JP2015090514A - Inspection support device, inspection support system and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an inspection support device, inspection support system, and program for grasping the association between an inspection part and an inspection item of an inspection object, and suppressing the incorrect input of an inspection result.SOLUTION: There is provided an inspection support device that includes imaging means for continuously photographing an inspection object, display means for continuously displaying an inspection item while being overlapped on the inspection object to follow an inspection part of the inspection object, and input means for receiving the input of an inspection result of the inspection part through a plurality of types of operation to the inspection item.

Description

  The present invention relates to an inspection support apparatus, an inspection support system, and a program.

  Conventionally, when an inspection object such as a document printed on paper is inspected by human eyes, an inspection support device such as a computer used by an inspection worker and an inspection information management device such as a computer that supervises the inspection support device are included. Inspection support systems may be introduced.

  In the following Patent Document 1, a digital paper as a production management slip for displaying required information in a rewritable manner, an information processing device, and a communication means for performing communication between the digital paper and the information processing device A production management system is described.

  Further, Patent Document 2 describes an inspection method using visual information, which is a visual inspection method for securities printed matter.

  Further, Patent Document 3 extracts only image data in a plurality of preset area ranges from input image data, converts the input image data into image data with a coarse resolution, and extracts the extracted image data. And a visual inspection auxiliary device for printed matter that combines and displays the converted image data.

  Furthermore, Patent Document 4 describes a printed matter inspection method in which a translucent sheet on which the contents of a regular label are printed is superimposed on a printed label attached to a fire extinguisher to determine the identity. ing.

JP 2002-073138 A JP 2003-123118 A JP 09-081735 A JP 2011-112883 A

  However, in some cases, it is not always clear which inspection item explaining the content of the inspection work describes the inspection work of which inspection part in the inspection object.

  For this reason, there is a problem that an inspection result at a corresponding inspection location for a certain inspection item is input, but an inspection result at a different inspection location is input, and the inspection work may not be performed correctly.

  Therefore, an object of the present invention is to provide an inspection support apparatus, an inspection support system, and a program for grasping the correspondence between an inspection location to be inspected and an inspection item and suppressing erroneous input of inspection results.

  In order to solve the above-described problem, the inspection support apparatus according to claim 1 includes an imaging unit that continuously shoots an inspection target, and continuously inspects inspection items on the inspection target so as to follow the inspection location of the inspection target. It is characterized by comprising display means for displaying and input means for inputting inspection results at the inspection location by a plurality of types of operations on the inspection items.

  The invention according to claim 2 is characterized in that the input means is a touch sensor, and the inspection result of the inspection location is input by a plurality of types of touch operations on the inspection item. This is the inspection support device described.

  Further, the invention according to claim 3 is characterized in that the inspection support device includes: a reading unit that reads identification information attached to the inspection target; and a changing unit that changes the inspection item according to the identification information. The inspection support apparatus according to claim 2, further comprising:

  Moreover, the invention according to claim 4 is further characterized in that the inspection support device further includes a receiving unit that receives an input of registration information of the inspection worker from the inspection worker, and the changing unit is configured to respond to the registration information. The inspection support apparatus according to claim 3, wherein the inspection item is changed.

  According to a fifth aspect of the present invention, there is provided an inspection support system including the inspection support device and the inspection information management device, wherein the inspection support device follows imaging means for continuously photographing the inspection target and the inspection location of the inspection target. Display means for continuously displaying inspection items on the inspection object, input means for inputting inspection results at the inspection location by a plurality of types of operations on the inspection items, and transmitting the inspection results to the inspection information management device First inspection means, and the inspection information management device includes second communication means for receiving the inspection result from the inspection support device, and storage means for storing the inspection result. Features.

  The invention according to claim 6 is characterized in that the input means is a touch sensor, and the inspection result of the inspection location is input by a plurality of types of touch operations on the inspection item. This is the inspection support system described.

  The inspection support apparatus may further include a reading unit that reads the identification information attached to the inspection target, and a changing unit that changes the inspection item according to the identification information. The inspection support system according to claim 6, further comprising:

  Moreover, the invention according to claim 8 is characterized in that the inspection support apparatus further includes a reception unit that receives an input of registration information of the inspection worker from the inspection worker, and the changing unit is configured to respond to the registration information. The inspection support system according to claim 7, wherein the inspection item is changed.

  In the invention according to claim 9, the inspection support device transmits one or both of the identification information and the registration information to the inspection information management device, and the inspection information management device transmits the identification information. 9. The apparatus according to claim 8, further comprising a determination unit that determines the inspection item according to one or both of the registration information and the registration information, and transmitting the determined inspection item to the inspection support device. This is an inspection support system.

  Further, in the invention according to claim 10, the storage unit further stores a manufacturing history of the inspection target, and the determination unit responds to one or both of the stored inspection result and the manufacturing history. The inspection information management apparatus determines an operation order of inspection items when inspecting a plurality of inspection locations, and the inspection information management apparatus transmits the determined operation order to the inspection support apparatus. This is an inspection support system.

  The invention according to claim 11 is characterized in that the inspection support device is operated by an internal power source, and the first communication means and the second communication means perform wireless communication. The inspection support system described in 1.

  Further, the invention according to claim 12 is an imaging means for continuously photographing the inspection object, a display means for continuously displaying inspection items on the inspection object so as to follow the inspection location of the inspection object, The program is made to function as an input means for inputting the inspection result of the inspection location by a plurality of types of operations on the inspection item.

  According to the first, fifth, and twelfth aspects of the present invention, an inspection support device, an inspection support system, and a program for grasping the correspondence between the inspection location to be inspected and the inspection item and suppressing erroneous input of the inspection result are obtained.

  According to the second and sixth aspects of the invention, the inspection work is performed by an intuitive operation.

  According to the third and seventh aspects of the invention, the inspection items are displayed according to the inspection object.

According to invention of Claim 4 and 8, the inspection item according to an inspection operator is displayed.

  According to the ninth aspect of the invention, the determination of inspection items is centrally managed.

  According to the invention described in claim 10, the inspection efficiency is improved.

  According to the invention described in claim 11, the inspection is carried out when the inspection operator carries the inspection support device and approaches the inspection object.

It is a block diagram which shows an inspection support system. It is a figure which shows a mode that an inspection object is image | photographed with an inspection assistance apparatus. It is a figure which shows the example which displays and superimposes the inspection item on the inspection object. It is a figure which shows the content of the memory | storage part of an inspection information management apparatus. It is a figure which shows the content of the inspection item memory | storage part. It is a figure which shows the example which displays and superimposes the inspection item on the inspection object. It is a figure which shows the example which displays and superimposes the inspection item on the inspection object. It is a flowchart which shows the inspection process of an inspection support apparatus and an inspection information management apparatus.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a diagram showing a configuration example of an inspection support system 1 according to an embodiment of the present invention. The inspection support system 1 includes an inspection information management device 2 and an inspection support device 3.

  Here, the inspection information management apparatus 2 includes a display unit 21, a storage unit 22, a control unit 23, an input unit 24, and a communication unit 25. Further, the control unit 23 includes a determination unit 231. The display unit 21, the storage unit 22, the control unit 23, and the input unit 24 function together as a computer.

  The inspection support device 3 includes a communication unit 31, a storage unit 32, a control unit 33, a touch panel unit 34, an imaging unit 35, and a display unit 36. In addition, the memory | storage part 32, the control part 33, the touchscreen part 34, and the display part 36 function as a computer integrally. In the present embodiment, the inspection support device 3 is a so-called doublet PC and operates with an internal power supply.

  The communication unit 31 is a wireless LAN transceiver, for example, and communicates with the communication unit 25 wirelessly. The communication unit 31 may be a wired LAN connection device. In the present embodiment, it is assumed that the communication unit 31 performs wireless communication in view of the portability of the inspection support device.

  The storage unit 32 includes, for example, a RAM (Random Access Memory) and a ROM (Read Only Memory). The storage unit 32 stores a program executed by the control unit 33 and also functions as a work memory for the control unit 33. The program executed by the control unit 33 stored in the storage unit 32 may be provided via an electric communication line, or stored in a computer-readable information storage medium such as a semiconductor storage element. And may be provided.

  The control unit 33 includes, for example, a CPU (Central Processing Unit), and controls the entire inspection support apparatus 3 by executing a program stored in the storage unit 32. For example, the control unit 33 controls the display unit 36 when, for example, the inspection items are superimposed on the photographed inspection target and continuously displayed.

  The imaging unit 34 is a solid-state image element such as a CMOS image sensor, for example, and provides the detected optical information to the control unit 33 as an electrical signal. In the present embodiment, in order to continuously shoot the inspection object, it is desirable to be able to shoot several tens of times per second.

  The touch panel unit 35 is formed by integrating a display unit such as a liquid crystal display device and a touch pad unit that detects position information touched with a fingertip or the like. An inspection worker who uses the inspection support device 2 performs a tap operation or a drag operation by indirectly touching an icon or the like displayed on the display unit that is visible through the touch pad unit with a fingertip or a dedicated pen. Do. Here, “tap operation” refers to an operation of lightly touching an icon or the like with a fingertip or the like. The “drag operation” refers to an operation of pulling while touching an icon touched with a fingertip or the like.

  In this embodiment, the inspection operator employs the touch panel unit 35 in order to intuitively operate the inspection support apparatus 3, but it is assumed that a display unit such as a liquid crystal display device and an input unit such as a keyboard and a mouse are employed. Also good.

  Assume that the storage unit 22, the control unit 23, and the communication unit 25 of the inspection information management device 2 are the same as the storage unit 32, the control unit 33, and the communication unit 31 of the inspection support device 3, respectively. The display unit 21 and the input unit 24 are a liquid crystal display device, a keyboard, a mouse, and the like.

  FIG. 2 is a diagram illustrating a state in which the inspection object 4 is imaged by the imaging unit 34 of the inspection support device 3 and displayed on the touch panel unit 35 in the present embodiment. Here, it is assumed that the photographing unit 34 is provided on a surface facing the surface on which the touch panel unit 35 is provided.

  The inspection object 4 is composed of three printed materials. On the first inspection object 41, the person name “A” is printed. It is assumed that characters and images are similarly printed on the second inspection object 42 and the third inspection object 43.

  In the display on the touch panel unit 35 of the inspection support device 3, it can be confirmed that a frame line surrounding the character “A” on the first inspection target 41 and a balloon that follows the frame are superimposed. Here, when the inspection operator carries the inspection support device 3 and continuously shoots the inspection object 4 from various directions and distances, the angle and size of the frame line are sequentially changed so as to continue to enclose the characters “A”. Thus, the angle and size of the balloon following the frame line are also changed sequentially.

  In this way, a technique for expanding and perceiving a real environment by a computer is called “augmented reality” or “AR (Augmented Reality)”. The inspection support apparatus 3 is an apparatus that supports the inspection work by extending the inspection worker's perception using AR technology.

  FIG. 3A is a diagram illustrating an example of an image displayed on the touch panel unit 35 of the inspection support device 3. On the first inspection object 41, inspection content identification information 411 and inspection range identification information 412 are printed in advance, and a print frame 413 indicating the inspection location and an inspection item 414 for explaining the inspection content by AR technology. Is displayed.

  Here, the inspection content identification information 411 is information indicating what content should be inspected for each inspection target. In the present embodiment, the inspection content identification information 411 is a two-dimensional code, and the two-dimensional code stores information specifying information relating to inspection items stored in the storage unit 22 of the inspection information management device 2. It is assumed that Information stored in the storage unit 22 of the inspection information management apparatus 2 will be described later. In the present embodiment, the two-dimensional code includes information for specifying information such as dimensional information to be inspected and importance.

  The inspection range identification information 412 is a so-called registration mark, and is circled so that the top, bottom, left and right of the first inspection object 41 can be distinguished. In this embodiment, the inspection range identification information 412 is printed in advance on the inspection target, but the inspection support device 3 may detect the end of the inspection target.

  The inspection support device 3 detects the inspection range identification information 412, and from what distance and angle the inspection target is photographed based on the dimension information of the inspection target included in the inspection content identification information 411. calculate.

  Based on the result thus calculated, the inspection support device 3 calculates the display magnification, the display position, and the display angle of the print frame 413 and the inspection item 414, as if the print frame is on the first inspection target 41. 413 and the inspection item 414 are displayed in an overlapping manner as if they were printed.

  Such display processing is performed sequentially. If the inspection operator moves the inspection support device 3 and the shooting distance and direction are changed, the print frame 413 indicating the inspection location is smoothly deformed and enlarged according to the change of the imaging distance and direction, and the inspection item 414 is changed to the inspection location. It is similarly deformed and scaled so as to follow.

  The print frame 413 is displayed so as to surround the characters “A”, which is the inspection location. Also, in the balloon of the inspection item 414, a sentence explaining the inspection content “is it printed in a frame?” Is displayed.

  In this embodiment, the inspection operator who has confirmed the inspection item 414 taps the balloon of the inspection item 414 if there is no problem, and performs a drag operation if there is a problem. Information indicating which operation has been performed is stored in the storage unit 32 of the inspection support apparatus 3 as an inspection result, and the operated inspection item 414 and print frame 413 are deleted. Then, after all the inspection items are operated, the inspection result stored in the storage unit 32 is transmitted to the inspection information management device 2.

  In the case of the example in FIG. 3A, since the character “A” is printed inside the print frame 413, the inspection operator may tap the inspection item 414. If characters are printed beyond the print frame 413, a drag operation may be performed.

  When it is desired to record information other than inspection pass / fail, for example, a plurality of inspection results may be input depending on the drag direction of the drag operation. In this case, for example, the contents described in the inspection item 414 are not problematic, but may indicate that there is a different problem. In the example of FIG. 3A, there are cases where characters are contained in the print frame 413 but there is a typo.

  FIG. 3B is a diagram showing a modification. In the case of FIG. 3A, the pass / fail of the inspection is expressed by a tap operation and a drag operation. In FIG. 3B, two types of inspection item confirmation buttons 415 and 416 are displayed. The inspection operator confirms the inspection item 414, taps the inspection item confirmation button 415 “OK” if there is no problem, and taps the inspection item confirmation button 416 “NG” if there is a problem.

  When information other than inspection pass / fail is to be recorded, a plurality of inspection item confirmation buttons may be provided.

  FIG. 4 is a diagram illustrating the contents of the storage unit 22 of the inspection information management apparatus 2. The storage unit 22 includes an inspection result storage unit 221, an identification information storage unit 222, a registration information storage unit 223, an inspection item storage unit 224, and a manufacturing history storage unit 225.

  The inspection result storage unit 221 stores the inspection result transmitted from the inspection support device 3. As described above, when recording information other than inspection pass / fail, the information may also be stored.

  The identification information storage unit 222 stores information indicated by the identification information attached to the inspection target. In the case of the example of FIG. 3A, the inspection support device 3 captures the identification information 411 of the inspection content, reads the information encoded in the two-dimensional code, and transmits it to the inspection information management device 2. Upon receipt of the information, the inspection information management device 2 searches the identification information storage unit 222 to identify information such as dimensional information and importance, which are specific information indicated by the inspection content identification information 411, and provides inspection support. A reply is sent to the device 3.

  The registration information storage unit 223 stores registration information of the inspection worker. In the present embodiment, when an inspection worker performs an inspection operation using the inspection support device 3, the inspection operator inputs his / her registration information and logs in to the inspection support system. The registration information input to the inspection support device 3 is transmitted to the inspection information management device 2, and authentication is performed based on the information stored in the registration information storage unit 223.

  The inspection item storage unit 224 stores the description contents of inspection, the unit of inspection, display position information of inspection items, and the like. An example of the stored information is shown in FIG.

  FIG. 5 shows examples of three types of inspection items. The first one is shown in FIGS. 3A and 3B, and is an inspection item “Is it printed in a frame?”. The unit of this inspection is for each page, and the coordinate values of the four corners of the print frame are stored as position information. The coordinate value is expressed using the identification information of the inspection range as a reference value.

  As a second inspection item, there is an item “Is there any scratch or dirt?”. The unit of inspection is for each page, and it is an item to check whether there is scratches / dirt in the entire inspection object, rather than checking for scratches / dirt at a specific location. ing. Thus, when the inspection location is the entire inspection target, the display position of the inspection item displayed by the AR technology may be arbitrary. In addition, when the inspection item is displayed on the inspection target in an overlapping manner, a hidden portion is generated. Therefore, the inspection item may be displayed after being transparently processed.

  The third inspection item is “Is there 10 sheets?”. In this case, the unit of inspection is for each job. That is, it means an operation of inspecting whether there are 10 sheets per bundle of printed matter. Since the inspection location is not limited, the position information is “whole”. For example, in the case of the inspection object 4 in FIG. 2, since three sheets are one set, an inspection item for confirming this may be displayed.

  Returning to FIG. 4, the manufacturing history storage unit 225 stores a history of what manufacturing apparatus manufactured the inspection target. For example, it may be information that specifies a printing machine that has printed the inspection target, or information that specifies a person or a department in charge of creating the inspection target.

  FIGS. 6A and 6B are diagrams illustrating an example in which an inspection item is changed based on information stored in the identification information storage unit 222 or the registration information storage unit 223. FIG. As described above, the inspection support device 3 receives registration information of the inspection worker prior to the inspection work, and reads the identification information attached to the inspection target 5. The registration information and identification information are transmitted to the inspection information management device 2, and the inspection information management device 2 displays what inspection items based on the information stored in the identification information storage unit 222 and the registration information storage unit 223. It is determined by the determining unit 231.

  FIG. 6A shows, for example, a display mode when the inspection worker is an expert, and FIG. 6B shows a display mode when the inspection worker is a beginner. In the case of an expert, the sentences shown in the inspection items 51a and 52a are simple. On the other hand, in the case of a beginner, the sentence shown in the inspection item 51b is longer than that in the case of the inspection item 51a, and a more detailed explanation is written. In addition, in the case of a beginner, the inspection item 53 and the inspection item 54 that are not displayed in the case of an expert are displayed. In addition, there are an inspection item 52a and an inspection item 52b whose display mode does not change between a skilled person and a beginner.

  Here, whether the inspection worker is an expert or a beginner may be determined from, for example, the total work time, or may be determined in advance by an administrator.

  FIGS. 6A and 6B are also examples of changes in the display mode reflecting the difference in the importance of the inspection object read from the identification information attached to the inspection object 5. A high importance is assigned to an inspection object to be subjected to a stricter inspection, and in the case of an inspection object to which more detailed and various inspection items are displayed and a low importance is assigned as shown in FIG. As shown in (a), a simple inspection item is displayed.

  FIGS. 7A and 7B are diagrams illustrating an example of changing the operation order of inspection items based on information stored in the inspection result storage unit 221 and the manufacturing history storage unit 225. FIG. In this case, the inspection information management device 2 that has received the identification information of the inspection target 6 from the inspection support device 3 acquires the inspection result for the same type of inspection target from the inspection result storage unit 221, and the problem occurrence rate for each inspection item Etc. are calculated. Further, the manufacturing history of the inspection object 6 is acquired from the manufacturing history storage unit 225, and the yield rate of the apparatus that manufactured the inspection object 6 is calculated.

  The determination unit 231 of the inspection information management device 2 sets the operation order so that an inspection item having a higher problem occurrence rate is operated earlier based on the calculated problem occurrence rate for each inspection item, the yield rate of the device, and the like. decide. As a result, in FIG. 7A, the inspection item 61a is the inspection item to be operated first, and the inspection item 62a is the inspection item to be operated second. In the inspection item 61b and the inspection item 62b in FIG. 7B, the operation order is reversed.

  In this way, by checking the inspection items in which a problem has occurred in the past in advance, the probability that the inspection work performed so far on the inspection object is wasted can be reduced, and the inspection efficiency can be improved. .

  In the case of FIG. 7A, it is determined that the inspection location indicated by the inspection item 61a is more likely to cause a problem than the inspection location indicated by the inspection item 62a. In the case of FIG. Has been. Such determination of the operation order may be performed by comprehensively determining the problem occurrence rate for each inspection item, the yield rate of the apparatus that manufactured the inspection target, and the like.

  FIG. 8 is a flowchart showing an inspection process performed by the inspection support device 3 and the inspection information management device 2.

  First, the inspection support device 3 acquires registration information of the inspection worker (S1). The inspection support device 3 may display a login screen or the like and accept input of inspection worker registration information.

  After that, the inspection operator continuously displays the inspection target with the imaging unit 34 of the inspection support device 3, whereby the inspection target is displayed as a moving image (S2).

  Next, the inspection support apparatus 3 reads the identification information attached to the imaged inspection object (S3). There may be a plurality of types of identification information, such as information indicating the contents of inspection and information indicating the inspection range.

  Thereafter, the inspection support device 3 transmits the received registration information and the read identification information to the inspection information management device 2 (S4).

  The inspection information management device 2 that has received the registration information and the identification information searches the storage unit 22 and acquires information about the inspection worker, information about the inspection target, and information about the inspection item (S5).

  Based on the information acquired from those storage units 22, the determination unit 231 of the inspection information management device 2 determines what inspection items to display, and transmits the determined contents to the inspection support device 3 (S6). ).

  Upon receiving the contents of the inspection item, the inspection support device 3 calculates a display magnification, a display position, a display angle, and the like when displaying the inspection item on the inspection target (S7).

  Based on the calculated display magnification of the inspection item, the inspection support device 3 displays the inspection item as an augmented reality on the touch panel unit 35 (S8).

  The inspection support device 3 accepts an inspection item touch operation by the inspection operator (S9). Pass / fail of inspection and problems are recorded by touch operation.

  The inspection support device 3 deletes the inspection item touched by the inspection operator (S10), and repeats the process until there is no inspection item that has not been operated (S11).

  When there is no unoperated inspection item, the inspection support device 3 transmits the inspection result to the inspection information management device 2 (S12). The inspection support apparatus 3 may transmit the inspection result to the inspection information management apparatus 2 every time the inspection item is touched and the inspection result related to the inspection item is determined.

  Finally, the inspection information management apparatus 2 that has received the inspection result stores the inspection result in the inspection result storage unit 221 of the storage unit 22 (S13).

  As described above, the inspection process in the present embodiment is performed.

  The embodiment of the present invention is not limited to the above. For example, a wearable computer having a head-mounted display as a display unit is adopted as the inspection support device 3, and an inspection item displayed on the display unit as an augmented reality is indirectly touch-operated with a fingertip or operated by eye-gaze detection. It is good.

  DESCRIPTION OF SYMBOLS 1 Inspection support system, 2 Inspection information management apparatus, 3 Inspection support apparatus, 4 Inspection object, 5 Inspection object, 6 Inspection object, 21 Display part, 22 Storage part, 23 Control part, 24 Input part, 25 Communication part, 31 Communication Part, 32 storage part, 33 control part, 34 photographing part, 35 touch panel part, 41 inspection object (first sheet), 42 inspection object (second sheet), 43 inspection object (third sheet), 51a inspection item, 51b Inspection Item, 52a Inspection Item, 52b Inspection Item, 53 Inspection Item, 54 Inspection Item, 61a Inspection Item, 61b Inspection Item, 62a Inspection Item, 62b Inspection Item, 221 Inspection Result Storage Unit, 222 Identification Information Storage Unit, 223 Registration Information Storage unit, 224 Inspection item storage unit, 225 Manufacturing history storage unit, 411 Inspection content identification information, 412 Inspection range identification information, 413 Print frame, 414 inspection item, 415 inspection item confirmation button, 416 inspection item confirmation button.

Claims (12)

Photographing means for continuously photographing the inspection object;
Display means for continuously displaying the inspection items on the inspection object so as to follow the inspection location of the inspection object,
Input means for inputting inspection results of the inspection location by a plurality of types of operations on the inspection items;
An inspection support apparatus comprising: The input means includes
A touch sensor,
The inspection support apparatus according to claim 1, wherein the inspection result of the inspection portion is input by a plurality of types of touch operations on the inspection item. The inspection support device includes:
Reading means for reading the identification information attached to the inspection object;
The inspection support apparatus according to claim 2, further comprising: a changing unit that changes the inspection item according to the identification information. The inspection support device includes:
A reception means for receiving registration information of the inspection worker from the inspection worker;
The changing means is
The inspection support apparatus according to claim 3, wherein the inspection item is changed according to the registration information. An inspection support system including an inspection support device and an inspection information management device,
The inspection support device includes:
Photographing means for continuously photographing the inspection object;
Display means for continuously displaying the inspection items on the inspection object so as to follow the inspection location of the inspection object,
Input means for inputting inspection results of the inspection location by a plurality of types of operations on the inspection items;
First inspection means for transmitting the inspection result to the inspection information management device,
The inspection information management device includes:
Second communication means for receiving the inspection result from the inspection support device;
An inspection support system comprising: storage means for storing the inspection result. The input means includes
A touch sensor,
The inspection support system according to claim 5, wherein the inspection result of the inspection part is input by a plurality of types of touch operations on the inspection item. The inspection support device includes:
Reading means for reading the identification information attached to the inspection object;
The inspection support system according to claim 6, further comprising a changing unit that changes the inspection item according to the identification information. The inspection support device includes:
A reception means for receiving registration information of the inspection worker from the inspection worker;
The changing means is
The inspection support system according to claim 7, wherein the inspection item is changed according to the registration information. The inspection support device includes:
Send either one or both of the identification information and the registration information to the inspection information management device,
The inspection information management device includes:
According to any one or both of the identification information and the registration information, further comprising a determination means for determining the inspection item,
The inspection support system according to claim 8, wherein the determined inspection item is transmitted to the inspection support device. The storage means
Further storing the manufacturing history of the inspection object,
The determining means includes
In accordance with either one or both of the stored inspection results and the manufacturing history, determine the operation order of inspection items when inspecting a plurality of inspection locations,
The inspection information management device includes:
The inspection support system according to claim 9, wherein the determined operation order is transmitted to the inspection support device. The inspection support device includes:
Operated by internal power supply
The first communication means and the second communication means are:
The inspection support system according to claim 10, wherein wireless inspection is performed. Computer
Imaging means for continuously shooting the inspection object,
Display means for continuously displaying the inspection items on the inspection object so as to follow the inspection location of the inspection object,
Input means for inputting inspection results of the inspection location by a plurality of types of operations on the inspection items,
A program characterized by functioning as

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