JP2015188284A - Terminal, server, work support system and work support method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a support system for solving a problem of a wire connection check system of Patent Document 1 that a wire connection work of a laying worker cannot be sufficiently alleviated.SOLUTION: A work support system has a terminal and a server connected to the terminal. The terminal has a transmitter for transmitting a first identifier which is read out from a mark appended to a cable and corresponds to the cable, and a display unit for displaying, on a screen of the terminal, information which is returned in response to the transmission and represents an installation place of an electronic product to be connected to the cable. The server has a data base for storing the first identifier corresponding to the cable and the information representing the installation place of the electronic product to be connected to the cable in association with each other, reads out the information representing the installation place of the electronic product corresponding to the received first identifier from the data base, and transmits the information.

Description

  The present invention relates to a terminal, a server, a work support system, and a work support method, and more particularly to a terminal, a server, a work support system, and a work support method that support cable connection work.

Generally, a laying operator connects a cable such as an optical fiber to the information processing apparatus. However, there is a problem that a laying operator with little experience takes time to confirm whether the cable is connected to an appropriate information processing apparatus. This is because the laying operator visually confirms whether the laying worker is connected to an appropriate information processing apparatus while comparing it with a design drawing (construction drawing).
The following Patent Document 1 is disclosed as a technique for solving the above-described problems.

  The connection check system of Patent Document 1 reads and associates an electrical device identification number and a cable identification number from the image data of the electrical device to which the cable is connected, and performs matching between the associated data and the design data. Determine the correctness of the work. The connection check system of Patent Literature 1 may determine whether the cable identification number associated with the identification number of the electrical device is as designed data, as the above-described correct / incorrect determination. The identification numbers of the electric device and the cable are displayed in advance on the electric device and the cable.

  As described above, the connection check system disclosed in Patent Document 1 can instantly determine whether the connection work is correct or not, unlike visual inspection. As a result, the laying operator can confirm the connection work performed by himself / herself in a short time.

JP 2011-130552 A

  However, the connection check system of Patent Document 1 has a problem that the connection work of the laying operator is not sufficiently reduced. This is because the connection check system of Patent Document 1 discriminates the correctness of the connection after the connection between the electrical device and the cable, and does not guide the laying operator to connect the cable to the appropriate electrical device. Because.

  Therefore, the laying operator who uses the connection check system of Patent Document 1 may mistake the connection because there is no guidance. In this case, it is determined that the connection is wrong (by the connection check system of Patent Document 1). I had to redo the connection. The connection check system of Patent Document 1 that requires reconnection is not sufficiently reduced in the connection work of the laying operator.

  It is an object of the present invention to provide a terminal, a server, a work support system, and a work support method that solve the above problems.

  In order to achieve the above object, the terminal of the present invention includes a transmitter that transmits a first identifier corresponding to the cable read from a sign attached to the cable, and the cable that is returned in response to the transmission. And a display unit that displays information indicating the installation location of the electrical product to which it is connected on a screen provided in itself.

  In order to achieve the above object, the server of the present invention includes a database that stores a first identifier corresponding to a cable and information indicating an installation location of an electrical product to which the cable is connected, and stores the database. Information indicating the installation location of the electrical product corresponding to the first identifier is read from the database and transmitted.

  In order to achieve the above object, in the work support system of the present invention, a terminal and a server are connected, and the terminal transmits a first identifier corresponding to the cable read from a sign attached to the cable. And a display unit that displays information indicating the installation location of the electrical product to which the cable is connected, which is returned in response to the transmission, on a screen provided in the terminal, and the server includes a cable And a database for storing information indicating the installation location of the electrical product to which the cable is connected, and the installation location of the electrical product corresponding to the received first identifier. Is a server that reads information from the database and transmits it.

  In order to achieve the above object, the work support method of the present invention includes a reading step of reading a first identifier corresponding to the cable from a mark given to the cable, and an installation location of the electrical product to which the cable is connected. A storage step of storing the information to be associated with the first identifier, and reading the first identifier in the reading step, the information indicating the installation location corresponding to the first identifier, Acquired from the information stored in the storage process and displayed.

  According to the present invention, the work support system can sufficiently reduce the wiring work of the laying worker.

It is a figure which shows the structural example of the work assistance system in the 1st Embodiment of this invention. It is a figure which shows the structural example of the information processing apparatus and cable which the work assistance system in the 1st Embodiment of this invention handles. It is a figure which shows an example of the apparatus information registered into the server 20 of the work assistance system in the 1st Embodiment of this invention. It is a figure which shows an example of the connection diagram information registered into the server 20 of the work assistance system in the 1st Embodiment of this invention. It is a figure for demonstrating operation | movement (operation | movement which produces a connection diagram) of the work assistance system in the 1st Embodiment of this invention. It is a figure which shows an example of the external appearance image relevant data produced | generated in the process in which the work assistance system in the 1st Embodiment of this invention produces a connection diagram. It is a figure for demonstrating operation | movement (operation | movement which creates connection diagram information from a connection diagram, and registers it with the server 20) in the 1st Embodiment of this invention. It is a figure for demonstrating operation | movement (operation | movement which provides an operator the installation place of the information processing apparatus to which a cable is connected) in the 1st Embodiment of this invention. It is a figure which shows another structural example (the structural example in case there exist multiple connection terminals in an information processing apparatus) of the work assistance system in the 1st Embodiment of this invention. It is a figure for demonstrating operation | movement (operation | movement which provides a worker the position of the connection terminal to which a cable is connected) of the work assistance system in the 1st Embodiment of this invention. It is a figure which shows the structural example of the work assistance system in the 2nd Embodiment of this invention.

  Next, embodiments of the present invention will be described in detail with reference to the drawings.

<< First Embodiment >>
[Overview]
The work support system according to the first embodiment of the present invention is a system that guides an operator to connect a cable to an appropriate information processing apparatus.

  For this purpose, the work support system according to the present embodiment reads an identifier indicating the cable from an AR (Augmented Reality) marker attached to the cable. Furthermore, the work support system of the present embodiment acquires information indicating the installation location of the information processing apparatus to which the cable is connected from the database, using the identifier indicating the read cable as a key.

  In the database, an identifier indicating a cable and information indicating an installation location of an information processing apparatus to which the cable is connected are registered in association with each other. The information indicating the installation location described above may be, for example, information indicating the mounting position of the information processing apparatus in the rack or the mounting position.

  The work support system according to the present embodiment displays the acquired information indicating the installation location of the information processing apparatus (for example, the mounting position in the rack) on the screen of the portable terminal held by the worker.

  As a result, the worker knows to which information processing apparatus the cable can be connected. That is, the work support system guides the worker so that the cable can be connected to an appropriate information processing apparatus.

  The configuration, function, and operation of the work support system according to the first embodiment of the present invention will be described below.

[Description of configuration]
First, the configuration and function of the work support system according to the first embodiment of the present invention will be described.

(1) Configuration of Work Support System in First Embodiment of the Present Invention FIG. 1 is a diagram showing a configuration example of a work support system in the first embodiment of the present invention.

  As shown in FIG. 1, the work support system according to the present embodiment includes a mobile terminal 10 and a server 20.

  The mobile terminal 10 includes a display 11 and a camera 12. The mobile terminal 10 also includes connection diagram creation software 13 and insertion / extraction support software 14. The server 20 includes databases 21 and 22.

  The mobile terminal 10 is connected to the server 20 via a wireless line.

(2) Configuration of Information Processing Device and Cable The configuration of the information processing device and the cable handled by the work support system of this embodiment will be described. FIG. 2 is a diagram illustrating a configuration example of an information processing apparatus and a cable handled by the work support system according to the first embodiment of the present invention.

(2-1) Configuration of Information Processing Device 30 and Rack 40 The information processing device 30 handled by the work support system of this embodiment includes a connection terminal 31 as shown in FIG. The connection terminal 31 is a general connection port and can be connected to the connection terminal 51 of the cable 50.

  The information processing apparatus 30 is provided with an AR marker 32. The AR marker 32 is given by the administrator of the work support system of this embodiment.

  Further, the information processing apparatus 30 is accommodated in the rack 40.

  The rack 40 is a general rack. The rack 40 may be a 19 inch rack. An AR marker 41 is given to the rack 40 by the administrator of the work support system of the present embodiment.

(2-2) Configuration of Cable 50 The cable 50 includes a connection terminal 51. The connection terminal 51 is a general connection port and can be connected to the connection terminal 31 of the information processing apparatus 30. The AR marker 52 is given to the cable 50 by the administrator of the work support system of this embodiment.

(2-3) AR marker The image pattern of each AR marker 32, 41, 52 is different.

(3) Functions of Mobile Terminal 10 Since the mobile terminal 10 includes the connection diagram creation software 13 and the insertion / extraction support software 14, each function will be described below.

(3-1) Function of Insertion / Removal Support Software 14 First, the insertion / removal support software 14 reads an identifier indicating the cable 50 from the AR marker 52 attached to the cable 50 and transmits it to the server 20.

  Further, when information indicating the installation location of the information processing apparatus 30 (to which the cable 50 is connected) is returned from the server 20, the insertion / extraction support software 14 displays the returned information on a screen provided in the mobile terminal 10.

  In order to realize the above-described functions, the insertion / extraction support software 14 has four functions of an analysis module 140, a search module 141, an information display module 142, and a determination display module 143 (not shown). The operation of the four functions will be described in detail in [Description of operation] described later.

(3-2) Function of Connection Diagram Creation Software 13 The server 20 (database 22) associates an identifier indicating the cable 50 with information indicating an installation location of the information processing apparatus 30 to which the cable 50 is connected. The registered information (hereinafter referred to as “connection diagram information”) is registered.

  The connection diagram information is registered in the server 20 by the connection diagram creation software 13. In order to register the connection diagram information, the connection diagram creation software 13 has the following functions.

  First, the connection diagram creation software 13 reads an identifier indicating a cable and an identifier indicating an information processing device from the AR markers 41 and 52 assigned to the cable 50 and the information processing device 30.

  The connection diagram creation software 13 transmits an identifier indicating the read cable and an identifier indicating the information processing apparatus to the server 20, and displays the image of the cable and the image of the information processing apparatus returned from the server 20. It is displayed on the drawing screen activated by the figure software. The well-known drawing software may be VISIO (registered trademark). In this case, the above-described cable image and information processing apparatus image are stencil images.

  The image displayed on the drawing screen is operated by an operator and used to create a connection diagram. The connection diagram is a diagram showing a connection relationship between the cable and the information processing apparatus. Two overlapping images indicate that they are connected to each other.

  When a signal indicating that the creation of the connection diagram is completed is input, the connection diagram creation software 13 creates the above-described connection diagram information from the connection diagram, and transmits the created connection diagram information to the server 20.

  The specific procedure for creating the connection diagram information from the connection diagram will be described later in [Description of Operation]. The connection diagram creation software 13 includes an analysis module 130, a search module 131, an editing module 132, and a connection diagram. Create and register using the four functions of the creation module 133.

(3-3) Display 11 and Camera 12 of Mobile Terminal 10 The display 11 and the camera 12 are a display and a camera provided in a general mobile terminal. The display 11 may be a head mounted display.

(4) Functions of Databases 21 and 22 of Server 20 (4-1) Functions of Database 21 Device information is registered in advance in the database 21 of the server 20 by the administrator of the work support system of the present embodiment. The device information is a collection of connection diagrams and information necessary for creating the connection diagram information, and is used by the connection diagram creation software 13.

  As shown in FIG. 3, the device information includes, for each product to which an AR marker is attached, an identifier a indicating the type of product (that is, one of a cable, an information processing device, and a rack), and an appearance image of the product. It is a table in which data and product attribute data are associated with each other.

  In the following description, it is assumed that the identifier a indicating the cable is the identifier a1, the identifier a indicating the information processing apparatus is the identifier a2, and the identifier a indicating the rack is the identifier a3. The identifiers a1, a2, and a3 described above may be product model numbers.

  The attribute data described above is data related to the product, and may be, for example, the size of the product. The above-described appearance image data is a product image file.

  When the identifier a (any one of a1, a2, and a3) is input, the database 21 of the server 20 uses the identifier a as a key and the appearance image data of the product related to the identifier a and the attribute data from the device information. Search and output.

(4-2) Function of Database 22 FIG. 4 is a diagram illustrating an example of connection diagram information registered in the server 20.

  Connection diagram information is registered in the database 22 of the server 20 by the connection diagram creation software 13.

  As shown in FIG. 4, the connection diagram information is an association between an identifier indicating a cable and information indicating an installation location of an information processing apparatus to which the cable is connected (hereinafter referred to as “installation location information”). It is. Further, an identifier indicating the information processing apparatus to which the cable is connected (hereinafter referred to as “connection destination identifier”), appearance image data of the information processing apparatus, and attribute data of the information processing apparatus are associated with the connection diagram information.

  In FIG. 4, b <b> 1 is described as an identifier indicating the cable, but this b <b> 1 is an identifier indicating the cable 50. Furthermore, although b2 is described as the connection destination identifier, b2 is an identifier indicating the information processing apparatus 30.

  The identifiers b1 and b2 described above may be the sequence numbers of the cable 50 and the information processing apparatus 30. The installation location information described above is information indicating the mounting position in the rack 40 and the mounting position of the information processing apparatus 30.

  When the identifier b1 or b2 is input, the database 22 of the server 20 reads information related to the identifier (installation location information, etc.) from the connection diagram information and outputs it. Although not shown in FIG. 4, b3 is an identifier indicating the rack 40 below.

(4-3) Function of Server 20 When the server 20 receives the identifier a (that is, any one of the identifiers a1, a2, and a3) received from the connection diagram creation software 13, the server 20 inputs the received identifier into the database 21. The information output from the database 21 is output to the connection diagram creation software 13.

  When the server 20 receives the identifier b (that is, one of the identifiers b1 and b2) from the insertion / extraction support software 14, the server 20 inputs the received identifier into the database 22, and outputs the information output from the database 22 to the insertion / extraction support software 14. To do.

[Description of operation]
(1) Outline Description The work support system of the present embodiment performs the following flow 1 to flow 3. Flow 1 is a step of creating a connection diagram, and flow 2 is a step of creating the above-described connection diagram information from the connection diagram and registering it in the database 22 of the server 20. Flow 3 is a process of displaying the installation location (mounting position) of the information processing apparatus to which the cable is connected on the screen of the mobile terminal 10. When the work support system performs the flow 1 to the flow 3, the worker knows to which information processing apparatus the cable may be connected.

  Furthermore, as shown in FIG. 9, the information processing apparatus may include a plurality of connection terminals to which a cable can be connected. FIG. 9 shows a case where the information processing apparatus 30 includes a connection terminal 33 in addition to the connection terminal 31. In that case, the work support system according to the present embodiment may execute the flow 4. Flow 4 is a process of displaying a connection terminal for connecting a cable on the screen of the mobile terminal 10. When the work support system according to the present embodiment performs the flow 4, the worker can know which connection terminal of which information processing apparatus may connect the cable.

  When the above connection diagram information is registered in the database 22 in advance, the work support system of this embodiment may omit the flow 1 and the flow 2. In the work support system of the present embodiment, the flow 3 must be performed. The most important thing in the work support system of this embodiment is the flow 3. The reader of this specification will consider the connection diagram information shown in “(2-3) Connection diagram information”, which will be described later, in the database 22 in advance. You can also read books.

  Hereinafter, the operation of the work support system of the present embodiment will be described in detail from Flow 1. The description uses FIGS.

(1) Flow 1 (process for creating a connection diagram)
A process of creating a connection diagram will be described.

  In this process, the connection diagram creation software 13 reads the image of the cable or the information processing device from the database 21 (device information) using the AR marker image as a key, and on the drawing screen activated by the well-known drawing software. To display. The well-known software may be, for example, VISIO (registered trademark). In this case, the above-described cable image and information processing apparatus image are stencil images.

  The operator can create a connection diagram by manipulating the image displayed on the drawing screen.

(1-1) Shooting of AR Marker First, the operator activates the connection diagram creation software 13 of the mobile terminal 10 before connecting the cable 50 to the information processing device 30, and is not shown. 12, the AR markers 32, 52, and 41 are photographed.

  At this time, as shown in FIG. 5, the camera 12 transmits the captured image data of the AR markers 32, 52, and 41 to the analysis module 130 of the connection diagram creation software 13 (S1).

(1-2) Reading of product identifiers a and b corresponding to image data Next, when the analysis module 130 receives the image data of the AR markers 32, 41, and 52 from the camera 12, the analysis module 130 extracts the AR from the received image data. An identifier a indicating the type of product to which the markers 32, 41 and 52 are assigned and an identifier b indicating the product are read (S2).

  Specifically, the identifiers a and b described above are set in advance in the analysis module 130 in association with the AR marker image data, and the analysis module 130 responds to each of the received image data 32, 41, and 52. The identifiers a and b to be obtained are obtained.

  Hereinafter, identifiers a1 and b1 are set in the analysis module 130 in association with the image data of the AR marker 52. The analysis module 130 obtains identifiers a1 and b1 corresponding to the received image data of the AR marker 52. The explanation will continue as if The identifier b1 is an identifier indicating the cable 50 (which is a product provided with the AR marker 52). The identifier a1 is an identifier that indicates a cable that is one of them (although there are several types of products to which an AR marker is attached, such as a cable, an information processing device, and a rack).

  Similarly, it is assumed that the analysis module 130 obtains identifiers a2 and b2 and identifiers a3 and b3 from the image data of the AR markers 32 and 41.

  The identifier a2 is an identifier indicating an information processing apparatus that is one of the types of products described above, and the identifier b2 is an identifier indicating the information processing measure 30 (a product to which the AR marker 53 is attached). The identifier a3 is an identifier indicating a rack that is one of the types of products described above, and the identifier b3 is an identifier indicating a rack 40 (which is a product to which the AR marker 41 is attached).

(1-3) Delivery of the read identifiers a and b between the parts Next, the analysis module 130 transmits the identifier a (a1, a2, a3) obtained in S2 described above to the search module 131, and The identifiers a and b (a1 and b1, a2 and b2, a3 and b3) obtained in S2 are associated and output to the editing module 132 (S3).

(1-4) Reading of Appearance Image Data Corresponding to Identifiers a and b Next, the search module 131 transmits the received identifier a (a1, a2, a3) to the server 20 (S4).

  Next, the server 20 inputs the received identifier a (a1, a2, a3) into the database 21 (S5).

  Next, the database 21 of the server 20 searches the appearance image data and attribute data of the product related to the identifier a (from the device information shown in FIG. 3) for each input identifier a (a1, a2, a3). Then, it is returned to the server 20 main body together with the identifier a (S6).

  The server 20 associates the appearance image data, the attribute data, and the identifier a returned from the database 21 and transmits them to the editing module 132 (S7).

(1-5) Result of Performing S5 to S7 As a result of performing S5 to S7, the server 20 transmits the identifier a1, the appearance image data of the cable, and the attribute data to the editing module 132. Similarly, the server 20 transmits the identifier a2, the appearance image data of the information processing apparatus, and the attribute data to the editing module 132, and transmits the identifier a3, the appearance image data of the rack 40, and the attribute data to the editing module 132.

  The data transmitted to the editing module 132 is hereinafter collectively referred to as “appearance image data and the like”.

(1-6) Output to Connection Diagram Creation Module 133 Next, as shown in FIG. 5, the editing module 132 displays the appearance image data received in S7 described above and the identifier a input in S3 described above. , B and outputs them to the connection diagram creation module 133 (S8).

  Specifically, the editing module 132 determines that the identifier a is the same as the identifier b (since the appearance image data received in S7 and the identifiers a and b input in S3 include the identifier a in common). And the appearance image data and the like are output to the connection diagram creation module 133.

  The identifiers a and b, the appearance image data, and the like output to the connection diagram creation module 133 are hereinafter referred to as “appearance image related data”.

  The identifiers a and b input in S3 are a1 and b1, a2 and b2, and a3 and b3. Since the appearance image data received in S7 is as described in (1-5), it is created in S8. The appearance image related data is as shown in FIG.

(1-7) Display of Appearance Image Data Next, when the appearance image related data is input, the connection diagram creation module 133 activates a well-known drawing software and displays the appearance image on the drawing screen of the software. The appearance image data included in the related data is displayed as an image (S9).

  If the well-known drawing software is VISIO, add the appearance image data (image file) to the My Shapes folder, or open the “Insert Picture” dialog and select the appearance image data. Displayed on the drawing screen, the above-described S9 is realized.

  The connection diagram creating module 133 assigns related appearance image related data as image attribute data for each image to be displayed in the above-described S9.

  As a result of the above-described S9 being performed, a cable image, an information processing device image, and a rack image are displayed on the screen of the mobile terminal 10. This is because the appearance image related data includes appearance image data of the cable, the information processing apparatus, and the rack, as shown in FIG.

(1-8) Creation of Connection Diagram The operator creates a connection diagram by moving the appearance image data on the drawing screen (S10).

  When a worker uses VISIO to connect a cable and an image of the information processing apparatus, the operator provides a connection pointer for each of the cable image and the image of the information processing apparatus. Glue the image. This is because the connection diagram creation module 133 can grasp that the cable and the information processing apparatus are connected in “(2) Flow 2” described later.

  The created connection diagram is displayed on the screen of the mobile terminal 10.

  The above is the operation of the flow 1. An operator can create a connection diagram without error because the operator creates the image while looking at the image of the cable to be connected and the information processing apparatus.

(2) Flow 2 (Step of registering connection diagram information in the database 22)
Next, when the connection diagram is completed, the operator presses a predetermined button (hereinafter referred to as “connection diagram registration button”) provided in the mobile terminal 10 as shown in FIG. 7 (S20).

  Next, when the connection diagram registration button is pressed, the mobile terminal 10 main body outputs a signal for instructing analysis of the connection diagram (hereinafter referred to as “analysis instruction”) to the connection diagram creation module 133 (S21).

  Next, when an analysis instruction is input, the connection diagram creation module 133 of the mobile terminal 10 analyzes the created connection diagram and creates connection diagram information from the connection diagram (S22).

  Specifically, the connection diagram creation module 133 performs the following (2-1) and (2-2).

  In the following (2-1) and (2-2), the image of the cable to be connected and the information processing apparatus is extracted from the connection diagram, and the attached data attached to the extracted image is associated, that is, the connection state Data is being converted. The following (2-3) specifically shows connection diagram information generated by performing (2-1) and (2-2).

(2-1) Connection State Data (2-1-1) Cable and Information Processing Device Connection Data First, the connection diagram creation module 133 is not shown when an analysis instruction is input. The generated connection diagram is analyzed to obtain a cable to be connected and an image of the information processing apparatus, and the obtained cable is associated with attribute data assigned to each image of the information processing apparatus.

  When a connection diagram is created using VISIO, the connection diagram creation module 133 performs processing shown in the following (I) to (V) to give each image of the cable to be connected and the information processing apparatus. Associated attribute data.

  (I) The connection diagram creation module 133 selects a cable image from the connection diagram. Specifically, the connection diagram creation module 133 selects an image to which attribute data including an identifier a1 indicating a cable is assigned.

  (II) Next, the connection diagram creation module 133 obtains an image to be adhered to the image of the cable selected in (I), and determines whether the image is an image of the information processing apparatus.

  Specifically, the connection diagram creation module 133 obtains the image of the bonding destination from the PinX cell associated with the image of the cable obtained in (I), and uses the attribute data attached to the obtained image of the bonding destination. Then, it is determined whether or not the identifier a2 indicating the information processing apparatus is included. The above-described PinX cell is data associated with an image in advance, and when bonding, information indicating an image of the bonding destination (connection destination) is described by VISIO.

  (III) Next, the connection diagram creation module 133 identifies the attribute data attached to the image of the information processing apparatus when the image to be bonded is an image of the information processing apparatus as a result of the determination of (II). If a2 is included, the attribute data is extracted.

  (IV) Next, the connection diagram creation module 133 extracts the identifier b1 (identifier indicating the cable 50) included in the attribute data given to the cable image selected in (I).

  (V) Next, the connection diagram creation module 133 associates the attribute data extracted in (III) with the identifier b1 extracted in (IV).

  When a plurality of cable images are selected in the above (I), the above (II) to (V) are performed for all the cable images. If the result of the determination in (II) above is that the adhesion destination is not an image of the information processing apparatus, the process returns to (I), and the above (II) to (V) are performed on the other cable images. .

  By the operations (I) to (V), the identifier b1 indicating the cable 50, the attribute data of the information processing device 30 connected to the cable 50 (the identifier b2 indicating the information processing device 30, the appearance image data of the information processing device 30). Etc.) are related. The data associated by the operations (I) to (IV) is hereinafter referred to as “connection state related data”.

(2-2) Data Conversion of Mounting Position of Information Processing Device 30 Next, although not shown, after (V) described above, the connection diagram creation module 133 is displayed on the drawing screen, and the information processing device 30 is racked. Information indicating the 40th stage of mounting, that is, the mounting position is acquired.

  Specifically, the connection diagram creating module 133 uses a well-known edge detection method for the contour of the image of the information processing apparatus 30 mounted on the rack 40 (hereinafter referred to as “mounted image”) from each image on the drawing screen. Ask for. Here, in the connection diagram creation module 133, information indicating the mounting position of the information processing apparatus 30 (information indicating the number of racks 40 on which the information processing apparatus 30 is mounted) in association with the above-described mounting image. ) Is preset. The connection diagram creation module 133 acquires information indicating a mounting position corresponding to the extracted mounting image.

  Next, although not shown, the connection diagram creation module 133 associates the acquired information indicating the mounting position with the connection state related data generated in the above (I) to (V), and stores it as connection diagram information. To do.

(2-3) Connection Diagram Information As a result of performing the above (2-1) and (2-2), the connection diagram information shown in FIG. 4 is generated as the connection diagram information.

  That is, the generated connection diagram information is associated with the identifier b1 indicating the cable 50 and the identifier b2 (connection destination identifier b2) indicating the information processing device 30 to which the cable 50 is connected. The connection diagram information includes the appearance image data of the information processing apparatus 30 to which the cable is connected, information indicating the mounting position (in the rack 40) of the information processing apparatus 30, and various attribute data of the information processing apparatus 30. Are associated with each other.

  The connection diagram information includes an identifier b indicating a cable, an identifier b indicating an information processing apparatus to which the cable is connected, appearance image data of the information processing apparatus, and a mounting position (in a rack) of the information processing apparatus. Is data associated with information indicating. Therefore, the connection diagram information may include information (identifiers and appearance image data) of cables and information processing apparatuses other than the cable 50 and the information processing apparatus 30.

(2-4) Operation after S22 Next, the connection diagram creation module 133 transmits the connection diagram information stored in S20 to the server 20 (S23).

  Next, the server 20 registers the connection diagram information in the database 22 (S24).

(3) Flow 3 (step of displaying the mounting position of the information processing apparatus to which the cable is connected)
Next, the flow 3 will be described. The information processing apparatus 30 is mounted on the rack 40.

(3-1) Shooting of AR Marker 51 Attached to Cable 50 First, although not shown, the operator inserts / removes support software 14 of the mobile terminal 10 before connecting the cable 50 to the information processing apparatus 30. And the AR marker 52 attached to the cable 50 is photographed by the camera 12.

  At this time, as shown in FIG. 8, the camera 12 transmits the captured image data of the AR marker 52 to the analysis module 140 of the insertion / extraction support software 14 (S30).

(3-2) Reading the identifier b1 of the cable 50 from the AR marker 51 Next, when the image data of the AR marker 52 is input from the camera 12, the analysis module 140 of the insertion / extraction support software 14 is given the AR marker 52. The identifier b1 indicating the product (that is, the cable 50) is read (S31).

  Specifically, in the analysis module 140, an identifier b1 indicating the cable 50 to which the AR marker 51 is attached is set in advance in association with the image data of the AR marker 51, and the analysis module 140 receives the input image. An identifier b1 corresponding to the data is obtained. The image data of the AR marker 51 and the identifier b1 are set in the analysis module 140 by the administrator of the work support system of this embodiment.

(3-3) Delivery of the Read Identifier b1 Between Parts Next, the analysis module 140 outputs the identifier b1 read in S31 described above to the search module 141 and the information display module 142 (S32).

(3-4) Reading the mounting position of the information processing apparatus 30 to which the cable 50 is connected Next, the search module 141 transmits the received identifier b1 to the server 20 (S33).

  Next, the server 20 inputs the received identifier b1 into the database 22 (S34).

  Next, the database 22 reads (searches) the related installation location information from the connection diagram information shown in FIG. 4 using the input identifier b1 as a key, and reads the read installation location information into the server 20 main body. Return (S35).

  The above-described installation location information is information indicating the mounting position (how many levels) in the rack 40 of the information processing apparatus 30 is.

  The server 20 transmits the installation location information returned from the database 22 (that is, information indicating the mounting position) to the editing module 142 (S36).

(3-5) Display of Mounting Position Next, when information indicating the mounting position is input, the information display module 142 displays the information on the screen of the mobile terminal 10 (S37).

  Even when a plurality of information processing apparatuses are mounted on the rack 40, the worker can grasp the mounting position of the information processing apparatus 30 to which the cable is to be connected and connect the cable to the information processing apparatus 30. it can. That is, the mobile terminal 10 guides the worker so that the cable can be connected to an appropriate information processing apparatus.

(4) Flow 4 (step of displaying connection terminals for connecting cables)
As illustrated in FIG. 9, the information processing apparatus 30 may include a plurality of connection terminals to which a cable can be connected. FIG. 9 shows a case where the information processing apparatus 30 includes a connection terminal 33 in addition to the connection terminal 31. In that case, the work support system of the present embodiment may perform the process of the flow 4 shown in the following (4-2). As a result, the work support system according to the present embodiment can indicate to the worker which connection terminal 31 is connected to the cable 50.

(4-1) Preconditions for Operating Flow 4 In order to correctly operate the following process of Flow 4, the position of the connection terminal 31 is associated with the identifier b1 indicating the cable 50 in the connection diagram information. Must be included. Therefore, it is assumed that the operator performs the following (4-1-1) before performing the above-described flows 1 to 3.

(4-1-1) Registration of information indicating the position of the connection terminal 31 First, the worker includes information indicating the position of the connection terminal 31 in the device information registered in the database 21. Specifically, the worker includes information indicating the position of the connection terminal 31 in the attribute data of the device information processing device 30 in the device information.

  The information indicating the position of the connection terminal 31 may be information indicating a location corresponding to the connection terminal 31 of the appearance image data of the information processing device 30. For example, it is assumed that the appearance image data of the information processing apparatus 30 is composed of horizontal 1280 pixels and vertical 1024 pixels, and the connection terminal 31 is positioned at the horizontal 580th pixel and the vertical 124th pixel. The worker can include information indicating the width of 580 pixels and the height of 124 pixels in the attribute data of the information processing apparatus 30 as information indicating the position of the connection terminal 31.

  When the flows 1 to 3 are performed after the above (4-1-1), the connection diagram information includes information indicating the position of the connection terminal 31 in association with the identifier b1 indicating the cable 50. Specifically, the attribute data of the connection diagram information shown in FIG. 4 (attribute data related to the identifier b1 indicating the cable 50) includes information indicating the position of the connection terminal 31.

  Hereinafter, the process of the flow 4 will be described. FIG. 10 is a diagram for explaining the operation of providing the operator with the position of the connection terminal to which the cable is connected (that is, the operation of flow 4).

(4-2) Processing of Flow 4 (4-2-1) Shooting of AR Marker 32 Assigned to Information Processing Device 30 First, although not shown, the operator uses the camera 12 (information processing device 30). The AR marker 32 (provided in FIG. 1) is photographed.

  At this time, as shown in FIG. 10, the camera 12 transmits the captured image data of the AR marker 32 to the analysis module 140 of the connection diagram creation software 14 (S40).

(4-2-2) Reading of the identifier b2 of the information processing device 30 from the AR marker 32 Next, when the image data of the AR marker 32 is input from the camera 12, the analysis module 140 of the connection diagram creation software 14 The identifier b2 of the product to which the AR marker 32 is assigned (that is, the information processing apparatus 30) is read (S41).

  Specifically, the analysis module 140 is preset with the identifier b2 of the information processing apparatus 30 to which the AR marker 32 is assigned in association with the image data of the AR marker 32, and the analysis module 140 receives the input An identifier b2 corresponding to the image data is obtained. The image data of the AR marker 32 and the identifier b2 are set in the analysis module 140 by the administrator of the work support system of this embodiment.

(4-2-3) Delivery of the Read Identifier b2 Between Parts Next, the analysis module 140 outputs the identifier b2 read in S41 described above to the search module 141 (S42).

(4-2-4) Reading of information indicating the position of the connection terminal 31 Next, the search module 141 transmits the received identifier b2 to the server 20 (S43).

  Next, the server 20 inputs the received identifier b2 into the database 22 (S44).

  The database 22 retrieves the information indicating the position of the connection terminal 31 related to the input identifier b2, the appearance data of the information processing device 30, and the identifier b1 of the cable 50 from the connection diagram information and reads them out. It returns to the server 20 main body together with the identifier b2 (S45).

  The server 20 transmits various information returned from the database 22 (that is, information read from the database 22) to the determination display module 143 (S46).

(4-2-5) Determination of whether information has been read from the database 22 Next, the determination display module 143 determines whether the information received from the server 20 includes both identifiers b1 and b2 (S47). ).

  This is for determining whether the information read from the database 22 is information of the information processing apparatus 30 to which the cable 50 is connected.

(4-2-6) Information acquisition operation when information can be read from the database 22 The determination display module 143 includes the identifiers b1 and b2 in the input information (Yes in S47). The appearance image data of the information processing apparatus 30 and information indicating the position of the connection terminal 31 are extracted from the input information (S48).

  The information indicating the position of the connection terminal 31 is hereinafter referred to as “position information of the connection terminal 31”.

(4-2-7) Display of Position Information of Connection Terminal 31 Next, the determination display module 143 displays and displays the extracted appearance image data (image) of the information processing apparatus 30 on the screen of the mobile terminal 10. The part indicated by the position information of the connection terminal 31 in the image of the information processing apparatus 30 is highlighted (for example, surrounded by a red frame) (S49).

  The operator can grasp that the highlighted connection terminal is the connection terminal 31 to which the cable 50 is connected.

(4-2-8) Operation when information cannot be read from the database 22 Note that the determination display module 143 does not include any of the identifiers b1 and b2 in the information received from the server 20 (S47). In the case of No), although not shown, a message that there is no information is displayed on the screen of the mobile terminal 10 (S50).

(5) Supplement regarding the portable terminal 10 In the above, the portable terminal 10 performed the flow 3 and 4 using the analysis module 140, the search module 141, the information display module 142, the determination display module 143, and the camera 12. The mobile terminal 10 may be configured with fewer parts as long as it has the same function. For example, the mobile terminal 10 includes a transmission unit having the functions of the analysis module 140, the search module 141, and the camera 12, and a display unit having the functions of the information display module 142 and the determination display module 143. You may implement.

[Description of effects]
According to this embodiment, the work support system can sufficiently reduce the wiring work of the laying worker. This is because the work support system according to the present embodiment displays on the screen of the portable terminal held by the worker which information processing device the cable is to be connected to and guides the worker. Since the operator does not have to redo the connection work after the connection, the connection work is reduced.

  Moreover, even if there are a plurality of connection terminals for connecting cables in the information processing apparatus, the work support system of this embodiment can also display on the screen of the mobile terminal which connection terminal the cable is connected to. Therefore, the connection work of the setting operator can be further reduced.

<< Second Embodiment >>
Next, a second embodiment of the present invention will be described.

[Description of configuration]
(1) Configuration of Work Support System According to Second Embodiment FIG. 11 is a diagram illustrating a configuration example of a work support system according to the second embodiment of the present invention.

  The work support system in the second embodiment includes a terminal 100 and a server 200, as shown in FIG.

  The terminal 100 and the server 200 may be connected via a wireless line or may be connected via a wired line.

  The terminal 100 includes a transmission unit 101 and a display unit 102.

  The server 200 includes a database 201.

  The terminal 100 is a terminal held by a laying operator who connects a cable to an electrical product. The above-described electrical appliance may be stored in a rack.

(2) Functions of terminal 100 and server 200 (2-1) Functions of terminal 100 The transmission unit 101 of the terminal 100 connects the first identifier read from the sign attached to the cable (corresponding to the cable). Transmit to server 200. The label may be an AR (Augmented Reality) marker.

  The display unit 102 of the terminal 100 displays information indicating the installation location of the electrical product to which the above-described cable is connected, returned from the server 200 in response to the transmission of the first identifier, on a screen provided in the terminal 100.

(2-2) Function of Server 200 The database 201 provided in the server 200 stores the first identifier (identifier indicating a cable) and information indicating the installation location of the electrical product to which the cable is connected in association with each other. To do.

  The information indicating the installation location described above may be information indicating the mounting position (which level) of the rack in which the electrical product is stored.

  The server 200 reads information indicating the installation location of the electrical product corresponding to the first identifier received from the terminal 100 from the database 201 and transmits the information to the terminal 100.

[Description of operation]
First, the transmission unit 101 of the terminal 100 reads the first identifier (corresponding to the cable) from the sign attached to the cable.

  For example, the transmission unit 101 may acquire an image of a sign attached to a cable with a camera provided in the transmission unit 101 and acquire a first identifier corresponding to the image. In this case, in the transmission unit 101, the first identifier is set by the administrator of the work support system of the present embodiment in association with the sign image.

  Next, the transmission unit 101 of the terminal 100 transmits the first identifier read from the sign attached to the cable (corresponding to the cable) to the server 200 to be connected.

  In the database 201 of the server 200, information indicating the installation location of the electrical product to which the cable is connected is stored in association with the first identifier.

  When the database 201 of the server 200 receives the first identifier from the terminal 100, the database 201 reads information indicating the installation location of the electrical product corresponding to the received first identifier from the database 201, and transmits (replies) to the terminal 100.

  The information indicating the installation location of the electrical product described above may be information indicating the mounting position (which level) of the rack in which the electrical product is stored.

  The display unit 102 of the terminal 100 displays the information returned from the server 200 indicating the installation location of the electrical product to which the cable is connected on a screen provided in the terminal 100.

  The laying operator who sees the screen can connect the cable to the electrical appliance at the displayed position. That is, the work support system according to the present embodiment can guide the worker.

[Description of effects]
According to this embodiment, the work support system can sufficiently reduce the wiring work of the laying worker. This is because the work support system of the present embodiment displays on the screen of the terminal held by the worker which electrical product the cable is connected to and guides the worker. Since the operator does not have to redo the connection work after the connection, the connection work is reduced.

  The embodiment described above is not limited to the embodiment, and various modifications can be made without departing from the scope of the invention in the implementation stage.

Furthermore, a part or all of each of the above embodiments can be described as in the following supplementary notes, but is not limited thereto.
(Appendix 1)
A transmission unit for transmitting a first identifier corresponding to the cable read from the sign attached to the cable;
A display unit that displays information indicating an installation location of the electrical product to which the cable is connected, which is replied in response to the transmission, on a screen provided in the device;
A terminal characterized by that.
(Appendix 2)
The transmission unit transmits the second identifier corresponding to the electrical product read from the sign attached to the electrical product,
The display unit displays the position information of the connection terminal of the electrical product to which the cable is connected, which is returned in response to the transmission of the second identifier, on a screen provided to itself.
The terminal according to supplementary note 1, wherein:
(Appendix 3)
When the data related to the image of the cable includes information indicating the image of the electrical product, the first identifier corresponding to the cable is associated with the information indicating the installation location of the electrical product. Send to the server,
The terminal according to any one of appendices 1 to 2, characterized in that:
(Appendix 4)
The label is an AR (Augmented Reality) marker.
The terminal according to any one of supplementary notes 1 to 3, wherein
(Appendix 5)
A database that stores a first identifier corresponding to a cable and information indicating an installation location of an electrical product to which the cable is connected;
Read and transmit information indicating the installation location of the electrical product corresponding to the received first identifier from the database,
A server characterized by that.
(Appendix 6)
The database stores, in correspondence with the first identifier, positional information of the connection terminal of the electrical product to which the cable is connected, and a predetermined second identifier corresponding to the electrical product,
Read the position information of the connection terminal corresponding to the received first identifier and the second identifier from the database, and transmit,
The server according to appendix 5, characterized by:
(Appendix 7)
Registering the received first identifier and information indicating the installation location of the electrical product in the database;
The server according to any one of appendices 5 to 6, characterized in that:
(Appendix 8)
The terminal and server are connected,
The terminal is the terminal according to any one of appendices 1 to 4,
The server is the server according to any one of appendices 5 to 7,
A work support system characterized by that.
(Appendix 9)
A reading step of reading a first identifier corresponding to the cable from a mark given to the cable;
A storage step of storing information indicating an installation location of an electrical product to which the cable is connected in association with the first identifier;
When the first identifier is read in the reading step, information indicating the installation location corresponding to the first identifier is acquired from the information stored in the storage step and displayed.
A work support method characterized by that.
(Appendix 10)
In the storing step, the positional information of the connection terminal of the electrical product to which the cable is connected and the predetermined second identifier corresponding to the electrical product are stored in association with the first identifier,
In the reading step, when the second identifier corresponding to the electrical product is read from the mark given to the electrical product in the position information, the first identifier and the second identifier corresponding to the read first identifier and the second identifier are read. Obtaining and displaying the position information of the connection terminal from the information stored in the storage step,
The work support method according to appendix 9, characterized in that:
(Appendix 11)
In the storage step, when the data related to the image of the cable includes information indicating the image of the electrical product, the first identifier corresponding to the cable and the information indicating the installation location of the electrical product Is stored in association with
The work support method according to any one of appendices 9 to 10, characterized in that:
(Appendix 12)
The first identifier is a serial number of the cable;
The second identifier is a serial number of the electrical product.
The work support method according to any one of appendices 9 to 11, characterized in that:
(Appendix 13)
The first identifier is a serial number of the cable;
The second identifier is a serial number of the electrical product.
The terminal according to any one of appendices 1 to 4, characterized in that:
(Appendix 14)
The screen is a head-mounted display;
14. The terminal according to any one of appendices 1 to 4, or appendix 13.

DESCRIPTION OF SYMBOLS 10 Mobile terminal 11 Display 12 Camera 13 Connection diagram creation software 14 Insertion / removal support software 20 Server 21 Database 22 Database 30 Information processing device 31 Connection terminal 32 AR marker 33 Connection terminal 40 Rack 41 AR marker 50 Cable 51 Connection terminal 52 AR marker 100 Terminal DESCRIPTION OF SYMBOLS 101 Transmission part 102 Display part 130 Analysis module 131 Search module 132 Edit module 133 Connection diagram creation module 140 Analysis module 141 Search module 142 Information display module 143 Judgment display module 200 Server 201 Database

Claims (10)

A transmission unit for transmitting a first identifier corresponding to the cable read from the sign attached to the cable;
A display unit that displays information indicating an installation location of the electrical product to which the cable is connected, which is replied in response to the transmission, on a screen provided in the device;
A terminal characterized by that. The transmission unit transmits the second identifier corresponding to the electrical product read from the sign attached to the electrical product,
The display unit displays the position information of the connection terminal of the electrical product to which the cable is connected, which is returned in response to the transmission of the second identifier, on a screen provided to itself.
The terminal according to claim 1. When the data related to the image of the cable includes information indicating the image of the electrical product, the first identifier corresponding to the cable is associated with the information indicating the installation location of the electrical product. Send to the server,
The terminal according to claim 1, wherein the terminal is a terminal. The label is an AR (Augmented Reality) marker.
The terminal according to any one of claims 1 to 3. A database that stores a first identifier corresponding to a cable and information indicating an installation location of an electrical product to which the cable is connected;
Read and transmit information indicating the installation location of the electrical product corresponding to the received first identifier from the database,
A server characterized by that. The database stores, in correspondence with the first identifier, positional information of the connection terminal of the electrical product to which the cable is connected, and a predetermined second identifier corresponding to the electrical product,
Read the position information of the connection terminal corresponding to the received first identifier and the second identifier from the database, and transmit,
The server according to claim 5. Registering the received first identifier and information indicating the installation location of the electrical product in the database;
The server according to any one of claims 5 to 6, characterized in that: The terminal and server are connected,
The terminal is the terminal according to any one of claims 1 to 4,
The server is the server according to any one of claims 5 to 7.
A work support system characterized by that. A reading step of reading a first identifier corresponding to the cable from a mark given to the cable;
A storage step of storing information indicating an installation location of an electrical product to which the cable is connected in association with the first identifier;
When the first identifier is read in the reading step, information indicating the installation location corresponding to the first identifier is acquired from the information stored in the storage step and displayed.
A work support method characterized by that. In the storing step, the positional information of the connection terminal of the electrical product to which the cable is connected and the predetermined second identifier corresponding to the electrical product are stored in association with the first identifier,
In the reading step, when the second identifier corresponding to the electrical product is read from the mark given to the electrical product in the position information, the first identifier and the second identifier corresponding to the read first identifier and the second identifier are read. Obtaining and displaying the position information of the connection terminal from the information stored in the storage step,
The work support method according to claim 9.

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