JP2015109041A - Production inspection support device, production inspection support method and production inspection support program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a production inspection support device supporting mounting and inspection work of electrical appliances and wiring inspection work of electric wires in a control distribution panel, and further to provide a production inspection support method and a production inspection support program.SOLUTION: An inspection command issued by an inspector is converted into voice data, and the voice data is transmitted to a production inspection support device 1 via a network 5. The production inspection support device 1 performs voice recognition of the voice data received, converts the voice data into character data, determines the inspection command included in the character data and synthesizes a voice signal corresponding to the inspection command determined. The voice signal synthesized is transmitted to a portable information terminal 2 and is output from a loudspeaker 20b provided on the portable information terminal 2. The inspector hears a voice from the loudspeaker 20b and executes inspection with respect to a control distribution panel. In the case where the character data includes the inspection command in which an inspection result indicates failure, the failure is registered in inspection data, and printing data is generated on the basis of the inspection data.

Description

  FIELD Embodiments described herein relate generally to a manufacturing inspection support apparatus, a manufacturing inspection support method, and a manufacturing inspection support program that support electrical equipment installation inspection work and electric wire wiring inspection work in a control switchboard.

  Control switchboards such as power generation plants and industrial plants are often in the form of build-to-order production because of their high-mix low-volume production. For this reason, it is difficult to make a robot and it is necessary to rely on manual work. The inspection work to be performed after the control switchboard is manufactured needs to be carefully performed, and the inspection work is performed by manually comparing the drawing and the manufactured control switchboard.

  In the conventional manufacturing work of the control switchboard, design work is performed by a computer design support system called CAD to construct design data. The constructed design data is stored in the memory, and the design data is read from the memory when necessary. Assembly drawings, connection diagrams, product lists, etc. based on the read design data are output in the form of paper called drawings. The control switchboard is manufactured based on this drawing.

  A manufacturing worker manufactures a control switchboard by attaching an electrical product to a required location while observing these assembly drawings, connection diagrams, and a product list, and wiring the electrical product. After the manufacturing operation, an inspection operation is performed to inspect whether the manufacturing operation is correctly performed according to the drawing.

  As a method for inspecting a control switchboard, there is a method in which manufacturing information created from CAD data is printed as a two-dimensional code on an electrical appliance or a wiring tube mark, and this two-dimensional code is optically read during inspection to collate with manufacturing information. It has been. Also, a method is known in which an inspector who has visually inspected the state of a completed product collates with text information whether the voice data spoken about the state of the product matches the correct data registered in advance. Yes.

Japanese Patent No. 4844441 Japanese Patent No. 5149722

  However, in the case of an inspection apparatus that optically reads and collates the manufacturing information created from CAD data and the two-dimensional code printed on the wiring tube mark, based on whether the manufacturing information and the two-dimensional code match, It is determined whether the manufacturing operation is performed as shown in the drawing. For this reason, the inspection result has a problem that only an alternative determination can be made as to whether or not the wiring is connected to the correct position.

  Further, even in an inspection apparatus that collates voice data uttered by an inspector visually observing an inspection product with correct data registered in advance, it is determined whether the audio data and the correct data match. For this reason, there is a similar problem in that the test result can only be determined as an alternative or correct.

  The embodiment of the present invention has been proposed to solve the above-described problems. The inspector makes a determination as to whether or not the inspection result is correct, and whether or not the determination of the inspection result is correct. Manufacturing inspection support apparatus, manufacturing inspection support method, and the like, which improve the efficiency of inspection work while leaving information on how the inspection result is not correct as product inspection record information as well as the alternative determination of To provide a manufacturing inspection support program.

  In order to achieve the above object, a manufacturing inspection support apparatus according to the present embodiment is a manufacturing inspection support apparatus that performs manufacturing inspection by communicating with a portable information terminal, and an inspection data storage unit that stores data for manufacturing inspection, and the inspection A print data generation unit that generates print data from the data for use, an audio signal synthesis unit that synthesizes the inspection data into an audio signal, and transmits the audio signal and the print data to the portable information terminal. A transmitting unit; a receiving unit that receives voice data in an inspection based on the voice signal from the portable information terminal; a voice recognition unit that recognizes the voice data and converts the voice data into character data; and a test command for the character data. A command determination unit that determines whether or not a test result is included, and a test result registration unit that registers a test result based on the voice data in the test data. To.

  A manufacturing inspection support method using the above manufacturing inspection support apparatus and a control program for the manufacturing inspection support apparatus are also one aspect of the present invention.

It is a block diagram which shows the structure of the manufacturing inspection assistance apparatus which concerns on this embodiment. It is a block diagram which shows the structure of the portable information terminal of this embodiment. It is a figure which shows the label of this embodiment. It is a block diagram which shows the control switchboard of this embodiment. It is a figure which shows the manufacture drawing of the switchboard for control of this embodiment. It is a figure which shows the test | inspection data memorize | stored in the test | inspection data memory | storage part of this embodiment. It is a block diagram which shows the structure of the command processing part of this embodiment. It is an example of the command list stored in the command list storage unit of the present embodiment. It is a figure showing the case where a pointer is set to inspection order 1 in this embodiment. It is a block diagram which shows the structure of the malfunction process part of this embodiment. It is a flowchart which shows the test | inspection process in the manufacturing test | inspection assistance apparatus of this embodiment. It is a figure which shows the test | inspection data which registered the test result of the test order 1 in this embodiment. It is a flowchart which shows the inspection defect process of the manufacture inspection assistance apparatus of this embodiment. It is a figure which shows the test | inspection data which registered the test result of the test order 2 in this embodiment. It is a figure which shows the test | inspection data which registered the test result of the test orders 1-17 in this embodiment. It is a figure which shows the test | inspection data which registered the test result of the reexamination in this embodiment. It is a figure which shows the test | inspection data at the time of performing the test | inspection with respect to an electrical appliance. It is a figure which shows the label which provided the attachment string and the margin for cutting.

[First Embodiment]
Hereinafter, an embodiment of a manufacturing inspection support apparatus according to the present invention will be described in detail with reference to the drawings.

[1-1. Constitution]
FIG. 1 is a block diagram illustrating a configuration of a manufacturing inspection support apparatus 1 according to the present embodiment. The manufacturing inspection support apparatus 1 according to the present embodiment supports the inspection using the control switchboard as a product to be inspected, and can communicate with the portable information terminal 2 carried near the control switchboard via the network 5. Configured.

(Portable information terminal 2)
The portable information terminal 2 has a communication function with the manufacturing inspection support apparatus 1 via the network 5, inputs voice data uttered by an inspector who observes the product, transmits the voice data to the support apparatus 1, and the support apparatus 1 The result of the processing performed based on the audio data is received, and the content is printed or output by voice. Therefore, as shown in FIG. 2, the portable information terminal 2 includes a voice input unit 20a, a voice data conversion unit 21, an inspector data addition unit 22, a time data addition unit 23, a two-dimensional code data conversion unit 24, and a two-dimensional code. A reader 24a, a transmission unit 25, a reception unit 26, an audio data reproduction unit 27, an audio output unit 20b, a print data output unit 28, and a printing unit 28a such as a printer are provided.

  The voice input unit 20a inputs voice such as a test command issued by the inspector into the portable information terminal 2. In the present embodiment, as the voice input unit 20a, for example, a microphone provided in the portable information terminal 2 or The microphone 20a included in the hands-free set 20 connected to the portable information terminal 2 can be used. The hands-free set 20 includes a microphone 20a and an earphone 20b, and is connected to the portable information terminal 2 by a dedicated cable or wirelessly. The voice input to the microphone 20 a is transmitted to the voice data conversion unit 21 via the hands-free set 20.

  The audio data conversion unit 21 converts the audio data converted into an analog waveform electric signal from the microphone 20a into digital audio data.

  The inspector data adding unit 22 adds inspector data indicating the inspector who has performed the manufacturing inspection to the audio data converted by the audio data converting unit 21. The portable information terminal 2 has a function of discriminating an inspector who uses the portable information terminal 2. The name and ID number of the inspector indicating the inspector determined by the function are added to the voice data as inspector data.

  The time data adding unit 23 adds the time data at which the manufacturing inspection is performed to the voice data converted by the voice data converting unit 21. The portable information terminal 2 has a function of grasping the current time. The function records the date and time when the inspector uttered voice during the manufacturing inspection, and adds the time data to the voice data.

  The two-dimensional code data conversion unit 24 includes a two-dimensional code reader 24a incorporated in the portable information terminal 2 and a two-dimensional code reader 24a connected to the portable information terminal 2 with a dedicated cable. The read two-dimensional code information is converted into data indicating the inspection location. For example, a label 29 is attached in advance to a location where a defect is found as a result of the inspection. As shown in FIG. 3, the label 29 is printed with a two-dimensional code 301 indicating a defective portion. The inspector reads the two-dimensional code 301 from the label 29 and converts the data into data indicating a defective portion indicated by the two-dimensional code 301. Data indicating the converted defect location is transmitted from the transmission unit 25 to the manufacturing inspection support apparatus 1.

  The transmission unit 25 transmits the audio data converted by the audio data conversion unit 21 and the data indicating the inspection location converted by the two-dimensional code data conversion unit 24 to the manufacturing inspection support apparatus 1 via the network. The receiving unit 26 receives an audio signal and print data transmitted from the manufacturing inspection support apparatus 1.

  The audio data reproducing unit 27 extracts audio data from the signal received by the receiving unit 26 and converts the audio data into an analog signal. The electrical signal converted into the analog signal is output to the audio output unit 20b. The sound output unit 20b uses the earphone 20b in the present embodiment, but may be a speaker provided in the portable information terminal 2 or a speaker included in the hands-free set 20 connected to the portable information terminal 2.

  The print data output unit 28 extracts print data based on the signal from the manufacturing inspection support apparatus 1 received by the receiving unit 26, and outputs the print data to the printing unit 28a. The printing unit 28a is a printer incorporated in the portable information terminal 2 or a printer connected to the portable information terminal 2 with a dedicated cable, and prints the contents of the print data on the label 29 based on the print data.

(Manufacturing inspection support device 1)
The manufacturing inspection support apparatus 1 performs wireless communication with the portable information terminal 2, receives voice data including an inspection command issued by an inspector, and performs processing according to the inspection command. In addition, by synthesizing the audio signal and transmitting the audio signal to the portable information terminal 2, the inspection object and the inspection contents are transmitted to the inspector having the portable information terminal 2. Therefore, the manufacturing inspection support apparatus 1 includes a CAD data storage unit 31, an inspection data generation unit 32, an inspection data storage unit 33, a speech synthesis unit 34, a communication unit 35, a speech recognition unit 36, a character data storage unit 37, and a command processing unit. 38, a command list storage unit 39, an inspection result registration unit 40, a print data generation unit 41, and a print data storage unit 42.

  The CAD data storage unit 31 stores the arrangement of the electrical appliances 101 and the connection state of the electric wires 102 in the control switchboard as CAD data. A plurality of electrical appliances 101 are arranged on the control switchboard. The CAD data storage unit 31 has a location code 103, a rating 104, a model 105, an appliance number 106, a terminal number 107, electrical appliances for these electrical appliances 101. The line number 108 of the electric wire 102 connected to the electric appliance, the location number 109 of the electric appliance to be connected to the electric appliance, and the terminal number 110 of the electric appliance to which the electric wire 102 is connected are stored as CAD data. Further, the CAD data storing these is stored with a drawing number 111 indicating which drawing the CAD data is for.

  The types of the plurality of electrical appliances 101 arranged on the control switchboard are indicated by a model 105, and each electrical appliance 101 has a rating 104. As shown in FIG. 4, four electrical appliances 101 a to 101 d are arranged on the control switchboard of the present embodiment. In order to distinguish the electrical appliances 101a to 101d from other electrical appliances, DEV1 to DEV4 are attached as appliance numbers 106. The appliance numbers 106 of DEV1 to DEV4 are attached to the individual electric appliances 101 with seals or the like. The arrangement positions of the electrical appliances 101 a to 101 d on the control switchboard are indicated by the location code 103. The location code 103 distinguishes the arrangement position on the control switchboard from the A stage and the B stage in the vertical direction, distinguishes the horizontal direction from the first row, the second row, and the third row, and positions the electrical appliances to be arranged at the A stage and the B stage. And a combination of one column, two columns, and three columns. Therefore, the location codes 103 of the electrical appliances 101a to 101d are A1, A2, B1, and B3 in order.

  Each of the electrical appliances 101a to 101d is provided with four terminals. This terminal is given 1 to 4 as a terminal number 107. The electric wires 102 are connected to the terminals 1 to 4, and the electrical products 101a to 101d are electrically connected to each other. Each electric wire 102 is assigned line numbers LN1 to LN3 for distinguishing the electric wires 102 from each other.

  In FIG. 4, the terminal with the terminal number 1 of the electrical appliance 101a and the terminal with the terminal number 1 of the electrical appliance 101b are connected by the wire 102 with the line number L1. Similarly, the terminal with the terminal number 2 of the electrical appliance 101a and the terminal with the terminal number 1 of the electrical appliance 101c are connected by the electric wire 102 with the line number LN3. Furthermore, the electric wire 102 with the line number LN3 is also connected to the terminal number 2 of the electrical product 101d. Further, the terminal with the terminal number 3 of the electrical product 101a and the terminal with the terminal number 1 of the electrical product 101d are connected by the wire 102 with the line number LN2.

  The CAD data storage unit 31 stores CAD data indicating the correlation between the electrical appliances 101 of the control switchboard shown in FIG. 4 and the electric wires 102 connecting the electrical appliances 101. From this CAD data, drawings such as manufacturing drawings, connection diagrams, and product lists can be generated. For example, FIG. 5 shows a manufacturing drawing created from the CAD data of the control switchboard shown in FIG. 4 stored in the CAD data storage unit 31.

  In the manufacturing drawing of FIG. 5, electrical appliances 101a to 101d are described at positions corresponding to actual electrical appliances. That is, the manufacturing drawings are divided into A-stage and B-stage in the vertical direction, and are divided into 1 row, 2 rows, and 3 rows in the horizontal direction, and the location codes 103 of the electric appliances 101a to 101d are A1. , A2, B1, and B3.

  The electrical products 101a to 101d in the manufacturing drawings are the location code 103, the rating 104, the model 105, the instrument number 106, the terminal number 107, the wire number 108 of the electric wire 102 connected to the electrical product, and the counterpart to be connected to the electrical product. The location number 109 of the electrical appliance and the terminal number 110 of the electrical appliance that is the counterpart are described. The drawing number 111 is a number indicating a drawing number attached to the CAD data of the control switchboard to be inspected, and is indicated by a combination of an arbitrary number and alphabet such as “2B2H1111”.

  The electrical product 101a having the location code 103 of A1 in FIG. 5 will be described. The rating 104 is DC125V, the model 105 is TYPE1, and the appliance number 106 is DEV1. This electrical appliance 101 has four terminals, and 1 to 4 are assigned as terminal numbers 107. The terminal 102 is connected to the wire 102 having the line number LN1, and the connection destination is the terminal having the terminal number 1 whose location code 103 is A2. The electric wire 102 with the line number LN3 is connected to the terminal with the terminal number 2, and the connection destination is the terminal with the terminal number 1 of the electrical appliance 101b in which the location code 103 is arranged at B1. The wire 102 with the line number LN2 is connected to the terminal with the terminal number 3, and the connection destination is the terminal with the terminal number 1 of the electrical product 101c in which the location code 103 is arranged at B3.

  That is, the CAD data storage unit 33 stores CAD data capable of creating a manufacturing drawing of the control switchboard as shown in FIG. In the CAD data storage unit 33, the CAD data is stored in association with the drawing number 111 of the CAD data.

  The inspection data generation unit 32 reads the drawing number, the instrument number, the terminal number, and the line number from the CAD data stored in the CAD data storage unit 33. The read data generates inspection data in which the items of inspection item, pointer, inspector, inspection date, inspection result, reinspector, reinspection date, and reinspection result are associated with each other.

  The inspection data storage unit 33 stores the generated inspection data. The inspection support by the manufacturing inspection support apparatus 1 is performed based on the inspection data. When synthesizing a voice signal for inspection to be transmitted to the inspector, the voice synthesizer 34 reads out the drawing number, instrument number, terminal number, and line number of the inspection data, and synthesizes the voice signal based on these. . The synthesized voice signal is transmitted to the portable information terminal 2 and transmitted to the inspector having the portable information terminal 2. An inspector performs an inspection based on the information of the audio signal, and returns an inspection result to the manufacturing inspection support apparatus 1. The returned inspection result is registered in the items of inspector, inspection date, inspection result, reexamination person, reinspection date, and reinspection result of the inspection data in the inspection data storage unit 33.

  The inspection data storage unit 33 is configured to be accessible by the data read point registration unit 38f of the command processing unit 38, and edits the contents of the item of the pointer. The item of the pointer indicates the position of data read out by the speech synthesizer 34 when supporting examination. When supporting the inspection, not all items of the inspection data are always inspected. Therefore, the data reading point registration unit 38f registers a pointer “*” indicating that the inspection is performed in the pointer item related to the item that needs to be inspected, and performs the inspection by reading the data of the item. The pointer can be registered by registering the pointer in the inspection order n in the inspection data and registering the pointer in the inspection order n + 1 after the end of the inspection, or in the inspection order in which the defective part was found in the previous inspection. A pointer is registered only for it.

  In addition, the inspection data storage unit 33 is configured to be accessible by the inspection result registration unit 40, and inspection is performed on the items of inspector, inspection date, inspection result, reinspector, reinspection date, and reinspection result of the inspection result data. Register the result. The inspection result registration unit 40 registers the name of the inspector who performed the inspection in the item of the inspector of the inspection data. The item of inspection date indicates the date and time when the inspection was performed. In the item of the inspection result, the inspection result is indicated. If there is no problem in the inspection result, “good” is registered. If the inspection result is defective, a comment indicating the defect content is registered. As comments indicating defects, it is possible to register a voice data generated by an inspector converted into character data, such as “a wire is damaged” or “no wiring connection”. The name of the inspector who performed the reexamination is registered in the item of the reexamination. The date and time of reinspection is registered in the item of reinspection date. In the reinspection result item, the reinspection result is registered. Similarly to the inspection result, if there is no problem in the inspection result, “good” is registered. If the re-inspection result is defective, a comment indicating the defect content is registered.

  The voice synthesizer 34 reads out the drawing number, the instrument number, the terminal number, and the line number of the inspection data in the inspection data storage unit 33 and synthesizes a voice signal. The drawing number, the instrument number, the terminal number, and the line number to be read are data of items in which the pointer “*” is registered in the pointer item. Since the inspection data is character data, the voice signal is synthesized by converting the character data into voice data. Further, the speech synthesizer 34 reads out the input promotion sound from the input promotion sound storage unit in addition to the inspection voice data, and makes it an audio signal.

  The communication unit 35 includes a transmission unit 35a and a reception unit 35b. The transmitting unit 35 a transmits the audio signal from the audio synthesizing unit 34 and the print data for printing the label 29 to the portable information terminal 2 via the network 5. The receiving unit 35b receives data indicating the inspection location specified based on the audio data and the two-dimensional code transmitted from the portable information terminal 2.

  The voice recognition unit 36 converts the voice signal from the portable terminal received by the receiving unit 35b into character data. The voice recognition unit 36 converts a voice signal including the inspection command into character data. The character data converted by the voice recognition unit 36 is stored in the character data storage unit 37 in association with the inspector data and time data attached to the voice signal.

  The command processing unit 38 reads the character data stored in the character data storage unit 37 and determines whether the inspection command is included in the voice data. If an inspection command is included, the process indicated by the inspection command is executed. As the inspection command, there are a command for performing inspection start processing, a command for performing inspection end processing, a command when the inspection result is good, and a command when the inspection result is bad. The command processing unit 38 gives instructions according to the processing content of each command. As shown in FIG. 7, the command processing unit 38 includes a command determination unit 38a, a data read point determination unit 38b, an inspection data acquisition instruction unit 38c, a voice data synthesis instruction unit 38d, an inspection result registration instruction unit 38e, and a data read point registration. A unit 38f and a defect processing unit 38g.

  The command determination unit 38a refers to the character data stored in the character data storage unit 37 and the command list stored in the command list storage unit 39, and determines whether the command described in the command list is included in the character data. . FIG. 8 shows an example of a command list stored in the command list storage unit 39. The command list is stored in association with each column of the “read” column, the “command” column, and the “processing content” column.

  “Read” in the command list indicates the reading of the inspection command, “command” indicates the name given to the inspection command, and “processing content” indicates the processing content of the inspection command. For example, if the words issued by the inspector include the inspection commands listed in the “Reading” column, the inspector tried to execute the “command” on the line corresponding to the “reading”. judge. The “processing content” in the “command” is programmed in the command processing unit 38 in advance.

  As shown in FIG. 8, “start”, “end”, “good”, “bad”, “repeated”, and “search” are prepared as inspection commands. As a reading of these commands, “Kaishi”, “Shukuryu”, “Furuyo”, “Kurikaeshi” and “Kensaiku” are stored. As the processing contents, for example, in the case of “start”, “inspector name is specified, inspection points are searched with reference to the inspection data storage unit 33, and an inspection data acquisition command is issued to the speech synthesis unit 34. The processing content “giving” is stored. In the case of “good”, an instruction to register the inspection result “good” is given to the “inspection result” column of the inspection order in the inspection data storage unit 33 and an instruction to register the pointer in the next inspection order is given. Is stored. Further, in the case of “defective”, the processing content “synthesizes a comment input promoting sound and gives a command to register the received defective comment in the“ inspection result ”column of the inspection order in the inspection data storage unit 33”. Is remembered.

  The data read point determination unit 38b determines a point from which inspection data is read. The point at which data is read is the inspection order in which “*” is added to the “pointer” column in the inspection data storage unit 33, and the data read point determination unit 38b has the pointer “*” added to the “pointer” column. Determine whether there is an inspection order.

  The inspection data acquisition instruction unit 38c instructs the voice synthesis unit 34 to acquire data in the inspection order in which “*” is added to the “pointer” column in the inspection data storage unit 33. The speech synthesizer 34 obtains the inspection instrument number, terminal number, and line number from the inspection order in which the pointer “*” is added to the “pointer” column. As shown in FIG. 9, when the pointer is set to the inspection number 1, the instrument number “DEV1”, the terminal number “1”, and the line number “LN1” are acquired.

  The voice data synthesis instruction unit 38d instructs the voice data synthesis unit to synthesize voice data from the instrument number, the terminal number, and the line number that are the acquired inspection data. For example, when the instrument number “DEV1”, the terminal number “1”, and the line number “LN1” are acquired from the inspection data, the instrument number “DEV1” is “DV1” and the terminal number “1” is “1”. Then, the voice data indicating the line number “LN1” and “L1” is synthesized.

  The inspection result registration instruction unit 38e instructs the inspection result registration unit 40 to register the inspection result in the “inspection result” column of the inspection data storage unit according to the inspection command. Each command indicates the inspection result. When the inspection command is “good”, registration of “good” is instructed as the inspection result. In the case of the inspection command “defective”, an instruction to register a comment indicating the content of the defect by the defect processing described later is given.

  The data read point registration unit 38f registers the point from which the inspection data is read. In the method of registering points, in the case of the first inspection in which no points are registered in the inspection data, inspection order 1 is registered as a data read point. When a point is registered in advance, after the inspection of the point is completed, the next inspection order is registered as a data reading point.

  When the inspection command is “defective”, the defect processing unit 38 g transmits an audio signal for inputting a comment indicating the content of the defect, and stores the result in the inspection result storage unit 33. As shown in FIG. 10, the defect processing unit 38g includes an accelerating sound transmission instructing unit 38h, a defect comment registering instructing unit 38i, and a print data generation instructing unit 38j. Is provided.

  The promotion sound transmission instruction unit 38h instructs the voice synthesis unit 34 to transmit the promotion sound when the inspection command is “defective”. In the speech synthesizer 34, the pre-stored promotion sound is transmitted to the portable information terminal 2 as a speech signal. As this promotion sound, a recorded voice signal or electronic sound is used.

  When the comment input by the inspector at the portable information terminal 2 is received, the defective comment registration instruction unit 38 i instructs the inspection result registration unit 40 to register the comment in the inspection data storage unit 33. In the test result registration unit 40, the comment input by the inspector to the portable information terminal 2 in accordance with the promotion sound is converted into character data by the voice recognition unit 36 and registered in the test result storage unit 40. For example, when there is a scratch on the electric wire 102 at the inspection location, the inspector says “There is a scratch on the electric wire”. “There is a scratch on the electric wire” is converted into an audio signal, and further, it is converted into “Character scratches” in the character data. Furthermore, the character data is converted into Kanji text data and registered as “There are scratches on the electric wire”.

  When the inspection command is “defective”, the print data generation instruction unit 38j instructs the print data generation unit 41 to generate print data from the inspection order data. The print data generation unit 41 refers to the inspection data storage unit 33 to print the label 29 indicating the inspection result, and generates print data for printing the label 29. The generated print data is stored in the print data storage unit 42 and transmitted to the portable information terminal 2 via the communication unit 35.

[1-2. Action]
In the manufacturing inspection support apparatus 1 of the present embodiment having the above-described configuration, the manufacturing inspection support performed by the inspector is performed by the following steps (1) to (6).
(1) First, the inspector utters an inspection command for starting an inspection to the portable information terminal 2 while visually checking the control switchboard to be inspected. The portable information terminal 2 converts the inspection command issued by the inspector into voice data and transmits the voice data to the manufacturing inspection support apparatus 1 via the network 5.
(2) The manufacturing inspection support apparatus 1 recognizes the received voice data and converts it into character data. Then, an inspection command that means the start of inspection included in the character data is determined, and a voice signal corresponding to the determined command is synthesized.
(3) The synthesized voice signal is transmitted to the portable information terminal 2 and emitted from a speaker provided in the portable information terminal 2. The inspector listens to the sound from the speaker and performs an inspection on the control switchboard. The inspector utters an inspection command indicating the inspection result.
(4) The portable information terminal 2 converts the inspection command uttered by the inspector into voice data and transmits the voice data to the manufacturing inspection support apparatus 1 via the network. The production inspection support apparatus 1 recognizes voice data and converts it into character data. Then, it is determined whether or not an inspection command is included in the character data. If the inspection command is included, processing corresponding to the command is performed.
(5) When the inspection command indicates the inspection result “defective”, the portable information terminal 2 transmits an input prompting sound prompting the inspector to input a comment about the content of the defect, and the comment is manufactured and inspected. It memorize | stores in the test | inspection data memory | storage part of the assistance apparatus 1. FIG.
(6) Further, the manufacturing inspection support apparatus 1 generates print data for printing the inspection result, and outputs the data to the portable information terminal 2. The portable information terminal 2 prints a label 29 indicating a defective part based on the print data.

  Hereinafter, an inspection support method by the manufacturing inspection support apparatus 1 of the present embodiment including the steps (1) to (6) will be described with reference to FIGS. FIG. 11 is a flowchart showing the operation of the manufacturing inspection support apparatus 1 according to this embodiment. In the description, the name of the inspection worker is “Tanaka” and the inspection date is set to January 5, 2013.

  In the manufacturing inspection, the inspector carries the portable information terminal 2 and moves to the control switchboard to be inspected. The inspector lowers the printer 4 and the two-dimensional code reader 24a of the portable information terminal 2 to his / her waist, attaches the hands-free set 20 to the head, and works with both hands open. The inspector “Tanaka” utters “start” which is a work start command (step S1).

  The “start” issued by the inspector is captured by the portable information terminal 2 via the microphone that is the voice input unit 20 a of the handsfree set 20. In the portable information terminal 2, the voice “start” captured by the voice data conversion unit is converted into voice data “Kaishi”. At this time, the name data “Tanaka” of the inspector and date / time data “January 5, 2013” at which the sound was issued are added to the sound data. The portable information terminal 2 transmits the voice data “Kaishi” to the network 5 (step S2).

  The communication unit 35 of the manufacturing inspection support apparatus 1 receives the voice data “Kaishi” from the network 5 (step S3). The voice recognition unit 36 performs voice recognition processing on the received voice data “Kishi” and recognizes the voice as character data “Kishi”. The character data “Kaishi” is stored in the character data storage unit 37 together with the name data “Tanaka” of the inspector and the date data “January 5, 2013” when the voice is uttered (step S4).

  The command determination unit 38 a reads the character data “kaishi” from the character data storage unit 37, compares it with the “read” column of the command list registered in the command list storage unit 39, and “starts” the “kaishi”. Judge as a command. (Step S5)

  Further, the processing content corresponding to the determined “start” command is executed. For the “start” command, “specify the name of the inspector and refer to the inspection data storage unit 33 to search for the inspection point and give an instruction to obtain the inspection data to the speech synthesis unit 34” is executed. Is done.

  First, the name “Tanaka” is identified as an inspector from the worker data stored in the character data storage unit 37. Next, the inspection start point is searched for the point sequence in the inspection data storage unit 33. In the case of the first inspection, since the inspection start point is not set, the inspection order 1 is set as the inspection start point, and the pointer “*” is registered in the “pointer” column of the inspection order 1 (step S6).

  Next, the data read point determination unit 38b searches the pointer column in the inspection data storage unit 33 and determines a read point where the pointer “*” is registered (step S7).

  Then, the test data acquisition instruction unit 38c issues a command to acquire the instrument number “DEV1”, the terminal number “1”, and the line number “LN1” as test data from the row of the test order 1 having the reading point. (Step S13).

  The voice synthesizer 34 obtains the inspection data from the inspection data storage unit 33, sets the inspection data “DEV1” in the inspection order 1 to “DV1”, “1” to “1”, and “LN1” to “L1”. The voice data is synthesized (step S14).

  The communication unit 35 transmits the test data “DV Iichi”, “Ichi”, and “L1 Ichi” synthesized as audio signals to the network 5 (step S15).

  The receiving unit 26 of the portable information terminal 2 receives the audio signal transmitted from the manufacturing inspection support device 1. The audio data reproduction unit 27 outputs “DV Iichi”, “Ichi” and “L1 Ichi” as audio to the earphone 20b of the hands-free set 20 of the received audio signal (step S16).

  The inspector inspects the wiring in the control switchboard in accordance with the sound output from the earphone 20b (step S17).

  If the inspection result is good, the inspector speaks “good” (step S1). “Good” uttered by the inspection worker is converted into voice data “good” by the portable information terminal 2. The portable information terminal 2 transmits the voice data “Yoshi” to the network 5 (step S2).

  The communication unit 35 of the manufacturing inspection support apparatus 1 receives the voice data “Yoshi” from the network 5 (step S3).

  The voice recognition unit 36 performs voice recognition processing on the received voice data “good” and recognizes the voice as character data “good”. The character data “Yoshi” is stored in the character data storage unit 37 together with the name data “Tanaka” of the inspector and the date / time data “January 5, 2013” when the voice is uttered (step S4).

  The command processing unit 38 reads “good” character data from the character data storage unit 37. Then, “good” is determined as a “good” command by collating with reading of the command list data registered in the command list storage unit 39 (step S5).

  Further, the processing content corresponding to the determined “good” command is executed. For the “good” command, an instruction to register “good” in the “inspection result” column of the inspection order in the inspection data storage unit 33 is given, and a command to register the pointer in the next inspection order. Is given. "

  First, the inspection result registration unit 40 registers “2013/1/5” in the inspection date column of the inspection order 1 in the inspection data storage unit 33, registers “Tanaka” in the inspector column, and “ “Good” is registered (step S8). FIG. 12 shows an example in which inspection results are registered in inspection order 1. In FIG. 11, “year / month / day / time” data is indicated by “year / month / day” only.

  Next, it is determined whether there is the next inspection data in the inspection data storage unit 33 (step S11). If there is inspection data, the data read point registration unit 38f displays “*” in the “pointer” column of the inspection order 2. "Mark is registered (step S12).

  Next, the data read point determination unit 38b searches the “pointer” column in the inspection data storage unit 33 in the same manner as described above, and determines the read point where the pointer “*” is registered (step S7).

  Then, the test data acquisition instruction unit 38c issues a command for acquiring the instrument number “DEV1”, the terminal number “2”, and the line number “LN3” as test data from the row of the test order 2 having the read point. (Step S13).

  The voice synthesizer 34 obtains the test data from the test data storage unit 33 and sends the test data “DEV1” to “DV1”, “2” to “ni”, and “LN3” to “LN”. Combine (step S14).

  The communication unit 35 transmits the inspection data “DV Iichi”, “Ni”, and “Mr. El N” synthesized as voice signals to the network 5 (step S15).

  The receiving unit 26 of the portable information terminal 2 receives the audio signal transmitted from the manufacturing inspection support device 1. The audio data reproduction unit 27 outputs “DV Iichi”, “Ni”, and “Mr. El N” as the received audio signal as audio to the earphone 20 b of the hands-free set 20. (Step S16)

  The inspector inspects the wiring in the control switchboard according to the sound output from the earphone 20b (step S17).

  Since the inspection result is unsatisfactory, the inspection worker utters “defective” (step S1). The “defect” uttered by the inspection worker is converted into voice data “Furu” by the portable information terminal 2 as described above. The portable information terminal 2 transmits the audio data “Furu” to the network 5 (step S2).

  The inspection worker voice data “Furu” transmitted to the network 5 is received by the communication unit 35 of the manufacturing inspection support apparatus 1. (Step S3)

  The voice recognition unit 36 performs a voice recognition process on the received voice data “Furu” and recognizes the voice as character data “Fuji”. The character data “Furyo” is stored in the character data storage unit together with the name data “Tanaka” of the inspector and the date / time data “January 5, 2013” when the voice is uttered (step S4).

  The command processing unit 38 reads the character data “Furu” from the character data storage unit 37. Then, it compares with the reading of the command list data registered in the command list storage unit 39, and determines “Furu” as a “defective” command (step S5).

  If it is determined as “defective”, inspection failure processing is performed (step S9). FIG. 13 shows a flowchart of the defective inspection process. For the “defective” command, “synthesizes a comment input promoting sound and gives a command to register the received defective comment in the“ inspection result ”column of the inspection order in the inspection data storage unit 33”. Then, a defective content comment input promoting electronic sound (for example, “peep” sound) is transmitted from the communication unit 35 to the network 5 through the voice synthesis unit 34 (step S21).

  The receiving unit 26 of the portable information terminal 2 receives the defect content comment input promoting electronic sound transmitted from the manufacturing inspection support apparatus 1. The audio data reproducing unit 27 outputs a “pea” sound to the earphone 20b of the hands-free set 20 from the received defective content comment input promotion electronic sound (step S22).

  The inspector comments the failure content according to the failure content comment input promoting electronic sound output from the earphone 20b. For example, when it is determined that the electric wire 102 is defective because it is flawed, the inspector utters “the electric wire is flawed” (step S23). “There is a scratch on the electric wire” uttered by the inspector is transmitted from the portable information terminal 2 to the network 5 (step S24).

  The communication unit 35 of the manufacturing inspection support apparatus 1 receives the voice data “There is a scratch on the electric wire” from the network 5. The voice recognition unit 36 recognizes the received voice data “There is a flaw in the electric wire” and converts it into character data “Densen ni Kizuku”. The character data “Densen ni Kizari” is stored in the character data storage unit 37 together with the name data “Tanaka” of the inspector and the date / time data “January 5, 2013” when the voice is uttered (step S25). .

  The inspection result registration unit 40 retrieves the character data “Densen ni Kizukuri” from the character data storage unit 37 based on the defective comment registration instruction unit 38i. The extracted character data is converted into Kanji text data “There is a scratch on the electric wire”. The inspection result registration unit 40 registers the kanji text data “There is a flaw in the electric wire” as “There is a flaw in the electric wire” in the inspection result column of the inspection order 2 in the inspection data storage unit 33. At the same time, “2013/1/5” is registered in the inspection date column, and “Tanaka” is registered in the inspector column (step S26). An example in which inspection results are registered in inspection order 2 is shown in FIG.

  Next, the print data generation instruction unit 38j instructs the print data generation unit 41 to generate print data for the label 29. The print data generation unit 41 receives a print instruction for the label 29, reads the data of the inspection order 2 that has become defective from the inspection data storage unit 33, arranges the format into the print data for the label 29, and stores the data in the print data storage unit 42. Output (step S27).

  The print data stored in the print data storage unit 42 is transmitted to the network 5 via the communication unit 35 (step S28).

  The portable information terminal 2 receives the print data at the receiving unit 26 (step S29). The print data is printed with the label 29 from the printing means 28a connected to the portable information terminal 2 (step S30).

  The label 29 printed from the printing means 28a is attached to the defective part by the inspection worker (step S31).

  Thus, the defect process is completed, and the terminal “A” in the flowchart showing the inspection defect process in FIG. 13 returns to the terminal “A” in the flowchart showing the operation of the manufacturing support inspection apparatus in FIG.

The inspection worker speaks “start” again to perform the next inspection (step S1).
This “start” is transmitted to the manufacturing inspection support apparatus 1 as voice data. After the inspection is repeatedly performed up to the inspection order 17 of the inspection data, it is determined in step S11 that there is no next inspection data, and the process ends.

  When the inspection worker utters “End” in step S1, the voice data of “Shuyu” is received by the manufacturing inspection support apparatus 1 from the portable information terminal 2 as described above, and the voice data recognition is performed in step S5. After that, “end” command determination is performed, “end electronic sound transmission instruction is given” of the end processing is executed, and the electronic sound that tells the end is sent from the speech synthesizer 14 via the communication unit 35 to the portable information terminal 2. And an electronic sound is output to the earphone 20b of the hands-free set 20 and the process ends (step S10).

  FIG. 15 shows the inspection data at the end of the inspection order 17. Inspection orders 3 to 14 and 17 are registered as “good” inspection results, and inspection orders 15 and 16 are determined to be “defective”, indicating that “no wiring connection” and “terminal 2 line connected”, respectively. Content comments are registered.

  The defect comments of the inspection orders 15 and 16 are the result of the inspection operator noticing that the wire 102 to be connected to the inspection order 15 was connected to the inspection order 16 and noticed. In this way, in addition to the alternative determination as to whether or not the inspection result is correct, information on how the inspection result is incorrect can be registered as the inspection result.

(Operation at the time of re-examination)
The control switchboard is inspected as described above, and if there is a defective portion in the inspection result, it is corrected. A label 29 printed at the previous inspection is attached to the defective portion. Since the label 29 is printed with defective content and correct content, the inspector performs repairs only by looking at the label 29.

  At the time of reinspection after reworking, the two-dimensional code reader 5 connected to the portable information terminal 2 reads the two-dimensional code of the label 29 and transmits it to the manufacturing inspection support device 1 for reinspection in the inspection data storage unit 33. Identify the location. In addition, the pointer movement after re-examination is limited to the location where there was a defect.

  FIG. 16 is an example of inspection data in which inspection data after re-inspection is registered. In FIG. 16, an inspector named “Sato” reinspected the defective part on January 6, 2013. The inspection locations 2 and 15 and 16 that were defective locations were re-inspected according to the above-described inspection procedure. “2013/6” is registered in the inspection date field, “Sato” is registered in the reexamination person field, and “good” is registered in the reinspection result field.

[1-3. effect]
In the document data comparison apparatus of the present embodiment as described above, in the manufacturing inspection of control switchboards such as a power plant and an industrial plant, the inspection worker uses the voice data as the inspection result determined by the inspection worker, and the portable information terminal 2 Is transmitted to the manufacturing inspection support apparatus 1 via the network, and the voice data of the inspection worker is recognized and converted into character data, which is not only an alternative determination as to whether the inspection result is correct, but also incorrect. In this case, it is possible to record information as to how it is wrong as an inspection result, and product inspection and inspection record registration can be efficiently performed.

[2. Other Embodiments]
In the present specification, the embodiments according to the present invention have been described. However, these embodiments are presented as examples, and are not intended to limit the scope of the invention. Specifically, the first embodiment can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the invention described in the claims and equivalents thereof as well as included in the scope and gist of the invention.

  Moreover, although the specific example was given and demonstrated about this embodiment, about each condition etc., it does not limit to the numerical value described. Moreover, even if it changes within the range described in the problem-solving means mentioned above, the same effect is acquired. For example, the following changes can be made.

(A) Although the manufacturing inspection support apparatus 1 has been described in the present embodiment, a system using the manufacturing inspection support apparatus 1 and the portable information terminal 2 is also an aspect of the present embodiment.

(B) When synthesizing voice data in the test data storage unit 33 registered in the test data storage unit 33, in the case of an inspection in the same electrical appliance, the voice synthesis of the instrument number is performed only once, and the second and subsequent times are omitted. It is also possible to do. For example, in FIG. 9, inspection orders 1 to 4 are inspections in the electrical appliance having the instrument number DEV1. Therefore, the voice data synthesis of the instrument number DEV1 is performed only in the inspection order 1, the voice data synthesis of the instrument number DEV1 is omitted in the inspection orders 2 to 4, and the voice data synthesis of only the terminal numbers 2 to 4 and the line numbers connected thereto is performed. But you can. This further reduces the amount of voice data transmitted and reduces the burden of inspecting the inspector, further improving inspection efficiency.

(C) In this embodiment, although the test | inspection of whether the electric wire 102 which connects the electrical equipment 101 is correctly comprised as FIG. Was demonstrated, it is also applicable to another test | inspection. For example, the electric appliance 101 installed in the control switchboard has various types and ratings. If an electric appliance 101 of a different type or rating is installed, there is a problem such as failure. Therefore, it is necessary to inspect whether the correct electrical appliance 101 is installed, but the present invention can also be applied to the inspection of the electrical appliance. FIG. 17 shows an example of inspection data when performing an inspection on an electrical appliance.

  In FIG. 17, the appliance number 106, the model 105, and the rating 104 are listed as inspection items. These model 105 and rating 104 are acquired from the inspection data storage unit 33. Further, an item of drawing number 111 is provided. Thus, it is also possible to generate a file for electrical appliance inspection from the CAD data stored in the inspection data storage unit 33.

  The file for electrical inspection can be generated together with the inspection file for wiring inspection, and at the same time, electrical inspection and wiring inspection can be performed.

(D) As the label 29, as shown in FIG. 18, the hole which lets the attachment string 302 pass to the label 29 can also be provided. Further, by passing the attachment string 302 without using a tape or an adhesive for attaching the label 29, the label 29 can be bound to the place where the problem has occurred. Moreover, since it is tied with a string, it is not necessary to secure a space for attaching the label 29.

(E) The label 29 may be provided with a blank portion. It is possible to easily indicate that the repair has been completed by cutting the blank portion after repairing the inspection defective part. This margin part may be provided with a perforation in advance to facilitate separation.

(F) If the portable information terminal 2 of this embodiment has the above-described configuration, a general-purpose portable information terminal 2 can be used. Further, although the hands-free set 20, the printing unit 28a, and the two-dimensional code reader 24a are connected to the portable information terminal 2 by a dedicated cable, they may be connected by other methods. For example, data may be exchanged by performing cordless wireless communication with the portable information terminal 2 using Bluetooth (registered trademark) or the like.

1: manufacturing inspection support device, 2: portable information terminal, 20: hands-free set, 20a: voice input unit, microphone, 20b: voice output unit, earphone, 21: voice data conversion unit, 22: inspector data adding unit, 23: Time data addition unit, 24: Two-dimensional code data conversion unit, 24a: Two-dimensional code reader, 25: Transmission unit, 26: Reception unit, 27: Audio data reproduction unit, 28: Print data output unit, 28a: Print Means: 29: label, 31: CAD data storage unit, 32: inspection data generation unit, 33: inspection data storage unit, 34: speech synthesis unit, 35: communication unit, 35a: transmission unit, 35b: reception unit, 36: Voice recognition unit 37: Character data storage unit 38: Command processing unit 38a: Command determination unit 38b: Data read point determination unit 38c: Inspection data acquisition instruction unit 38 d: voice data synthesis instruction unit, 38e: inspection result registration instruction unit, 38f: data reading point registration unit, 38g: defect processing unit, 38h: comment input prompt sound transmission instruction unit, 38i: defect comment registration instruction unit, 38j: Print data generation instruction unit, 39: command list storage unit, 40: inspection result registration unit, 41: print data generation unit, 42: print data storage unit, 5: network, 101: electrical appliance, 102: electric wire, 103: location Symbol: 104: Rating, 105: Model, 106: Appliance number, 107: Terminal number, 108: Line number, 109: Location number of the electrical appliance to be connected, 110: Terminal number of the electrical appliance to be connected, 111 : Drawing number, 301: Two-dimensional code, 302: Attachment string

Claims (9)

In a manufacturing inspection support apparatus that communicates with a portable information terminal and performs manufacturing inspection,
An inspection data storage unit for storing manufacturing inspection data;
A print data generation unit that generates print data from the inspection data;
An audio signal synthesizer for synthesizing the inspection data into an audio signal;
A transmission unit for transmitting the audio signal and the print data to the portable information terminal;
A receiving unit for receiving voice data in the examination based on the voice signal from the portable information terminal;
A voice recognition unit that recognizes the voice data and converts it into character data;
A command determination unit for determining whether or not an inspection command is included in the character data;
An inspection result registration unit for registering an inspection result based on the audio data in the inspection data;
A manufacturing inspection support apparatus comprising:   When the inspection data indicating that the inspection result indicates a defect is included in the character data, the defect is registered in the inspection data, and print data is generated based on the inspection data. Inspection support device. A command list storage unit for storing the inspection command as character data;
The command determination unit determines whether the command is included in the character data by comparing the inspection command stored in a command list storage unit with the character data. The manufacturing inspection support device according to claim 2.   4. The voice signal synthesizing unit synthesizes a sound for promoting input of a comment indicating a defect content as a voice signal in response to a test command indicating that the test result is defective. The manufacturing inspection support apparatus according to any one of the above.   The manufacturing inspection support apparatus according to claim 1, wherein the printing data generation unit generates printing data including two-dimensional code data that specifies the inspection result.   The manufacturing inspection support apparatus according to claim 5, wherein the two-dimensional code data is data indicating a defective inspection portion, and an inspection target is specified based on the data.   The manufacturing inspection support apparatus according to claim 1, further comprising inspection data generation means for generating the inspection data from CAD data. An inspection data storage unit storing the inspection data;
A command list storage unit for storing the inspection command as character data;
In manufacturing inspection support program that communicates with portable information terminal and performs manufacturing inspection,
An audio signal synthesis process for synthesizing the inspection data into an audio signal;
Print data generation processing for generating print data from the inspection data;
A transmission process for transmitting the audio signal and the print data to the portable information terminal;
A receiving process for receiving voice data from the portable information terminal in an inspection based on the voice signal;
A voice recognition process for recognizing the voice data and converting it into character data;
A command determination process for determining whether a test command is included in the character data;
An inspection result registration process for registering an inspection result based on the audio data in the inspection data;
Including
When the inspection data indicating that the inspection result indicates a defect is included in the character data, the defect is registered in the inspection data, and print data is generated based on the inspection data. Inspection support method. An inspection data storage unit storing the inspection data;
In a manufacturing inspection support program for causing a manufacturing inspection support apparatus comprising a command list storage unit to store the inspection command as character data to perform manufacturing inspection,
The program is stored in the manufacturing inspection support device.
An audio signal synthesis process for synthesizing the inspection data into an audio signal;
Print data generation processing for generating print data from the inspection data;
A transmission process for transmitting the audio signal and the print data to the portable information terminal;
A receiving process for receiving voice data from the portable information terminal in an inspection based on the voice signal;
A voice recognition process for recognizing the voice data and converting it into character data;
A command determination process for determining whether a test command is included in the character data;
An inspection result registration process for registering an inspection result based on the audio data in the inspection data;
And execute
Manufacturing in which, when the character data includes an inspection command indicating that the inspection result indicates a defect, the defect is registered in the inspection data, and print data is generated based on the inspection data. Inspection support program.

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