated as the defective position belongs based on the perspective relationship with the coordinates representing each component. If the parts are close to each other or the parts have complicated shapes, they cannot be adopted.
An object of the present invention is to provide a method for determining a defective position on an image of a product even when the components are close to each other or the component has a complicated shape, such as a product manufactured by assembling various components. An object of the present invention is to enable the user to input the defective position and the defective part to which the defective position belongs by a simple input operation of instructing.
[0006]
Another object of the present invention is to facilitate the work in the repair department by easily recognizing the defective position and the defective part of the product sent to the repair department on the image of the product, and accumulate the repair contents. To improve the production line.
Further, a further object of the present invention is to collect the product defects within a certain period for each defect type and each part and display them on an image of the product, thereby enabling the production management department and the quality assurance department to perform the same. Useful for business.
[0007]
[Means for Solving the Problems]
The present invention is configured, for example, as described in [1] to [58] below.
[1] A defect input device for inputting a defect position and a defect type recognized by a visual inspection of a product,
A product information input means for inputting product information for identifying the product;
Image storage means for holding a position designation image in which a product image composed of a plurality of element images having a pointer presence / absence detection function in its own area is arranged at a predetermined position;
Designation image display means for reading a position designation image from the image storage means and displaying the read image in a position designation window;
Defective position determining means for detecting a pointer position specified by an input operation in the position specifying window, determining the position as a defective position, and determining an element image to which the defective position belongs;
Defect type input means for inputting a defect type;
A defect storage unit that stores the defective position and the element image that has detected the defective position and the defect type in a predetermined product database in association with the product indicated by the product information;
A fault input device comprising:
That is, it is a device arranged in the inspection department.
[0008]
The product information is recorded, for example, as a barcode attached to the product. The product information is information necessary for specifying the product, such as an ID, a model name, and a unique lot number. The product information input means inputs product information by reading a barcode, for example. The input may be either automatic or manual.
[0009]
The product image is an image of only the product to be inspected (an image that does not include a background). For example, an image excluding the background of the front of the product (or “painted”; the same applies to the following), an image excluding the background of the top of the product, an image excluding the background of the side of the product, and a back of the product. The image excluding the background, the image excluding the background photographing the bottom surface of the product, and the like. Further, for example, when the product has a movable part such as an opening / closing door or an opening / closing lid, the image is an image excluding a background obtained by photographing each state before and after the operation of the movable part. For example, if the product is a camera, the image is an image excluding the background photographed with the lens cover opened. If the product is a digital camera, the image is an image excluding a background photographed with the storage door of a battery, a recording medium, or the like opened, and the like. Note that these product images and products are examples, and the present invention is not limited to these product images and products. Further, the product does not need to be a final product, and the product may be a part of a larger product.
The position designation image is an image obtained by adding a background to the product image. The background area is desirably small and solid.
The product image is composed of element images. The element image is, for example, an image of a part of the product. For example, when the product is a camera and the product image is an image excluding the background obtained by photographing the front of the product, the product image is an image (such as a lens, a cab front, and a strobe) of each component disposed on the front of the camera. Element image).
[0010]
The pointer presence / absence detection function is a function of determining whether or not the current coordinates of the pointer are coordinates described by an area description expression that describes an area in the element image. If the current coordinates of the pointer are coordinates described by an area description expression that describes a certain element image area, the current coordinates are detected as being located in the certain element image area. Note that the coordinate designation by the pointer can be performed using a known pointing device such as a mouse or a digitizer.
The area description formula is given by a simple formula when the shape of the element image (for example, “shape of component”) is simple. However, when the shape of the element image becomes complicated, the area description expression also becomes complicated, and in some cases, the area description expression cannot be given. In such a case, the element image may be defined as a combination of a simple figure, for example, a simple figure such as a circle, an ellipse, and a polygon, which can define an area description expression. That is, a simple figure is synthesized by allowing partial overlapping of the areas to create an area having the same outer shape as the target element image, and the area description expression of each graphic area is ORed as the area description expression of the synthesized area. Should be taken.
Further, since a partial area of the target element image is covered by another element image (for example, “another part”), the outer shape of the synthesis area is matched with the outer shape of the target element image only by synthesizing the simple figure. If not obtained, the two element images having the overlap may be formed on different layers, and the layer of the element image located on the front side on the target product image may be arranged on the front side. That is, the priority order may be set to the element images, and the priority order of the element images located on the front side may be set to the high order.
[0011]
The defect types include, for example, a fastening failure, a mounting failure, a mistake, a shaping failure, a bonding failure, a bonding failure, dirt, dust / foreign matter adhesion, damage, a printing failure, a shape failure, a painting failure, an abnormal sound, an operability abnormality, Poor door opening / closing, shipping mistakes, steps, gaps, unusual attachments, foreign matter contamination, lint adhesion, poor sharpness, deformation, paint baldness, paint sheer, rust, mold, etc. It should be noted that these are merely examples, and it is a matter of course that the number can be appropriately increased or decreased according to the model of the product.
The input method of the defect type may be a method of selecting from predetermined candidates or a method of arbitrarily inputting. Further, a method using both of them may be used.
[0012]
In the product database, for example, product information for uniquely identifying the model or lot of the product, the defective position input and specified, the element image in which the coordinates input as the defective position are detected, the input defect type, the defective position, and the like. A defective part (described later; [3] configuration) determined from the element image, an input repair part (described below; [11] configuration), an input viewpoint (described below; [4] configuration), and the like are displayed. It is recorded in association with it.
The product database may be provided in the defect input device, or may be provided in the server device and connected to the defect input device via the LAN.
[0013]
[2] In the above [1],
The defect type input means,
Defect candidate storage means for holding candidates of the defect type;
Failure candidate display means for reading a failure type candidate from the failure candidate storage means and displaying it in a type selection window;
Defect type determining means for determining a candidate of the defect type selected by the input operation in the type selection window as a defect type;
A fault input device comprising:
That is, the defect type is selected and input from the candidates.
[0014]
[3] In the above [1] or [2],
The element image is an image of a part constituting a product,
Further comprising a defective part determining means for determining a part corresponding to the element image having the defective position as a defective part,
The defect storage unit stores the defect position and the element image that has detected the defect position, the defect type, and the defective component in the product database in association with the product indicated by the product information.
A fault input device characterized by the above.
What is necessary is just to have a table for associating element images with parts. When associating an element image with a part on a one-to-one basis, it suffices to treat the element image and the part in the same manner.
[0015]
[4] In the above [3],
The image storage means holds a plurality of position designation images each having a product image having a different viewpoint with respect to a product of the same model,
Further comprising a viewpoint input means for designating a viewpoint of the product,
The designation image display means reads out and displays the position designation image of the viewpoint designated by the viewpoint input means from the image storage means,
The defect storage unit associates the defect position, the element image that detected the defect position, the defect type, and the defective component with the product indicated by the product information and the viewpoint specified by the viewpoint input unit. Storing in the product database;
A fault input device characterized by the above.
Product images with different viewpoints are, for example, images excluding the background photographed from the front of the product, images excluding the background photographed from the top, images excluding the background photographed from the side, and images excluding the background photographed from the back. , One or more images such as an image excluding the background obtained by photographing the bottom surface. Further, when the product has a movable part such as an opening / closing door or an opening / closing lid, an image other than a background obtained by photographing a state before the operation of the movable part has a state during operation and a state after operation. This is an image excluding the background taken.
The image processing apparatus may be configured to have a table in which a certain image is mainly used and one or more other images closely related to the certain image are subordinately associated. With such a configuration, by designating the certain image by the viewpoint input means, one or more images having a subordinate relationship to the certain image are automatically read and displayed as an incidental display. (The configuration of [5] described later).
As a method of additionally displaying, (1) a display method in which a main image is arranged at the center and a subordinate image is arranged around the main image, and (2) a main image is displayed large and a subordinate image is displayed small. Method, (3) a combined method of the above (1) and (2), (4) a method of displaying the main image in full color, and a method of displaying the subsidiary image in monochrome, and (5) displaying the main image first. And various display methods such as a method of displaying images in order according to the switching designation.
[0016]
[5] In the above [4],
The image storage device further includes an image-related information storage unit that holds image-related information that associates a position specification image having a relevance with a viewpoint among the plurality of position specification images held by the image storage unit,
The designation image display means, together with the position designation image of the viewpoint designated by the viewpoint input means, stores a position designation image associated with the position designation image in the image-related information. And display it as an ancillary,
A fault input device characterized by the above.
[0017]
[6] In any one of the above [1] to [5],
Each of the plurality of element images held by the image storage means is composed of one or more graphic elements having a predetermined area description expression capable of detecting the presence or absence of a pointer in the own area. The logical sum of the detection result using the description expression is determined as the presence or absence of the pointer in the element image,
A fault input device characterized by the above.
[0018]
[7] In any one of the above [1] to [6],
Each of the plurality of element images held by the image storage means has a priority, and in an area where the element images overlap in the same position specifying image, the element image having the higher priority is assigned to the product in the position specifying image. Used as a component of an image,
A fault input device characterized by the above.
[0019]
[8] In any one of the above [1] to [8],
Further, a defect output unit that outputs the defective position and the element image that has detected the defective position and the defect type to a predetermined label printer in association with the product indicated by the product information.
A fault input device comprising:
The defect position, the element image in which the defect position was detected, and the information of the defect type may be printed out as a human-readable character image, or may be printed out as a bar code, or both may be printed together. May be output.
[0020]
[9] A repair input device for inputting repairs performed on a product in which a defect position and a defect type are displayed,
A product information input means for inputting product information for identifying the product;
Image storage means for holding a position display image formed by arranging a product image composed of a plurality of element images at a predetermined position,
A product database that holds a defect position and an element image that has detected the defect position and a defect type in association with the product;
Display image display means for reading a position display image from the image storage means and displaying the read image on a position display window;
A defect position associated with the product indicated by the product information and an element image obtained by detecting the defect position from the product database and displayed on a position display image displayed in the position display window Display means;
A defect type display unit that acquires a defect type associated with the product indicated by the product information from the product database and displays the defect type on a type display window;
A repair content input means for inputting repair content;
Repair storage means for storing the repair content in the product database in association with the product indicated by the product information,
A repair input device comprising:
That is, it is a device arranged in the repair department.
[0021]
The product information and the product information input means are the same as those in the above item [1].
The position display image of [9] is the same as the position specification image of [1] except that the element image has a function of indicating a position in the own area. The function of instructing the position of the element image in the own area is the reverse of the function of detecting the pointer position of the element image in the own area, and can be easily analogized.
The input method of the repair contents may be a method of selecting and inputting from among predetermined repair contents candidates, a method of inputting arbitrary repair contents, or a method of using both together.
[0022]
[10] In the above [9],
The repair content input means includes:
Repair candidate storage means holding repair content candidates;
Repair candidate display means for acquiring a repair content candidate from the repair candidate storage means and displaying the same in a content selection window;
Repair content determining means for determining a repair content candidate selected by the input operation in the content selection window as repair content,
A repair input device comprising:
That is, the repair content is selected and input from predetermined candidates.
[0023]
[11] In the above-mentioned [9] or [10],
The element image is an image of a part constituting a product,
Further comprising repair part determination means for determining a part corresponding to the element image having detected the defective position as a repair part,
The repair storage unit stores the repair content and the repair part in the product database in association with a product indicated by the product information.
A repair input device characterized in that:
Since the product database is provided with items as repair parts and recorded, it is possible to quickly classify and search unrepaired products and repaired products among products determined to be defective. .
[0024]
[12] In any one of the above [9] to [11],
The image storage means holds a plurality of position display images in which product images of different viewpoints are arranged for products of the same model,
The product database holds a defect position and an element image that has detected the defect position and a defect type in association with the product and a viewpoint that defines the position display image,
The display image display means reads a position display image defined by a viewpoint associated with a product indicated by the product information from the image storage means and displays the read image on a position display window.
A repair input device characterized in that:
Since the viewpoint has already been described in the section [4], the description is omitted.
The position display image associated with the viewpoint is an image corresponding to the position specifying image to which the defective position has been input. Therefore, since the position display image of the same viewpoint as that at the time of the failure input is displayed, the efficiency of the repair work can be improved.
[0025]
[13] In any one of the above [9] to [12],
Each of the plurality of element images held by the image storage means is composed of one or more graphic elements.
A repair input device characterized in that:
[0026]
[14] In any one of the above [9] to [13],
Each of the plurality of element images held by the image storage means has a priority, and in a region where the element images overlap in the same position display image, an element image having a higher priority is assigned to a product in the position display image. Used as a component of an image,
A repair input device characterized in that:
[0027]
[15] A defect tabulation / display device for tabulating the defects of the products to be tabulated and displaying the tabulation result and the defect position,
Image storage means for holding a position display image formed by arranging a product image composed of a plurality of element images at a predetermined position,
A product database that holds a defect position and an element image that has detected the defect position and a defect type in association with the product;
A defect obtained by acquiring a defect type, a defect position, and an element image that has detected the defect position associated with each product to be tabulated from the product database, and tabulating the defect type and the element image for which the defect position has been detected. Aggregation means,
Aggregation failure display means for displaying the aggregation result by the failure aggregation means in a failure selection window for each defect type and for each element image for which a failure position is detected,
A display failure determining unit that determines, as a display target failure, an element image that has detected a failure type and a failure position selected by an input operation in the failure selection window;
Display image display means for reading a position display image from the image storage means and displaying the read image on a position display window;
A defect position associated with each product to be counted and corresponding to the display target defect is obtained from the product database and displayed on the position display image displayed in the position display window. Defective position display means;
A defect counting and displaying device characterized by having:
That is, the apparatus is arranged in an indirect department such as a quality assurance department or a process management department, or in an assembly process department.
[0028]
The products to be aggregated include, for example, products produced in the last hour, products produced in the morning of the day, products produced in the afternoon of the day, products produced in the day, and products produced in the week. This is set according to the needs of the department in which the defective display device is installed, such as products, products manufactured in the current month, products manufactured in the current period, and the like. Whether or not a product falls under the aggregation target can be determined by referring to the product information given to the product.
As a display method of the tally result by the tally defect display means, for example, a method of numerically displaying the number of each defect type and each element image (component), a method of displaying the number in a graph, and the like are appropriately set. Good. The failure input device of [1] records the failure input time together with the failure in the product database, and based on the input time, determines the failure for each failure type and each element image (part) for each time zone. You may comprise so that it may display by a list and / or a graph.
Further, the defect types are classified according to the level of detail, and according to the setting of the defect display device, a summary of the defects is displayed (= the total number of defects having the same large classification but different minor classifications) or a detailed defect is displayed. (= Display the number of defects for each sub-class).
The display target defect is a defect in which a defect type and an element image (component) are selected and input so that a defect position is displayed on a product image. As a method of displaying a defective position on a product image, for example, a method of displaying a defective position by a point can be cited. In this case, the latest defect may be displayed, for example, with a red dot, and the past defect may be displayed with another color.
[0029]
[16] In the above [15],
The display defect determination unit is configured to select the latest defect among the products associated with each product to be counted until an element image whose defect type and defect position are detected by an input operation in the defect selection window is selected. Determining the element image that has detected the associated defect type and defect position as a display defect,
A defective display device characterized by the above-mentioned.
In this configuration, the latest defective position is displayed as the initial defective position.
[0030]
[17] In the above-mentioned [15] or [16],
The element image is an image of a component constituting a product,
A defective display device characterized by the above-mentioned.
[0031]
[18] In any one of the above [15] to [17],
The image storage means holds a plurality of position display images in which product images of different viewpoints are arranged for products of the same model,
The product database holds a defect position and an element image that has detected the defect position and a defect type in association with a product and a viewpoint that defines a position display image,
The display image display means obtains, from the image storage means, a position display image defined by a viewpoint corresponding to the defect type corresponding to the display defect and the element image for which the defect position is detected, and displays the position. To display in the window,
A defective display device characterized by the above-mentioned.
Since the viewpoint has already been described in the section [4], the description is omitted.
The position display image associated with the viewpoint is an image corresponding to the position specifying image to which the defective position has been input. Therefore, since the position display image of the same viewpoint as that at the time of the defect input is displayed, it is easy to confirm the totaling result.
[0032]
[19] In any one of the above [15] to [18],
Each of the plurality of element images held by the image storage means is composed of one or more graphic elements.
A defective display device characterized by the above-mentioned.
[0033]
[20] In any one of the above [15] to [19],
Each of the plurality of element images held by the image storage means has a priority, and in a region where the element images overlap in the same position display image, an element image having a higher priority is assigned to a product in the position display image. Used as a component of an image,
A defective display device characterized by the above-mentioned.
[0034]
[21] This is a product defect notification system that transmits a total result of product defects input by the defect input device and totaled by the defect totalizing device to the defect display device via a wireless network, and displays the result on the defect display device. hand,
The defect input device includes: a product information input unit for inputting product information for specifying a product; a defect position input unit for inputting a defect position together with an element image to which the defect position belongs; and a defect type. Defect type input means, and a defect storage means for storing the defect position and the element image to which the defect position belongs and the defect type in a predetermined product database in association with the product indicated by the product information,
The defect counting device obtains, from the product database, a defect position associated with each product to be counted, an element image to which the defect position belongs, and a defect type, and for each element image to which the defect position belongs and for each defect type. And a wireless terminal having a function of transmitting and receiving data to and from a wireless network, and transmitting the result of the aggregation by the failure aggregation means to the wireless network with one or more predetermined destinations. Means,
The defective display device has a wireless terminal means having a function of transmitting and receiving data to and from a wireless network, and a display means for displaying a total result received from the wireless network by the wireless terminal means,
A product defect notification system characterized by the following.
This is a system in which the result of counting the defect information is transmitted to a wireless information terminal such as a mobile phone and displayed. Even when the administrator is away from the defect totalizing device having the defect display function, the defect information can be promptly notified.
[0035]
[22] In the above-mentioned [21],
The defect totalizing device includes a threshold storage unit having a threshold for totaling for each of the element images to which the defective position belongs and for each of the defect types with respect to the one or more destinations, and a totaling result exceeding the threshold. Transmission permission / inhibition determining means for permitting transmission to a destination corresponding to the aggregation result exceeding the threshold value,
A product defect notification system characterized by the following.
Depending on the type of defect or the element image (part) in which the defect has occurred, there are those with a high urgency that need to be contacted immediately and those with a less urgent degree. Further, there is a situation that the degree of urgency varies depending on the work of the administrator. Taking these factors into consideration, a threshold is set for each defect type and for each element image (part) to determine whether transmission is possible.
[0036]
[23] In the above-mentioned [21] or [22],
The product database is provided in a server device,
The server device and the defect input device, and the server device and the defect counting device are configured to be able to transmit and receive data via a LAN,
A product defect notification system characterized by the following.
[0037]
[24] In any one of the above [21] to [23],
The defective display device is a mobile phone,
A product defect notification system characterized by the following.
[0038]
[25] A failure input device for inputting failure information of a product and storing it in a product database, a server device provided with the product database, and failure information of a product to be repaired obtained from the server device are displayed. And a repair input device for inputting repair contents, and a fault counting and displaying device for counting and displaying the fault information of the counting target products obtained from the server device so as to be able to transmit and receive data via a LAN. Product defect processing system comprising:
The defect input device inputs a product information input unit for inputting product information for specifying a product, a defect position input unit for inputting a defect position and an element image to which the defect position belongs, and inputs a defect type. Defect type input means for, and a defect storage means for storing the defect position and the element image to which the defect position belongs and the defect type in the product database in association with the product indicated by the product information,
The repair input device includes a product information input unit for inputting product information for specifying a product, and a defect type, a defect position, and an element image to which the defect position stored in association with the product indicated by the product information. Defect information acquiring means for acquiring the defect type, the defective position, and the element image to which the defective position belongs, and repair content input means for inputting repair content. And a repair storage unit that stores the repair content in the product database in association with the product indicated by the product information,
The defect counting and displaying device obtains, from the product database, a defect type, a defect position, and an element image to which the defect position is associated with each product to be tabulated, and obtains, for each defect type, an element to which the defect position belongs. A defect totalizing means for totalizing for each image, and a defect display means for displaying a totaling result by the defect totaling means for each defect type and for each element image to which the defective position belongs;
A product defect processing system characterized by the following.
For example, this is a system in which the device [1], the product database server, the device [9], and the device [15] are connected via a LAN.
In this way, by linking the devices, the inspection results can be used organically, and prompt responses to defects can be made.
[0039]
[26] In the above [25],
The defect position input means of the defect input device,
Image storage means for holding a position designation image in which a product image composed of a plurality of element images having a pointer presence / absence detection function in its own area is arranged at a predetermined position;
Designation image display means for reading a position designation image from the image storage means and displaying the read image in a position designation window;
Defective position determining means for detecting a pointer position specified by an input operation in the position specifying window and determining it as a defective position;
A product defect processing system comprising:
[0040]
[27] In the above-mentioned [25] or [26],
The defect information display means of the repair input device,
Image storage means for holding a position display image formed by arranging a product image composed of a plurality of element images at a predetermined position,
Display image display means for reading a position display image from the image storage means and displaying the read image on a position display window;
Defective position display means for displaying a defective position obtained from the product database on a position display image displayed in the position display window,
Defect type display means for displaying the defect type obtained from the product database in a type display window,
A product defect processing system comprising:
[0041]
[28] In any one of the above [25] to [27],
The failure display means of the failure aggregation and display device,
Image storage means for holding a position display image formed by arranging a product image composed of a plurality of element images at a predetermined position,
Aggregation failure display means for displaying the aggregation result by the failure aggregation means in a failure selection window for each failure type and for each element image to which the failure position belongs;
Display failure determining means for determining, as a display target failure, an element image to which the failure type and the failure position selected by the input operation in the failure selection window belong;
Display image display means for reading a position display image from the image storage means and displaying the read image on a position display window;
A defect that is read from the product database and is displayed on the position display image displayed on the position display window, the defect position being a defect position associated with each product to be counted and corresponding to the display target defect. Position display means;
A product defect processing system comprising:
[0042]
[29] Computer
Product information acquisition means for acquiring product information input from a predetermined input device,
A position designation window is secured on a predetermined display device, and a position designation image obtained by arranging a product image of a model to be inspected composed of a plurality of element images having a pointer presence / absence detection function in its own area at a predetermined position is provided. Designation image display means for reading and displaying from a predetermined image storage means,
Defective position determining means for detecting a pointer position specified in the position specifying window by a predetermined pointing device using the pointer position detecting function and determining the detected position as a defective position;
A defect type obtaining unit for obtaining a defect type input from a predetermined input device,
Defect storage means for storing the defective position and the element image in which the defective position is detected and the defect type in a predetermined product database in association with a specific product indicated by the product information;
Program to function as
[0043]
[30] In the above [29],
The defect type obtaining means,
Defect candidate display means, which is a program for securing a type selection window on a predetermined display device and reading and displaying a candidate for a defect type from the predetermined defect candidate storage means;
Defect type determining means, which is a program for determining a defect type candidate selected in the type selection window by an input from a predetermined input device as a defect type,
A program characterized by having:
[0044]
[31] In the above-mentioned [29] or [30],
The element image is an image of a part constituting a product,
The apparatus further includes a defective part determination unit which is a program for determining a part corresponding to the element image in which the defective position is detected as a defective part,
The defect storage unit stores the defect position and the element image where the defect position is detected, the defect type, and the defective component in the product database in association with a specific product indicated by the product information.
A program characterized by the following.
[0045]
[32] In the above [31],
The predetermined image storage means holds a plurality of position designation images in which product images having different viewpoints are arranged with respect to the inspection target model,
Further comprising viewpoint acquisition means which is a program for acquiring a viewpoint specified by an input from a predetermined input device,
The designation image display means reads and displays the position designation image of the viewpoint acquired by the viewpoint acquisition means from the image storage means,
The defect storage unit stores the defect position and the element image in which the defect position is detected, the defect type and the defective component, a specific product indicated by the product information, and a viewpoint acquired by the viewpoint acquisition unit. Stored in the product database in association with each other;
A program characterized by the following.
[0046]
[33] In the above [32],
The designation image display means reads, from a predetermined image-related information storage means, image-related information that associates a position designation image whose viewpoint has relevance among a plurality of position designation images possessed by the image storage means, Along with the image for specifying the position of the viewpoint acquired by the viewpoint acquisition unit, the image for position designation associated with the image for position designation by the image-related information is read from the image storage unit and is additionally displayed.
A program characterized by the following.
[0047]
[34] In any one of the above [29] to [33],
Each of the plurality of element images held by the image storage means is composed of one or two or more graphic elements having a predetermined area description expression capable of detecting the presence or absence of a pointer in the own area. Is the logical OR of the detection result using the area description expression of each graphic element as the presence or absence of a defective position in the element image,
A program characterized by the following.
[0048]
[35] In any one of the above [29] to [34],
Each of the plurality of element images held by the image storage means has a priority, and the designation image display means and the defective position determination means have a higher priority in an area where the element images overlap in the same position designation image. Is used as a component of the product image in the position designation image,
A program characterized by the following.
[0049]
[36] In any one of the above [29] to [35],
Further, a defect output means, which is a program for outputting the defective position, the element image in which the defective position is detected, and the defect type to a specific label printer in association with a specific product indicated by the product information,
A program characterized by having:
[0050]
[37] Computer
Product information acquisition means for acquiring product information input from a predetermined input device,
A position display window is secured on a predetermined display device, and a position display image obtained by arranging a product image of a model to be inspected composed of a plurality of element images at a predetermined position is read from a predetermined image storage means and displayed. Display image display means,
A defective position display unit that obtains a defective position associated with the specific product indicated by the product information and an element image in which the defective position is detected from a predetermined product database and displays the defective image on the position display image,
Defect type display means for securing a type display window on a predetermined display device, acquiring and displaying a defect type associated with a specific product indicated by the product information from the product database,
Repair content acquisition means for acquiring repair content input from a predetermined input device,
Repair storage means for storing the repair content in the product database in association with a specific product indicated by the product information,
Program to function as
[0051]
[38] In the above [37],
The repair content acquisition means includes:
Repair candidate display means, which is a program for securing a content selection window on a predetermined display device and acquiring and displaying repair content candidates from predetermined repair candidate storage means holding repair content candidates,
Repair content determining means which is a program for determining a repair content candidate selected in the content selection window as repair content by input from a predetermined input device,
A program characterized by having:
[0052]
[39] In the above-mentioned [37] or [38],
The element image is an image of a part constituting a product,
Further comprising repair part determination means which is a program for determining a part corresponding to the element image in which the defective position is detected as a repair part,
The repair storage unit stores the repair content and the repair part in the product database in association with a specific product indicated by the product information.
A program characterized by the following.
[0053]
[40] In any one of the above [37] to [39],
The image storage means holds a plurality of position display images arranged with product images having different viewpoints with respect to the repair target model,
The product database holds a defect position and an element image and a defect type that have detected the defect position in association with a product and a viewpoint that defines a position display image,
The display image display means reads a viewpoint associated with a specific product indicated by the product information from the product database, and reads a position display image defined by the read viewpoint from the image storage means. Display
A program characterized by the following.
[0054]
[41] In any one of the above [37] to [40],
Each of the plurality of element images held by the image storage means is composed of one or more graphic elements.
A program characterized by the following.
[0055]
[42] In any one of the above [37] to [41],
Each of the plurality of element images held by the image storage means has a priority, and the display image display means assigns the element image having a high priority in an area where the element images overlap in the same position display image. Used as a component of the product image in the position display image,
A program characterized by the following.
[0056]
[43] Computer,
A product information acquisition unit for acquiring product information of a product to be counted;
A defect type, a defect position, and an element image in which a defect position is detected associated with each of the acquired product information are acquired from a predetermined product database, and for each defect type and each element image in which a defect position is detected. A means for counting defects
A total defect display unit that secures a defect selection window on a predetermined display device and displays the total result by the defect total unit in a selectable manner for each defect type and for each element image whose defective position is detected;
Display failure determining means for determining an element image in which a failure type and a failure position selected in the failure selection window by an input from a predetermined input device are detected as a display target failure;
A position display window is secured on a predetermined display device, and a position display image obtained by arranging a product image of a target model composed of a plurality of element images at a predetermined position is read from a predetermined image storage means and displayed. Display image display means,
Defective position display means for obtaining, from the product database, defective positions which are defective positions associated with the obtained respective product information and which correspond to the display target defects, and respectively display on the position display image. ,
Program to function as
[0057]
[44] In the above [43],
The display defect determining means is associated with each of the acquired product information until an element image in which a defect type and a defect position are detected is selected in the defect selection window by an input from a predetermined input device. Determining an element image in which a defect type and a defect position associated with the latest defect among the defective defects are detected as a display defect,
A program characterized by the following.
[0058]
[45] In the above [43] or [44],
The element image is an image of a component constituting a product,
A program characterized by the following.
[0059]
[46] In any one of the above [43] to [45],
The image storage means holds a plurality of position display images in which product images having different viewpoints are arranged with respect to the product of the model to be counted.
The product database holds a defect position and an element image in which the defect position is detected and a defect type in association with a product and a viewpoint that defines a position display image,
The display image display means reads, from the product database, a viewpoint associated with the defect type corresponding to the display defect and the element image in which the defect position is detected, and displays a position defined by the read viewpoint. Reading and displaying an image from the image storage means,
A program characterized by the following.
[0060]
[47] In any one of the above [43] to [46],
Each of the plurality of element images held by the image storage means is composed of one or more graphic elements.
A program characterized by the following.
[0061]
[48] In any one of the above [43] to [47],
Each of the plurality of element images held by the image storage means has a priority, and the display image display means assigns the element image having a high priority in an area where the element images overlap in the same position display image. Used as a component of the product image in the position display image,
A program characterized by the following.
[0062]
[49] A reception information storage unit for storing the failure information received from the LAN in a predetermined product database, a failure information reading unit for reading the failure information requested via the LAN from the product database, and the failure information. A program for functioning as defect information transmitting means for transmitting the defect information read by the reading means to the LAN to a request source of the defect information;
A computer of the inspection department, a product information obtaining means for obtaining product information input from a predetermined input device, a plurality of elements having a position designation window on a predetermined display device and having a pointer presence / absence detection function in its own area A designation image display means for reading out and displaying a position designation image formed by arranging a product image of a model to be inspected composed of images at a prescribed position from a prescribed image storage means, and a prescribed pointing device to the position designation window Position acquiring means for acquiring a defect position inputted by the operator and an element image to which the defect position belongs, a defect type acquiring means for acquiring a defect type inputted from a predetermined input device, and a defect acquired by the defect position acquiring means. The position, the element image to which the defective position belongs, and the defect type obtained by the defect type obtaining unit are obtained by the product information obtaining unit. A program for product information failure information transmitting means for transmitting to the LAN as defect information destined the server computer in association with the specific product for instructing to function as a,
The computer of the tabulation department is used to obtain product information of a product to be tabulated, a product information acquisition unit, a defect position associated with each product information acquired by the product information acquisition unit, an element image to which the defect position belongs, and a defect type. Information obtained by requesting the server computer via the LAN to obtain the defect information associated with each piece of product information obtained by the defect information obtaining means for each element image to which the defect position belongs, and Function as defect information totalizing means for totalizing each type, and transmission control means for sending the result totalized by the defect information totaling means to a predetermined wireless network with one or more destinations as total result information And a program for
A computer of the portable wireless terminal device, a tally result obtaining means for obtaining tally result information received from the wireless network, a tally result display for securing a tally result display area on a predetermined display device and displaying the tally result information A program for functioning as a means,
A program with
[0063]
[50] In the above [49],
The computer program of the aggregation section is
For each of the one or two or more destinations, a totaling threshold for each element image to which the defective position belongs and for each of the defect types is obtained from a predetermined threshold storage unit, and a totaling result exceeding the threshold is determined as the threshold. Further comprising transmission permission / inhibition determining means which is a program for permitting transmission to the destination corresponding to the exceeded total result,
A program characterized by the following.
[0064]
[51] Reception information storage means for storing failure information received from the LAN in a predetermined product database, failure information reading means for reading failure information required via the LAN from the product database, and the failure information A program for functioning as defect information transmitting means for transmitting the defect information read by the reading means to the LAN to a request source of the defect information;
A computer of the inspection department, a product information obtaining means for obtaining product information input from a predetermined input device, a defective position input from the predetermined input device and a defective position obtaining means for obtaining a defective part to which the defective position belongs; A defect type acquisition unit for acquiring a defect type input from the input device, a defect position and a defective part acquired by the defect position acquisition unit, and a defect type acquired by the defect type acquisition unit by the product information acquisition unit A program for functioning as defect information transmitting means for transmitting to the LAN as defect information addressed to the server computer in association with a specific product indicated by the specified product information;
The computer of the tallying section is used to obtain a product information obtaining means for obtaining product information of a product to be taught, a LAN, a fault location, a faulty component, and a fault type associated with each product information obtained by the product information obtaining means. Defect information obtaining means for requesting and obtaining the server computer via the server computer, and defect information totalizing means for totalizing defect information associated with each piece of product information obtained by the defect information obtaining means for each component and each defect type A program for functioning as transmission control means for transmitting the result of the aggregation by the failure information aggregation means to a predetermined wireless network with one or more destinations as aggregation result information;
A computer of the portable wireless terminal device, a tally result obtaining means for obtaining tally result information received from the wireless network, a tally result display for securing a tally result display area on a predetermined display device and displaying the tally result information A program for functioning as a means,
A program with
[0065]
[52] In the above [51],
The computer program of the aggregation section is
For each of the one or more destinations, a totaling threshold for each of the defective components and for each of the defect types is obtained from a predetermined threshold storage unit, and a totaling result exceeding the threshold is obtained as a totaling result exceeding the threshold. Further comprising transmission permission / inhibition determining means, which is a program permitting transmission to a destination corresponding to
A program characterized by the following.
[0066]
[53] A reception information storage means for storing a server computer with defect information or repair information received from the LAN in a predetermined product database, a defect information reading means for reading defect information required via the LAN from the product database, A program for functioning as defect information transmitting means for transmitting the defect information read by the defect information reading means to the LAN to a request source of the defect information;
A computer of the inspection department, a product information obtaining means for obtaining product information input from a predetermined input device, a plurality of elements having a position designation window on a predetermined display device and having a pointer presence / absence detection function in its own area A designation image display means for reading out and displaying a position designation image formed by arranging a product image of a model to be inspected composed of images at a prescribed position from a prescribed image storage means, and a prescribed pointing device to the position designation window Position acquiring means for acquiring a defect position inputted by the operator and an element image to which the defect position belongs, a defect type acquiring means for acquiring a defect type inputted from a predetermined input device, and a defect acquired by the defect position acquiring means. The position, the element image to which the defective position belongs, and the defect type obtained by the defect type obtaining unit are obtained by the product information obtaining unit. A program for product information failure information transmitting means for transmitting to the LAN as defect information destined the server computer in association with the specific product for instructing to function as a,
Computer of the repair department, product information acquisition means for acquiring product information input from a predetermined input device, a defect position associated with the product information acquired by the product information acquisition means and an element image to which the defect position belongs A failure information acquisition unit for requesting and acquiring the failure type from the server computer via the LAN, securing a position display window on a predetermined display device, and obtaining a product image of the repair target model including a plurality of element images. Display image display means for reading and displaying a position display image arranged at a predetermined position from a predetermined image storage means, and a defect position for displaying a defect position obtained by the defect information obtaining means on the position display image Display means, a defect type table for securing a type display window on a predetermined display device and displaying the defect type obtained by the defect information obtaining means Means, a repair content acquiring means for acquiring repair content input from a predetermined input device, and associating the repair content acquired by the repair content acquiring means with a specific product indicated by the product information acquired by the product information acquiring means. A program for causing the server computer to function as repair information transmitting means for transmitting the information to the LAN as repair information addressed to the server computer;
The computer of the tabulation / display department, product information acquisition means for acquiring the product information of the product to be tabulated, a defect position associated with each product information acquired by the product information acquisition means and an element image to which the defect position belongs. A failure information acquisition unit for requesting and acquiring a failure type from the server computer via a LAN, and failure information for summing failure information acquired by the failure information acquisition unit for each element image to which a failure position belongs and for each failure type Counting means for securing a position display window on a predetermined display device and reading from a predetermined image storage means a position display image obtained by arranging a product image of a target model composed of a plurality of element images at a predetermined position; The image display means for display and the defect position totalized for each element image and for each defect type by the defect information totalizing means A defect position display means for displaying each defect position of the image and the defect type on the position display image, a type display window secured on a predetermined display device, and the defect information totaling means for each element image and for each defect type A program for functioning as a defect type display means for displaying the defect type totalized in
A program with
[0067]
[54] In the above [53],
The computer program of the tallying / displaying section includes:
A display defect acquiring unit which is a program for acquiring an element image and a defect type selected by a predetermined pointing device in the type display window;
The defect position display means displays each defect position of the element image and the defect type acquired by the display defect acquisition means,
A program characterized by the following.
[0068]
[55] A reception information storage unit for storing a server computer with defect information or repair information received from the LAN in a predetermined product database, a defect information reading unit for reading defect information required via the LAN from the product database, A program for functioning as defect information transmitting means for transmitting the defect information read by the defect information reading means to the LAN to a request source of the defect information;
A computer of the inspection department, a product information obtaining means for obtaining product information input from a predetermined input device, a defect position input from the predetermined input device and a defective position obtaining means for obtaining a defective part to which the defective position belongs; A defect type acquisition unit for acquiring a defect type input from the input device, a defect position and a defective part acquired by the defect position acquisition unit, and a defect type acquired by the defect type acquisition unit by the product information acquisition unit A program for functioning as defect information transmitting means for transmitting to the LAN as defect information addressed to the server computer in association with a specific product indicated by the specified product information;
A computer in the repair department, a product information obtaining means for obtaining product information input from a predetermined input device, a defective position associated with the product information obtained by the product information obtaining means, and a defective component to which the defective position belongs Information acquiring means for requesting and acquiring the server type via the LAN from the server computer, a product image of a repair target model constituted by a plurality of element images by securing a position display window on a predetermined display device Display image display means for reading and displaying a position display image obtained by arranging the image at a predetermined position from a predetermined image storage means, and a defect for displaying the defect position acquired by the defect information acquiring means on the position display image. Position display means, a defect type for securing a type display window on a predetermined display device and displaying the defect type obtained by the defect information obtaining means Indicating means, a repair content acquiring means for acquiring repair content input from a predetermined input device, a repair content acquired by the repair content acquiring means corresponding to a specific product indicated by the product information acquired by the product information acquiring means. A program for functioning as repair information transmitting means for sending the information to the LAN as repair information addressed to the server computer;
The computer of the tallying / displaying section, a product information obtaining means for obtaining the product information of the product to be totalized, a defective position associated with each product information obtained by the product information obtaining means, and a defective part to which the defective position belongs. A failure information acquisition unit for requesting and acquiring a failure type from the server computer via the LAN, and failure information for summing failure information acquired by the failure information acquisition unit for each defective component to which a failure position belongs and for each failure type Counting means secures a position display window on a predetermined display device and reads out from a predetermined image storage means a position display image obtained by arranging a product image of a target model composed of a plurality of element images at a predetermined position. A display image display means for displaying the defective position, a defective position totalized for each defective component and for each defect type by the defect information totalizing means, and a designated portion A defect position display means for displaying each defect position of the defect type on the position display image, a type display window secured on a predetermined display device, and the defect information totalizing means for each defective component and for each defect type. A program for functioning as a defect type display means for displaying the totaled defect type,
A program with
[0069]
[56] In the above [55],
The computer program of the tallying / displaying section includes:
Further comprising a display defect acquisition unit which is a program for acquiring a defective component and a defect type selected by a predetermined pointing device in the type display window,
The defective position display means displays each defective position of the defective component and the defect type acquired by the display defect acquisition means,
A program characterized by the following.
[0070]
[57] In any one of the above [53] to [56],
The computer program of the tallying / displaying section includes:
A computer program in the tabulation department responsible for the tabulation function,
A computer program of a display section that has a display function,
A program comprising:
[0071]
[58] In the above [57],
A program having a tallying function, which is a program of the tallying section computer, constitutes a part of the server computer program.
A program characterized by the following.
[0072]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a configuration of a product failure processing system according to an embodiment, FIG. 2 is a block diagram showing a configuration of a failure input device 10 in FIG. 1, and FIG. 3 is a configuration of a repair input device 20 in FIG. FIG. 4 is a block diagram showing a configuration of the failure totaling and displaying device 30 in FIG. The upper part of FIG. 5 is an explanatory diagram showing the configuration of the product database 41 of the database server 40 in FIG. 1, and the lower left part of FIG. 5 shows the configuration of the element image-area description formula table 164 of the auxiliary storage device 16 in FIG. The lower right of FIG. 5 is an explanatory diagram showing the configuration of the element image-priority table 165 of the auxiliary storage device 16 in FIG. FIG. 6 is an explanatory diagram (upper part) showing a state in which an element image (part image) is composed of a plurality of simple figures, and an explanatory figure (lower part) showing a state in which a product image is composed of a plurality of element images. 17 is a flowchart showing a procedure in the server device 40, FIGS. 18 and 19 are flowcharts showing a procedure in the failure input device 10, and FIGS. 20 and 21 are flowcharts showing a procedure in the repair input device 20. FIGS. 22 and 23 are flowcharts showing the procedure in the defect counting and displaying device 30. FIG. 24 is an explanatory diagram showing the configuration of the image association table 162 of the auxiliary storage device 16 in FIG.
[0073]
As shown in FIG. 1, the product failure processing system according to the present embodiment includes a failure input device 10 for inputting failure information of a product and recording the failure information in a product database 41 (in a database server 40). A provided database server 40, a repair input device 20 for acquiring and displaying defect information of a product to be repaired from the database server 40 and inputting repair details, and a defect information and repair information of each product to be tabulated. .. From the database server 40 to collect and display the failures, and a mobile phone or portable terminal devices 51, 52,... For notifying the administrator of the occurrence of the failure by e-mail or the like. , A system connected so as to be able to transmit and receive data via a LAN and a network.
[0074]
The defect input device 10 is a computer device provided in the inspection department, and one or more defect input devices 10 are connected to appropriate positions according to the scale and specifications of the process.
The defect input device 10 inputs a defect position and an element image (defective component) to which the defect position belongs by indicating a defect position on a product image displayed on the screen using a pointing device such as a mouse. Can be. Further, the defect type can be input by selecting a corresponding defect type candidate from among the defect type candidates displayed on the screen. That is, the defect information (defective position, element image (defective component) to which the defective position belongs, defect type) can be input by a simple operation. The defect information input from the defect input device 10 is recorded in the product database 41 of the database server 40. Thus, it can be used in other departments such as the repair department in which the repair input device 20 is provided and the management department in which the defect counting and displaying device 30 is provided.
[0075]
The repair input device 20 is a computer device provided in a repair department, and an appropriate number of the repair input devices 20 are provided around the inspection process.
The defect information input by the defect input device 10 and recorded in the product database 41 is read from the product database 268 in the device and displayed on the screen. That is, when a product to be repaired is specified by inputting a barcode, a product image having an element image (image of a defective part) to which the defective position of the product belongs is displayed, and the defective position of the product is displayed on the product image. The point is displayed so that the repair person can easily recognize it, and the defect type is also displayed.
[0076]
In the repair input device 20, the repair content can be input by selecting a corresponding candidate from among the repair content candidates displayed on the screen (eg, a defect symptom confirmed by the repair department). In the initial state, a symptom input by the failure input device 10 of the inspection department is displayed, and in response to the confirmation input, the symptom is input as a symptom confirmed by the repair department. If a symptom different from the one entered in the inspection department is found in the repair department, select and enter the candidate from among the repair content (bad symptoms confirmed in the repair department) candidates displayed on the screen It will be. Since the input operation is simple in this way, the trouble of inputting repair contents (defective symptoms confirmed in the repair department) is greatly reduced. It is also possible to enter the contents of the repair in any text. The repair information (repair content, information indicating that the repair has been completed) input by the repair input device 20 is recorded in the product database 41 of the database server 40 in association with the product to be repaired. As a result, use by other departments such as the management department (confirmation of whether or not repaired) can be performed.
[0077]
The defect counting and displaying device 30 is a computer device provided in a direct management department such as manufacturing and assembly, or an indirect management department such as a quality assurance department.
In the defect totalizing and displaying device 30, the defect information input by the defect input device 10 and recorded in the product database 41 and the repair information input by the repair input device 20 and recorded in the product database 41 are stored in the product database. It is read from 41 and totaled. In addition, the counting result is displayed on the screen.
[0078]
That is, when the component / defect type is selected from the menu, the defect position of each defect of the selected component / defect type is displayed as a point so that it can be easily visually recognized on the screen. In addition, the number of defective occurrences of the specified component / defective type is graphically displayed with time as the horizontal axis. For this reason, the administrator can easily grasp the distribution of the defect position of the desired component / defect type and the transition of the occurrence of the defect of the desired component / defect type, and can promptly take appropriate measures. .
[0079]
In the above description, when displaying each defective position, a product image having an image (element image) of a defective component to which the latest defective position belongs is displayed, and the latest defective position is displayed on the product image. Each defective position of the same component / defective type is displayed as a point. That is, in the initial state, each defective position of the same component / defective type as the latest defective is displayed. The same applies to a graph representing the transition of the occurrence of a defect. By selecting a desired component / defective type in the component / defective type selection menu displayed in conjunction with these displays, it is possible to change the respective defect positions of the desired component / defective type and the transition of occurrence as described above. Can be displayed.
[0080]
Hereinafter, the failure input device 10, the repair input device 20, and the failure totaling / display device 30 will be described in this order. Further, the database server 40 will be described as appropriate.
[0081]
(1) Fault input device 10:
As shown in FIG. 2, the defect input device 10 is an input device 12 including a keyboard, a mouse, a barcode reader (not shown), a display device 13 such as a CRT or a liquid crystal monitor, a label printer, and the like. The printer includes a printing device 14, a work main storage device 15 including a RAM, an auxiliary storage device 16 including a hard disk, a control device 11 including a CPU, and a LAN interface 17.
[0082]
The defect input device 10 has product information input means for inputting product information for specifying a product as described in the configuration of [1]. This means is realized by, for example, a barcode reading device, which is an example of the input device 12, and a known function of converting the read barcode into data in a format that can be processed by a computer and inputting the data to a computer. The product information includes, for example, a unique product ID, a model name, a product number (lot number), a manufacturing date, a manufacturing line, and the like, and is attached to each product in a barcode format.
[0083]
Further, the defect input device 10 includes an image storage unit as described in the configuration of [1]. Specific examples of the image storage means include an image association table 162, an image file group 163, an element image-area description expression table 164, an element image-priority table 165, and an element image-part stored in the auxiliary storage device 16. It is an association table 166.
[0084]
The image file group 163 describes the product in various perspectives (e.g., before and after zooming (when the zoom lens is retracted / projected, the same applies hereinafter), front and rear surfaces before and after zooming, before zooming). Right and left sides of each appearance before / after, left and right sides before and after zooming, top surfaces before and after zooming, bottom sides before and after zooming, front inside the lens, battery / recording medium storage unit door open / close , Etc.), and a file group of image data obtained by photographing with a digital camera from each internal front in a state, each internal front in a connection terminal cover opened / closed state, and the like. In the present system, the product is a “camera”, but the present invention is not limited to the case where the product is a “camera”. Further, the product of the present invention is not limited to a final product, and may be a product shipped as a part. Further, the image file is not limited to an image captured by a digital camera, and may be, for example, an illustration. Any image that can express each part of the product in detail may be used.
[0085]
In the image data from the above various viewpoints, images having relevance are associated with each other in consideration of convenience in visual inspection. For example, the external appearance front image before zooming is associated with an external top surface image before zooming, an external right side image before zooming, an external left side image before zooming, and an external bottom surface image before zooming. For this reason, if the external appearance front image before zooming is specified, each of the associated images (the external appearance top image before zooming, the external right side image before zooming, the external left side image before zooming, the external bottom view before zooming) Image) is also read out and displayed accompanying.
[0086]
For example, in FIG. 7, a front view image before zooming, which is a designated image, is displayed in a central display column, and each image box associated with the front view image before zooming is displayed in each of the surrounding display columns. (Top view image before zooming (upper column), right side image before zooming (right column), left side image before zooming (left column), bottom side image before zooming
(Lower column)) are additionally displayed.
[0087]
In FIG. 8, the front view image after zooming, which is the designated image, is displayed in the center display column, and each image box associated with the front view image after zooming is displayed in each of the surrounding display columns. (Top view image after zooming (upper column), right side image after zooming (right column), left side image after zooming (left column), bottom view image after zooming (lower column) This is shown in a state where the image is displayed.
[0088]
Such image association is provided by data held in the image association table 162. As shown in FIG. 24, in the image association table 162, each image file of the upper column display image, the right column display image, the left column display image, the lower column display image or the recording thereof is stored in the image file of the main image or its recording address. The addresses are stored in association with each other, whereby the above-described association is enabled.
[0089]
The defect input device 10 also has a designation image display unit and a defect position determination unit as described in the configuration of [1]. That is, the position specifying image specified by the operation input is read out from the image file 163 and displayed on the screen, and based on the pointer position detected in the position specifying image, the defective position and the element image (defective Parts).
[0090]
Which element image (part) the pointer position detected in the position designation image belongs to should be determined by referring to the data of the element image-area description formula table 164 and the element image-priority table 165. Can be. That is, first, it is determined whether or not the pointer is within the area of a certain element image based on whether or not the coordinates of the pointer are within the range described by the area description expression of the certain element image. be able to. For this determination, the element image-region description expression table 164 is used. Also, as a result of the determination, when the pointer is within the range described by the area description formula of two or more element images, it is determined that the pointer is within the area of the element image having the highest priority among them. For this determination, the element image-priority table 165 is used.
[0091]
Here, a method for determining the presence or absence of a pointer in an element image and a method for determining an element image to which the pointer belongs when a pointer is present in a plurality of element images at the same time will be described.
The product image is composed of a plurality of element images (part images), and each element image is composed of one or more simple figures. Further, the area of each element image is defined as the logical sum of the areas of one or more simple figures constituting the element image. In other words, whether or not the current pointer position is within the area of a certain element image is a matter of determining whether or not the current pointer position is within the area of any simple figure constituting the certain element image. If it is determined that the area is within the area by any one or more simple graphic area description formulas constituting the certain element image, the current pointer position is represented by coordinates within the area of the certain element image. It is said that there is. This relationship is shown in the upper part of FIG. In the illustrated example, since the element image A is a composite image of the graphic a1, the graphic a2, and the graphic a3, the current pointer position is determined by the area description expression of the graphic a1, the area description expression of the graphic a2, and the area description of the graphic a3. If the position is within the area by at least one of the expressions, it is determined that the current pointer position is within the element image A. The table that gives this relationship is the above-described element image-region description expression table 164.
[0092]
When an element image (an image of a part) constituting a product image has an overlapping area, an element image having a higher priority is adopted in the overlapping area. This relationship is shown in the lower part of FIG. In the illustrated example, the product image B is a composite image of the element image P, the element image Q, and the element image R. The priority order between these element images is P>Q> R. Therefore, the element image P is adopted in the overlapping area of the element image P and the element image Q. That is, when the pointer is located in the overlapping area of the element image P and the element image Q, the pointer is determined to be located in the area of the element image Q. Similarly, the element image P is adopted in the overlapping area of the element image P and the element image R, the element image Q is adopted in the overlapping area of the element image Q and the element image R, and the element image P, the element image Q, and the element image R In the overlapping area of, the element image P is adopted. The table that gives this relationship is the element image-priority table 165 described above.
[0093]
Based on the relationship described above (the relationship between the simple figures constituting the same element image and the relationship between different element images partially overlapping), it is determined which element image the current pointer position is in. . In other words, it is determined which part the current pointer position points to.
[0094]
The failure input device 10 also has failure type input means as described in the configuration of [1]. This is because the defect type is read out from the defect type candidate file 161 holding the defect type candidates, displayed on a screen in a predetermined type selection window, and the defect type selected by the operator's input operation in the type selection window. Is a function for determining the candidate of the defect as the defect type.
[0095]
In the present system, the type selection window is an area in which various push buttons for selecting a defect type candidate are displayed. That is, in the present system, when any of the defect type input buttons displayed on the screen in the push button display area is pressed by an operation input of a pointing device such as a mouse, the defect type displayed on the push button is changed. Is entered. Various push buttons exemplified in FIG. 7, FIG. 8, and FIG. 12 are input buttons for the defect type, for example, a fastening failure button, a mounting failure button, a shaping failure button, an adhesion failure button, a printing failure button, and a shape failure. Buttons, abnormal noise buttons, poor paint buttons, and the like. Note that these are merely examples, and it goes without saying that other buttons may be provided. In addition, a one-touch appearance symptom input button is provided as a defect input button so that a defect having a high defect frequency can be input by a simpler operation. For example, push buttons such as a lens lint button, a strobe lint button, a cab back scratch button, a mode switch deformation button, and a flash white dust button. These push buttons are buttons for inputting the defective component together with the defect type.
The failure data file 168 for the current day is a file for storing failure data generated on the current day.
[0096]
The function of the failure input device 10 will be described with reference to the flowcharts of FIGS. 18 and 19 and appropriately referring to the flowchart of FIG.
[0097]
The failure input device 10 accesses the database server 40 when the model is changed or when the power is turned on, copies various files and tables such as the image file group 43, and updates the corresponding files and tables in the device 10 to the latest. Update with information. Note that the repair input device 20 and the defect totalizing / display device 30 also have the same function.
When the bar code is input by the inspector during the operation of the system, the product information corresponding to the input bar code is obtained (S21). That is, information for identifying the product to which the defect information is to be input this time is acquired. Further, a viewpoint input by the examiner using a keyboard, a mouse or the like is acquired (S21). That is, when information for identifying the current product and a viewpoint of a product image to be displayed to input a defective position of the current product are input by the inspector, the input product information and the viewpoint are controlled. The device 11 acquires it. Note that the viewpoint may be set as a default with the appearance front view as a default.
[0098]
Next, a position designation image having a product image of the model specified by the product information acquired in step S21 and corresponding to the viewpoint acquired in step S21, and an image association table 162 associated with the position designation image. The associated position specifying image group is read from each image file (S23). Further, data for detecting the presence or absence of a pointer in each element image constituting each read position designation image is read from the element image-area description expression table 164 and the element image-priority table 165, respectively ( S23).
[0099]
Next, each position designation image read out in step S23 is displayed in each display area (S25). For example, the main image (the image for position specification having the product image of the model specified by the product information acquired in step S21 and corresponding to the viewpoint acquired in step S21) is displayed in the center of the area for the main image. It is displayed in the area (the area where the external front images before and after zooming are displayed in FIGS. 7, 8, and 12). Further, the sub-images (images for position designation associated with the main image by the image association table 162) are respectively associated with the corresponding sub-image areas (in FIG. 7, FIG. 8, FIG. Left and lower).
[0100]
Next, each defect type candidate is read from the defect type candidate file 161 (S27), and displayed in the type selection window so as to be selectable (S29). That is, as an input button of a defect type such as the above-mentioned button of a defective tightening, a button of a defective mounting, a button of a defective shaping, a button of a defective adhesion, a button of a defective print, a defective button of a shape, an abnormal sound button, a defective button of a paint, etc. These are displayed as one-touch appearance symptom input buttons such as a lint button, a strobe lint button, a cab back scratch button, a mode switch deformation button, and a flash white dust button.
[0101]
In step S31, it is checked whether or not the position in the position specifying image has been specified by an input from a mouse or the like.
[0102]
If the position is designated (YES in S31), the position is associated with the current product information acquired in step S21, and is stored as a defective position (XY coordinate data in coordinates on the element image) in the memory (RAM 15). ) (S33). Further, the element image (part image) to which the designated position belongs is determined by the above-described method, and the identification information of the determined element image (part image) is associated with the current product information acquired in step S21. Then, it is stored in the memory 15 as an element image of the defective part (S33).
[0103]
In step S35, it is checked whether any of the push buttons for selecting the defect type has been pressed.
[0104]
When any of the push buttons for selecting the defect type is pressed (YES in S35), the pressed defect type is associated with the current product information acquired in step S21, and is stored as a defect type in the memory. 15 (S37).
[0105]
Next, a confirmation input (OK button (not shown)) for recording data (product information, defective position, identification information of an element image (component image) to which the defective position belongs, defect type) held in the memory 15. Is checked (S41), and if a confirmed input is detected (YES in S41), the data (product information, defective position, element image (component image) to which the defective position belongs) is identified. (Information, defect type) is stored in the memory 15 (YES in S43), the above data is determined and stored in the defect data file 168 for the current day on the hard disk 16, and the data of the file 168 is stored. Is sent to the database server 40 together with the file, and is written in a predetermined directory of the server 40 by the overwriting method (S45). By writing the contents of the bad data file 168 for the current day together with the file to the database server 40 in this manner, even if a communication error occurs during the writing, the entire file can be written again when the communication is restored. It is convenient because there is no need to check for presence.
[0106]
The database server 40 periodically monitors the update state of the predetermined directory in which the defective data file for the current day is written, and if there is an update (YES in S01; FIG. 17), the record for the product is stored in the product database. 41, and the respective data (product information, defective position, identification information of an element image (part image) to which the defective position belongs, defect type, defective component) are recorded in the created record (S03). FIG. 17). The records recorded in the product database 41 are organized into data on the day detected, data on unrepaired data (data that has not yet been repaired among the defective data that has occurred), and data on repaired data. It is recorded in the file for the detected day, the file for the unrepaired part, and the file for the completed part.
[0107]
The defect input device 10 also sets the above data (product information, defect position, identification information of an element image (component image) to which the defect position belongs, defect type, defective component) as defect information for printing, Output to the label printer 14. As a result, the label printer 14 prints out each of the above data on the label in a manner that can be visually recognized by the repairer. This label is affixed to the product by the inspector.
[0108]
(2) Repair input device 20:
As shown in FIG. 3, the repair input device 20 is an input device 22 including a keyboard, a mouse, a barcode reader (not shown), a display device 23 such as a CRT or a liquid crystal monitor, a label printer, and the like. The printer includes a printing device 24, a work main storage device 25 including a RAM, an auxiliary storage device 26 including a hard disk, a control device 21 including a CPU, and a LAN interface 27.
[0109]
The repair input device 20 has product information input means for inputting product information for specifying a product to be repaired as described in the configuration of the above [9]. This is realized by, for example, a barcode reading device that is an example of the input device 22, and a known function of converting the read barcode into data in a format that can be processed by a computer and inputting the data to a computer. Since the product information has been described in the section of (1) the failure input device 10, the description is omitted here.
[0110]
Further, the repair input device 20 has an image storage unit as described in the configuration of the above [9]. Specific examples of the image storage means include an image association table 262, an image file group 263, an element image-area description formula table 264, an element image-priority table 265, and an element image-part stored in the auxiliary storage device 16. It is an association table 266.
[0111]
The image file group 263 describes products in various viewpoints (e.g., front and rear views before and after zooming, rear views before and after zooming, right and left sides before and after zooming, and front and rear views before and after zooming). Left side of exterior, top of each exterior before / after zoom, bottom of each exterior before / after zoom, front inside lens, inside front of battery / recording medium storage unit door open / closed, connection terminal cover open / closed This is a file group of image data obtained by taking a digital camera from each internal front, etc.), and is the same as the image file group 163 described in the section of (1) the defective input device 10.
[0112]
Further, the repair input device 20 has a product database as described in the configuration of the above [9]. In this system, a configuration is adopted in which the database server 40 has a product database.
[0113]
Further, the repair input device 20 includes a display image display unit as described in the configuration of the above [9]. This means that a position display image having a product image of the model specified by the product information input by the product information input means and corresponding to a viewpoint corresponding to the product information input by the product information input means is stored in an image file. 263 is a function for reading out and displaying.
[0114]
For example, when the defect information of the product to be repaired is input from a position designation image (image of the right display area in FIG. 7) photographing the outer right side before zooming, the image is displayed as the position display image of the product. Also, as shown in the center of the left column in FIG. 9, a position display image obtained by photographing the right side of the external appearance before zooming is displayed.
[0115]
If the defect information of the product to be repaired is input from a position designation image (image of the lower display area in FIG. 8) obtained by photographing the bottom surface after zooming, the image is displayed as a position display image of the product. Also, as shown in the center of the left column in FIG. 10, a position display image obtained by photographing the outer bottom surface after zooming is displayed.
[0116]
As described above, in the repair input device 20, the same image as the image in which the defective position of the product is input by the defective input device 10 is displayed as an image for displaying the defective position (position display image).
[0117]
The repair input device 20 also has a defective position display means as described in the configuration of the above [9]. This is a function of acquiring defect information (defective position) corresponding to the product information input by the product information input unit from the product database 41 and displaying the defect information in the position display image displayed by the display image display unit. .
[0118]
For example, as shown in FIG. 7, the defect information of the product to be repaired is converted from a position designation image (an image in the right display area in FIG. 7) obtained by photographing the outer right side before zooming, by a pointer (arrow) in the same figure. If the position is input as the tip position, as shown in the center of the left column in FIG. 9, the position display of the same model and viewpoint as the position specifying image (image in the right display area in FIG. 7) in which the defective position is input is shown. A point indicating a defective position of the product is displayed at a corresponding position in the image.
[0119]
Similarly, as shown in FIG. 8, the defect information of the product to be repaired is converted from a position designation image (image of the lower display area in FIG. 8) obtained by photographing the bottom surface of the outer appearance after zooming, by using a pointer (arrow) in FIG. If the position is input as the tip position, as shown in the center of the left column in FIG. 10, the position of the same model and viewpoint as the position display image (image in the lower display area in FIG. 8) in which the defective position is input At the corresponding position in the display image, a point indicating the defective position of the product is displayed.
[0120]
The repair input device 20 also has a defect type display means as described in the configuration of the above [9]. This is because the defect information (identification information of the element image (defective component) to which the defect position belongs, the defect type) corresponding to the product information input by the product information input means is acquired from the product database 41, and is displayed in a corresponding display column. It is a function to display. For example, FIG. 9 shows a state in which a defective part / defective type of “battery lid coating bald” is displayed in the symptom column. FIG. 10 shows a state in which a defective component / defective type of “cavity bottom damage” is displayed in the symptom column.
[0121]
The repair input device 20 also has repair content input means as described in the configuration of the above [9]. This is a function for inputting a symptom (defective) confirmed by the repair person in the repair section from the confirmation symptom column (see FIGS. 9 and 10). In the initial state, a symptom confirmed by the inspector in the inspection department (a symptom input by the defective input device 10) is displayed, and the symptom is usually transcribed as it is. If the symptom confirmed by the repairer in the repair department is different from the symptom confirmed by the inspector in the inspection department, candidate symptoms are displayed in a pull-down manner in response to a predetermined operation input. The repairer selects and inputs an appropriate symptom from among them. For example, the left column in FIG. 15 shows a state in which candidate symptoms are displayed in a pull-down manner. In addition to the selection input from the pull-down display, the input screen of the repair input device 20 is also provided with a repaired data list display column as shown in FIGS. It is devised so that it can be edited and copied. Note that the product images and symptoms displayed in the repaired data list display columns in FIGS. 9 and 10 are copied from the images for the repaired products. Such a display is used when the same image or the like as the already repaired part is input.
The unrepaired data file 268 is a file in which the entire unrepaired data file of the product database 41 is copied and stored, and is configured to be updated at a predetermined time or periodically.
The repair completion data file 269 is a file for storing defective data for which repair has been completed.
[0122]
The function of the repair input device 20 will be described with reference to the flowcharts of FIGS. 20 and 21 and with appropriate reference to the flowchart of FIG.
[0123]
First, when a repairman performs a barcode input, the repair input device 20 acquires the barcode-inputted product information (S51). That is, information for identifying the product to be repaired this time is acquired. Furthermore, it is searched whether the defect information (defective position, identification information of the element image (defective component) to which the defective position belongs, defect type, defective component) corresponding to the acquired product information is not present in the unrepaired data file 268, If found, the failure information is read. If not found, the database server 40 is accessed via the LAN to read the unrepaired data of the product database 41 for each file, and overwrites the unrepaired data file 268 (S51). .
[0124]
Next, it has a product image of the model specified by the product information acquired in step S51 and corresponds to the viewpoint acquired in step S51 (the viewpoint may be set to default information (an image having a high defect occurrence rate)). The position display image to be read is read from the image file 263 (S53), and is displayed in the position display window (the image display area at the center of each left column in FIGS. 9, 10, and 13) (S55). The acquired defective position is displayed in the position display image.
[0125]
In addition, the defective component and the defect type acquired in step S51 are displayed in the symptom column in the automatic input / selection input column (the upper right area in each of FIGS. 10, 11, and 13) (S59). That is, the symptom input in the inspection department is initially displayed as the confirmation symptom (defective) input in the repair department.
[0126]
Next, a repair content candidate corresponding to the model / viewpoint specified by the product information acquired in step S51 is read out from the repair content candidate file 261 and held, and in response to a predetermined operation input, the left column in FIG. The pull-down display is selectable (S61). Further, a list display column of the repaired data is displayed (S63).
[0127]
When a repair content candidate is selected from the pull-down display in the left column in FIG. 15 (YES in S65), the selected repair content candidate is stored in the memory as repair content in association with the product information. (S67). If the above pull-down display is not performed, or if it is not selected from the above pull-down display, the symptom entered in the inspection department and initially displayed in the confirmation symptom column is regarded as the confirmation input symptom in the repair department. The information is stored in the memory in association with the product information (S67).
[0128]
When the text of the repair content is input or when an image indicating the repair location is input (YES in S69), the text (image) is used as an optional repair content in association with the product information in the memory (RAM 25). ) (S71).
[0129]
Next, data input from the repair input device 20 and held in the memory 25 (repair contents (confirmation or symptom confirmed or selected), arbitrary input repair contents, arbitrary input images, repair personnel, etc. It is checked whether there is a definite input (such as pressing an OK button (not shown)) for recording bibliographic information) (S73). If the definite input is detected (YES in S73), the essential data in the above data is checked. On condition that the contents of the repair (confirmed or selected repair (symptoms) and the bibliographic information of the person in charge of repair, etc.) are held in the memory 25 (YES in S75), the above-mentioned data are determined and the hard disk 26 is repaired. The completion data is stored in the data file 269, and the data of the file 268 is sent to the database server 40 together with the file. Written (S77).
[0130]
The database server 40 periodically monitors the update state of the predetermined directory, and when the data for the repair completion is updated (YES in S05; FIG. 17), the data of the record specified by the product information is updated. The corresponding item is recorded (S07; FIG. 17).
[0131]
(3) Defect tallying / display device 30:
As shown in FIG. 4, the defect counting and displaying device 30 includes an input device 32 including a keyboard and a mouse, a display device 33 such as a CRT or a liquid crystal monitor, a printing device 34, and a work device including a RAM and the like. , A main storage device 35, an auxiliary storage device 36 including a hard disk, a control device 31 including a CPU, and a LAN interface 37.
[0132]
The defect totalization / display input device 30 has an image storage unit as described in the configuration of the above [15]. A specific example of the image storage means is an image file group 363 stored in the auxiliary storage device 36.
[0133]
The image file group 363 describes the product in various viewpoints (e.g., front / rear front appearances, front / rear front rear views, front / rear outer right side faces, and front / rear zoom front / rear sides). Left side of the exterior, top of each exterior before and after zooming, bottom of each exterior before and after zooming, front inside the lens, inside front of the battery / recording medium storage unit door open / closed, connection terminal cover open / closed A file group of image data obtained by photographing with a digital camera from each internal front, etc.). The image file group 163 described in the section of (1) the failure input device 10 and the (2) repair input device 20 This is the same as the image file group 263 described in the section.
[0134]
Further, the defect totalization / display input device 30 has a product database as described in the configuration of the above [15]. In this system, the product database 41 of the database server 40 is copied and stored in its entirety, and includes a data file 364 for the day of detection, an unrepaired data file 365, and a data file for completed repair 366. To update each file by accessing the file.
[0135]
Further, the defect totalization / display input device 30 includes a defect totalization unit and a totalization defect display unit as described in the configuration of [15]. In these, the failure information acquired from the product database 41 is totaled for each defective part (element image to which the defective position belongs) and for each defect type within a predetermined period (eg, the current day), and the totaling result is calculated for each defective part. This is a function for displaying in the defect selection window for each defect type.
[0136]
Further, the defect totalization / display input device 30 has a display defect determination unit as described in the configuration of [15]. This is a function to determine which of the defective components / defective types is to be the target of the defect position display among the tabulated results totaled for each defective component / defective type by the defect totalizing means. In the initial state, the defect position of the latest defect and each defect position of the defect whose defective component and defect type are the same as the latest defect are respectively determined as the defect position display targets.
[0137]
Further, the defect totalization / display input device 30 has a display image display means as described in the configuration of the above [15]. This is a function of reading and displaying from the image file 363 a position display image capable of displaying the position of each defective component (element image) / defective type determined by the display defect determining means.
[0138]
Further, the defect totalization / display input device 30 has a defect position display means as described in the configuration of [15]. This is a function of displaying the defect position of each defect of the defective component (element image) and the defect type determined by the display defect determination unit in the position display image displayed by the display image display unit.
[0139]
For example, FIG. 11 shows an example of a screen on the defect totaling and displaying device 30 for simultaneously displaying the totaling results for three inspection lines. In the middle column on the left side of the figure, a position display image of the right side of the external appearance before zooming shows three defective portions of the component / defect type (battery lid coating baldness) displayed in the image. It is shown. Also, in the middle section of the middle column in the figure, four defective portions of the component / defective type (damage to the bottom of the mold) displayed in the position display image of the bottom surface after zooming are displayed. It is shown. Also, in the middle column on the right side of the figure, in the position display image of the external bottom surface of another model, two defective locations of the component / defective type (case bottom dent) displayed in the image are displayed. The situation is shown. In each case, the latest defective portion and the previous defective portion are displayed in different colors (the latest is indicated by “●” and the others are indicated by “○”).
[0140]
Hereinafter, the function of the defect counting and displaying device 30 will be described with reference to the flowcharts of FIGS. 22 and 23 and with appropriate reference to the flowchart of FIG.
[0141]
First, the presence / absence of a change in the record data of the product database 41 is checked by accessing the database server 40 (S81). This check is performed every predetermined time. Further, the fluctuation means creation of a new record corresponding to the input of the defect information in the inspection section (see S03 in FIG. 17) and recording of the repair item corresponding to the input of the repair information in the repair section (FIG. 17). -See S07).
[0142]
As a result of the inquiry, if there is a change (YES in S83), information (product ID) for specifying the product related to the change and information associated with the information (product ID) are stored for each file. The acquired file is overwritten on the existing file and held (S85). If the information to be acquired is a change due to the fact that the defect information is input by the defect input device 10 and a new record is created (in the case of S03 in FIG. 17), all of the input defect information is used. is there. In the case of a change due to the repair information being recorded in the repair information item of the existing record (FIG. 17, S07), the repair information is the recorded repair information.
[0143]
In step S87, the presence or absence of a change in the tallying target (tallying period or the like) is checked. For example, (a) when the setting is made to reset the tally every half day, the tally is reset at a time when the half day elapses (eg, noon), and a new tally is started. (B) When a totaling period is designated by specifying the totalizing period from the input device 32, the totaling for the designated period is performed.
[0144]
If there is a change in the tallying target (tallying period or the like) (YES in S89), the tallying target is changed in accordance with the change (S91), and the changed tallying target is changed for each defective component and each defect type. (S93). For example, in the case of the above (a), the determination in step S89 is YES at noon. In the case of (b) above, the determination in step S89 is YES when the input is made from the input device 32.
[0145]
In step S95, it is checked whether or not the frequency of occurrence of defects is high enough to notify the administrator. That is, the totaling result for each element image (defective component) to which the defective position belongs and for each defect type is compared with a predetermined threshold.
Here, the predetermined threshold is set for each of the element images (defective parts) to which the defective position belongs and for each of the defect types, and (b) for each of the managers to be notified. .
The reasons are as follows: (a) There are parts and defect types that should be dealt with immediately when a defect occurs, and there are parts and defect types that can be dealt with even when the defect occurrence frequency increases to some extent. (B) Some managers (for example, field managers) should take immediate action when the frequency of occurrence of a defect increases even slightly, and some managers should take action when the frequency of occurrence of a defect increases to some extent.
[0146]
As a result of the comparison in step S95, when the frequency of occurrence of a certain part / defective type exceeds a predetermined threshold value of a certain administrator (YES in S97), the counting result is transmitted by e-mail, automatic voice notification, or the like. Is sent to the wireless network addressed to the administrator of the notification destination set in the transmission destination table 362 (S99). As a result, the totaling result is displayed or notified by an automatic voice to the mobile phone of the administrator. Therefore, even when the administrator is away from the defect totalizing / generating device 30, the administrator can quickly know the defect that needs to be dealt with.
[0147]
In step S101, candidates for display target defects are displayed in a defect selection window so as to be selectable. For example, in each upper row of the left column, the center column, and the right column in FIG. 11, the number of occurrences and the frequency, which are the totaling results for each component and each defect type, are displayed so as to be selectable as display target defects. The situation is shown. In this system, when the operator selects a certain candidate from among these candidates by an input operation (S103), the selected candidate is determined as a display target defect (S105). If no selection is made by the operator, the latest component / defective type is determined as a display target defect (S103, S105).
[0148]
In step S107, each defective position of the component / defective type determined as a display target defect is displayed as a point on the position display image.
In the initial state, since the same component / defective type as the component / defective type of the latest defect has been determined as a display target defect, a position display image for displaying the defective component / defective type is read out. Then, each defective position of the component / defective type is displayed on the position display image.
[0149]
Further, when the operator selects a defective component / defective type, the selected component / defective type is determined as a display target defect, and thus a position for displaying the defective position of the component / defective type is determined. The display image is read, and each defective position of the component / defective type is displayed on the position display image.
[0150]
For example, in the middle part of the left column in FIG. 11, the latest component “part / defect type” is “battery cover paint bald”, and in the initial state, the “part / defect type” of “battery cover paint bald” is displayed. Since the defect is determined to be defective, a state in which the defect position of each defect having the defect information of “battery coating paint bald” is displayed is shown. Among the defective positions shown in the figure, the defective position indicated by ● is the defective position of the latest defect, and the defective position indicated by ○ is the defective position of the past (past in the counting target period).
[0151]
Now, if the operator selects the “part / defect type” of “cabin-back paint bald” in the upper left column (defect selection window) in FIG. Type is determined to be a display target defect, and the position display image in the middle section in the left column in FIG. 11 is switched to an image of a viewpoint that can display the “part / defect type” of “cabin-back paint bald”, and is switched. The defect position of each defect having the defect information of "cabinet paint bald" is displayed on the image.
[0152]
As described above, in the defect totalizing and displaying device 30, the defect position of each defect having the defect information of the "parts / defect type" selected by the operator is displayed as a point on the position display image of an appropriate viewpoint. Therefore, the administrator can visually recognize the degree of occurrence of the same type of defect and the degree of concentration of the occurrence location, and can easily grasp the state of occurrence of the defect. Therefore, prompt response can be taken.
[0153]
Further, as shown in the lower part of each of the left column, the center column, and the right column in FIG. 11, the failure totaling / generating device 30 shows a time transition of the failure occurrence status as a graph. Of the two types of graphs shown in the drawing, the histogram is a graph showing the number of occurrences of “part / defective type” failures determined as display target failures over time. The curve graph is a graph showing the frequency of occurrence of all the defects with time. The administrator can easily grasp the transition of the failure occurrence status from these graphs. For this reason, appropriate measures can be taken.
[0154]
【The invention's effect】
The invention of the above [1] is a defect input device for inputting a defect position and a defect type recognized by a visual inspection of a product, and an input means for inputting product information for specifying a product, and Image storage means for holding a position designation image formed by arranging a product image composed of a plurality of element images having a pointer position detection function at a predetermined position, and reading the position designation image from the image storage means Means for displaying the position in the position designation window, detecting the pointer position designated by an input operation in the position designation window and determining the position as a defect position, means for inputting a defect type, Means for storing the element image in which the defective position is detected and the defect type in a predetermined product database in association with the product indicated by the product information. By a simple input operation that refers to the location on the image of the product, it is possible to enter the defective position and parts.
The invention [29] has an effect that allows a computer to function as the above device.
[0155]
The invention of the aforementioned [9] is a repair input device for inputting a repair performed on a product in which a defect position and a defect type are displayed, and means for inputting product information for specifying the product. Image storage means for holding a position display image formed by arranging a product image composed of a plurality of element images having a function of designating a position in the own area at a predetermined position, and detecting a defective position and a defective position A product database that holds the obtained element image and the defect type in association with the product, a unit that reads a position display image from the image storage unit and displays it in a position display window, and a product that the product information indicates. Means for acquiring the associated defective position and the element image in which the defective position is detected from the product database and displaying it on the position display image displayed in the position display window; Means for acquiring the defect type associated with the product indicated by the information from the product database and displaying it on the type display window; repair content input means for inputting repair content; and And means for storing the product in the product database in association with the product specified by the user, so that the defect position of the product can be visually recognized on the image of the product and the type of the defect can be known. For this reason, it is easy to grasp the location of the defect and the type of the defect, and it is possible to perform an appropriate repair and input the content.
The invention [37] has an effect that allows a computer to function as the above-described device.
[0156]
The invention of the above [15] is a defect display device for totalizing defects of products to be totalized and displaying a totaled result and a defective position. Image storage means for holding a position display image formed by arranging product images at predetermined positions, and storing a defective position, an element image detecting the defective position, and a defect type in association with the product. From the product database, and the element images obtained by detecting the defect type, the defect position, and the defect position associated with each product to be counted from the product database. Means for summing up each time, means for displaying the summation result in a defect selection window for each defect type and for each element image for which a defect position is detected, and means for selecting by an input operation in the defect selection window. Means for determining an element image for which the detected defect type and position have been detected as a display target defect, means for reading a position display image from the image storage means and displaying the image in a position display window, and associating each of the products to be counted. Means for acquiring a defect position corresponding to the display target defect from the product database and displaying the defective position on the position display image displayed in the position display window, With respect to the defect type and the element image (part) selected by the input operation, each defect position within the aggregation target period can be easily visually recognized on the product image.
The invention [43] has an effect that allows a computer to function as the above device.
[0157]
According to the invention [21], the defect input device inputs the result on the product image, transmits the total result of the product defects totaled by the defect totalizing device to the defect display device via a wireless network, and displays the defect display. Since the system is a product defect notification system that displays on a device, even if a manager is away from a defect totalizing device having a defect display function, defect information can be promptly notified.
The inventions [49] and [51] have an effect that allows a computer to function as the above system.
[0158]
In the invention of the item [25], a failure input device for inputting failure information of a product on a product image and storing the failure information in a product database, a server device provided with the product database, and acquired from the server device A repair input device for displaying the defect information of the product to be repaired on the product image and inputting the details of the repair, and a defect display for summarizing the defect information of the product to be totaled obtained from the server device and displaying it on the product image. Since this is a product defect processing system that is connected to the device via a LAN so that data can be transmitted and received, defect information of inspection results can be easily used in each department, and prompt responses to defects are possible. Become.
The inventions [53] and [55] have an effect that allows a computer to function as the above system.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a product defect processing system according to an embodiment.
FIG. 2 is a block diagram showing a configuration of a failure input device 10 in FIG.
FIG. 3 is a block diagram showing a configuration of a repair input device 20 in FIG. 1;
FIG. 4 is a block diagram showing a configuration of a failure totaling / apparatus in FIG. 1;
5 is an explanatory diagram showing the configuration of the product database 41 of the database server 40 in FIG. 1, the lower left is an explanatory diagram showing the configuration of the element image-area description formula table 164 in FIG. 2, and the lower right is FIG. 9 is an explanatory diagram showing a configuration of an element image-priority table 165.
FIG. 6 is an explanatory diagram (upper part) showing a state in which an element image is composed of a plurality of simple figures, and an explanatory figure (lower part) showing a state in which a product image is composed of a plurality of element images.
FIG. 7 is an explanatory diagram of a defect information input screen.
FIG. 8 is an explanatory diagram of a defect information input screen. FIG. 7 shows a case where a position designation image having a different viewpoint is selected and displayed.
FIG. 9 is an explanatory diagram of a repair information input screen. 8 shows a case where a product for which defect information has been input on the screen of FIG. 7 is repaired.
FIG. 10 is an explanatory diagram of a repair information input screen. FIG. 9 illustrates a case where a product for which defect information has been input on the screen of FIG. 8 is repaired.
FIG. 11 is an explanatory diagram of a defect totalization / display screen.
FIG. 12 is an explanatory diagram showing a specific example of a defect information input screen.
FIG. 13 is an explanatory diagram showing a specific example of a repair information screen.
FIG. 14 is a detailed explanatory diagram of an automatic input / selection input field in FIG. 13;
FIG. 15 is a detailed explanatory diagram of a main part of FIG. 14;
FIG. 16 is an explanatory diagram showing a specific example of a defect totalization / display screen.
FIG. 17 is a flowchart showing a procedure in the database server 40.
FIG. 18 is a part of a flowchart showing a procedure in the failure input device 10;
FIG. 19 is the remainder of the flowchart showing the procedure in the failure input device 10.
FIG. 20 is a part of a flowchart showing a procedure in the repair input device 20;
FIG. 21 is the remaining part of the flowchart showing the procedure in the repair input device 20.
FIG. 22 is a part of a flowchart showing a procedure in the failure totaling and displaying device 30;
FIG. 23 is the remaining part of the flowchart showing the procedure in the failure totaling and displaying device 30.
FIG. 24 is an explanatory diagram illustrating the configuration of an image association table 162 in FIG. 2;
[Explanation of symbols]
10 Defective input device
20 Repair input device
30 Defect tallying / display device
40 Database server
41 Product Database
42, 162, 262 Image association table
43, 163, 263, 363 image file group
44, 164, 264 element image-area description type table
45, 165, 265 element image-priority table
46, 166, 266 Element image-component association table
47, 161 defect type candidate file
48,261 Repair content candidate file
50 networks (including LAN, wireless LAN, Internet)
51-54 mobile phone

Claims (35)

A defect input device for inputting a defect position and a defect type recognized by a visual inspection of a product,
A product information input means for inputting product information for identifying the product;
Image storage means for holding a position designation image in which a product image composed of a plurality of element images having a pointer presence / absence detection function in its own area is arranged at a predetermined position;
Designation image display means for reading a position designation image from the image storage means and displaying the read image in a position designation window;
Defective position determining means for detecting a pointer position specified by an input operation in the position specifying window, determining the position as a defective position, and determining an element image to which the defective position belongs;
Defect type input means for inputting a defect type;
A defect storage unit that stores the defective position and the element image that has detected the defective position and the defect type in a predetermined product database in association with the product indicated by the product information;
A fault input device comprising: In claim 1,
The defect type input means,
Defect candidate storage means for holding candidates of the defect type;
Failure candidate display means for reading a failure type candidate from the failure candidate storage means and displaying it in a type selection window;
Defect type determining means for determining a candidate of the defect type selected by the input operation in the type selection window as a defect type;
A fault input device comprising: In claim 1 or claim 2,
The element image is an image of a part constituting a product,
Further comprising a defective part determining means for determining a part corresponding to the element image having the defective position as a defective part,
The defect storage unit stores the defect position and the element image that has detected the defect position, the defect type, and the defective component in the product database in association with the product indicated by the product information.
A fault input device characterized by the above. In claim 3,
The image storage means holds a plurality of position designation images each having a product image having a different viewpoint with respect to a product of the same model,
Further comprising a viewpoint input means for designating a viewpoint of the product,
The designation image display means reads out and displays the position designation image of the viewpoint designated by the viewpoint input means from the image storage means,
The defect storage unit associates the defect position, the element image that detected the defect position, the defect type, and the defective component with the product indicated by the product information and the viewpoint specified by the viewpoint input unit. Storing in the product database;
A fault input device characterized by the above. In claim 4,
The image storage device further includes an image-related information storage unit that holds image-related information that associates a position specification image having a relevance with a viewpoint among the plurality of position specification images held by the image storage unit,
The designation image display means, together with the position designation image of the viewpoint designated by the viewpoint input means, stores a position designation image associated with the position designation image in the image-related information. And display it as an ancillary,
A fault input device characterized by the above. In any one of claims 1 to 5,
Each of the plurality of element images held by the image storage means is composed of one or more graphic elements having a predetermined area description expression capable of detecting the presence or absence of a pointer in the own area. The logical sum of the detection result using the description expression is determined as the presence or absence of the pointer in the element image,
A fault input device characterized by the above. In any one of claims 1 to 6,
Each of the plurality of element images held by the image storage means has a priority, and in an area where the element images overlap in the same position specifying image, the element image having the higher priority is assigned to the product in the position specifying image. Used as a component of an image,
A fault input device characterized by the above. In any one of claims 1 to 7,
Further, a defect output unit that outputs the defective position and the element image that has detected the defective position and the defect type to a predetermined label printer in association with the product indicated by the product information.
A fault input device comprising: A repair input device for inputting repairs performed on a product in which a defect position and a defect type are displayed,
A product information input means for inputting product information for identifying the product;
Image storage means for holding a position display image formed by arranging a product image composed of a plurality of element images at a predetermined position,
A product database that holds a defect position and an element image that has detected the defect position and a defect type in association with the product;
Display image display means for reading a position display image from the image storage means and displaying the read image on a position display window;
A defect position associated with the product indicated by the product information and an element image obtained by detecting the defect position from the product database and displayed on a position display image displayed in the position display window Display means;
A defect type display unit that acquires a defect type associated with the product indicated by the product information from the product database and displays the defect type on a type display window;
A repair content input means for inputting repair content;
Repair storage means for storing the repair content in the product database in association with the product indicated by the product information,
A repair input device comprising: In claim 9,
The repair content input means includes:
Repair candidate storage means holding repair content candidates;
Repair candidate display means for acquiring a repair content candidate from the repair candidate storage means and displaying the same in a content selection window;
Repair content determining means for determining a repair content candidate selected by the input operation in the content selection window as repair content,
A repair input device comprising: In claim 9 or claim 10,
The element image is an image of a part constituting a product,
Further comprising repair part determination means for determining a part corresponding to the element image having detected the defective position as a repair part,
The repair storage unit stores the repair content and the repair part in the product database in association with a product indicated by the product information.
A repair input device characterized in that: In any one of claims 9 to 11,
The image storage means holds a plurality of position display images in which product images of different viewpoints are arranged for products of the same model,
The product database holds a defect position and an element image that has detected the defect position and a defect type in association with the product and a viewpoint that defines the position display image,
The display image display means reads a position display image defined by a viewpoint associated with a product indicated by the product information from the image storage means and displays the read image on a position display window.
A repair input device characterized in that: In any one of claims 9 to 12,
Each of the plurality of element images held by the image storage means is composed of one or more graphic elements.
A repair input device characterized in that: In any one of claims 9 to 13,
Each of the plurality of element images held by the image storage means has a priority, and in a region where the element images overlap in the same position display image, an element image having a higher priority is assigned to a product in the position display image. Used as a component of an image,
A repair input device characterized in that: A defect totaling / display device for totalizing defects of a product to be totaled and displaying a totaled result and a defective position,
Image storage means for holding a position display image formed by arranging a product image composed of a plurality of element images at a predetermined position,
A product database that holds a defect position and an element image that has detected the defect position and a defect type in association with the product;
A defect obtained by acquiring a defect type, a defect position, and an element image that has detected the defect position associated with each product to be tabulated from the product database, and tabulating the defect type and the element image for which the defect position has been detected. Aggregation means,
Aggregation failure display means for displaying the aggregation result by the failure aggregation means in a failure selection window for each defect type and for each element image for which a failure position is detected,
A display failure determining unit that determines, as a display target failure, an element image that has detected a failure type and a failure position selected by an input operation in the failure selection window;
Display image display means for reading a position display image from the image storage means and displaying the read image on a position display window;
A defect position associated with each product to be counted and corresponding to the display target defect is obtained from the product database and displayed on the position display image displayed in the position display window. Defective position display means;
A defect counting and displaying device characterized by having: In claim 15,
The display defect determination unit is configured to select the latest defect among the products associated with each product to be counted until an element image whose defect type and defect position are detected by an input operation in the defect selection window is selected. Determining the element image that has detected the associated defect type and defect position as a display defect,
A defective display device characterized by the above-mentioned. In claim 15 or claim 16,
The element image is an image of a component constituting a product,
A defective display device characterized by the above-mentioned. In any one of claims 15 to 17,
The image storage means holds a plurality of position display images in which product images of different viewpoints are arranged for products of the same model,
The product database holds a defect position and an element image that has detected the defect position and a defect type in association with a product and a viewpoint that defines a position display image,
The display image display means obtains, from the image storage means, a position display image defined by a viewpoint corresponding to the defect type corresponding to the display defect and the element image for which the defect position is detected, and displays the position. To display in the window,
A defective display device characterized by the above-mentioned. In any one of claims 15 to 18,
Each of the plurality of element images held by the image storage means is composed of one or more graphic elements.
A defective display device characterized by the above-mentioned. In any one of claims 15 to 19,
Each of the plurality of element images held by the image storage means has a priority, and in a region where the element images overlap in the same position display image, an element image having a higher priority is assigned to a product in the position display image. Used as a component of an image,
A defective display device characterized by the above-mentioned. A product defect notification system, which is input by the defect input device and transmits a total result of the product defects totaled by the defect totalizing device to the defect display device via the wireless network and displays the result on the defect display device,
The defect input device includes: a product information input unit for inputting product information for specifying a product; a defect position input unit for inputting a defect position together with an element image to which the defect position belongs; and a defect type. Defect type input means, and a defect storage means for storing the defect position and the element image to which the defect position belongs and the defect type in a predetermined product database in association with the product indicated by the product information,
The defect counting device obtains, from the product database, a defect position associated with each product to be counted, an element image to which the defect position belongs, and a defect type, and for each element image to which the defect position belongs and for each defect type. And a wireless terminal having a function of transmitting and receiving data to and from a wireless network, and transmitting the result of the aggregation by the failure aggregation means to the wireless network with one or more predetermined destinations. Means,
The defective display device has a wireless terminal means having a function of transmitting and receiving data to and from a wireless network, and a display means for displaying a total result received from the wireless network by the wireless terminal means,
A product defect notification system characterized by the following. In claim 21,
The defect totalizing device includes a threshold storage unit having a threshold for totaling for each of the element images to which the defective position belongs and for each of the defect types with respect to the one or more destinations, and a totaling result exceeding the threshold. Transmission permission / inhibition determining means for permitting transmission to a destination corresponding to the aggregation result exceeding the threshold value,
A product defect notification system characterized by the following. In claim 21 or claim 22,
The product database is provided in a server device,
The server device and the defect input device, and the server device and the defect counting device are configured to be able to transmit and receive data via a LAN,
A product defect notification system characterized by the following. In any one of claims 21 to 23,
The defective display device is a mobile phone,
A product defect notification system characterized by the following. A defect input device for inputting defect information of a product and storing it in a product database, a server device provided with the product database, and displaying defect information of a product to be repaired obtained from the server device and repair contents And a defect input / output device for inputting the information and a defect totalizing / display device for totalizing and displaying the defect information of the products to be totaled obtained from the server device so as to be able to transmit and receive data via a LAN. A processing system,
The defect input device inputs a product information input unit for inputting product information for specifying a product, a defect position input unit for inputting a defect position and an element image to which the defect position belongs, and inputs a defect type. Defect type input means for, and a defect storage means for storing the defect position and the element image to which the defect position belongs and the defect type in the product database in association with the product indicated by the product information,
The repair input device includes a product information input unit for inputting product information for specifying a product, and a defect type, a defect position, and an element image to which the defect position stored in association with the product indicated by the product information. Defect information acquiring means for acquiring the defect type, the defective position, and the element image to which the defective position belongs, and repair content input means for inputting repair content. And a repair storage unit that stores the repair content in the product database in association with the product indicated by the product information,
The defect counting and displaying device obtains, from the product database, a defect type, a defect position, and an element image to which the defect position is associated with each product to be tabulated, and obtains, for each defect type, an element to which the defect position belongs. A defect totalizing means for totalizing for each image, and a defect display means for displaying a totaling result by the defect totaling means for each defect type and for each element image to which the defective position belongs;
A product defect processing system characterized by the following. In claim 25,
The defect position input means of the defect input device,
Image storage means for holding a position designation image in which a product image composed of a plurality of element images having a pointer presence / absence detection function in its own area is arranged at a predetermined position;
Designation image display means for reading a position designation image from the image storage means and displaying the read image in a position designation window;
Defective position determining means for detecting a pointer position specified by an input operation in the position specifying window and determining it as a defective position;
A product defect processing system comprising: In claim 25 or claim 26,
The defect information display means of the repair input device,
Image storage means for holding a position display image formed by arranging a product image composed of a plurality of element images at a predetermined position,
Display image display means for reading a position display image from the image storage means and displaying the read image on a position display window;
Defective position display means for displaying a defective position obtained from the product database on a position display image displayed in the position display window,
Defect type display means for displaying the defect type obtained from the product database in a type display window,
A product defect processing system comprising: In any one of claims 25 to 27,
The failure display means of the failure aggregation and display device,
Image storage means for holding a position display image formed by arranging a product image composed of a plurality of element images at a predetermined position,
Aggregation failure display means for displaying the aggregation result by the failure aggregation means in a failure selection window for each failure type and for each element image to which the failure position belongs;
Display failure determining means for determining, as a display target failure, an element image to which the failure type and the failure position selected by the input operation in the failure selection window belong;
Display image display means for reading a position display image from the image storage means and displaying the read image on a position display window;
A defect that is read from the product database and is displayed on the position display image displayed on the position display window, the defect position being a defect position associated with each product to be counted and corresponding to the display target defect. Position display means;
A product defect processing system comprising: Computer
Product information acquisition means for acquiring product information input from a predetermined input device,
A position designation window is secured on a predetermined display device, and a position designation image obtained by arranging a product image of a model to be inspected composed of a plurality of element images having a pointer presence / absence detection function in its own area at a predetermined position is provided. Designation image display means for reading and displaying from a predetermined image storage means,
Defective position determining means for detecting a pointer position specified in the position specifying window by a predetermined pointing device using the pointer position detecting function and determining the detected position as a defective position;
A defect type obtaining unit for obtaining a defect type input from a predetermined input device,
Defect storage means for storing the defective position and the element image in which the defective position is detected and the defect type in a predetermined product database in association with a specific product indicated by the product information;
Program to function as Computer
Product information acquisition means for acquiring product information input from a predetermined input device,
A position display window is secured on a predetermined display device, and a position display image obtained by arranging a product image of a model to be inspected composed of a plurality of element images at a predetermined position is read from a predetermined image storage means and displayed. Display image display means,
A defective position display unit that obtains a defective position associated with the specific product indicated by the product information and an element image in which the defective position is detected from a predetermined product database and displays the defective image on the position display image,
Defect type display means for securing a type display window on a predetermined display device, acquiring and displaying a defect type associated with a specific product indicated by the product information from the product database,
Repair content acquisition means for acquiring repair content input from a predetermined input device,
Repair storage means for storing the repair content in the product database in association with a specific product indicated by the product information,
Program to function as Computer
A product information acquisition unit for acquiring product information of a product to be counted;
A defect type, a defect position, and an element image in which a defect position is detected associated with each of the acquired product information are acquired from a predetermined product database, and for each defect type and each element image in which a defect position is detected. A means for counting defects
A total defect display unit that secures a defect selection window on a predetermined display device and displays the total result by the defect total unit in a selectable manner for each defect type and for each element image whose defective position is detected;
Display failure determining means for determining an element image in which a failure type and a failure position selected in the failure selection window by an input from a predetermined input device are detected as a display target failure;
A position display window is secured on a predetermined display device, and a position display image obtained by arranging a product image of a target model composed of a plurality of element images at a predetermined position is read from a predetermined image storage means and displayed. Display image display means,
Defective position display means for obtaining, from the product database, defective positions which are defective positions associated with the obtained respective product information and which correspond to the display target defects, and respectively display on the position display image. ,
Program to function as A server computer configured to receive failure information received from the LAN in a predetermined product database; received information storage means; failure information reading means for reading failure information required via the LAN from the product database; and failure information reading means. A program for functioning as defect information transmitting means for transmitting the read defect information to the LAN to a request source of the defect information;
A computer of the inspection department, a product information obtaining means for obtaining product information input from a predetermined input device, a plurality of elements having a position designation window on a predetermined display device and having a pointer presence / absence detection function in its own area A designation image display means for reading out and displaying a position designation image formed by arranging a product image of a model to be inspected composed of images at a prescribed position from a prescribed image storage means, and a prescribed pointing device to the position designation window Position acquiring means for acquiring a defect position inputted by the operator and an element image to which the defect position belongs, a defect type acquiring means for acquiring a defect type inputted from a predetermined input device, and a defect acquired by the defect position acquiring means. The position, the element image to which the defective position belongs, and the defect type obtained by the defect type obtaining unit are obtained by the product information obtaining unit. A program for product information failure information transmitting means for transmitting to the LAN as defect information destined the server computer in association with the specific product for instructing to function as a,
The computer of the tabulation department is used to obtain product information of a product to be tabulated, a product information acquisition unit, a defect position associated with each product information acquired by the product information acquisition unit, an element image to which the defect position belongs, and a defect type. Information obtained by requesting the server computer via the LAN to obtain the defect information associated with each piece of product information obtained by the defect information obtaining means for each element image to which the defect position belongs, and Function as defect information totalizing means for totalizing each type, and transmission control means for sending the result totalized by the defect information totaling means to a predetermined wireless network with one or more destinations as total result information And a program for
A computer of the portable wireless terminal device, a tally result obtaining means for obtaining tally result information received from the wireless network, a tally result display for securing a tally result display area on a predetermined display device and displaying the tally result information A program for functioning as a means,
A program with A server computer configured to receive failure information received from the LAN in a predetermined product database; received information storage means; failure information reading means for reading failure information required via the LAN from the product database; and failure information reading means. A program for functioning as defect information transmitting means for transmitting the read defect information to the LAN to a request source of the defect information;
A computer of the inspection department, a product information obtaining means for obtaining product information input from a predetermined input device, a defective position input from the predetermined input device and a defective position obtaining means for obtaining a defective part to which the defective position belongs; A defect type acquisition unit for acquiring a defect type input from the input device, a defect position and a defective part acquired by the defect position acquisition unit, and a defect type acquired by the defect type acquisition unit by the product information acquisition unit A program for functioning as defect information transmitting means for transmitting to the LAN as defect information addressed to the server computer in association with a specific product indicated by the specified product information;
The computer of the tallying section is used to obtain a product information obtaining means for obtaining product information of a product to be taught, a LAN, a fault location, a faulty component, and a fault type associated with each product information obtained by the product information obtaining means. Defect information obtaining means for requesting and obtaining the server computer via the server computer, and defect information totalizing means for totalizing defect information associated with each piece of product information obtained by the defect information obtaining means for each component and each defect type A program for functioning as transmission control means for transmitting the result of the aggregation by the failure information aggregation means to a predetermined wireless network with one or more destinations as aggregation result information;
A computer of the portable wireless terminal device, a tally result obtaining means for obtaining tally result information received from the wireless network, a tally result display for securing a tally result display area on a predetermined display device and displaying the tally result information A program for functioning as a means,
A program with Receiving information storing means for storing, in a predetermined product database, defect information or repair information received from a LAN in a server computer; defective information reading means for reading defect information required via the LAN from the product database; A program for functioning as defect information transmitting means for transmitting the defect information read by the reading means to the LAN to a request source of the defect information;
A computer of the inspection department, a product information obtaining means for obtaining product information input from a predetermined input device, a plurality of elements having a position designation window on a predetermined display device and having a pointer presence / absence detection function in its own area A designation image display means for reading out and displaying a position designation image formed by arranging a product image of a model to be inspected composed of images at a prescribed position from a prescribed image storage means, and a prescribed pointing device to the position designation window Position acquiring means for acquiring a defect position inputted by the operator and an element image to which the defect position belongs, a defect type acquiring means for acquiring a defect type inputted from a predetermined input device, and a defect acquired by the defect position acquiring means. The position, the element image to which the defective position belongs, and the defect type obtained by the defect type obtaining unit are obtained by the product information obtaining unit. A program for product information failure information transmitting means for transmitting to the LAN as defect information destined the server computer in association with the specific product for instructing to function as a,
Computer of the repair department, product information acquisition means for acquiring product information input from a predetermined input device, a defect position associated with the product information acquired by the product information acquisition means and an element image to which the defect position belongs A failure information acquisition unit for requesting and acquiring the failure type from the server computer via the LAN, securing a position display window on a predetermined display device, and obtaining a product image of the repair target model including a plurality of element images. Display image display means for reading and displaying a position display image arranged at a predetermined position from a predetermined image storage means, and a defect position for displaying a defect position obtained by the defect information obtaining means on the position display image Display means, a defect type table for securing a type display window on a predetermined display device and displaying the defect type obtained by the defect information obtaining means Means, a repair content acquiring means for acquiring repair content input from a predetermined input device, and associating the repair content acquired by the repair content acquiring means with a specific product indicated by the product information acquired by the product information acquiring means. A program for causing the server computer to function as repair information transmitting means for transmitting the information to the LAN as repair information addressed to the server computer;
The computer of the tabulation / display department, product information acquisition means for acquiring the product information of the product to be tabulated, a defect position associated with each product information acquired by the product information acquisition means and an element image to which the defect position belongs. A failure information acquisition unit for requesting and acquiring a failure type from the server computer via a LAN, and failure information for summing failure information acquired by the failure information acquisition unit for each element image to which a failure position belongs and for each failure type Counting means for securing a position display window on a predetermined display device and reading from a predetermined image storage means a position display image obtained by arranging a product image of a target model composed of a plurality of element images at a predetermined position; The image display means for display and the defect position totalized for each element image and for each defect type by the defect information totalizing means A defect position display means for displaying each defect position of the image and the defect type on the position display image, a type display window secured on a predetermined display device, and the defect information totaling means for each element image and for each defect type A program for functioning as a defect type display means for displaying the defect type totalized in
A program with Receiving information storing means for storing, in a predetermined product database, defect information or repair information received from a LAN in a server computer; defective information reading means for reading defect information required via the LAN from the product database; A program for functioning as defect information transmitting means for transmitting the defect information read by the reading means to the LAN to a request source of the defect information;
A computer of the inspection department, a product information obtaining means for obtaining product information input from a predetermined input device, a defect position input from the predetermined input device and a defective position obtaining means for obtaining a defective part to which the defective position belongs; A defect type acquisition unit for acquiring a defect type input from the input device, a defect position and a defective part acquired by the defect position acquisition unit, and a defect type acquired by the defect type acquisition unit by the product information acquisition unit A program for functioning as defect information transmitting means for transmitting to the LAN as defect information addressed to the server computer in association with a specific product indicated by the specified product information;
A computer in the repair department, a product information obtaining means for obtaining product information input from a predetermined input device, a defective position associated with the product information obtained by the product information obtaining means, and a defective component to which the defective position belongs Information acquiring means for requesting and acquiring the server type via the LAN from the server computer, a product image of a repair target model constituted by a plurality of element images by securing a position display window on a predetermined display device Display image display means for reading and displaying a position display image obtained by arranging the image at a predetermined position from a predetermined image storage means, and a defect for displaying the defect position acquired by the defect information acquiring means on the position display image. Position display means, a defect type for securing a type display window on a predetermined display device and displaying the defect type obtained by the defect information obtaining means Indicating means, a repair content acquiring means for acquiring repair content input from a predetermined input device, a repair content acquired by the repair content acquiring means corresponding to a specific product indicated by the product information acquired by the product information acquiring means. A program for functioning as repair information transmitting means for sending the information to the LAN as repair information addressed to the server computer;
The computer of the tallying / displaying section, a product information obtaining means for obtaining the product information of the product to be totalized, a defective position associated with each product information obtained by the product information obtaining means, and a defective part to which the defective position belongs. A failure information acquisition unit for requesting and acquiring a failure type from the server computer via the LAN, and failure information for summing failure information acquired by the failure information acquisition unit for each defective component to which a failure position belongs and for each failure type Counting means secures a position display window on a predetermined display device and reads out from a predetermined image storage means a position display image obtained by arranging a product image of a target model composed of a plurality of element images at a predetermined position. A display image display means for displaying the defective position, a defective position totalized for each defective component and for each defect type by the defect information totalizing means, and a designated portion A defect position display means for displaying each defect position of the defect type on the position display image, a type display window secured on a predetermined display device, and the defect information totalizing means for each defective component and for each defect type. A program for functioning as a defect type display means for displaying the totaled defect type,
A program with

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