JP4888792B2 - Inspection process management system - Google Patents

Description

  The present invention relates to, for example, an inspection process management system, a terminal device, a server device, an inspection process management method, and an inspection process management program for managing each inspection process in a plurality of inspection processes for an inspection object.

There is an inspection process management system that manages each inspection process when a plurality of inspection processes are sequentially performed on an inspection target such as an article such as an electrical device.
In this type of inspection process management system technique, for example, techniques described in Patent Documents 1 and 2 have been proposed.
Patent Document 1 describes a technique of a measurement result display system in an inspection process.
This measurement result display system includes a device for measuring lots and obtaining measurement data based on measurement conditions corresponding to the inspection process, and a host for centralized control and management of devices in one or more processes. ing.

The host performs measurement data determination based on a predetermined determination criterion for the measurement data received via the network and the device control server that transmits the measurement conditions of the lot determined to be input to the device via the network, A process management server that generates and transmits a measurement value determination result to the apparatus.
Then, the apparatus performs a display corresponding to the measurement value determination result in accordance with the measurement value determination result received from the host and the display standard registered in advance.

Patent Document 2 describes a technology of a semiconductor device manufacturing system.
The manufacturing system includes a plurality of processing apparatuses, a plurality of inspection apparatuses, a manufacturing process management system connected to the processing apparatuses and the inspection apparatuses, and the like as a semiconductor device manufacturing system.

The processing apparatus performs each process in each process such as film formation, resist coating, exposure, development, etching, resist removal, cleaning, and impurity implantation.
The inspection apparatus performs each inspection in each process such as an appearance inspection and a foreign substance inspection process.
The manufacturing process management system is a system for managing the manufacturing process of a semiconductor device by operating each processing apparatus and each inspection apparatus based on a manufacturing flow, and is a first method for forming a conductive film on a semiconductor wafer. The elapsed time from the end of the processing process is monitored, and when this elapsed time exceeds the standard value that defines the electrical characteristics of the semiconductor device, the first inspection process to be performed after that is skipped. Automatically rewrite the manufacturing process flow. And it has the function to advance a process based on this rewritten manufacturing process flow.

JP 2004-128203 A Japanese Patent Laid-Open No. 2005-051001

However, the inspection process management system described above has a problem that the transfer of an article between an inspection process and the next inspection process is performed by a person such as an inspection operator, and the operation is interrupted due to some external factor or simple. There is a possibility that a necessary inspection process may be in an incomplete state due to an operation mistake or the like.
For this reason, if such an inspection process is incomplete and an article that does not meet the inspection standard due to a manufacturing defect or the like is transferred to the next inspection process, it cannot be found in the subsequent inspection process, and thus is leaked as a product. I had to do it.

That is, since the technique described in Patent Document 1 displays whether or not it conforms to the standard based on the inspection result measured by the apparatus, it has not been found that the necessary inspection process is incomplete. Moreover, the manufacturing process management system of the manufacturing system described in Patent Document 2 only determines whether or not to skip the subsequent inspection process based on the processing content of the processing process, and the inspection process is incomplete. I couldn't find out.
In order to prevent such a situation, it is conceivable to concentrate the inspection process in one place and perform all inspections without transferring the goods. However, review of the inspection environment, inspection devices, inspection programs, etc. There has been a problem that development takes a lot of time and money.

  The present invention has been proposed to solve the problems of the conventional techniques as described above, and can be easily applied in an existing inspection environment and the like, and can be introduced at low cost. The purpose is to provide an inspection process management system, a terminal device, a server device, an inspection process management method, and an inspection process management program that can prevent a situation in which defective products are leaked due to incomplete inspection process due to a mistake. .

  In order to achieve the above object, an inspection process management system according to the present invention includes a terminal device arranged corresponding to a plurality of inspection processes for a predetermined inspection object, and an information storage in which inspection result information of each inspection process is stored. An information acquisition means for acquiring inspection result information of an inspection process prior to the inspection process corresponding to the terminal device from the information storage means of the server apparatus, Notification means for making a predetermined notification based on the inspection result information acquired by the information acquisition means.

  Further, the terminal device of the present invention is a terminal device arranged corresponding to a plurality of inspection processes for a predetermined inspection object, and information storage means for storing inspection result information of each inspection process provided in the server device The information acquisition means for acquiring the inspection result information of the inspection process prior to the corresponding inspection process, and the notification means for making a predetermined notification based on the inspection result information acquired by the information acquisition means.

  The server device of the present invention is a server device that can communicate with a terminal device arranged corresponding to a plurality of inspection processes for a predetermined inspection object, and stores information on the inspection results of each inspection process. Storage means and information transmission means for transmitting the inspection result information stored in the information storage means, and causing the terminal device to perform a predetermined notification based on the inspection result information.

  In addition, the inspection process management method of the present invention provides the inspection result information of the inspection process prior to the inspection process to be executed from the information storage means for storing the inspection result information for each inspection process in a plurality of inspection processes for a predetermined inspection object. And a step of performing predetermined notification based on the acquired inspection result information.

  Further, the inspection process management program of the present invention is configured to inspect a terminal device arranged for each of a plurality of inspection processes for a predetermined inspection object from an information storage means provided in the server device before the inspection process corresponding to the terminal device. It functions as information acquisition means for acquiring inspection result information of the process, and notification means for performing predetermined notification based on the inspection result information acquired by the information acquisition means.

  The inspection process management system, terminal device, server device, inspection process management method, and inspection process management program of the present invention can be easily applied in the current inspection environment and the like, and are not artificially costly. It is possible to prevent the inspection process from being missed due to a mistake or the like, and the outflow of defective products due to the missing inspection process.

Hereinafter, a preferred embodiment of an inspection process management system according to the present invention will be described.
First, an inspection process management system according to a first embodiment of the present invention will be described with reference to FIGS. 1 and 2.
FIG. 1 is a schematic diagram showing an inspection process management system according to the first embodiment of the present invention.
FIG. 2 is an inspection process management system according to the first embodiment of the present invention, wherein (a) is a terminal device and (b) is a block diagram showing a server device.

The inspection process management system of the present embodiment is used in an inspection line in which a plurality of inspection processes for inspecting a predetermined inspection object are sequentially performed.
The plurality of inspection processes are performed, for example, at different positions, and the transfer of articles between each inspection process and the next inspection process is performed manually or by the inspection operator. Performed by equipment.
The inspection object is, for example, an article such as an electric device such as a television set or a computer that is shipped after all the inspection steps are performed and becomes a product. For example, a bar code seal on which a bar code corresponding to an ID code unique to each article is displayed is attached to the surface of the article.

As shown in FIGS. 1 and 2, the inspection process management system includes first to m-th terminal devices 11 to 1m arranged for each of the first to m-th inspection processes for inspecting articles, and each inspection. And a server device 20 having information storage means 200 in which process inspection result information is stored.
The terminal devices 11 to 1m and the server device 20 are electrically connected via a network 30 such as a LAN (Local Area Network), for example, and can communicate with each other.

The terminal devices 11 to 1m are, for example, computers, not shown, a CPU (Central Processing Unit), a RAM (Random Access Memory), and an HDD (Hard Disk) in which a program that is uploaded to the RAM and processed by the CPU is stored. And a storage device such as SSD (Solid State Drive).
In addition, the terminal devices 11 to 1m include input devices (not shown) such as a keyboard, a mouse, a bar code, and a hand scanner such as an RFID, which are operated by an inspection worker.

The terminal devices 11 to 1m are provided with the identification information input means 101 of the present invention.
The identification information input unit 101 inputs identification information of an article, and an ID code is input as the identification information. The identification information input means 101 is constituted by, for example, a barcode scanner that reads a barcode on a sticker.
Note that the identification information input unit 101 includes a keyboard. The input of the ID code with the keyboard is performed, for example, when the reading of the barcode with the barcode scanner is not successful.

The terminal devices 11 to 1m are provided with inspection information input means 103 operated by an inspection operator.
The inspection information input means 103 is a keyboard for inputting information related to the inspection of the article and for inputting numerical values measured by the inspection.
The examination information input means 103 may also include a mouse, and the examination information may be input by clicking an item displayed on the display means described later.

Further, the terminal devices 11 to 1m are acquired by the information acquisition unit 102 and the information acquisition unit 102, which acquire the inspection result information of the inspection process prior to the inspection process corresponding to each of the terminal devices 11 to 1m from the information storage unit 200. Notification means (105) for performing a predetermined notification based on the inspection result information.
The information acquisition unit 102 has a function of acquiring the inspection result information of the article corresponding to the ID code input by the identification information input unit 101 via the network 30. In the present embodiment, the information acquisition unit 102 includes a transmission function for transmitting the input ID code to the server device 20 and a reception function for receiving inspection result information corresponding to the ID code from the server device 20. .

In this embodiment, for example, the notification unit is a display unit 105 that performs display based on the examination result information acquired by the information acquisition unit 102.
The display means 105 is a display device that can display predetermined information such as a display, for example, and displays the immediately preceding inspection result information so that the inspection operator can recognize it.

The terminal devices 11 to 1m are an information creating unit 100 that creates inspection result information of articles in the inspection process corresponding to the terminal devices 11 to 1m, and an inspection result information and identification information input unit 101 created by the information creating unit 100. And an information transmission means 104 for transmitting the ID code corresponding to the inputted article to the server device 20.
The information creation unit 100 creates inspection result information based on the information input by the inspection information input unit 103. The inspection result information includes, for example, an inspection result for each inspection item and whether or not each inspection item has been performed.

For example, the information creating means 100 creates the examination result information by inputting a numerical value measured by the examination into the input field for each examination item displayed on the display means 105 and transmitting a transmission button.
For example, the information transmission unit 104 transmits the examination result information created by the information creation unit 100 to the server device 20.

In the terminal devices 11 to 1m, the above-described units are caused to function by executing a program stored in the storage device by the CPU.
Further, the first terminal device 11 does not have the information acquisition unit 102 and the like because there is no inspection process prior to the first inspection process.

The server device 20 is, for example, a computer, and includes a CPU, a RAM, and a storage device such as an HDD or an SSD that stores a program uploaded to the RAM and processed by the CPU.
The information storage means 200 provided in the server device 20 is configured by a storage device.
The server device 20 also includes an information receiving unit 202 that receives the ID code and the inspection result information, and an information management unit that stores the ID code and the inspection result information associated with the ID code received by the information receiving unit 202 in the information storage unit 200. Means 201.

The information receiving unit 202 outputs the ID code and the inspection result information received from the terminal devices 11 to 1 m via the network 30 to the information management unit 201.
When the ID code and the inspection result information are input from the information receiving unit 202, the information management unit 201 associates them with each other to create a database and stores it in the information storage unit 200.

Further, in this embodiment, the server device 20 receives an ID code transmitted from the information acquisition unit 102 via the network 30 and searches for inspection result information corresponding to the ID code (not shown). And information transmitting means (not shown) for transmitting the searched inspection result information to the terminal devices 11 to 1m.
The functions of the information management means 201, the information reception means 202, the means for searching for inspection result information, the information search means and the information transmission means (not shown ) are stored in the storage device, uploaded to the RAM, and executed by the CPU. It is realized by the program.

Next, the operation of the inspection process management system according to the present embodiment having the above-described configuration will be described with reference to the flowcharts shown in FIGS.
In the present embodiment, the first to m-th inspection steps for the article are sequentially performed from the first inspection step.

Here, when the article is transferred from the n-1th inspection process to the nth inspection process, the inspection worker in the nth inspection process accepts the article (S1-1), and the nth inspection process. The ID code of the article is input using the identification information input means 101 of the terminal device 1n (S1-2).
When the ID information is input to the identification information input unit 101 (S2-1), the information acquisition unit 102 of the nth terminal device 1n accesses the server device 20 and transmits the ID code.
When the server apparatus 20 receives the ID code from the nth terminal apparatus 1n, the server apparatus 20 refers to the inspection result information of the inspection process prior to the nth inspection process corresponding to the ID code from the database of the information storage means 200 (S2). -3). Next, the server device 20 transmits the inspection result information that has been referred to the terminal device 1n that has transmitted the ID code (S2-4).

The nth terminal device 1n displays the inspection result information for the ID code input from the server device 20 on the display means 105 (S2-5).
The inspection worker visually inspects the display of the display means 105, and thus the inspection of the article is performed in the inspection process (in this embodiment, the (n-1) th inspection process) before the nth inspection process. It is determined whether or not (S1-3).
When the inspection of the article has been performed in the n-1th inspection process (S1-3 Yes), the inspection operator performs the inspection in the nth inspection process, and the inspection result of this inspection is input to the inspection information input means 103. (S1-4).

When the inspection result is input from the inspection information input unit 103 (S2-7), the n-th terminal device 1n displays the inspection result, the information generation unit 100 generates the result information, The information transmission means 104 transmits the inspection result information together with the identification information to the server device 20 (S2-8).
In addition, when the input inspection result satisfies a predetermined standard (S2-12OK), the nth terminal device 1n displays on the display means 105 that it is sent to the (n + 1) th inspection process (S2-10).

Further, when the inspection result does not satisfy the predetermined standard (S2-12NG), the terminal device 1n displays that effect (S2-13).
The inspection operator visually checks the inspection result information displayed on the display means 105. When the inspection result is good (S1-5OK), the inspection operator transfers the article to the (n + 1) th inspection step, and the inspection result is poor. (S1-5NG), it is excluded from the subsequent inspection lines because there is a problem.

When the inspection worker visually recognizes the display on the display means 105 and determines that the (n-1) th inspection step is not performed (No in S1-3), the inspection worker is used as the n-1th inspection step. Return (S1-8).
On the other hand, when the information receiving unit 202 of the server device 20 receives the identification information and the inspection result information from the terminal device 1n, the information management unit 201 associates them and stores them in the database of the information storage unit 200 (S2-9). .
In this way, in the other inspection processes, the inspection operator performs the inspection in the same manner as the above-described nth inspection process.

  As described above, in the inspection process management system according to the present embodiment, the information acquisition unit 102 has the inspection result of the inspection process before the inspection process corresponding to the terminal devices 11 to 1m from the information storage unit 200 of the server device 20. Since information is acquired and the display means 105 performs a predetermined display based on the inspection result information, whether or not the inspection operator has completed the inspection process prior to the inspection process corresponding to the terminal devices 11 to 1m. Can be recognized. Thereby, even if there is an inspection work mistake of the inspection worker, each article can be reliably inspected in each inspection process. Therefore, it is possible to prevent a defective product from flowing out.

  Moreover, since this inspection process management system is installed by arranging the terminal devices 11 to 1m and the server device 20 in an existing inspection environment, the inspection process management system can be integrated into a single location. Can be installed with little change. Thereby, introduction at low cost becomes possible.

  Further, since the information acquisition unit 102 acquires the inspection result information in the information storage unit 200 based on the ID code unique to the article input by the identification information input unit 101, the inspection process corresponding to each terminal device 11 to 1m. Previous inspection result information can be reliably provided to the inspection operator.

  Further, in the inspection process management system, in the terminal devices 11 to 1m, the information transmission unit 104 stores the inspection result information of the article in the inspection process created by the information creation unit 100 and the ID code input by the identification information input unit 101. Since the ID code and the inspection result information transmitted to the device 20 and received by the information receiving unit 202 in the server device 20 are stored in the information storage unit 200 in association with each other by the information management unit 201, the information acquisition unit 102 Inspection result information can be easily acquired.

Further, since the information creation unit 100 creates the inspection result information based on the information input by the inspection information input unit 103, the inspection result information can be easily managed.
Since the display means 105 performs a predetermined display based on the inspection result information, the inspection operator can recognize the presence or absence of the inspection result information of the inspection process prior to the inspection process corresponding to the terminal devices 11 to 1m.
Moreover, since the display means 105 displays the inspection result information of the inspection process corresponding to each of the terminal devices 11 to 1m, the determination means for determining the inspection process in which the inspection result information is not executed in the terminal devices 11 to 1m, for example. Is particularly effective when the number of inspection processes on the inspection line is small.

  In addition, even if the inspection worker is switched in the middle of the inspection procedure included in each inspection process, the inspection worker can complete up to which inspection process by visually checking the inspection result information displayed on the display means 105. It is possible to check whether the same inspection process is performed, and it is possible to save time and to improve the work efficiency of the inspection. Further, it is possible to greatly reduce the possibility that the inspection will be completed when the inspection of the article is not completed.

Next, the inspection process management system according to the second embodiment of the present invention will be described with reference to FIGS. 1 and 5 to 7.
FIG. 5 is a schematic block diagram showing a terminal device of the inspection process management system according to the present embodiment. FIG. 6 is a configuration diagram of the inspection process management system according to the present embodiment.
In the inspection process management system of the present embodiment, the same reference numerals are assigned to the same components as those in the first embodiment.

As shown in FIGS. 1, 5, and 6, the inspection process management system is a system in which an inspection target is used for an inspection line for a part for a predetermined electrical device, for example, as in the above embodiment. Terminal devices 11 to 1m are provided in each of the first to m-th inspection steps (see FIG. 1).
The terminal devices 11 to 1m include an inspection unit 106 that performs inspection by transmitting and receiving a predetermined inspection signal to and from an inspection target, and a determination unit 108 that determines whether or not there is an uninspected inspection process. When there is, there is a difference from the first embodiment in that the display means 105 displays the inspection process to be received.

  As illustrated in FIG. 6, the terminal devices 11 to 1 m are computers, and include a CPU unit 60, a memory unit 61, a storage device unit 62, and a communication unit 66 connected to the network 30. Further, the terminal devices 11 to 1 m include an image output unit 63 that displays a predetermined display screen on the display 64 that is the display unit 105, and an input device 67 as the identification information input unit 101 that inputs identification information.

The terminal devices 11 to 1m include a terminal-side control I / F unit 65. The terminal-side control I / F unit 65 is connected to the inspection target side control I / F unit 71 included in the inspection target.
These control I / F units 65 and 71 include, for example, connectors such as serial transfer methods such as PCI-Express and RS-232, parallel transfer methods such as PCI, SCSI, and IEEE, not shown.
In the present embodiment, the inspection target is a function expansion board 70 of a computer provided with a PCI-Express connector as the inspection target side control I / F 71, for example, and the identification information is This is a serial number assigned to the function expansion board 70. The terminal-side control I / F 65 is a PCI-Express port to which the terminal-side control I / F 65 of the function expansion board 70 can be connected.

The inspection function of the inspection means 106 is to transmit / receive a predetermined inspection signal via the terminal side control I / F unit 65 and the inspection target side control I / F unit 71 and is stored in the storage device unit 62. This is realized by a program uploaded to the memory unit 61 and executed by the CPU unit 60.
The inspecting means 106 inspects whether or not the function expansion board 70 operates normally by inputting and outputting a predetermined electrical signal to the function expansion board 70. In addition, the information creation unit 100 according to the present embodiment creates inspection result information based on the inspection result obtained by the inspection unit 106.

The determination unit 108 performs an inspection process prior to the inspection process corresponding to the terminal devices 11 to 1 m based on the inspection result information acquired by the information acquisition unit 102 before the inspection of the function expansion board 70 by the inspection unit 106. It is determined whether it has been implemented or not implemented.
Then, when the previous inspection process is not performed, the determination unit 108 causes the display unit 105 to display that effect.

The information acquisition unit 102, the inspection unit 106, and the determination unit 108 of the terminal devices 11 to 1m are realized by an inspection process program that is uploaded to the RAM and executed by the CPU. The inspection process program is stored in the storage devices of the terminal devices 11 to 1m.
The inspection process program is activated when a serial number is input from the input device 67 of the terminal device 11 to 1m before the inspection is performed.
The inspection program performs a necessary inspection on the function expansion board 70 in the inspection process.

  The inspection program transmits a serial number to the server device 20, receives inspection result information corresponding to the transmitted serial number stored in the server device 20, and outputs image display information based on the inspection result information to the image output unit 63. Is output to the display 64 to display an image.

Next, the operation of the inspection process management system of this embodiment will be described using the flowcharts shown in FIGS.
As the work performed by the inspection operator in the inspection process, when the function expansion board 70 is transferred from the (n−1) -th inspection process to the n-th inspection process, as in the first embodiment, The worker accepts the function expansion board 70 and connects to the nth terminal device 1n and the control I / F units 65 and 71 of the function expansion board 70 (S3-1). Then, the serial number of the function expansion board 70 is input using the input device 67 of the nth terminal device 1n (see FIG. 7 , S3-2).

  When a serial number is input to the input device 67 (S4-1), the nth terminal device 1n starts an inspection program corresponding to the serial number and executes it with the CPU 60. Then, the terminal device 1n refers to the inspection result stored in the server device 20 (S4-2 to S4-4), and displays the inspection result information corresponding to the serial number on the display 64 of the terminal device 1n ( S4-5).

The inspection program executed by the terminal device 1n determines the next necessary inspection process based on the inspection result information.
That is, since the n-th terminal device 1n has been subjected to the (n-1) -th inspection process (S4-6 Yes), the necessary inspection process for the function expansion board 70 is the n-th inspection process. The inspection program advances the inspection of the function expansion board 70 in the n-th inspection process (S4-7), causes the display 64 to display the inspection result of the n-th inspection process, and automatically displays the inspection result on the server device 20. (S4-8). If the inspection result is good (S4-12OK), the display 64 displays that the process proceeds to the (n + 1) th inspection process (S4-10).

  The inspection operator visually confirms this and transfers the function expansion board 70 to the (n + 1) th inspection step (S3-5OK, S3-6). On the other hand, if the inspection result of the function expansion board 70 is defective (S4-12NG), the terminal device 1n displays that fact on the display 64 (S4-13). The inspection operator visually recognizes this display (S3-5NG), and excludes the function expansion board 70 from the inspection line as having an inspection problem (S3-7).

  Further, when the terminal device 1n is not subjected to the (n-1) th inspection process (No in S4-6), the necessary inspection process for the function expansion board 70 is the (n-1) th inspection process. The necessary n-1th inspection process is displayed on the display 64, and the inspection program is terminated (S4-11). Then, the inspection operator visually checks the display 64 to return the function expansion board 70 to the n-1th inspection step (S3-8).

As described above, in the inspection process management system according to the present embodiment, the inspection unit 106 transmits and receives a predetermined inspection signal to the function expansion board 70 to perform the inspection, and the information creation unit 100 performs the inspection by the inspection unit 106. Since the inspection result information is created based on the result of the inspection, the inspection can be automated and the inspection work can be made efficient.
That is, the inspection process management system includes an inspection program for each inspection process in the terminal devices 11 to 1m of each inspection process, and by executing this inspection program, all inspection processes for the function expansion board 70 are performed. It can proceed smoothly.

  Further, the determination means 108 of the terminal devices 11 to 1m determines the presence or absence of an unimplemented inspection process based on the inspection result information acquired by the information acquisition means 102, and the determination means 108 has an unimplemented inspection process. When the determination is made, the display 64 displays the inspection process to be received, so that the inspection operator does not have to proceed with the next inspection manually after seeing the inspection result information displayed on the display 64. Become. Therefore, simple operation mistakes can be reduced.

  The inspection process management system, terminal device, server device, inspection process management method, and inspection process management program of the present invention have been described with reference to the preferred embodiments, but the inspection process management system, terminal device, and server according to the present invention have been described. The apparatus, the inspection process management method, and the inspection process management program are not limited to the above-described embodiments, and it goes without saying that various modifications can be made within the scope of the present invention.

For example, in the embodiment, the inspection target is described as an electric device such as a television, a computer, and a function expansion board, but may be any object such as plants, fruits and vegetables, food, and clothes.
Further, the identification information is an ID code and a serial number. However, the identification information is not limited to this, and may be anything unique to each article.
Further, the identification information may not be unique to each article, but may be given for each production unit such as a lot number. In this case, it is preferable that the inspection object to be inspected on the inspection line is transferred together as a set of articles having the same lot number.
Further, although the inspection means is connected to the article by wire, it is not limited to this, and any inspection means can be used as long as it can transmit and receive a predetermined inspection signal such as wireless communication or X-ray.
Further, in each inspection process, when the previous inspection process has not been received, it is returned to the inspection process. However, it may be returned to any previous inspection process.

Further, the notification means is a display means for performing a predetermined display. However, any notification means may be used as long as it can perform notification based on the inspection result information, for example, a speaker for voice notification or a vibration notification. It may be a vibrator or the like.
In the second embodiment, the terminal side control I / F unit and the inspection target side control I / F unit are directly connected. However, for example, the terminal side control I / F unit may be connected via a cable.
In addition, the inspection process management system may be a mixture of the terminal devices of the above-described embodiments, and may be appropriately changed in design.

It is a schematic structure figure showing an inspection process management system concerning a first embodiment of the present invention. In the inspection process management system according to the first embodiment of the present invention, (a) is a functional block diagram showing a terminal device and (b) a server device. In the inspection process management system which concerns on 1st embodiment of this invention, it is a flowchart figure which shows the work procedure of an inspection worker. It is a flowchart figure which shows operation | movement of the test | inspection process management system which concerns on 1st embodiment of this invention. It is a functional block diagram of the terminal device of the inspection process management system concerning a second embodiment of the present invention. It is a block diagram of the terminal device of the inspection process management system which concerns on 2nd embodiment of this invention. It is a flowchart figure which shows the work procedure of the inspection worker of the inspection process management system which concerns on 2nd embodiment of this invention. It is a flowchart figure which shows operation | movement of the test | inspection process management system which concerns on 2nd embodiment of this invention.

Explanation of symbols

11 to 1 m Terminal apparatus 100 Information creation means 101 Identification information input means 102 Information acquisition means 103 Inspection information input means 104 Information transmission means 105 Display means 106 Inspection means 108 Determination means 20 Server apparatus 200 Information storage means 201 Information management means 202 Information reception Means 30 Network 60 CPU unit 61 Memory unit 62 Storage unit 63 Image output unit 64 Display 65 Terminal side control I / F unit 66 Communication unit 67 Input device 70 Function expansion board 71 Inspection target side control I / F unit

Claims (7)

A terminal device arranged corresponding to a plurality of inspection processes for a predetermined inspection object, and a server apparatus having information storage means for storing inspection result information of each inspection process,
The inspection object and the terminal device are connected to each other via an I / F unit,
The terminal device is
While storing the inspection process program for the inspection object in a storage device,
Identification information input means for inputting unique identification information attached to the inspection object;
Information acquisition means for acquiring inspection result information of an inspection process prior to the inspection process corresponding to the terminal device from the information storage means of the server device;
Notification means for performing a predetermined notification based on the inspection result information acquired by the information acquisition means;
Inspection means for performing inspection by transmitting and receiving a predetermined inspection signal to the inspection object via the I / F unit;
Based on the inspection result information acquired by the information acquisition means, a determination means for determining the presence or absence of an unimplemented inspection process;
Information creating means for creating the inspection result information of the inspection object in the inspection process corresponding to the terminal device;
Information transmission means for transmitting the inspection result information created by the information creation means and identification information corresponding to the inspection object input by the identification information input means to the server device;
The information acquisition means acquires the inspection result information based on the identification information input by the identification information input means,
When the identification information input unit inputs unique identification information to be inspected by the identification information input unit, the inspection process program starts the inspection program corresponding to the identification information, and performs the inspection by the inspection unit and the determination. Automatic determination by means,
The information creation means creates the inspection result information based on the result of the inspection performed by the inspection means,
When the determination means determines that there is an unexecuted inspection process, the notification means notifies the inspection process to be received,
The server device is
Information receiving means for receiving the identification information and the inspection result information;
Information management means for storing the identification information received by the information receiving means and the inspection result information associated with the identification information in the information storage means;
An inspection process management system comprising: The terminal device is
Comprising inspection information input means capable of inputting information relating to the inspection of the inspection object;
The information creation unit, the inspection process control system of claim 1, wherein creating the test result information on the basis of the information entered by the inspection information input means. The notification means, the inspection process control system according to claim 1 or 2, wherein notifying the inspection result information itself as the predetermined notification. The notification means, the inspection process control system according to any one of claims 1 to 3, comprising a display means for performing predetermined display based on the test result information. Are arranged corresponding to the plurality of inspection processes for a given test object, a connected Ru terminal device via the test object and the I / F unit,
While storing the inspection process program for the inspection object in a storage device,
Identification information input means for inputting unique identification information attached to the inspection object;
Information acquisition means for acquiring inspection result information of an inspection process prior to the corresponding inspection process, from information storage means for storing inspection result information of each inspection process included in the server device;
Notification means for performing a predetermined notification based on the inspection result information acquired by the information acquisition means;
Inspection means for performing inspection by transmitting and receiving a predetermined inspection signal to the inspection object via the I / F unit;
Based on the inspection result information acquired by the information acquisition means, a determination means for determining the presence or absence of an unimplemented inspection process;
Information creating means for creating the inspection result information of the inspection object in the inspection process corresponding to the terminal device;
Information transmission means for transmitting the inspection result information created by the information creation means and identification information corresponding to the inspection object input by the identification information input means to the server device;
The information acquisition means acquires inspection result information based on the identification information input by the identification information input means,
When the identification information input unit inputs unique identification information to be inspected by the identification information input unit, the inspection process program starts the inspection program corresponding to the identification information, and performs the inspection by the inspection unit and the determination. Automatic determination by means,
The information creation means creates the inspection result information based on the result of the inspection performed by the inspection means,
The terminal device characterized in that when the determination means determines that there is an unexecuted inspection process, the notification means notifies the inspection process to be received . In multiple inspection processes for a given inspection object,
Connecting the I / F unit to the inspection object, a terminal device storing the inspection process program for the inspection object in a storage device;
An identification information input step for inputting unique identification information attached to the inspection object;
An information acquisition step of acquiring the inspection result information of the inspection process prior to the inspection process to be executed from the information storage means of the server device in which the inspection result information of each inspection process is stored;
A notification step of performing a predetermined notification based on the inspection result information acquired in the information acquisition step ;
An inspection step of performing inspection by transmitting and receiving a predetermined inspection signal to the inspection object via the I / F unit;
Based on the inspection result information acquired in the information acquisition step, a determination step of determining the presence or absence of an unimplemented inspection process;
An information creating step for creating inspection result information of the inspection object in the inspection process corresponding to the terminal device;
An information transmission step of transmitting to the server device identification information corresponding to the inspection object input in the identification result input step and the identification information input step created in the information creation step;
By the information acquisition step, based on the identification information input in the identification information input step, to acquire inspection result information,
When unique identification information attached to the inspection object is input by the identification information input step by the inspection process program, the inspection program corresponding to the identification information is activated to perform the inspection and the determination by the inspection step. The judgment by the step is automatically executed,
The information creation step creates the inspection result information based on the result of the inspection performed in the inspection step,
An inspection process management method , wherein when the determination step determines that there is an inspection process that has not been performed, the notification step notifies the inspection process to be received . Arranged for each of the plurality of inspection processes for a given test object, an attached Ru terminal device via the test object and the I / F unit,
Storage means for storing an inspection process program for the inspection object;
Identification information input means for inputting unique identification information attached to the inspection object;
Information acquisition means for acquiring the inspection result information of the inspection process prior to the inspection process corresponding to the terminal device from the information storage means provided in the server device,
Notification means for performing predetermined notification based on the inspection result information acquired by the information acquisition means;
Inspection means for performing inspection by transmitting / receiving a predetermined inspection signal to / from the inspection object via the I / F unit,
Based on the inspection result information acquired by the information acquisition means, a determination means for determining the presence or absence of an unexecuted inspection process,
Information creating means for creating test result information of the test object in the test process corresponding to the terminal device;
While functioning as information transmission means for transmitting the inspection result information created by the information creation means and identification information corresponding to the inspection object input by the identification information input means to the server device ,
Based on the identification information input by the identification information input unit, the information acquisition unit is configured to acquire inspection result information,
When unique identification information attached to the inspection object is input by the identification information input means by the inspection process program, the inspection program corresponding to the identification information is started and the inspection by the inspection means and the determination are performed. Automatic determination by means,
Causing the information creation means to create the inspection result information based on the result of the inspection performed by the inspection means;
An inspection process management program for causing the notification means to notify the inspection process to be received when the determination means determines that there is an unexecuted inspection process.

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