JP6627260B2 - Sewing machine management system - Google Patents

Description

The present invention relates to a sewing machine management system capable of setting the operating conditions of the sewing machine.

  The sewing machine receives an operation on the operation panel, and can change settings of various functions such as a rotation speed of the sewing machine motor. An administrator who manages a plurality of sewing machines changes the combination of setting of various functions in each sewing machine according to the skill of an operator who performs sewing work with the sewing machines. 2. Description of the Related Art There is a sewing machine that can read information on an ID card held by an operator (for example, see Patent Document 1). The sewing machine of Patent Literature 1 stores a plurality of combinations of function settings in advance, and sets various functions in combinations according to workers based on ID card information.

JP 2008-272345 A

  However, there is a possibility that the operator operates the operation panel to change settings that are not intended by the administrator. Therefore, the administrator sets the function of the sewing machine in addition to the setting of the various functions, and also sets the function of protecting the setting of the various functions so as not to be changed. Since the administrator operates the operation panel of each of the plurality of sewing machines to set the protection function of the sewing machines, there has been a problem that it takes time and effort.

An object of the present invention is to provide a sewing machine management system which can be set to restrict the setting change of various functions of the machine easily.

According to a first aspect of the present invention, there is provided a sewing machine management system including a portable electronic device connectable by short-range wireless communication , a sewing machine , and a server connected to a plurality of the sewing machines via a network. The device includes: a first storage unit that stores identification information for identifying a user; and a first transmission unit that transmits the identification information stored in the first storage unit to the sewing machine. First receiving means for receiving the identification information transmitted by the electronic device by the first transmission means, the identification information, and authority information indicating a user's authority to change settings relating to a plurality of types of functions of the sewing machine. A second storage unit for storing the associated management information, and the authority information corresponding to the identification information received by the first receiving unit based on the management information stored in the second storage unit. A first determining means for determining, based on the authority information the first determining means has determined, and a limiting means for limiting an operation of the setting change of the sewing machine, the server stores the management information A third storage unit, a second transmission unit that transmits the management information stored in the third storage unit to each of the plurality of sewing machines via the network, and a management unit that stores the management information stored in the third storage unit. Receiving means for accepting editing of the authority information, and, when editing is received by the receiving means, storage means for storing the edited management information in the third storage unit, the second transmitting means, When the edited management information is stored in the third storage unit by the storage unit, the edited management information stored in the third storage unit is transmitted to each of the plurality of sewing machines. The server further includes a second receiving unit that receives the management information transmitted by the server by the second transmitting unit, and the sewing machine stores the management information received by the second receiving unit in the second storage unit. A sewing machine management system characterized by storing is provided.

The sewing machine can restrict the operation for changing the setting of the function based on the management information stored in the second storage unit according to the authority of the user. Therefore, even if the user of the sewing machine changes, the sewing machine can restrict the operation for changing the setting of the function according to the authority of the new user. Further, the sewing machine management system distributes the management information from the server to the plurality of sewing machines, thereby reducing the trouble of the administrator individually setting the management information for each of the sewing machines. In the sewing machine management system, management information to be distributed to a plurality of sewing machines can be centrally managed in a server, so that the management information can be easily corrected.

  In the first aspect, one of the plurality of functions of the sewing machine may be a set value of a sewing speed of the sewing machine. One of the authority information may be information indicating whether a setting change to a set value of the sewing speed of the sewing machine can be performed. The sewing machine can prevent the user from changing the sewing speed of the sewing product by limiting the change in the rotation speed of the drive motor. Therefore, the sewing machine management system can prevent the quality of the sewn product from being lowered by the user increasing the sewing speed, and can prevent the life of the sewing machine from being shortened. In addition, the sewing machine management system can prevent the sewing speed from increasing and producing too many sewing products, or preventing the sewing speed from slowing and the production of sewing products from being in time for delivery. Can be produced.

In a first aspect, the management information, the identification information may further include information that associates identifiable user information to a Subscriber. The sewing machine , based on the management information, a second determining unit that determines the user information corresponding to the identification information, and a first notification unit that notifies the user information determined by the second determining unit, May be further provided. By confirming the user information, the user can determine whether the sewing machine on which the user performs the sewing operation is a sewing machine on which various settings for the user have been performed.

In the first aspect, the management information may further include information in which the identification information is associated with affiliation information capable of specifying an affiliation destination of a user. The sewing machine further includes a third determining unit that determines the affiliation information corresponding to the identification information based on the management information, and a second notification unit that notifies the affiliation information determined by the third determining unit. May be provided. By confirming the affiliation information, the user can determine whether or not the sewing machine on which the user performs the sewing operation is a sewing machine on which various settings are made for the affiliation to which the user belongs.

1 is a diagram illustrating a schematic configuration of a sewing machine management system 100. FIG. FIG. 2 is a diagram illustrating an electrical configuration of a server 1. FIG. 3 is a perspective view of the sewing machine 2. FIG. 3 is a diagram showing an electrical configuration of the sewing machine 2. FIG. 2 is a diagram showing an electrical configuration of a smartphone 4. FIG. 4 is a front view of an operation panel 62 of the sewing machine 2. FIG. 4 is a diagram showing first management information 70. FIG. 9 is a diagram illustrating second management information 80. FIG. 3 is a sequence diagram (1/2) illustrating processing and data flow performed by a server 1, a sewing machine 2, and a smartphone 4, respectively. FIG. 4 is a sequence diagram (2/2) for explaining a process and a data flow performed by the server 1, the sewing machine 2, and the smartphone 4, respectively.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. An outline of the sewing machine management system 100 will be described. As shown in FIG. 1, a server 1, a plurality of (three in this embodiment) sewing machines 2, and a plurality of (three in this embodiment) smartphones 4 constitute a sewing machine management system 100 of this embodiment. . The server 1 is a workstation or a personal computer (PC) having a known configuration. The sewing machine 2 is a sewing machine having a known configuration. The smartphone 4 is a multifunctional mobile phone having a known configuration. The smartphone 4 is an example of the “portable electronic device” according to the present invention. When the user of the sewing machine 2 performs an operation for changing the setting of the function of the sewing machine 2, the sewing machine management system 100 is a system that can restrict the operation according to the user.

  The server 1 and the plurality of sewing machines 2 are connected via a network 9. The network 9 is, for example, an in-house LAN (Local Area Network). Each of the plurality of sewing machines 2 is installed, for example, in a factory. A plurality of operators operate the sewing machine 2 to produce sewing products. The sewing machine 2 accepts an operation of changing settings for a plurality of types of functions. The server 1 accepts the operation of the administrator and can set the authority of the user for the operation of changing the setting of the sewing machine 2. The users of the sewing machine 2 include an administrator and a worker. The server 1 stores management information in which authority information indicating the authority of the user is associated with identification information for identifying the user. The server 1 distributes management information to a plurality of sewing machines 2 via a network 9.

  Each user has a smartphone 4. The smartphone 4 can perform short-range wireless communication with the sewing machine 2. An example of the short-range wireless communication is a method defined as the international standard ISO / IEC 18092, so-called NFC (Near-Field Communication). The smartphone 4 stores identification information of a user who has the smartphone 4. The smartphone 4 transmits identification information to the sewing machine 2 before the user starts operating the sewing machine 2. The sewing machine 2 restricts the operation for changing the setting of the function of the sewing machine 2 according to the user based on the identification information.

  The electrical configuration of the server 1 will be described. As shown in FIG. 2, the server 1 includes a CPU 11. The CPU 11 controls the server 1. The CPU 11 is connected to the chip set 15A, and is electrically connected to the ROM 12, the RAM 13, and the display control unit 14 via the chip set 15A. The chip set 15A is a series of circuits for managing data transmission and reception between the CPU 11, the ROM 12, the RAM 13, and the display control unit 14. The ROM 12 stores a boot program, a BIOS, and the like. The RAM 13 stores various temporary data. The display control unit 14 controls display of an image on the monitor 14A. The chip set 15A is connected to the chip set 15B. The CPU 11 is electrically connected to an HDD (hard disk drive) 16, a USB I / F (interface) 17, and a communication I / F 18 via a chipset 15B. The chipset 15B is a series of circuit groups that manage transmission and reception of data between the CPU 11, the HDD 16, the USB I / F 17, and the communication I / F 18. The HDD 16 stores an OS, a server application of the sewing machine management system 100, first management information 70 (see FIG. 7), second management information 80 (see FIG. 8), other various applications, data, and the like. The USB I / F 17 is an interface that performs communication based on the USB standard. The CPU 11 is electrically connected to the input unit 17A via the USB I / F 17. The input unit 17A is a device that inputs an operation to the server 1, such as a keyboard and a mouse. The communication I / F 18 is an interface that connects to the network 9 by wire or wirelessly and performs data communication.

  The schematic structure of the sewing machine 2 will be described. The lower left diagonal, the upper right diagonal, the upper left diagonal, and the lower right diagonal in FIG. 3 are the front, rear, left, and right of the sewing machine 2, respectively. As shown in FIG. 3, the sewing machine 2 includes a bed 51, a pillar 52, an arm 53, and a head 54. The bed 51 is placed on a table 55. The bed portion 51 extends in the front-rear direction and includes a vertical shuttle (not shown) and the like inside. The pillar 52 extends vertically upward from the rear side of the bed 51. The pillar 52 includes a sewing machine motor 30A (see FIG. 4) and the like inside. The arm 53 extends forward from the upper side of the pillar 52 so as to face the upper surface of the bed 51. The arm 53 has a main shaft (not shown) and the like inside. The head 54 is provided at the front end of the arm 53. The head 54 has a needle bar drive mechanism (not shown) and the like inside. The needle bar driving mechanism is connected to the main shaft, and moves the needle bar 56 up and down by driving the main shaft. The needle bar 56 extends downward from the lower end of the head 54. The sewing needle 57 is mounted on the lower end of the needle bar 56. The sewing machine 2 includes a work table 58 and a transfer device 59 above the bed 51. The worktable 58 includes a needle plate 60. The needle plate 60 has a needle hole (not shown) at a position directly below the needle bar 56 through which the sewing needle 57 can be inserted. The transfer device 59 includes a holder 61, a moving mechanism 31A (see FIG. 4), and the like. The holding body 61 holds an object to be sewn (for example, a work cloth) sandwiched from above and below. The moving mechanism 31A moves the holder 61 on the needle plate 60 in the front-rear direction and the left-right direction.

  The sewing machine 2 includes an operation panel 62 on the table 55. The operation panel 62 includes a first display 28A, a second display 28B, and operation keys 29. The first display 28A is a liquid crystal display capable of displaying a message including characters, figures, and the like. The second display 28B is a 7-segment display and an LED lamp, and displays information related to setting of various functions of the sewing machine 2. The operation key 29 receives input of various instructions. The sewing machine 2 includes a control box 63 below the table 55. The control box 63 houses a control board (not shown) of the sewing machine 2. The operation panel 62 is connected to a control board via a cable (not shown). The sewing machine 2 includes a pedal 32 below the table 55. The pedal 32 is a step-down switch connected to the control board by a cord. The pedal 32 receives an input of an instruction for various operations of the sewing machine 2 (for example, driving of the sewing machine motor 30A).

  The electrical configuration of the sewing machine 2 will be described. As shown in FIG. 4, the sewing machine 2 includes a CPU 21. The CPU 21 controls the sewing machine 2. The CPU 21 executes various calculations and processes related to sewing according to various programs stored in the ROM 22. The CPU 21 is electrically connected to the ROM 22, the RAM 23, the flash memory 24, and the I / O 25. The ROM 22 stores a sewing machine application of the sewing machine management system 100, other various programs, various initial setting parameters, and the like. The RAM 23 temporarily stores the operation result of the CPU 21, a pointer, a counter, and the like. The flash memory 24 is a nonvolatile memory. The flash memory 24 stores first management information 70 (see FIG. 7), second management information 80 (see FIG. 8), various setting information input by the user, sewing patterns, and the like. The sewing patterns are a plurality of types of sewing patterns programmed in advance. The CPU 21 is connected to the NFC I / F 26, the communication I / F 27, the drive circuits 28, 30, 31, and the pedal 32 via the I / O 25. The NFC I / F 26 is an RFID (Radio Frequency IDentification) reader / writer, and is an interface for transmitting and receiving data between devices by short-range wireless communication conforming to the NFC standard. The NFC I / F 26 is electrically connected to the antenna 26A. The antenna 26A is provided at an upper portion in the operation panel 62 (see FIG. 3).

  The communication I / F 27 is an interface that connects to the network 9 by wire or wirelessly and performs data communication. The drive circuit 28 drives the first display 28A and the second display 28B of the operation panel 62 according to a control signal received from the CPU 21. The CPU 21 displays various messages on the first display 28A, and displays information on setting of various functions on the second display 28B. The operation key 29 receives input of various operations and outputs a reception signal to the CPU 21. The drive circuit 30 is connected to the sewing machine motor 30A, and drives the sewing machine motor 30A according to a control signal received from the CPU 21. The drive circuit 31 drives an X-axis motor and a Y-axis motor (not shown) of the moving mechanism 31A according to a control signal received from the CPU 21. The X-axis motor moves the holder 61 in the left-right direction. The Y-axis motor moves the holder 61 in the front-rear direction. The pedal 32 detects an input of an operation by a user's foot, and outputs a detection signal.

  The electrical configuration of the smartphone 4 will be described. As shown in FIG. 5, the smartphone 4 includes a CPU 41. The CPU 41 controls the smartphone 4. The CPU 41 is electrically connected to the ROM 42, the RAM 43, the flash memory 44, the communication I / F 45, the display 46, the touch panel 47, and the NFC module 48. The ROM 42 stores a boot program, a BIOS, and the like. The RAM 43 stores various temporary data. The flash memory 44 stores a control program of the CPU 41, a smartphone application of the sewing machine management system 100, various other applications, and the like. The communication I / F 45 is an interface for performing wireless communication conforming to a wireless LAN such as Wi-Fi (registered trademark) or a communication standard such as 3G, LTE (Long Term Evolution), or 4G. The smartphone 4 can be connected to the network 9 via an access point (not shown). The display 46 is a display device such as a liquid crystal panel. The touch panel 47 is, for example, a capacitance type position detection device, and detects a position touched by a user's finger or the like. The touch panel 47 is formed to have substantially the same size as the display 46 and is provided on the display 46 so as to overlap.

  The NFC module 48 is an RFID module including a storage unit 48A, a transmission / reception unit 48B, and an antenna 48C. The NFC module 48 can perform short-range wireless communication with an RFID reader / writer such as the NFC I / F 26 of the sewing machine 2 via the antenna 48C. The storage unit 48A can securely store data, and stores identification information (user ID) described later. The transmission / reception unit 48B performs a process of transmitting data stored in the storage unit 48A to another device and storing data received from the other device in the storage unit 48A. The CPU 41 can update data in the storage unit 48A via the transmission / reception unit 48B.

  The setting of various functions of the sewing machine 2 will be described. As shown in FIG. 6, the sewing machine 2 can receive a change in the setting of various functions based on an operation on the operation key 29 of the operation panel 62. The operation keys 29 include a SELECT key 621, an up / down key 624, an up / down selection key 626, a TEST key 629, a RESET key 630, an ENTER key 631, and a TENSION key 633. The sewing machine 2 can display information on setting of various functions on the second display 28B. The second display 28B includes a speed item 622, a display unit 623, a display unit 625, a horizontal magnification item 627, a vertical magnification item 628, and a counter item 632. The speed item 622, the horizontal magnification item 627, the vertical magnification item 628, and the counter item 632 are LED lamps, respectively, which are turned on when each item is selected.

  The sewing machine 2 has a function of changing the rotation speed of the sewing machine motor 30A. The change processing of the number of revolutions accepted by this function is processing for changing the number of revolutions per minute of the sewing machine motor 30A driven when the pedal 32 is depressed. The needle bar 56 moves up and down once with one rotation of the sewing machine motor 30A, and forms a stitch for one stitch on the work cloth. Therefore, if the rotation speed of the sewing machine motor 30A increases, the sewing speed of the sewing machine 2 (needle / minute) can be increased. The higher the sewing speed, the greater the frictional heat generated between the upper thread and the work cloth. Therefore, the administrator sets a rotation speed suitable for the upper thread and the work cloth. When the administrator operates the SELECT key 621 to select the speed item 622, the CPU 21 of the sewing machine 2 displays the rotation speed of the sewing machine motor 30A, that is, the sewing speed on the display unit 623. When the administrator operates the up / down key 624, the CPU 21 changes the rotation speed displayed on the display unit 623, and stores the changed rotation speed in the flash memory 24.

  The sewing machine 2 has a function of changing a sewing pattern. The sewing pattern changing process accepted by this function is a process of selecting one of a plurality of types of sewing patterns programmed in advance. The administrator sets a sewing pattern according to the production content of the sewing product. The CPU 21 displays a number indicating the sewing pattern on the display unit 625. When the administrator operates the up / down selection key 626, the CPU 21 changes the number of the sewing pattern displayed on the display unit 625, and stores the changed number in the flash memory 24.

  The sewing machine 2 has a function of setting an enlargement / reduction ratio. The change processing of the enlargement / reduction ratio accepted by this function is processing for changing the magnification at which the sewing pattern formed on the work cloth is enlarged or reduced in accordance with the sewing pattern. The administrator sets the enlargement / reduction ratio of the sewing pattern according to the production content of the sewing product. When the administrator operates the SELECT key 621 to select the horizontal magnification item 627 or the vertical magnification item 628, the CPU 21 displays the enlargement / reduction ratio of the sewing pattern on the display unit 623. When the administrator operates the up / down key 624, the CPU 21 changes the enlargement / reduction ratio of the horizontal magnification or the vertical magnification displayed on the display unit 623, and stores the changed horizontal magnification or vertical magnification in the flash memory 24.

  The sewing machine 2 has a function of setting the value of the production counter. The production counter setting process accepted by this function is a process of clearing or correcting the production number of the sewn product. The manager can clear or modify the production number of the sewn product before or during the production of the sewn product. When the administrator operates the up key of the up / down key 624 while operating the TEST key 629, the CPU 21 displays the value of the production counter on the display unit 625 and the display unit 623. The value of the production counter can be displayed in seven digits on the display unit 625 and the display unit 623. When the administrator operates the up / down key 624, the CPU 21 changes the value of the production counter and displays it on the display units 625 and 623. When the administrator operates the RESET key 630, the CPU 21 changes the value of the production counter to 0 and displays it on the display units 625 and 623. When the administrator operates the ENTER key 631 and the TEST key 629, the CPU 21 stores the value of the production counter displayed on the display unit 625 and the display unit 623 in the flash memory 24.

  The sewing machine 2 has a function of setting the value of the lower thread counter. The setting process of the lower thread counter accepted by this function is a process of setting the number of work cloths that can be sewn according to the amount of thread on the bobbin. The administrator sets a lower thread counter to prevent the lower thread from running out during sewing. When the administrator operates the lower key of the up / down key 624 while operating the TEST key 629, the CPU 21 displays the value of the lower thread counter on the display unit 623. When the administrator operates the up / down key 624, the CPU 21 changes the value of the lower thread counter displayed on the display unit 623. When the administrator operates the TEST key 629, the CPU 21 stores the changed value in the flash memory 24.

  The sewing machine 2 has a function of changing the setting state of the memory switch. The memory switch setting change process accepted by this function is a process for changing the settings of various operations of the sewing machine 2. For example, the sewing machine 2 sets the memory switch number “1” to indicate whether the enlargement / reduction ratio of the sewing pattern is displayed in% or mm. For example, when the administrator operates the SELECT key 621 to select the counter item 632, the sewing machine 2 sets whether to display the production target rate (described later) on the display unit 623 or not to display the memory switch number “6”. Set to. For example, the sewing machine 2 sets the memory switch number “7” to either release or not release the holding of the work cloth by the holding body 61 after the sewing is completed. When the administrator operates the TENSION key 633 while operating the TEST key 629, the CPU 21 displays the number of the memory switch on the display unit 625, and displays the setting state of the memory switch corresponding to the displayed number on the display unit 623. I do. When the administrator operates the up / down selection key 626, the CPU 21 changes the number of the memory switch displayed on the display unit 625. When the administrator operates the up / down key 624, the CPU 21 changes the setting state of the memory switch displayed on the display unit 623. When the administrator operates the ENTER key 631 and the TEST key 629, the CPU 21 stores the changed contents of the setting of the memory switch in the flash memory 24.

  The sewing machine 2 has a function of setting a production target rate. The process of setting the production target rate accepted by this function is a process of setting or correcting the number of products to be sewn per predetermined time. The manager can specify and correct the production target rate of the sewn product. When the administrator simultaneously operates the up key and the down key of the up / down key 624 while operating the TEST key 629, the CPU 21 enters a production target rate setting mode, and displays the value of the production target rate on the display unit 623. When the administrator operates the up / down key 624, the CPU 21 changes the value of the production target rate and displays it on the display unit 623. When the administrator operates the ENTER key 631, the CPU 21 stores the value of the production target rate designated by the administrator in the flash memory 24. When the administrator operates the TEST key 629, the CPU 21 ends the production target rate setting mode. When the administrator selects the counter item 632 by operating the SELECT key 621, if the sixth memory switch is on, the CPU 21 displays the target production rate on the display unit 623. When the administrator operates the up / down key 624, the CPU 21 changes the value of the production target rate and displays it on the display unit 623. Changing the value of the production target rate when the mode is not the production target rate setting mode is a temporary change. Therefore, the CPU 21 does not store the changed value of the production target rate in the flash memory 24.

  The management information will be described. The management information includes first management information 70 and second management information 80. As shown in FIG. 7, the first management information 70 is a table in which affiliation information 71 and authority information 72 are associated with each other. The affiliation information 71 is information that classifies users of the sewing machine 2 into categories. The names of the categories for classifying users are “manager”, “maintenance technician”, “advanced worker”, “elementary worker”, and “other”. The administrator is a user who manages production of a sewing product using the plurality of sewing machines 2. The maintenance technician is a user in charge of maintenance and maintenance of the sewing machine 2. The operator is a user who operates the sewing machine 2 to produce a sewing product. The workers include advanced workers and beginner workers. The senior operator is an operator who has become accustomed to the operation of the sewing machine 2 and has been able to carry out an operation of a predetermined level or more required by an administrator, and is capable of handling on-site. An elementary-level worker is a worker who has little experience of operating the sewing machine 2 and cannot perform a predetermined level of work required by an administrator. Others are users who have not been classified into the above categories.

  The authority information 72 is information for setting the authority of the user for changing settings of various functions of the sewing machine 2. The authority of the user is set for each category to which the user belongs. The authority 721 for changing the number of revolutions is given to a manager, a maintenance engineer, and a senior worker. A right 722 for changing the sewing pattern, a right 723 for changing the enlargement / reduction ratio, and a right 724 for clearing the production counter are given to the administrator and the maintenance engineer. The authority 725 for modifying the production counter and the authority 726 for setting the lower thread counter are given to a manager, a maintenance engineer, and a senior worker. The authority 727 for changing the first to fifth memory switches is given to the administrator and the maintenance engineer. The authority 728 to change the sixth memory switch is given to the administrator. The authority 729 to change the 7th and 8th memory switches is given to an administrator, a maintenance engineer, and a senior worker. The authority 730 for setting the production target rate is given to the manager and the maintenance engineer. The authority 731 for temporarily correcting the production target rate is given to the manager and the senior worker. No authority is given to beginners and other classified users.

  As shown in FIG. 8, the second management information 80 is a table in which identification information 81, user information 82, and affiliation information 83 are associated. The identification information 81 is a user ID issued by the server 1 to a user of the sewing machine 2. The user information 82 is a user name. The affiliation information 83 is information that corresponds to the affiliation information 71 of the first management information 70 and classifies the user of the sewing machine 2 into categories.

  The operation of the sewing machine management system 100 will be described. In the sewing machine management system 100, the server 1, the sewing machine 2, and the smartphone 4 perform respective processes according to the sequence diagrams shown in FIGS.

  The operation of the server 1 will be described. The CPU 11 of the server 1 executes a server application of the sewing machine management system 100 according to an operation of an administrator. As shown in FIG. 9, the CPU 11 issues a user ID (S1 to S6), edits the second management information 80 (S7 to S11), and edits the first management information 70 in accordance with the execution of the server application. Processing (S12 to S16) can be performed. Unless an ID issuance request is received from the smartphone 4 (S1: NO), the administrator does not edit the second management information 80 (S7: NO), and unless the administrator edits the first management information 70 ( (S12: NO), the CPU 11 returns the processing to S1, and enters a standby state.

  As will be described later, a new user of the sewing machine 2 operates the smartphone 4 to execute the smartphone application of the sewing machine management system 100 when performing user registration. The CPU 41 of the smartphone 4 transmits an ID issuance request to the server 1 in the processing of the application for the smartphone. When receiving the ID issuance request from the user's smartphone 4 via the network 9 (S1: YES), the CPU 11 of the server 1 executes a user ID issuance process. The CPU 11 reads the second management information 80 stored in the HDD 16, and newly issues an issued ID and a user ID that does not suffer according to a predetermined assignment rule (S2). The ID issuance request includes user information. The CPU 11 associates the user ID with the user name and stores them in the second management information 80 of the HDD 16 as data of the identification information 81 and the user information 82, respectively (S3). The affiliation information 83 of the second management information 80 has not been set. The CPU 11 transmits the issued user ID to the smartphone 4 via the network 9 as a response to the ID issuance request (S5). The CPU 11 transmits the second management information 80 to which the information of the new user has been added to each of the plurality of sewing machines 2 via the network 9 (S6). The CPU 11 ends the user ID issuance process, and shifts to a standby state.

  When the administrator has performed an operation of editing the user's affiliation information 83 (S7: YES), the CPU 11 executes an editing process of the second management information 80. The CPU 11 reads the second management information 80 stored in the HDD 16 into the RAM 13, and displays a list in which the worker ID, the worker name, and the category name are associated with each other on the monitor 14A. The CPU 11 accepts the editing of the category name according to the operation of the input unit 17A (S8). When the administrator changes the category name of the new user from "Other" to an appropriate category name and performs an operation of saving, the CPU 11 overwrites and stores the edited second management information 80 in the HDD 16 (S10). ). Similarly, when the administrator changes and saves the existing user's category name, the CPU 11 overwrites and stores the edited second management information 80 in the HDD 16. The CPU 11 transmits the second management information 80 to each of the plurality of sewing machines 2 via the network 9 (S11). The CPU 11 ends the editing process of the second management information 80, and shifts to the standby state.

  When the administrator performs an operation of editing the user's authority information 72 (S12: YES), the CPU 11 executes an editing process of the first management information 70. The CPU 11 reads the first management information 70 stored in the HDD 16 into the RAM 13 and displays on the monitor 14A a list in which the category names are associated with the user's authority for various functions of the sewing machine 2. The CPU 11 accepts the editing of the user's authority according to the operation of the input unit 17A (S13). When the administrator performs an operation of changing the authority given to the category for classifying the user and saving the various functions of the sewing machine 2, the CPU 11 overwrites and stores the edited first management information 70 in the HDD 16. (S15). The CPU 11 transmits the first management information 70 to each of the plurality of sewing machines 2 via the network 9 (S16). The CPU 11 ends the editing process of the first management information 70, and shifts to the standby state. When the administrator performs an operation to end the execution of the application on the OS of the server 1, the CPU 11 ends the execution of the server application of the sewing machine management system 100.

  The operation of the smartphone 4 will be described. When a user performs user registration, the CPU 41 of the smartphone 4 executes a smartphone application of the sewing machine management system 100 in accordance with a user operation. The CPU 41 accepts an input of a user name according to an operation on the touch panel 47 (S51). When the user inputs the user name, the CPU 41 transmits an ID issuance request including the user name to the server 1 via the network 9 (S52). The CPU 41 waits until a user ID is received from the server 1 (S53: NO). As described above, when issuing the user ID for the new user, the CPU 11 of the server 1 transmits the user ID to the smartphone 4 in the process of S5. When receiving the user ID from the server 1 via the network 9 (S53: YES), the CPU 41 of the smartphone 4 stores the user ID in the storage unit 48A of the NFC module 48 (S55). The CPU 41 ends the execution of the smartphone application.

  A battery (not shown) of the smartphone 4 supplies power to the NFC module 48. As shown in FIG. 10, when the short range wireless communication is not performed (S61: NO), the transmission / reception unit 48B of the NFC module 48 enters a standby state. When operating the sewing machine 2, the user of the sewing machine 2 brings the smartphone 4 closer to the antenna 26 </ b> A built in the upper part of the operation panel 62. When the distance between the smartphone 4 and the sewing machine 2 is short, the transmission / reception unit 48B negotiates with the NFC I / F 26 of the sewing machine 2 to attempt a connection. When the connection with the NFC I / F 26 is established (S61: YES), the transmission / reception unit 48B reads out the user ID from the storage unit 48A (S62) and transmits it to the sewing machine 2 (S63). The transmission / reception unit 48B terminates the connection with the NFC I / F 26 and returns to the standby state.

  The operation of the sewing machine 2 will be described. When the power of the sewing machine 2 is turned on, the CPU 21 of the sewing machine 2 executes a sewing machine application of the sewing machine management system 100. As shown in FIGS. 9 and 10, the CPU 21 energizes the NFC I / F 26 and shifts to a state of waiting for the start of short-range wireless communication by NFC (S20). The CPU 21 performs management information reception processing (S21 to S25), communication processing with the smartphone 4 (S26 to S35), setting change processing (S36 to S40), and drive processing (S41 to S42) in accordance with the execution of the sewing machine application. be able to. No management information is received from the server 1 (S21: NO, S23: NO), communication with the smartphone 4 is not established (S26: NO), and the user does not change the settings of various functions of the sewing machine 2 (S36). : NO), if the user does not operate the sewing machine 2 (S41: NO), the CPU 21 returns the processing to S21 and enters the standby state.

  As described above, the CPU 11 of the server 1 transmits the second management information 80 to the sewing machine 2 in the process of issuing the user ID or the process of editing the second management information 80 (S6 or S11). When receiving the second management information 80 from the server 1 via the network 9 (S21: YES), the CPU 21 of the sewing machine 2 stores the second management information 80 in the flash memory 24 (S22), and shifts to the standby state. . In the editing process of the first management information 70, the CPU 11 of the server 1 transmits the first management information 70 to the sewing machine 2 (S16). When receiving the first management information 70 from the server 1 via the network 9 (S23: YES), the CPU 21 of the sewing machine 2 stores the first management information 70 in the flash memory 24 (S25), and shifts to a standby state. .

  When operating the sewing machine 2, the user of the sewing machine 2 brings the smartphone 4 closer to the antenna 26 </ b> A built in the upper part of the operation panel 62. The CPU 21 of the sewing machine 2 tries to establish a negotiation with the transmission / reception unit 48B of the NFC module 48 when the smartphone 4 approaches a distance where wireless communication by NFC is possible. When the connection with the transmitting / receiving unit 48B is established (S26: YES), the CPU 21 receives the user ID transmitted by the transmitting / receiving unit 48B (S27). The CPU 21 acquires the category name of the affiliation information corresponding to the user ID based on the second management information 80 (S28). The CPU 21 determines authority information of various functions corresponding to the category name based on the first management information 70, and reads the authority information into the RAM 23 (S30). The authority information read into the RAM 23 is used in a setting change process (S36 to S40) described later. The CPU 21 determines the user name of the user information corresponding to the user ID based on the second management information 80, and reads the user name into the RAM 23 (S31). The CPU 21 displays the read user name on the first display 28A of the operation panel 62 (S32). The CPU 21 determines the category name of the affiliation information corresponding to the user ID based on the second management information 80, and reads it into the RAM 23 (S33). The CPU 21 displays the read category name on the first display 28A (S35), ends the communication processing (S26 to S35), and shifts to a standby state. The user checks the user name and the category name displayed on the first display 28A, and can determine whether the sewing machine 2 has correctly recognized the user.

  The user of the sewing machine 2 operates the operation keys 29 of the operation panel 62 when changing the settings of various functions of the sewing machine 2. If the received operation is an operation to change the setting of any function of the sewing machine 2 (S36: YES), the CPU 21 advances the processing to S37. The CPU 21 reads authority information of a function corresponding to the accepted operation from authority information of various functions stored in the RAM 23. When the user has the authority to change the setting of the function corresponding to the received operation, the CPU 21 sets the state of accepting the operation of the operation key 29 corresponding to the setting change (activation) (S37). For example, when the user has the authority 721 to change the number of revolutions, the CPU 21 accepts the operation of the up / down key 624 when the user operates the SELECT key 621 to select the speed item 622, and displays it on the display unit 623. Change the number of rotations. When the user does not have the authority to change the setting of the function corresponding to the received operation, the CPU 21 sets a state in which the operation of the operation key 29 corresponding to the setting change is not received (inactive). For example, when the user does not have the authority 721 to change the rotation speed, the CPU 21 does not accept the operation of the up / down key 624 when the user operates the SELECT key 621 to select the speed item 622, and the display unit 623 Do not change the number of rotations displayed in. When the user has changed the settings of the various functions (S38: YES), the CPU 21 stores the changed settings in the flash memory 24 (S40), ends the setting change process (S36 to S40), and waits. Move to If the user has not changed the settings of the various functions (S38: NO), the CPU 21 ends the setting change processing (S36 to S40) and shifts to the standby state.

  When receiving an operation on the pedal 32 (S41: YES), the CPU 21 performs a sewing operation (S42). The CPU 21 drives the sewing machine 2 based on the set values of the rotation speed of the sewing machine motor 30A, the sewing pattern, and the enlargement / reduction ratio of the sewing pattern stored in the flash memory 24. When the sewing of one work cloth is completed, the CPU 21 increases the value of the production counter by 1 and decreases the value of the lower thread counter by 1 and stores the value in the flash memory 24. The CPU 21 ends the driving process (S42) and shifts to a standby state.

  As described above, the sewing machine 2 restricts the operation for changing the setting of the function according to the authority of the user based on the first management information 70 and the second management information 80 stored in the flash memory 24. Can be. Therefore, even if the user of the sewing machine 2 is changed, the sewing machine 2 can restrict the operation for changing the setting of the function according to the authority of the new user.

  The sewing machine 2 can prevent the user from changing the sewing speed of the sewing product by limiting the change in the rotation speed of the sewing machine motor 30A. Therefore, the sewing machine management system 100 can prevent the quality of the sewn product from deteriorating due to the user increasing the sewing speed, and prevent the life of the sewing machine 2 from being shortened. Further, the sewing machine management system 100 can prevent the sewing speed from being too fast to produce a large amount of sewn products, or preventing the sewing speed from being too slow to produce the sewn products in time for delivery. Can be produced.

  The sewing machine management system 100 distributes the first management information 70 and the second management information 80 from the server 1 to the plurality of sewing machines 2 so that the administrator can send the first management information 70 and the second management information 80 to the sewing machines 2 respectively. Can be reduced. Further, the sewing machine management system 100 can centrally manage the first management information 70 and the second management information 80 to be distributed to the plurality of sewing machines 2 in the server 1, so that the first management information 70 and the second management information 80 Is easy to modify.

  Based on the first management information 70 and the second management information 80 stored in the flash memory 24, the sewing machine 2 can limit the operation of the user to change the setting according to the authority of the user. Therefore, even if the user of the sewing machine 2 is changed, the sewing machine 2 can restrict the operation for changing the setting according to the authority of the new user.

  By confirming the user name displayed on the first display 28A, the user determines whether the sewing machine 2 on which the user performs sewing work is the sewing machine 2 on which various settings for the user have been performed. can do.

  The user confirms the category name displayed on the first display 28A, and determines whether the sewing machine 2 on which the user performs the sewing operation is the sewing machine 2 on which the user belongs and performs various settings for the affiliation to which the user belongs. Can be determined.

  Note that the present invention is not limited to the above embodiment, and various changes can be made. Each process executed by the sewing machine 2 is not limited to the example executed by the CPU 21. Each of the above processes may be executed by another electronic component (for example, an ASIC (Application Specific Integrated Circuit), an FPGA (Field Programmable Gate Array), or the like).

  The short-range wireless communication with the sewing machine 2 is not limited to the smartphone 4, and may be performed by, for example, an IC label in which an antenna is connected to an IC chip including a storage unit and a transmission / reception unit. In this case, the server 1 connects an NFC reader / writer to the USB I / F 17. The CPU 11 of the server 1 may write the user ID issued in the execution of the server application of the sewing machine management system 100 in the storage unit of the IC chip by using the NFC reader / writer. The IC label storing the user ID may be attached to cards such as an employee ID card and used by the user. The IC chip may be started using the current generated by the electromagnetic induction generated by the electromagnetic wave radiated by the NFC I / F 26 of the sewing machine 2 and transmit the user ID to the sewing machine 2. The IC chip storing the user ID may be mounted on a wearable sensor or the like.

  Short-range wireless communication is not limited to NFC. For example, the smartphone 4 may communicate with the sewing machine 2 by wireless communication using Bluetooth (registered trademark), and transmit the user ID to the sewing machine 2. In this case, the sewing machine 2 may be provided with an LED lamp or the like above the operation panel 62. The sewing machine 2 paired with the smartphone 4 may turn on an LED lamp so that the user can easily check it.

  The operation panel 62 may not include the first display 28A. In this case, the sewing machine 2 does not need to notify the user name and the category name.

  The sewing machine management system 100 does not need to include the server 1. In this case, for example, the smartphone 4 may store the user ID in the storage unit 48A of the NFC module 48 in advance. For example, the first management information 70 and the second management information 80 are stored in a memory card. The sewing machine 2 includes a memory drive that reads and writes data from and to a memory card, and may acquire the first management information 70 and the second management information 80 from the memory card via the memory drive.

In the above embodiment, the storage unit 48A corresponds to the “first storage unit” of the present invention. The CPU 41 that transmits the user ID in S65 corresponds to a “first transmitting unit”. The CPU 21 that receives the user ID in S27 corresponds to a “first receiving unit” and a “receiving unit”. The flash memory 24 corresponds to a “second storage unit” and a “storage unit”. The CPU 21 that determines the authority information corresponding to the user ID in S28 and S30 corresponds to “ first determining means”. The CPU 21 in a state of accepting or not accepting a setting change operation in S37 according to the authority information corresponds to a “restriction unit”. The HDD 16 corresponds to a “third storage unit”. The CPU 11 that transmits the first management information or the second management information in S6, S11, and S16 corresponds to a “second transmission unit”. The CPU 21 that receives the first management information or the second management information in S21 and S23 corresponds to a “second receiving unit”. The CPU 21 that determines the user name corresponding to the user ID in S31 corresponds to “second determining means”. The CPU 21 displaying the user name in S32 corresponds to "first notification means". The CPU 21 that determines the category name corresponding to the user ID in S33 corresponds to “third determining means”. The CPU 21 displaying the category name in S35 corresponds to “second notification means”.

1 server 2 sewing machine 4 smartphone 9 network 11 CPU
16 HDD
18 Communication I / F
21 CPU
24 Flash memory 26 NFC I / F
27 Communication I / F
41 CPU
48A storage unit 48B transmission / reception unit 100 sewing machine management system

Claims (4)

A portable electronic device connectable by short-range wireless communication , a sewing machine , and a sewing machine management system including a server connected to a plurality of the sewing machines via a network ,
The portable electronic device,
A first storage unit for storing identification information for identifying a user,
First transmission means for transmitting the identification information stored in the first storage unit to the sewing machine,
The sewing machine is
First receiving means for receiving the identification information transmitted by the portable electronic device by the first transmitting means,
A second storage unit that stores management information in which the identification information is associated with authority information indicating a user's authority with respect to a change in a setting of a plurality of types of functions of the sewing machine;
Based on the management information stored in the second storage unit, a first determination unit that determines the authority information corresponding to the identification information received by the first reception unit,
Based on the authority information determined by the first determination means, a restriction means for restricting an operation for setting change of the sewing machine ,
The server comprises:
A third storage unit for storing the management information,
A second transmission unit that transmits the management information stored in the third storage unit to each of the plurality of sewing machines via the network,
A receiving unit that receives editing of the authority information of the management information stored in the third storage unit,
A storage unit that stores the edited management information in the third storage unit when editing is received by the receiving unit;
With
The second transmission unit, when the management information after editing by the storage unit is stored in the third storage unit, the management information after editing stored in the third storage unit, each of the plurality of sewing machines Send to
The sewing machine further includes a second receiving unit that receives the management information transmitted by the server by the second transmitting unit,
The sewing machine management system according to claim 1, wherein the sewing machine stores the management information received by the second receiving unit in the second storage unit . One of a plurality of functions of the sewing machine is a set value of a sewing speed of the sewing machine.
2. The sewing machine management system according to claim 1, wherein one of the authority information is information indicating whether or not a setting value of a sewing speed of the sewing machine can be changed. 3. The management information includes the identification information further includes information that associates identifiable user information to a Subscriber,
The sewing machine is
Based on the management information, a second determination unit that determines the user information corresponding to the identification information,
3. The sewing machine management system according to claim 1, further comprising a first notification unit that notifies the user information determined by the second determination unit. The management information further includes information that associates the identification information with affiliation information that can specify an affiliation destination of a user,
The sewing machine is
Based on the management information, a third determining means for determining the affiliation information corresponding to the identification information,
The sewing machine management system according to any one of claims 1 to 3, further comprising a second notification unit that notifies the affiliation information determined by the third determination unit.

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