EP2108723A2 - Textilmaschinensystem und Textilmaschine - Google Patents

Textilmaschinensystem und Textilmaschine Download PDF

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Publication number
EP2108723A2
EP2108723A2 EP20090003538 EP09003538A EP2108723A2 EP 2108723 A2 EP2108723 A2 EP 2108723A2 EP 20090003538 EP20090003538 EP 20090003538 EP 09003538 A EP09003538 A EP 09003538A EP 2108723 A2 EP2108723 A2 EP 2108723A2
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EP
European Patent Office
Prior art keywords
textile machine
control device
wireless communication
information
automatic
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP20090003538
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English (en)
French (fr)
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EP2108723A3 (de
EP2108723B2 (de
EP2108723B1 (de
Inventor
Tetsuji Masai
Shigeru Hayashi
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Murata Machinery Ltd
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Murata Machinery Ltd
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Publication of EP2108723A3 publication Critical patent/EP2108723A3/de
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Publication of EP2108723B2 publication Critical patent/EP2108723B2/de
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    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H13/00Other common constructional features, details or accessories
    • D01H13/14Warning or safety devices, e.g. automatic fault detectors, stop motions ; Monitoring the entanglement of slivers in drafting arrangements
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H63/00Warning or safety devices, e.g. automatic fault detectors, stop-motions ; Quality control of the package
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H13/00Other common constructional features, details or accessories
    • D01H13/26Arrangements facilitating the inspection or testing of yarns or the like in connection with spinning or twisting
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H13/00Other common constructional features, details or accessories
    • D01H13/32Counting, measuring, recording or registering devices
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2701/00Handled material; Storage means
    • B65H2701/30Handled filamentary material
    • B65H2701/31Textiles threads or artificial strands of filaments

Definitions

  • the present invention relates to a textile machine system that communicates information among a plurality of textile machines.
  • Textile machines are conventionally known each of which includes a plurality of fiber processing units and a control device that controls operation of the fiber processing units.
  • An example of such a textile machine is a yarn winder including a plurality of yarn winding units.
  • a control device for the yarn winder can monitor the current operating state of each winding unit and set various yarn processing conditions.
  • a plurality of yarn winders (frames) as described above are installed and operate in a textile factory.
  • the plurality of yarn winders under the same yarn processing conditions or to collectively change the yarn processing conditions, if an operator needs to go to each of the yarn winders to change set values for the yarn winder, operational efficiency is reduced. Such an operation imposes a heavy burden on the operator.
  • the Unexamined Japanese Patent Application Publication (Tokkai) No. 2006-143338 discloses a yarn processing condition setting system for a textile machine which can transfer the set values via a local area network (LAN).
  • LAN local area network
  • each of the frames is constructed to communicate with a host computer via LAN connections.
  • the yarn processing conditions set for one of the frames are to be transferred to another frame, the yarn processing conditions inevitably need to be transmitted via the host computer.
  • the yarn processing conditions cannot be transferred from one frame directly to another, resulting in increased network traffic and the like.
  • a defect in the host computer disables all communications among the frames, further affecting the system.
  • the system still has room for improvement.
  • the wired LAN in the Unexamined Japanese Patent Application Publication (Tokkai) No. 2006-143338 may be changed to a wireless LAN so that each of the frames can communicate wirelessly with the host computer.
  • the other frames in the textile factory interfere with the communication.
  • the same problems as those with the wired LAN may occur; the rearrangement of the frames requires a long time as is the case with the wired LAN.
  • An object of the present invention is to provide a textile machine system in which the textile machines can communicate directly with one another without intervention of the host computer and can be easily rearranged.
  • An aspect of the present invention provides a textile machine system including a plurality of textile machines configured as follows. That is, each of the textile machines includes at least one fiber processing unit, a control device, and a wireless communication section.
  • the control device manages information on the fiber processing unit to control the fiber processing unit.
  • the wireless communication section can carry out wireless communication according to a predetermined wireless communication standard (communication protocol).
  • the wireless communication section can communicate directly via wireless communication with the wireless communication section provided in another textile machine.
  • the control device of the textile machine transmits and receives the information to and from the control device provided in another textile machine via wireless communication by the wireless communication sections.
  • a textile machine communication system with the textile machines connected together like beads can be easily constructed.
  • the control devices can communicate directly with each other without intervention of a host computer.
  • the communication is wireless, the textile machines can be easily rearranged. That is, operators can easily move the textile machines to change the positions where the textile machines are provided in a textile factory.
  • the textile machines can communicate with one another, the communication can be prevented from being disabled by blockage of radio waves by a particular frame as in the case in which the communication involves a predetermined access point. This allows the frames to be more freely arranged.
  • the fiber processing unit is a yarn winding unit that winds a yarn.
  • the information is winding information of the yarn winding unit.
  • the winding information can be transmitted and received among the plurality of textile machines by wireless communication.
  • the wireless communication section is preferably removably provided in the textile machine.
  • the wireless communication section by connecting the wireless communication section to a textile machine as required, direct wireless communication can be enabled between one textile machine and another textile machine.
  • such textile machine can be excluded from the textile machine communication system.
  • the arrangement of the frames (textile machines) in the facility can be easily changed as in the case in which for example, the number of textile machines installed is increased from one to a plural number.
  • the communication system can be more flexibly constructed, allowing inhibition of reduced productivity associated with the difficulty of rearrangement of the textile machines.
  • the textile machine system is configured as follows. That is, the plurality of textile machines are arranged adjacent to one another.
  • the control device provided in one textile machine transmits, by wireless communication, information managed by the control device provided in the one textile machine to the control device provided in another textile machine located adjacent to the one textile machine.
  • the control device provided in the another textile machine can accumulatively transmit, together with the received information, information managed by the control device provided in the another textile machine to a control device provided in yet another textile machine located adjacent to the another textile machine.
  • each of the textile machines can add the textile machine's own information to received information and then transmit both pieces of information. Consequently, the information can be efficiently collected in the textile machine system.
  • the textile machine system is preferably configured as follows. That is, such a textile machine system includes a textile machine with a first control device and a textile machine with a second control device, and both textile machines are respectively provided with a wireless communication section.
  • a determination is made as to whether or not communication can be carried out between the textile machine with the first control device and the textile machine with the second control device.
  • the wireless communication section communicates with a third control device.
  • the third control device is a control device provided in a textile machine different from that including the second control device.
  • the textile machine system enables communication with another textile machine by skipping the textile machine that fails to carry out communication.
  • a communication path can be automatically reconstructed.
  • the textile machines can be more easily rearranged, and the communications throughout the textile machine system can be prevented from being shut down as a result of a defect in the communication function of a particular textile machine. This further improves the productivity.
  • the predetermined wireless communication standard (communication protocol) is a short-distance wireless communication standard
  • the plurality of textile machines can be connected together so as to be capable of consecutively communicating with one another via the wireless communication sections.
  • the textile machine system is suitably configured as described above.
  • the predetermined wireless communication standard is preferably ZigBee.
  • ZigBee is a wireless communication standard that enables terminals to communicate with each other. ZigBee involves reduced power consumption and a transmission distance appropriate for use in a vast factory site. Thus, ZigBee is particularly suitably used for the textile machine.
  • the textile machine includes at least one fiber processing unit. Furthermore, the textile machine includes a communication terminal that can perform at least one of transmission and reception of information directly to and from another textile machine.
  • a plurality of textile machines configured as described above can be installed in a factory and communication can be carried out among such textile machines. Accordingly, communication can be carried out without intervention of a host computer.
  • a communication network for the textile machines can be constructed in which textile machines can be easily rearranged.
  • the fiber processing unit is a yarn winding unit that winds a yarn.
  • the information is winding information of the yarn winding unit.
  • a plurality of the textile machines each including the yarn winding unit can be installed, and winding information can be communicated among the textile machines.
  • the predetermined wireless communication standard is preferably ZigBee.
  • ZigBee is a wireless communication standard that enables terminals to communicate with each other. ZigBee involves reduced power consumption and a transmission distance appropriate for use in a vast factory site. Thus, ZigBee is particularly suitably used for the communication network among the textile machines.
  • an automatic winder 60 includes a frame control device (control device) 11, a plurality of yarn winding units (fiber processing units) 16 arranged side by side, a supplying device 52, and an automatic doffing device 51.
  • the supplying device 52 conveys a yarn supplying bobbin 21 along a supply path (not shown in the drawings) to supply the yarn supplying bobbin 21 to each yarn winding unit 16.
  • the automatic doffing device 51 travels to the position of such yarn winding unit 16. Then, the automatic doffing device 51 collects the full package and provides an empty bobbin to the yarn winding unit 16. Operation of the supplying device 52 and the automatic doffing device 51 is controlled by the frame control device 11.
  • Each of the yarn winding units 16 unwinds a yarn 20 from the yarn supplying bobbin 21 and winds the unwound yarn 20 around a bobbin while traversing the yarn 20 by a traverse drum 41 to form a package 30.
  • the yarn winding unit 16 includes a clearer (yarn quality measuring instrument) 42 that monitors the thickness of the traveling yarn 20 or the like. Upon detecting a defect in the yarn 20, the clearer 42 removes the detected defect in the yarn 20.
  • Each of the yarn winding units 16 includes a unit control section 50.
  • the unit control section 50 includes a central processing unit (CPU), a read only memory (ROM), a random access memory (RAM), and an input and output (I/O) port (not illustrated in the drawings).
  • the ROM stores control programs for controlling components (for example, the traverse drum 41) of the yarn winding unit 16.
  • the CPU retrieves the control programs from the ROM to the RAM, and executes the control program to control the corresponding component. Thus, a yarn winding operation can be appropriately performed.
  • the I/O port of the unit control section 50 is connected to the frame control device 11 to enable transmission and reception of information.
  • the plurality of yarn winding units 16 provided in the automatic winder 60 can be collectively managed by the frame control device 11.
  • the frame control device 11 includes a display 13, an input key 14, a universal serial bus (USB) port 15, and a ZigBee terminal 12 (radio communication section, wireless communication section, communication terminal) connected to the USB port 15.
  • the frame control device 11 includes a CPU, a ROM, a RAM, and an I/O port.
  • the display 13 and the input key 14 are connected to the I/O port.
  • the USB port 15 is configured as a part of the I/O port.
  • the I/O port of the frame control device 11 is connected via an appropriate communication line to the I/O port of the unit control section 50 provided in each of the yarn winding units 16.
  • the frame control device 11 can transmit various yarn winding conditions to the unit control section 50 of the yarn winding unit 16 to set the yarn winding conditions.
  • the frame control device 11 can receive information on the current yarn winding state (yarn winding state information) of the yarn winding unit 16 from the unit control section 50 of the yarn winding unit 16.
  • the yarn winding conditions include, for example, winding speed, yarn count, winding tension, the amount of yarn to be wound into a package, the weight of the package, and an item relating to a yarn defect.
  • the yarn winding state information includes, for example, the current package diameter, the current winding speed, the occurrence state of yarn breakage, and the detecting state of a yarn defect.
  • an operator can perform an appropriate operation to allow a yarn winding condition setting menu to be displayed on the display 13.
  • the operator can then input numerical values via input keys 14 to set the yarn winding conditions.
  • Set values for the yarn winding conditions can be transmitted collectively to all the yarn winding units 16.
  • each yarn winding unit 16 can be designated individually, and the set values for the yarn winding conditions can be transmitted to the designated yarn winding unit 16.
  • the frame control device 11 can display the yarn winding state information, which changes constantly, on the display 13 in real-time.
  • the frame control device 11 can store history of the past yarn winding state information.
  • the display 13 can display a graph in which the occurrence frequency of yarn defects is plotted along a time axis.
  • the frame control device 11 can analyze the history of the yarn winding state information to calculate statistical information. For example, the frame control device 11 can calculate the winding efficiency of each of the yarn winding units 16, the number of yarn breakages that occurred within a given period in each of the yarn winding units 16, and display the calculation results on the display 13.
  • the yarn winding conditions, the yarn winding state information, the history of the yarn winding state information, and the statistical information are sometimes collectively referred to as "winding information".
  • the operator can use the frame control device 11 to set or view the winding information on the plurality of yarn winding units 16. Consequently, the operator can efficiently manage the automatic winder 60.
  • the ZigBee terminal 12 includes a well-known USB connector (not shown in the drawings).
  • the USB connector is installed in the USB port 15 to connect the ZigBee terminal 12 to the frame control device 11.
  • the ZigBee terminal 12 allows the frame control device 11 to transmit and receive the winding information to and from the frame control device 11 provided in another automatic winder 60.
  • the ZigBee terminal 12 can be removed from the frame control device 11 by pulling out the USB connector from the USB port 15.
  • Figure 2 is a conceptual drawing of an automatic winder system (textile machine system) 70 including a plurality of the automatic winders 60, described above.
  • the plurality of automatic winders 60 form a network in which the winding information can be transmitted and received.
  • the winding information is transmitted and received via wireless communication by the ZigBee terminals 12 of the automatic winders 60.
  • the plurality of automatic winders 60 shown in Figure 2 are denoted by reference numerals 61, 62, 63 so as to be distinguished from one another. In the description below, the automatic winders may be specified using the corresponding reference numeral.
  • the ZigBee terminals 12 carry out communication based on the ZigBee communication standard and can thus communicate with each other. This eliminates the need to install a particular host computer or access point, allowing a network capable of direct mutual communications (what is called an ad hoc network) to be constructed. Thus, the automatic winders 60 with the ZigBee terminals 12 can transmit and receive the winding information directly to and from one another by wireless communication.
  • a plurality of the automatic winders 60 are typically arranged in parallel.
  • the distance between the frames when for example, the distance between the frames is about 2 m, the distance between the opposite ends of a frame installation space in a vertical direction of the sheet of Figure 2 may be longer than 100 m.
  • radio waves are difficult to reach the target automatic winder in the vast factory site.
  • the frames located midway between the automatic winders 60 provided at the opposite ends may interfere with the radio waves. This radio wave condition makes the communication difficult.
  • the ZigBee terminal 12 provided in each of the automatic winders 60 has an information relay function to enable information to be transmitted and received via the plurality of automatic winders 60.
  • the ZigBee terminal 12 provided in the automatic winder 60 functions as what is called a router (ZigBee router) that has a data relay function.
  • the automatic winder 60 including the ZigBee terminal 12 as a router may simply be referred to as a "router terminal”.
  • the automatic winders 60 incapable of direct communications because of the inappropriate radio wave condition can transmit and receive winding information via another automatic winder 60. Furthermore, by enabling mutual communications via a plurality of frames as described above, all the frames can be easily allowed to join the wireless communication network regardless of how or where the frames are arranged. Thus, the frames can be easily rearranged. Furthermore, since communications do not involve a host computer, a situation in which a defect in the host computer shuts down the whole network can be advantageously avoided.
  • a terminal called a coordinator starts up the network.
  • the coordinator is a terminal that controls the network.
  • the coordinator also functions as a router.
  • a specific automatic winder 60 (the ZigBee terminal 12 provided in the automatic winder 60) is preset to be a coordinator, and such an automatic winder 60 carries out a process of starting up the network.
  • the coordinator specifies an identification value called a personal area network (PAN) ID and starts the network.
  • PAN ID enables the network to be identified.
  • Each of the router terminals can join the desired network by specifying the PAN ID and then connecting to the network.
  • the automatic winder system 70 includes an alternative automatic winder 60 serving as the coordinator when the automatic winder 60 that should be serving as the coordinator cannot carry out communication.
  • an automatic winder 61 is specified as the coordinator and an automatic winder 62 is specified as a backup coordinator.
  • a first identification value is assigned to the automatic winder 61.
  • a second identification value is assigned to the automatic winder 62.
  • the first identification value is pre-stored as the PAN ID with the first-order priority
  • the second identification value is pre-stored as the PAN ID with the second-order priority, respectively.
  • the automatic winder 61 serving as the coordinator specifies the first identification value as the PAN ID to start up the ZigBee network. That is, the network with the first-order priority is started up.
  • the automatic winder 60 serving as the router monitors to check whether or not the network has been started. Upon detecting the network started based on the first identification value stored as the first-order priority and specified as the PAN ID, the automatic winder 60 joins the network.
  • the automatic winder 62 serving as the backup coordinator monitors to check whether or not any network with the first identification value specified as the PAN ID is present, for a predetermined period of time after the power is turned on. If the automatic winder 62 detects a network with the first identification value specified as the PAN ID within the predetermined period of time, the automatic winder 62 joins the network as a normal router.
  • the automatic winder 62 serving as the backup coordinator starts up the network with the second identification value specified as the PAN ID. That is, the automatic winder 62 starts up the network with the second-order priority.
  • the automatic winder 60 serving as the router joins the network with the second-order priority.
  • each of the router terminals can communicate via a plurality of other router terminals. Furthermore, the network is first started up by the coordinator. Thus, each router terminal first attempts to connect to the coordinator. However, due to the ratio wave conditions or the like, there are cases in which a router terminal cannot communicate directly with the coordinator. In such cases, the router terminal joins the network via a different router terminal that has already joined the network.
  • the network for the automatic winder system 70 is conceptually formed like a tree around the coordinator.
  • a "parent terminal” is defined as a router terminal which the certain router terminal communicates when carrying out communication with the coordinator.
  • a "child terminal” is defined as a router terminal which carries out communication with the coordinator via the certain router terminal.
  • the parent terminal for a certain router terminal is disconnected from the network and cannot carry out communication, the certain router terminal and all the child terminals communicating via the certain router terminal fail to connect to the network.
  • the reason for this situation is expected to be that for example, the automatic winder 60 as the parent terminal has been powered off or the ZigBee terminal 12 in the automatic winder 60 as the parent terminal becomes defective.
  • the above-described problem may also result from rearrangement of the frames or the like that may cause changes in the radio wave condition to prevent communication from being carried out with the parent terminal. In this case, if re-starting of the network and re-setting of the parent-child relationship are necessary every time when the communication becomes incapable, such operation would be cumbersome to the operator. This also reduces the productivity of the factory as a whole.
  • the automatic winder system 70 is configured to automatically re-set the parent-child relationship.
  • this parent-child relationship re-setting process will be described.
  • Figure 3 shows the flow of a parent-child relationship re-setting process program executed when a router terminal belonging to the network for the automatic winder system 70 according to the present embodiment transmits winding information.
  • the router terminal Before transmitting the winding information, the router terminal attempts to communicate with the parent terminal (step S101). The router terminal checks the presence or absence of a response from the parent terminal and the contents of the response to determine whether or not the communication is appropriate (step S102). If the router terminal can communicate appropriately with the parent terminal, the network can be maintained as it is. Thus, the flow is terminated with no particular process carried out. The winding information is transmitted to the parent terminal.
  • the router terminal determines whether or not the router terminal has any child terminal (step S103). If a child terminal is present, the router terminal carries out a process of unlinking the child terminal from the router terminal (step S104).
  • the router terminal is unlinked from the parent terminal (step S105), and searches for a new parent terminal to link the router terminal to the parent terminal (step S106). Thereafter, the router terminal transmits the winding information to the new parent terminal.
  • the router terminal can communicate with the child terminal, then the router terminal can omit the processing in step S104 and join and link to the new parent terminal together with the child terminal.
  • a determination that the communication with the current parent terminal becomes incapable means that the radio wave condition is likely to have been changed by rearrangement or the like.
  • the router terminal allows each of the child terminals to unlink from the router terminal and to re-search for a parent terminal. Then, the network can be reconstructed with a more optimum path.
  • the child terminal unlinked by the processing in step S104 searches for a parent terminal according to the flowchart shown in Figure 3 as described above.
  • the network for the automatic winder system 70 has a self-improvement function and a self-repair function. Consequently, the wireless communication network can always be maintained in a proper condition without requiring an operator to set the communication channel.
  • winding information can be accumulatively transmitted between the automatic winders 60. Specifically, when a certain automatic winder 60 receives winding information from another adjacent automatic winder 60 and then transmits the winding information to yet another adjacent automatic winder 60, the certain automatic winder 60 can add the winding information managed by the certain automatic winder 60 to the received winding information and transmit such winding information.
  • the automatic winders 60 included in the automatic winder system 70 can efficiently share the winding information. Meanwhile, at least one automatic winder 60 can be used as a central managing device so as to allow the information from the communicably connected automatic winders 60 to be intensively managed.
  • the wireless communication network is configured as described above so as to allow the automatic winders 60 to transmit and receive the winding information to and from one another. This facilitates management of the factory as a whole.
  • the yarn winding conditions can be set collectively. Furthermore, by the transmission and reception of the winding information as described above, the yarn winding state information and statistical information on all the frames can be appropriately monitored on the display 13 of any automatic winder 60. Thus, the operator can check, on the display 13 of the nearest automatic winder 60, information indicating that for example, the production rate of the X-th yarn winding unit 16 provided in the automatic winder 63 is inefficient, without moving to an area where such automatic winder 63 is installed.
  • the automatic winder system 70 includes the plurality of automatic winders 60.
  • Each of the automatic winders 60 includes the plurality of yarn winding units 16, the frame control device 11, and the ZigBee terminal 12.
  • the frame control device 11 manages the winding information on the yarn winding unit 16, and controls the yarn winding unit 16.
  • the ZigBee terminal 12 can communicate wirelessly according to ZigBee, which is a predetermined wireless communication standard.
  • the ZigBee terminal 12 can communicate directly with the ZigBee terminal 12 provided in each of the other automatic winders 60.
  • the frame control device 11 transmits and receives the winding information to and from the frame control device 11 provided in each of the other automatic winders 60 by carrying out wireless communication via the ZigBee terminals 12.
  • the automatic winder communication system with the automatic winders connected together like beads can be easily constructed.
  • the frame control devices 11 can communicate directly with each other without intervention of a host computer. This prevents the system as a whole from being affected by a fault in one host computer as in the case where communications involve the host computer.
  • the communication is wireless, the automatic winders 60 can be easily rearranged. That is, operators can easily move the automatic winders 60 to change the positions where the automatic winders 60 are provided in the facility.
  • the automatic winders 60 can communicate with one another, the communication can be prevented from being disabled by blockage of radio waves by a particular frame as in the case in which the communication involves a predetermined access point. This allows the automatic winders 60 to be flexibly and freely rearranged.
  • the automatic winder 60 includes the plurality of yarn winding units 16.
  • the frame control device 11 of the automatic winder 60 transmits and receives the winding information on the yarn winding unit 16 to and from the frame control device 11 of another automatic winder 60.
  • the winding information can be transmitted and received among the plurality of automatic winders 60 by wireless communication.
  • the ZigBee terminal 12 is removably provided in the automatic winder 60.
  • the configuration of the frames in the facility can be easily changed as in the case in which for example, the number of automatic winders 60 is increased from one to a plural number.
  • the system can be more flexibly constructed, while preventing reduction in productivity associated with the difficulty of rearrangement of the automatic winders 60.
  • the plurality of automatic winders 60 are arranged adjacent to and in parallel with one another.
  • the automatic winders 60 can communicate as follows. That is, first, the frame control device 11 provided in one automatic winder 60 transmits, by wireless communication, the information managed by such a frame control device 11 to the frame control device 11 provided in another automatic winder 60 located adjacent to the above-described automatic winder 60. Upon receiving the information, the frame control device 11 provided in the another automatic winder 60 can accumulatively transmit, together with the received information, the information managed by the frame control device 11 to the frame control device 11 provided in yet another automatic winder 60 located adjacent to the another automatic winder 60.
  • each of the automatic winders 60 can add information of each automatic winder 60 to the received information and then transmit both pieces of information. Consequently, the information can be efficiently collected on the automatic winder system 70.
  • the automatic winder system 70 is configured as follows. That is, for example, before the winding information managed by the frame control device 11 provided in the automatic winder 61 is transmitted to the frame control device 11 in the automatic winder 62, the ZigBee terminal 12 provided in the automatic winder 61 determines whether or not communication can be carried out with the frame control device 11 in the automatic winder 62 (step S102). When communication can be carried out with the frame control device 11 in the automatic winder 62, the ZigBee terminal 12 in the automatic winder 61 transmits the winding information managed by the frame control device 11 in the automatic winder 61 to the frame control device 11 in the automatic winder 62.
  • the ZigBee terminal 12 in the automatic winder 61 searches for and communicates with a frame control device provided in an automatic winder different from the automatic winder 62 (for example, the frame control device 11 provided in the automatic winder 63) (step S106).
  • the automatic winder system 70 includes an automatic winder 60 that cannot carry out communication (in the above-described example, the automatic winder 62), the automatic winder system 70 enables communication to be carried out with another automatic winder 60 by skipping the automatic winder 60 that cannot carry out communication.
  • the communication path can be automatically reconstructed.
  • the automatic winders 60 can be more easily rearranged, and the communications throughout the system can be prevented from being shut down as a result of the defect in the communication function of the particular automatic winder 60. This further improves the productivity.
  • each of the automatic winders 60 includes the ZigBee terminal 12 using ZigBee as a wireless communication standard.
  • ZigBee is a short-distance wireless communication standard.
  • the plurality of automatic winders 60 can be connected together so as to be capable of communicating consecutively with one another via the ZigBee terminals 12.
  • the ZigBee terminals 12 can communicate with each other and consume a reduced amount of power.
  • the transmission distance of the ZigBee terminals 12 is appropriate for use in a vast factory site.
  • the ZigBee terminals 12 enable communication via a plurality of textile machines and can thus communicate with each other in a vast factory site.
  • the ZigBee terminal 12 is particularly suitably used for the automatic winder system 70.
  • the automatic winder 60 includes the plurality of yarn winding units 16. Furthermore, the automatic winder 60 includes the ZigBee terminal 12 that can perform at least one of transmission and reception of information directly to and from another automatic winder 60.
  • a plurality of the automatic winders 60 configured as described above are installed so as to communicate with one another. Accordingly, the automatic winders 60 can communicate with one another without the intervention of a host computer.
  • a communication network for the automatic winders 60 can be constructed in which the positions of the automatic winders 60 can be easily rearranged.
  • the winding information described above is only an example. Another type of information may be communicated among the automatic winders. Furthermore, only a part of the winding information may be communicated, with the remaining part not communicated. For example, the configuration may be modified such that only the yarn winding conditions are communicated among the automatic winders 60.
  • the supply device 52 and the automatic doffing device 51 may be omitted or modified.
  • the configuration in which the yarn supplying bobbin 21 is supplied by the supply device 52 may be changed to a configuration in which a magazine type bobbin supply device is provided on a front side of each of the yarn winding units 16.
  • the wireless communication standard is not limited to ZigBee but may be changed to another wireless communication standard, for example, Bluetooth.
  • Bluetooth slave terminals can communicate with a master terminal but the slave terminals cannot communicate with each other. Further, only one master terminal is provided in the network. With Bluetooth, only a small number of slave terminals, that is, only seven slave terminals can be connected to a single master terminal, and a communication distance is limited. Therefore, it may be difficult to adopt Bluetooth for communications among a large number of frames in a large space such as in a textile factory. Thus, to enable communication to be carried out among the frames in the textile factory, ZigBee can be particularly suitably used in terms of the flexibility of expansions and changes and fault resistance.
  • the ZigBee terminal 12 may be connected to, for example, a wired LAN port.
  • the ZigBee terminal 12 may be irremovable from the automatic winder 60 rather than being removable from the automatic winder 60. However, in terms of expandability and flexibility, the ZigBee terminal 12 is preferably removable from the automatic winder 60.
  • the mounting position of the ZigBee terminal 12 is not limited to the positions shown in Figures 1 and 2 .
  • the ZigBee terminal 12 may be mounted on a top surface of the frame control device 11 or built in the frame control device 11.
  • the configuration in which the flow in Figure 3 is carried out to transmit information may be changed such that the flow is periodically carried out.
  • two automatic winders 60 serve as the coordinators (one main coordinator and one backup coordinator). However, any number of backup coordinators may be provided.
  • the area where the coordinators are installed is not particularly limited. Any of the automatic winders 60 may be set to be the coordinators.
  • an automatic winder started first in the automatic winder system may be configured to function dynamically as the coordinator.
  • the textile machine is not limited to the automatic winder but may be a spinning machine including at least one spinning unit. In this case, spinning information on each spinning unit is transmitted to and received from another spinning machine.
  • the textile machine system is not limited to the communication between the frames of the same type but may be configured to include, for example, a plurality of automatic winders and a plurality of spinning machines. This configuration allows information to be consistently managed from yarn spinning to package production.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Textile Engineering (AREA)
  • Quality & Reliability (AREA)
  • Selective Calling Equipment (AREA)
  • Spinning Or Twisting Of Yarns (AREA)
EP09003538.7A 2008-03-28 2009-03-11 Textilmaschinensystem und Textilmaschine Not-in-force EP2108723B2 (de)

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JP2008088726A JP2009242029A (ja) 2008-03-28 2008-03-28 繊維機械システム及び繊維機械

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EP2108723A3 EP2108723A3 (de) 2014-04-30
EP2108723B1 EP2108723B1 (de) 2016-08-10
EP2108723B2 EP2108723B2 (de) 2020-04-01

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EP2573021A3 (de) * 2011-09-21 2015-11-25 Murata Machinery, Ltd. Garnwickelmaschine
EP2960195A3 (de) * 2014-06-27 2016-05-11 Murata Machinery, Ltd. Textilmaschine, textilmaschinensystem und aktualisierungsverfahren zur einstellung der werte in einer textilmaschine
CN106503806A (zh) * 2015-09-04 2017-03-15 村田机械株式会社 纤维机械管理系统、管理装置以及控制装置
EP2573236A3 (de) * 2011-09-21 2017-03-15 Murata Machinery, Ltd. Textilmaschine und Textilmaschinensystem
EP3181501A1 (de) * 2015-12-16 2017-06-21 Murata Machinery, Ltd. Garnwicklungsvorrichtung und garnwicklungssystem
EP3305953A4 (de) * 2015-06-05 2019-01-30 Murata Machinery, Ltd. Garnwickelsystem, spinnmaschine, automatischer wickler und garnwickelverfahren
EP3305702A4 (de) * 2015-06-05 2019-02-13 Murata Machinery, Ltd. Garnwickelsystem, automatischer wickler, feinspinnmaschine und garnwickelverfahren
EP3305700A4 (de) * 2015-06-05 2019-03-06 Murata Machinery, Ltd. Garnwickelsystem, automatischer wickler, spinnrahmen und garnwickelverfahren
CN110015597A (zh) * 2018-01-09 2019-07-16 里特机械公司 用于运行纺纱或绕线机的方法
EP3611120A4 (de) * 2017-04-11 2021-01-13 Murata Machinery, Ltd. Zustandsanzeigevorrichtung und fadenwickelvorrichtung
CN113337928A (zh) * 2021-06-11 2021-09-03 徐州天虹时代纺织有限公司 一种超长细纱机
WO2022043540A1 (de) 2020-08-31 2022-03-03 Maschinenfabrik Rieter Ag Bedienvorrichtung für eine textilmaschine und verfahren zur bedienung einer textilmaschine
IT202000024097A1 (it) 2020-10-13 2022-04-13 Savio Macch Tessili Spa Sistema e procedimento per la gestione di un impianto tessile

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EP2573236A3 (de) * 2011-09-21 2017-03-15 Murata Machinery, Ltd. Textilmaschine und Textilmaschinensystem
EP2573021A3 (de) * 2011-09-21 2015-11-25 Murata Machinery, Ltd. Garnwickelmaschine
EP2690045A3 (de) * 2012-07-24 2014-11-05 Murata Machinery, Ltd. Garnüberwachungsvorrichtung, Garnwickeleinheit und Garnwickelmaschine
EP2960195A3 (de) * 2014-06-27 2016-05-11 Murata Machinery, Ltd. Textilmaschine, textilmaschinensystem und aktualisierungsverfahren zur einstellung der werte in einer textilmaschine
EP3305700A4 (de) * 2015-06-05 2019-03-06 Murata Machinery, Ltd. Garnwickelsystem, automatischer wickler, spinnrahmen und garnwickelverfahren
EP3305953A4 (de) * 2015-06-05 2019-01-30 Murata Machinery, Ltd. Garnwickelsystem, spinnmaschine, automatischer wickler und garnwickelverfahren
EP3305702A4 (de) * 2015-06-05 2019-02-13 Murata Machinery, Ltd. Garnwickelsystem, automatischer wickler, feinspinnmaschine und garnwickelverfahren
CN106503806A (zh) * 2015-09-04 2017-03-15 村田机械株式会社 纤维机械管理系统、管理装置以及控制装置
EP3181501A1 (de) * 2015-12-16 2017-06-21 Murata Machinery, Ltd. Garnwicklungsvorrichtung und garnwicklungssystem
EP3611120A4 (de) * 2017-04-11 2021-01-13 Murata Machinery, Ltd. Zustandsanzeigevorrichtung und fadenwickelvorrichtung
CN110015597A (zh) * 2018-01-09 2019-07-16 里特机械公司 用于运行纺纱或绕线机的方法
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IT202000024097A1 (it) 2020-10-13 2022-04-13 Savio Macch Tessili Spa Sistema e procedimento per la gestione di un impianto tessile
EP3984935A1 (de) 2020-10-13 2022-04-20 Savio Macchine Tessili S.p.A. System und verfahren zur verwaltung einer textilanlage
CN113337928A (zh) * 2021-06-11 2021-09-03 徐州天虹时代纺织有限公司 一种超长细纱机

Also Published As

Publication number Publication date
EP2108723A3 (de) 2014-04-30
EP2108723B2 (de) 2020-04-01
CN101546193A (zh) 2009-09-30
EP2108723B1 (de) 2016-08-10
CN101546193B (zh) 2014-04-30
JP2009242029A (ja) 2009-10-22

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