JP2018106606A - Work process management rack, work process management system, and work process management method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable easy management of a work situation in each of a plurality of processes.SOLUTION: A work process management rack 20 according to the present embodiment comprises: a storage section 25; an instruction identification information reading section 22; and a process identification information reading section 23. The storage section 25 stores work instructions 65 used in a plurality of respective processes. The instruction identification information reading section 22 functions as an input/output detecting section, and detects input/output of the work instructions 65 with respect to the storage section 25. The process identification information reading section 23 reads process identification information set for each of the plurality of processes.SELECTED DRAWING: Figure 2

Description

  The technology disclosed in the present application relates to a work process management rack, a work process management system, and a work process management method.

  At the product manufacturing site, the work is sequentially transferred to a plurality of processes, and the work is performed on each work in each process to complete the product. In the manufacturing site of such a product, it is required to manage the work situation in each of a plurality of processes.

JP, 2006-51223, A

  One method of managing the work status in each of the multiple processes is to detect that work instructions that are transported to the next process along with the workpiece are input to and output from the racks installed in each process, and this input / output information is sent to the server. And sending / receiving information on a server.

  Here, when a rack is installed and used in each of a plurality of processes, it is complicated to manually perform process identification setting indicating which process the rack is in for each of the plurality of processes. Therefore, it is desired that the work status in each of the plurality of processes can be easily managed.

  An object of the technology disclosed by the present application is to facilitate management of a work situation in each of a plurality of processes as one aspect.

  In order to achieve the above object, according to one aspect of the technology disclosed in the present application, a work process management rack including a storage unit, an entry / exit detection unit, and a process identification information reading unit is provided. The storage unit stores work instructions used in each of the plurality of steps. The entry / exit detection unit detects entry / exit of a work instruction sheet with respect to the accommodation unit. The process identification information reading unit reads process identification information set for each of the plurality of processes.

  According to the technique disclosed in the present application, it is possible to easily manage the work status in each of a plurality of steps.

It is a conceptual diagram which shows the work process management system which concerns on one Embodiment of the technique which this application discloses. It is a perspective view which expands and shows the work process management rack and transmitter which are shown by FIG. It is a figure explaining the work implementation time for every some process, the work residence time between several processes, and work progress which are managed in the server shown by FIG. It is a perspective view which shows the modification of the work process management rack which concerns on one Embodiment of the technique which this application discloses.

  First, the configuration of a work process management system according to an embodiment of the technology disclosed in the present application will be described.

  FIG. 1 conceptually shows a work process management system 10 of the present embodiment. The work process management system 10 is applied to, for example, managing the work situation in each of the plurality of processes 1 to N in the product manufacturing site 60. In the product manufacturing site 60 shown in FIG. 1, as an example, a workpiece (not shown) is sequentially transferred to a plurality of steps 1 to N, and the workpiece is worked in each step to complete the product. The operations in the plurality of steps 1 to N correspond to various operations for completing a product, such as processing, assembly, painting, and inspection.

  At the product manufacturing site 60, a work instruction sheet 65 is used. The work instruction sheet 65 describes work contents in each process. In the present embodiment, as an example, the work instruction sheet 65 is sequentially conveyed to a plurality of processes together with the workpiece while being stored in the storage file 66. The work instruction sheet 65 is used in each of a plurality of processes.

  The storage file 66 is a clear file, for example. The storage file 66 is provided with an instruction identification information storage unit 62 such as an RFID (Radio Frequency Identifier) tag. The instruction sheet identification information storage unit 62 stores instruction sheet identification information set for the work instruction sheet 65. The work instruction sheet 65 has a barcode 85 attached thereto, and the storage file 66 has a barcode 86 corresponding to the barcode 85 attached thereto.

  The work process management system 10 of the present embodiment includes a work process management rack 20, a plurality of worker identification information reading units 30, a plurality of transmitters 40, and a server 50, as will be described in order below.

  The work process management rack 20 is installed in each of a plurality of processes. The work process management rack 20 has portability. The work process management racks 20 may be prepared in a number corresponding to a plurality of processes, and may be installed in each of the plurality of processes. The management rack 20 may be borrowed from the process before the work is completed or before the work is performed.

  FIG. 2 shows the work process management rack 20 in an enlarged manner. The work process management rack 20 includes a rack body 21, a plurality of instruction document identification information reading units 22, a process identification information reading unit 23, and a control unit 24.

  The rack body 21 has a plurality of accommodating portions 25 formed in a step shape. Each accommodating portion 25 is open above the rack body 21. The storage unit 25 stores the work instruction sheet 65 in a state of being stored in the storage file 66. In the present embodiment, the number of the accommodating portions 25 is four, but the number of the accommodating portions 25 can be arbitrarily set. In addition, the number of work instruction sheets 65 commonly used for a plurality of processes can be arbitrarily set.

  The plurality of instruction document identification information reading units 22 are provided in each of the plurality of storage units 25. Each instruction document identification information reading unit 22 is provided, for example, at a lower portion of the back surface 25 </ b> A of each storage unit 25. The instruction form identification information reading unit 22 is disposed at a position facing the instruction form identification information storage unit 62 when the storage file 66 is stored in the storage unit 25. The instruction form identification information reading unit 22 is, for example, an RFID tag reader, reads the instruction form identification information stored in the instruction form identification information storage unit 62, and transmits the read instruction form identification information to the control unit 24.

  This instruction sheet identification information reading unit 22 functions as an “in / out detection unit” that detects the entry / exit of the work instruction sheet 65 with respect to the storage unit 25 as described later. That is, the instruction sheet identification information reading unit 22 operates at regular time intervals. When the storage file 66 is stored in the storage unit 25, the instruction sheet identification information reading unit 22 reads the instruction sheet identification information and transmits the read instruction sheet identification information to the control unit 24.

  On the other hand, when the storage file 66 is not stored in the storage unit 25, the instruction sheet identification information reading unit 22 cannot read the instruction sheet identification information. Send to. In this manner, the instruction sheet identification information reading unit 22 operates as a certain time interval and functions as an “in / out detection unit” by transmitting different information according to the entry / exit of the work instruction sheet 65 with respect to the storage unit 25.

  Each process is provided with a rack place 61 for placing the work process management rack 20 (rack main body 21). The rack storage 61 is provided with a process identification information storage unit 63 such as an RFID tag. The process identification information storage unit 63 stores process identification information set for each of a plurality of processes.

  The process identification information reading unit 23 is provided on the lower surface 21A of the rack body 21 as an example. The process identification information reading unit 23 is arranged at a position facing the process identification information storage unit 63 when the work process management rack 20 (rack main body 21) is placed at a normal position of the rack storage 61. The process identification information reading unit 23 is, for example, an RFID tag reader. When the process identification information storage unit 63 is placed over the process identification information reading unit 23, the process identification information reading unit 23 reads the process identification information stored in the process identification information storage unit 63, and the read process identification information is controlled by the control unit. 24.

  The control unit 24 is electrically connected to the plurality of instruction document identification information reading units 22 and the process identification information reading unit 23. The control unit 24 has a function of supplying power to the plurality of instruction document identification information reading units 22 and the process identification information reading unit 23, and is transmitted from the plurality of instruction document identification information reading units 22 and the process identification information reading unit 23. It has a function of transmitting information to a transmitter 40 described later.

  In addition, as will be described later, the control unit 24 operates each instruction document identification information reading unit 22 as an “in / out detection unit” that detects the entry / exit of the work instruction sheet 65 with respect to the storage unit 25, and It also has a function of transmitting input / output information corresponding to the transmitter 40 to the transmitter 40.

  That is, when the information transmitted from the instruction identification information reading unit 22 changes from empty reading information to regular instruction identification information, the control unit 24 sends the regular instruction identification information to the transmitter 40 as input information. Send. On the other hand, when the information transmitted from the instruction sheet identification information reading unit 22 changes from the normal instruction sheet identification information to empty reading information, the control unit 24 transmits the outgoing information to the transmitter 40.

  Each process has a worker, and each worker has a worker identification information storage unit 70 such as an identification card. The worker identification information storage unit 70 is, for example, an RFID card or an RFID tag. The worker identification information storage unit 70 stores worker identification information set for each worker.

  The worker identification information reading unit 30 is installed for each of a plurality of processes. The worker identification information reading unit 30 is a reader that reads information stored in, for example, an RFID card or an RFID tag. When the worker identification information storage unit 70 is held over the worker identification information reading unit 30, the worker identification information reading unit 30 reads the worker identification information stored in the worker identification information storage unit 70, and reads the read work identification information. The person identification information is transmitted to the transmitter 40.

  The transmitter 40 is installed for each of a plurality of processes. Each transmitter 40 is connected to the worker identification information reading unit 30 installed for each of a plurality of processes so as to be able to communicate with each other in a wired or wireless manner. Each transmitter 40 is connected to the control unit 24 of the work process management rack 20 installed in each of a plurality of processes so as to be able to communicate with each other by wire or wirelessly.

  As shown in FIG. 1, a plurality of transmitters 40 installed for each of a plurality of processes are connected to a server 50 so that they can communicate with each other by wire or wirelessly. Each transmitter 40 transmits the entry / exit information and process identification information transmitted from the control unit 24 and the worker identification information transmitted from the worker identification information reading unit 30 to the server 50.

  The server 50 functions as a “computer”, and includes a calculation unit 51, a master database 52, and a performance database 53. The calculation unit 51 stores the information transmitted from the transmitter 40 in the performance database 53 as described later, or extracts the difference between the information stored in the master database 52 and the information stored in the performance database 53. Etc. can be executed.

  Master data input to the input terminal 90 is stored in the master database 52, and information transmitted from the transmitter 40 and other input means (not shown) is stored as performance data in the performance database 53. The master database 52 and the performance database 53 are connected via an interface 54 such as an API (Application Programming Interface).

  Next, the work process management method of this embodiment will be described.

  As shown in FIG. 1, first, the bar code reader 91 connected to the input terminal 90 stores information stored in the bar code 85 attached to the work instruction sheet 65 and the bar code 86 attached to the storage file 66. Stored information is read. The storage information of both barcodes 85 and 86 read by the barcode reader 91 is linked and stored in the master database 52.

  Further, other information is input to the input terminal 90, and the information input to the input terminal 90 is stored in the master database 52. Information input to the input terminal 90 is stored in, for example, the worker name of each process, identification information of each worker, lot identification information, drawing number, production quantity, and instruction identification information storage unit 62. Instruction identification information.

  The work process management rack 20 is installed in each of a plurality of processes. The work process management racks 20 may be prepared in the number of a plurality of processes and installed in each of the plurality of processes. Further, the work process management racks 20 are prepared in a number smaller than the number of the plurality of processes, and the work process management racks 20 corresponding to the shortage may be borrowed from the process before the work is completed or before the work is performed. good.

  The work process management rack 20 is placed in the rack place 61 of each process. As shown in FIG. 2, when the work process management rack 20 is placed at a normal position of the rack place 61, the process identification information reading unit 23 of the work process management rack 20 is moved to the process identification information storage part of the rack place 61. 63. The process identification information reading unit 23 reads the process identification information stored in the process identification information storage unit 63 and transmits the read process identification information to the control unit 24.

  When receiving the process identification information transmitted from the process identification information reading unit 23, the control unit 24 transmits the received process identification information to the transmitter 40. When receiving the process identification information transmitted from the control unit 24, the transmitter 40 transmits the received process identification information to the server 50. When the server 50 receives the process identification information transmitted from the transmitter 40, the server 50 extracts the process name and the equipment name from the process identification information, and stores the process name and the equipment name in the result database 53.

  When the work is started at the product manufacturing site 60, the worker holds the worker identification information storage unit 70 over the worker identification information reading unit 30. When the worker identification information storage unit 70 is held over the worker identification information reading unit 30, the worker identification information reading unit 30 reads the worker identification information stored in the worker identification information storage unit 70, and reads the read work identification information. The person identification information is transmitted to the transmitter 40.

  When the transmitter 40 receives the worker identification information transmitted from the worker identification information reading unit 30, the transmitter 40 transmits the worker identification information to the server 50. Upon receiving the worker identification information transmitted from the transmitter 40, the server 50 stores the received worker identification information in the result database 53 as the worker name in step 1.

  Further, when the work process management rack 20 is placed in the rack place 61 at the product manufacturing site 60, the control unit 24 detects the entry / exit of the work instruction sheet 65 with respect to the storage unit 25 by the instruction sheet identification information reading unit 22. It functions as an “in / out detector”. That is, the control unit 24 operates the instruction document identification information reading unit 22 at regular time intervals.

  When the storage file 66 is stored in the storage unit 25 when the instruction sheet identification information reading unit 22 is activated, the instruction sheet identification information reading unit 22 reads the instruction sheet identification information and reads the read instruction sheet identification information. It transmits to the control part 24. On the other hand, if the storage file 66 is not stored in the storage unit 25 when the instruction sheet identification information reading unit 22 is activated, the instruction sheet identification information reading unit 22 cannot read the instruction sheet identification information. The empty read information whose information has not been read is transmitted to the control unit 24.

  At the product manufacturing site 60, the storage file 66 containing the work instruction sheet 65 is transferred to the process 1 together with the workpiece. When the storage file 66 is placed in the storage unit 25, the instruction sheet identification information is read by the instruction sheet identification information reading unit 22 at a timing when the instruction sheet identification information reading unit 22 is subsequently operated. Regular instruction form identification information is transmitted to the control unit 24.

  When the control unit 24 receives regular instruction form identification information from the state of receiving empty read information, the instruction form identification information reading unit 22 detects that the work instruction form 65 has been placed in the storage unit 25. The incoming information is transmitted to the transmitter 40. When receiving the incoming information transmitted from the control unit 24, the transmitter 40 transmits the incoming information to the server 50. When the server 50 receives the input information transmitted from the transmitter 40, the server 50 stores the time when the input information is received, that is, the work start time in the performance database 53.

  In step 1, work is performed based on the contents described in the work instruction sheet 65, and when the work in step 1 is completed, the storage file 66 is taken out from the storage unit 25.

  When the controller 24 receives empty reading information from the state in which the normal instruction identification information has been received, the instruction identification information reading unit 22 detects that the work instruction 65 has been issued from the storage unit 25. As a result, the outgoing information is transmitted to the transmitter 40. Upon receiving the outgoing information transmitted from the control unit 24, the transmitter 40 transmits the outgoing information to the server 50. When the server 50 receives the outgoing information transmitted from the transmitter 40, the server 50 stores the time when the outgoing information is received, that is, the work completion time in the performance database 53.

  The control unit 24 may sequentially transmit the process identification information, input information (instruction identification information), and outgoing information to the transmitter 40 each time it receives the process identification information, input information, and The outgoing information may be collectively transmitted to the transmitter 40. Further, the transmitter 40 may sequentially transmit the process identification information, input information, and output information to the server 50 each time it receives the process identification information, input information, and output information. You may send to. The transmitter 40 separately transmits the process identification information, the incoming information, and the outgoing information transmitted from the control unit 24 and the worker identification information transmitted from the worker identification information reading unit 30 to the server 50. Alternatively, they may be transmitted to the server 50 collectively.

  Thus, the operation in step 1 is completed. When the work in the process 1 is completed, the process proceeds to the process 2. Also in step 2, as in step 1, the process identification information, the worker identification information, and the entry / exit information of the work instruction sheet 65 are acquired and stored in the result database 53.

  Then, until the work is completed in the process N, which is the final process, the information acquisition work in each process described above is repeatedly performed up to the process N.

  As described above, in the work process management method of the present embodiment, the work process management rack 20 including the storage unit 25, the instruction form identification information reading unit 22, and the process identification information reading unit 23 is installed in each of the plurality of processes. Is done. For each of the plurality of processes, the process identification information read by the process identification information reading unit 23 and the input / output information detected using the instruction sheet identification information reading unit 22 are transmitted from the transmitter 40. Based on the process identification information and the entry / exit information transmitted from the transmitter 40, the entry / exit information for each of the plurality of processes is managed by the server 50.

  More specifically, the input information is transmitted from the transmitter 40 when it is detected by the instruction document identification information reading unit 22 that the work instruction sheet 65 has been put in the storage unit 25 for each of a plurality of processes. . On the other hand, the output information is transmitted from the transmitter 40 when it is detected by the instruction document identification information reading unit 22 that the work instruction document 65 has been issued from the storage unit 25 for each of a plurality of processes. Then, based on the process identification information, the incoming information, and the outgoing information transmitted from the transmitter 40, the work execution time for each of the plurality of processes, the work residence time between the plurality of processes, and the work progress status are stored in the server 50. Managed by.

  FIG. 3 is a diagram for explaining the work execution time for each of the plurality of processes, the work residence time between the plurality of processes, and the work progress status managed in the server 50 shown in FIG. The work execution time for each of the plurality of processes is calculated by the time from the work start time at which incoming information is received to the work completion time at which outgoing information is received in each process. The work residence time between a plurality of processes is calculated as the time from the work completion time to the work start time of the next process. Furthermore, the work progress status is grasped by the work start time and the work completion time in each process.

  In addition to the work execution time for each of the plurality of processes, the work residence time between the plurality of processes, and the work progress status, the performance database 53 includes lot identification information separately input from input means installed in each process. Actual data such as drawing numbers and manufacturing quantities may be stored. In the server 50, the difference between the information stored in the master database 52 and the information stored in the performance database 53 may be extracted by the calculation unit 51.

  Next, the operation and effect of this embodiment will be described.

  As described above in detail, according to the present embodiment, process identification information is set for each of a plurality of processes. The work process management rack 20 installed in each of the plurality of processes is provided with a process identification information reading unit 23. Then, the process identification information reading unit 23 reads the process identification information for each of a plurality of processes, and the entry / exit information corresponding to the entry / exit of the work instruction sheet 65 is transmitted to the server 50 together with the process identification information. Therefore, when managing the input / output information for each of the plurality of processes, it is not necessary to manually set the process identification that indicates which process the work process management rack 20 is in for each of the plurality of processes. Thereby, the work situation in each of a plurality of processes can be easily managed.

  Moreover, according to this embodiment, in the server 50, based on the process identification information, the incoming information, and the outgoing information transmitted from the transmitter 40, the work execution time for each of the plurality of processes and the work between the plurality of processes. Residence time and work progress are managed. Thereby, the work situation in each of a plurality of processes can be managed more accurately.

  Further, according to the present embodiment, the instruction sheet identification information reading unit 22 functions as an “in / out detection unit” that detects the entry / exit of the work instruction sheet 65 with respect to the storage unit 25. Accordingly, the number of parts can be reduced as compared with the case where the entry / exit detection unit and the instruction document identification information reading unit 22 are provided in the work process management rack 20, respectively, so that the cost can be reduced.

  Next, a modification of this embodiment will be described.

  In the above embodiment, the server 50 preferably manages the work execution time for each of the plurality of processes, the work residence time between the plurality of processes, and the work progress status. However, the server 50 may manage any one or two of the work execution time for each of the plurality of processes, the work residence time between the plurality of processes, and the work progress status.

  In the above embodiment, as an example, the process identification information storage unit 63 and the process identification information reading unit 23 are an RFID tag and a reader, respectively. However, the process identification information storage unit 63 and the process identification information reading unit 23 may be a storage device and a reading device other than the RFID tag and the reader, respectively. For example, as illustrated in FIG. 4, the process identification information storage unit 63 may be a storage device such as a USB memory, and the process identification information reading unit 23 may be a reading device that reads stored information in the USB memory.

  Similarly, the instruction form identification information storage unit 62 and the instruction form identification information reading unit 22 may be a storage device and a reading device other than the RFID tag and the reader, respectively.

  Further, in the above embodiment, the instruction sheet identification information reading unit 22 also serves as an “in / out detection unit” that detects the entry / exit of the work instruction sheet 65 with respect to the storage unit 25. However, the entry / exit detection unit that detects entry / exit of the work instruction sheet 65 with respect to the storage unit 25 and the instruction sheet identification information reading unit 22 may be provided separately. Then, when the entry / exit detection unit detects that the work instruction sheet 65 has been inserted into the storage unit 25, the instruction sheet identification information stored in the instruction sheet identification information storage unit 62 is stored in the instruction sheet identification information reading unit 22. It may be read and transmitted to the control unit 24.

  In the above-described embodiment, preferably, the instruction document identification information reading unit 22 is used. However, instead of the instruction document identification information reading unit 22, an input / output detection unit that detects the input / output of the work instruction document 65 with respect to the storage unit 25 is provided. It may be used. The entry / exit information transmitted from the entry / exit detection unit may be managed by the server 50.

  In the above embodiment, the instruction form identification information reading unit 22 is provided at the lower part of the back surface 25 </ b> A of the storage unit 25, but may be provided at any location in the storage unit 25.

  Moreover, in the said embodiment, although the some accommodating part 25 is preferably formed in step shape, forms other than step shape may be sufficient. Further, the rack body 21 may have a structure that rotates around the vertical axis with respect to the rack storage 61.

  In the above-described embodiment, the work instruction sheet 65 is stored in the storage unit 25 while being stored in the storage file 66. However, the work instruction sheet 65 may be stored directly in the storage unit 25 without being stored in the storage file 66.

  In the above-described embodiment, the instruction form identification information storage unit 62 is provided in the storage file 66, but may be provided in the work instruction form 65.

  In the above embodiment, the transmitter 40 is independent of the work process management rack 20, but the transmitter 40 may be incorporated in the work process management rack 20.

  Similarly, the worker identification information reading unit 30 is independent of the work process management rack 20, but the worker identification information reading unit 30 may be incorporated in the work process management rack 20.

  As mentioned above, although one embodiment of the technique disclosed in the present application has been described, the technique disclosed in the present application is not limited to the above, and various modifications may be made without departing from the spirit of the present invention. Of course, it is possible.

  In addition, the following additional remark is disclosed regarding one Embodiment of the technique which the above-mentioned this application discloses.

(Appendix 1)
A storage section for storing work instructions used in each of the plurality of processes;
An entry / exit detection unit for detecting entry / exit of the work instruction with respect to the accommodation unit;
A process identification information reading unit for reading process identification information set for each of the plurality of processes;
Work process management rack with
(Appendix 2)
The entry / exit detection unit is an instruction sheet identification information reading unit that reads instruction sheet identification information set for the work instruction sheet.
The work process management rack according to attachment 1.
(Appendix 3)
A plurality of the accommodating portions are provided stepwise,
The work process management rack according to appendix 1 or appendix 2.
(Appendix 4)
The instruction document identification information reading unit is provided at a lower portion of the back surface of the storage unit.
The work process management rack according to any one of appendix 1 to appendix 3.
(Appendix 5)
A storage unit that stores work instructions used in each of the plurality of steps, an entry / exit detection unit that detects entry / exit of the work instructions to / from the storage unit, and a process set for each of the plurality of steps A process identification information reading unit for reading identification information, a work process management rack installed in each of the plurality of processes,
For each of the plurality of processes, the process identification information read by the process identification information reading unit, and a transmitter that transmits the input / output information detected using the input / output detection unit,
Based on the process identification information and the entry / exit information transmitted from the transmitter, a server that manages the entry / exit information for each of the plurality of processes;
Work process management system with
(Appendix 6)
For each of the plurality of steps, the transmitter transmits input information when the input / output detection unit detects that the work instruction has been put in the storage unit, and the input / output detection unit When it is detected that the work instruction has been issued from the storage unit, send out information,
The server, based on the process identification information, the input information, and the output information transmitted from the transmitter, work execution time for each of the plurality of processes, work residence time between the plurality of processes, and Manage at least one of the work progress,
The work process management system according to attachment 4.
(Appendix 7)
A storage unit that stores work instructions used in each of the plurality of steps, an entry / exit detection unit that detects entry / exit of the work instructions to / from the storage unit, and a process set for each of the plurality of steps A work process management rack provided with a process identification information reading unit for reading identification information is installed in each of the plurality of processes,
For each of the plurality of processes, the process identification information read by the process identification information reading unit, and the input / output information detected using the input / output detection unit are transmitted from a transmitter,
Based on the process identification information and the input / output information transmitted from the transmitter, the server manages the input / output information for each of the plurality of processes.
Work process management method including the above.
(Appendix 8)
For each of the plurality of steps, when the entry / exit detection unit detects that the work instruction has been put in the accommodation unit, the entry information is transmitted from the transmitter, and the work instruction is transmitted from the accommodation unit. When the entry / exit detection unit detects that a document has been issued, it sends out information from the transmitter,
Based on the process identification information, the input information, and the output information transmitted from the transmitter, work execution time for each of the plurality of processes, work residence time between the plurality of processes, and work progress status Manage at least one of them on the server,
The work process management method according to attachment 6.

DESCRIPTION OF SYMBOLS 10 Work process management system 20 Work process management rack 21 Rack main body 22 Instruction sheet identification information reading part 23 Process identification information reading part 24 Control part 25 Storage part 25A Back surface 30 Worker identification information reading part 40 Transmitter 50 Server 51 Calculation part 52 Master database 53 Results database 60 Production site 61 Rack place 62 Instruction sheet identification information storage unit 63 Process identification information storage unit 65 Work instruction sheet 66 Storage file 70 Worker identification information storage unit

Claims (5)

A storage section for storing work instructions used in each of the plurality of processes;
An entry / exit detection unit for detecting entry / exit of the work instruction with respect to the accommodation unit;
A process identification information reading unit for reading process identification information set for each of the plurality of processes;
Work process management rack with The entry / exit detection unit is an instruction sheet identification information reading unit that reads instruction sheet identification information set for the work instruction sheet.
The work process management rack according to claim 1. A storage unit that stores work instructions used in each of the plurality of steps, an entry / exit detection unit that detects entry / exit of the work instructions to / from the storage unit, and a process set for each of the plurality of steps A process identification information reading unit for reading identification information, a work process management rack installed in each of the plurality of processes,
For each of the plurality of processes, the process identification information read by the process identification information reading unit, and a transmitter that transmits the input / output information detected using the input / output detection unit,
Based on the process identification information and the entry / exit information transmitted from the transmitter, a server that manages the entry / exit information for each of the plurality of processes;
Work process management system with For each of the plurality of steps, the transmitter transmits input information when the input / output detection unit detects that the work instruction has been put in the storage unit, and the work is transmitted from the storage unit. If the entry / exit detector detects that an instruction has been issued, send out information,
The server, based on the process identification information, the input information, and the output information transmitted from the transmitter, work execution time for each of the plurality of processes, work residence time between the plurality of processes, and Manage at least one of the work progress,
The work process management system according to claim 3. A storage unit that stores work instructions used in each of the plurality of steps, an entry / exit detection unit that detects entry / exit of the work instructions to / from the storage unit, and a process set for each of the plurality of steps A work process management rack provided with a process identification information reading unit for reading identification information is installed in each of the plurality of processes,
For each of the plurality of processes, the process identification information read by the process identification information reading unit, and the input / output information detected using the input / output detection unit are transmitted from a transmitter,
Based on the process identification information and the input / output information transmitted from the transmitter, the server manages the input / output information for each of the plurality of processes.
Work process management method including the above.