JP2010201440A - Roll shop control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a roll shop control system by which the operation control of roll shop work is performed efficiently. <P>SOLUTION: The roll shop control system 1 includes a first grinding machine 31, a second grinding machine 32 and a dulling working device 41 for applying surface working to old rolls, a ZM rolling mill 2 for performing rolling process of a material to be worked by using new rolls, a crane control panel 78 and a peripheral control panel 79 for controlling the transport of the rolls between respective equipment and apparatus and a control server 3 for conducting the operation control of the roll shop work. A radio tag is attached to each roll and, when the radio tag is read with a radio HT 6 by a worker, the information of the roll to which the radio tag is attached is updated in the control server 3. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a roll shop management system for managing a roll shop which is attached to a rolling apparatus for rolling a workpiece and into which a large number of rolls used in the rolling apparatus are introduced.

  Conventionally, a roll used in a rolling mill is replaced with a new roll having a polished roll surface when the roll surface is worn by rolling a workpiece such as metal. Therefore, the roll shop attached to the rolling mill is equipped with a roll polishing device for polishing new rolls immediately after purchase, old used rolls, etc., and for applying dull processing to polished rolls. A dull processing device and a device for carrying and exchanging rolls are also provided. Many of the various operations such as polishing and dull processing (hereinafter referred to as roll shop operations) in the roll shop are performed manually by the operator, and thus require labor and skill of the operator. Therefore, in recent years, various methods for automating the roll shop work have been proposed for the purpose of saving labor and improving the efficiency of the roll shop work.

  For example, the processing unit for rolling mill, the processing unit for roll shop and the processing unit for roll data management are connected to each other, and data is transmitted and received between the rolling mill, the roll transfer unit, and the roll grinder with chock. The automatic operation method and apparatus for roll shop work that automates the control of normal rolls and accident rolls, the collection and setting of roll data, the roll grinder with chock and roll transfer means without requiring an operator are known. It has been. Thereby, all of a series of processes can be performed by automatic operation (for example, refer to patent documents 1).

  In addition, a series of roll scheduling functions such as rolling schedule, roll reassignment / grinding / conveyance / schedule, etc. are integrated into a computer system, making scheduling that was difficult even for the judgment of the operator fully automated. An integrated roll shop operation method that can be performed is known (see, for example, Patent Document 2).

  In addition, according to the method of supplying other various types of rolls to a rolling mill by grinding with a plurality of grinders, the grinding load prediction management system compares the total rolling time with the grinding time, and the grinding time is insufficient. If so, the production instruction information is changed by the production management system. On the other hand, if the grinding time is not short, the rolling mill, roll conveyance based on the rolling order confirmation information that has the smallest grinding load margin coefficient αK obtained from the ratio of the rolling time and grinding time for each steel strip. Control equipment and grinder. Thereby, the rolling roll required for the rolling mill is ground and supplied without excess and deficiency to prevent rolling pause due to grinding delay and to eliminate excessive grinding of the rolling roll (see, for example, Patent Document 3). ).

JP-A-8-10810 JP-A-4-284906 JP-A-8-39114

  The inventions described in Patent Documents 1 to 3 all manage labor shop information by automating the roll shop work, while accurately managing information about the roll shop (especially information about individual rolls). I couldn't. Specifically, these conventional technologies cannot accurately manage the current position, current management status, past usage history, current roll diameter, etc. of each roll as information about the rolls introduced in the roll shop. It was.

  Therefore, in the conventional roll shop work, when a situation that requires a specific roll occurs, when an operator wants to find the roll by walking in the roll shop or to know the past usage history for a specific roll In some cases, the worker refers to a management book written manually, and the worker has a lot of trouble. Also, the operator has determined whether or not the roll used in the rolling mill has an optimal roll diameter based on experience, but such determination requires the skill of the operator. Furthermore, rolls that have failed due to past rolling operations (so-called accident rolls) are likely to cause failures again during rolling operations even if they are regenerated by polishing or dull processing. In order to grasp the role, it was necessary to manually refer to past usage history and the like.

  Also, if information about roll shops (especially information about individual rolls) cannot be managed efficiently and accurately, the yield will be lowered even if the operation control of roll shop work is automated, saving labor and improving efficiency of roll shop work. There was a problem of disturbing. In particular, in a rolling mill (for example, Sendzimir mill) using a small-diameter roll, the number of rolls to be used is larger than that of a rolling mill using a large-diameter roll, and the replacement frequency of the old and new rolls is increased. As a result, the number of rolls used for the roll shop operation also increases, making it more difficult to accurately manage information about all these rolls.

  An object of the present invention is to provide a roll shop management system capable of accurately managing information relating to a roll shop (in particular, information relating to a roll introduced into the roll shop) and efficiently performing operation control of the roll shop work. Is to provide.

  A first roll shop management system according to the present invention that solves the above problems is a plurality of rolls used in a rolling apparatus, and manages a roll shop into which the rolls with unique roll identification information are introduced. It is a roll shop management system managed by an apparatus, and stores a transport device that transports a roll, a roll processing device that processes the surface of the roll, and a roll addition ID that is unique identification information, and stores the roll addition ID. A plurality of roll addition ID storage means configured to be readable from the outside, a roll addition ID reading means for reading the roll addition ID from the roll addition ID storage means, a command receiving means for receiving a command, and at least a roll addition ID and a command A terminal device having a terminal-side communication means for transmitting to the management device, the management device Operation information from the storage means, the rolling device, the transport device, and the roll processing device that stores the roll addition ID of the roll addition ID storage means attached to the roll in association with the roll identification information of the roll and the roll information about the roll. Operating information acquisition means for acquiring the information, management side communication means for communicating with the terminal device, role management information based on the operation information, and role addition ID received from the terminal device via the management side communication means and And role information management means for managing role information associated with the role addition ID based on the command.

  The roll shop management system of the present invention includes a roll shop attached to a rolling device, a plurality of rolls used in the rolling device, a management device, a roll processing device, a transport device, a plurality of roll additional ID storage means, and a terminal. Equipment. Although the roll shop which is the management object of the roll shop management system is attached to the rolling device, the concept may include the rolling device. In the roll shop, a series of work (roll shop work) associated with rolling of the workpiece is performed using the introduced roll.

  The rolling device may be a rolling mill that rolls a workpiece (so-called strip) using a set (or a pair) of new rolls. The rolling apparatus is preferably a rolling mill with more rolls used for the rolling process than usual (specifically, a rolling mill with a large number of rolls incorporated in the mill or a rolling mill with a high roll replacement frequency). An example is a multi-stage rolling mill (Zenzimir mill) in which a plurality of rolls are arranged in multiple stages in a cluster.

  The roll processing apparatus processes the surface of the roll. Specifically, the roll processing apparatus regenerates a new roll by applying surface processing to an old roll that is used for rolling the workpiece and whose roll surface is worn or deteriorated. The roll processing apparatus may include a polishing machine that polishes the roll surface, or may include a dull processing machine that dulls the roll surface.

  A conveyance apparatus is a conveyance apparatus which can convey a roll, and contains various conveyance apparatuses, such as a crane apparatus, a conveyor apparatus, and a trolley | bogie. A conveyance apparatus supplies the old roll used for the rolling process with the rolling apparatus to a roll processing apparatus, and collect | recovers a new roll from a roll processing apparatus. A conveyance apparatus conveys a roll so that an old roll may be collect | recovered from a rolling apparatus, while supplying a new roll to a rolling apparatus.

  The roll shop management system may further include various facilities necessary for management of the warehouse apparatus and other rolls. The warehouse device is a storage that accommodates rolls in a removable manner. The warehouse apparatus may have an accommodation unit that directly accommodates one or a plurality of rolls, or may have an accommodation unit that accommodates a conveyance table (pallet) on which a plurality of rolls are mounted. The transport device is preferably capable of transporting the roll between the warehouse device and the roll processing device and between the warehouse device and the rolling device. The transport device preferably transports the roll so that the old roll used for the rolling process in the rolling device is supplied from the warehouse device to the roll processing device, and the new roll is collected from the roll processing device to the warehouse device. The transport device preferably transports the roll so that the new roll is supplied from the warehouse device to the rolling device while the old roll is recovered from the rolling device to the warehouse device.

  Roles are given unique role identification information that can be distinguished from other roles. The roll identification information is preferably given to the roll so that the operator can recognize it in the form of characters, figures, etc. by means such as engraving and printing. Since the roll identification information is used consistently in the roll shop, it is preferable that the roll identification information is given in a form that does not easily disappear or be removed.

  The plurality of roll addition ID storage means is an information storage medium configured to store a unique roll addition ID different from the role identification information and to be able to read the roll addition ID from the outside. Since the roll addition ID functions as identification information for identifying each roll to which the roll addition ID storage unit is attached, a mode in which only one roll addition ID storage unit is attached to one roll is preferable. The roll addition ID storage means is exemplified by a non-contact type IC tag (so-called RFID) configured to be able to read a roll tag ID which is a roll addition ID by wireless communication. Since the roll used in the rolling apparatus is difficult to handle such as being lifted manually, the roll addition ID can be read from the roll addition ID storage means by wireless communication, thereby facilitating the work.

  Since the roll used in the rolling device is difficult to handle such as lifting manually, the roll additional ID reading unit is configured to automatically read the roll additional ID when the terminal device approaches the roll additional ID storage unit. It is preferable that it is readable by wireless communication. Since the roll used in the rolling device is difficult to handle by hand, it may be a portable terminal that can be carried so that the operator can read the roll additional ID while moving around the roll while holding the terminal device. Preferably, it is small and light. The roll additional ID reading unit may read the roll additional ID according to an instruction input from the operator. Regardless of the reception mode, the command receiving means may input a command by selection input from a screen, input by voice, reading a command stored in an information storage medium, reading a printed command, or the like. By transmitting the command and the role additional ID from the terminal device, the purpose of transmitting the role additional ID to the management device can be clarified. The terminal-side communication means may transmit additional identification information and a command to the management apparatus in response to an operator's reading instruction, or may automatically transmit it. It is preferable that the terminal-side communication means automatically transmits the role addition ID and the command to the management device in order to reduce the load on the worker.

  The management device has storage means for storing roll information regarding the rolls introduced into the roll shop. The storage means stores at least a roll addition ID unique to the roll addition ID storage means attached to the roll as roll information in association with the roll identification information of the roll. That is, in the storage means, the association between the role and the role addition ID (so-called association) is made. The storage means includes, as roll information, a roll section indicating a usage method in the rolling apparatus, a roll diameter section indicating a roll diameter, a registered position, a roll processing state indicating a past state, a roll management state indicating a current state, Managed by pallet identification information of the pallet on which the roll is mounted, position in the pallet, rolling related information managed by information from the rolling device, polishing related information managed by information from the polishing device, and information from the dull processing device It is preferable to store the dull-related information, past usage history, current roll diameter, and the like.

  The management device has operation information acquisition means for acquiring operation information from equipment (at least a roll processing device, a rolling device, and a conveyance device) arranged in the roll shop. It is preferable that the operation information acquisition unit always acquires operation information from the equipment via a network using wired communication and / or wireless communication. The operation information preferably includes an operation completion report, status information, the position of each conveyance device, the position of the roll, the conveyance destination of the roll, and an operation instruction from the operator.

  The management device has management-side communication means for communicating with the terminal device. The management side communication means transmits / receives various information to / from the terminal device via wired communication and / or wireless communication. Note that the management-side communication means preferably includes wireless communication means in order to increase the portability of the terminal device and increase work efficiency.

  The management device has role information management means for managing role information (specifically, data input / output, search, setting, etc.) based on operation information. The role information management unit further manages role information associated with the role addition ID based on the role addition ID and the command received from the terminal device via the management side communication unit. It is preferable that the roll information management means can manage information on each roll using the roll addition ID stored in the roll addition ID storage means attached to each roll as a key. Based on the roll information, the management device accurately grasps the current status and history of each roll, and executes the operation control of the optimal roll shop work (for example, roll processing process and roll exchange process) for each roll. It is preferable to do. It is preferable that the management device controls the operation of facility equipment (such as a roll processing device and a transport device) according to the progress of the roll shop work.

  According to the roll shop management system of the present invention, a large number of rolls introduced into the roll shop are managed in association with roll addition IDs stored in the roll addition ID storage means attached to each roll. When the terminal device accepts the command and reads the role addition ID, the management device updates information on the role corresponding to the role addition ID according to the command. For example, when a worker performs a human task (for example, a task in which a worker moves a roll directly) in a roll shop, a command (for example, roll movement) is performed by operating the terminal device to instruct the human task. Etc.) and the roll addition ID is read from the roll addition ID storage means attached to the roll on which the human work is performed. The management device can update information on the role in accordance with the role addition ID received from the terminal device, and can specify which of the plurality of roles the human work has been executed. In the management device, a plurality of pieces of role information are set to more detailed and accurate contents based on not only information from each equipment device but also a command from the terminal device and a role addition ID. Since the management device can execute the optimum roll shop work for each roll based on the roll information, efficient operation control with an improved yield in the rolling work is realized.

  Further, the first roll shop management system further includes a plurality of action tags configured to store the command and to be able to read the command by wireless communication, and the command receiving means receives the command from the action tag by wireless communication. It is preferably configured to accept. Furthermore, it is preferable that one tag is stored in one action tag. Furthermore, it is preferable that the action tag is disposed in a rolling device, a warehouse device, a transport device, a processing device, or an area where an operator performs work related to the command.

  By providing the action tag, it is possible to prevent an operator from entering an incorrect command, and thus the management device can accurately perform the work in the roll shop.

  Furthermore, in the first roll shop management system, the management device transmits the role information associated with the roll addition ID received from the terminal device to the terminal device that has transmitted the roll addition ID via the management-side communication means. Preferably, the terminal device further includes a role information output means for transmitting, and the terminal device further includes a display means for displaying the role information received via the terminal-side communication means.

  According to this solution, when the worker reads the roll addition ID from the roll addition ID storage means attached to the roll using the terminal device, the roll information of the roll is output to the terminal device (for example, the terminal It is displayed as a screen on the display unit of the device). When an operator wants to obtain detailed roll information about a desired roll, it is only necessary to read the roll additional ID attached to the roll, so that the labor and burden on the operator is greatly reduced. By referring to the roll information displayed on the terminal device, the worker can accurately determine the roll diameter of the desired roll, the management state, or whether or not it is an accident roll.

  Further, in the first role shop management system, the commands that can be accepted by the command accepting means include a work command that instructs that the role is used for a specific work, and the role information management means includes the work command and the role. When the additional ID is received, it is preferable to set the management state of the role corresponding to the specific work in the role information associated with the received role additional ID.

  According to this solution, when a role performs a specific human task (specific task), the management state of the role is set based on the specific task. Thereby, when an operator uses a role for a specific work, the trouble of inputting the management state of the role can be saved, and the roll shop work can be made efficient.

  Further, in the second roll shop management system according to the present invention, the roll information management means further comprises a pallet configured to carry a specified number of rolls in the first roll shop management system. Is preferably stored in the storage means in association with the roll addition ID of the roll mounted on the pallet.

  According to the above solution, a prescribed number (for example, 10) of rolls are mounted on the pallet and conveyed. Furthermore, it is preferable that the storage by the warehouse device and the transfer by the transfer device are performed in units of pallets. In general, as the number of rolls introduced into the roll shop increases, or as the roll processing frequency and replacement frequency increase, the control load of each facility device increases. In particular, if the rolls are accommodated and transported, the control load becomes excessive, causing problems such as work delay and yield reduction. In this solution, such a problem can be prevented and the control load of each equipment can be reduced.

  Furthermore, in the second roll shop management system, unique pallet identification information is given to the pallet, and the storage means associates the pallet identification information of the pallet with the roll additional ID of the roll mounted on the pallet. It is preferable to memorize.

  By storing (linking) pallets in the storage means in association with the rolls, the management apparatus can accurately control the operation of the roll shop work even if each roll is accommodated and transported in units of pallets. Can do.

  Furthermore, in the second roll shop management system, unique pallet identification information is given to the pallet, and the storage means uses the pallet addition ID attached to the pallet and the roll addition ID of the roll mounted on the pallet. It is preferable to store them in association with each other.

  By storing the pallet addition ID of the pallet addition ID storage means capable of wireless communication in the storage means in association with the roll addition ID, the identification of the pallet can be facilitated, and the relationship between the pallet and the roll is easily managed. can do. By associating the pallet addition ID with the roll addition ID, the management apparatus can easily access the roll information of the roll mounted on the pallet only by recognizing the pallet addition ID when working in units of pallets.

  Further, in the second roll shop management system, unique pallet identification information is given to the pallet, and the storage means displays the pallet addition ID attached to the pallet, the pallet identification information of the pallet, and the pallet related to the pallet. It is preferable to store the information as pallet management information in association with the information. Furthermore, as pallet information, the pallet status indicating the current state, the pallet type indicating the mounting status of the roll, the use prohibition category indicating the availability of use, the enrollment position, the roll diameter category indicating the diameter of the mounted roll, and the mounted roll It is preferable to store the number and the roll addition ID of the mounted roll.

  By storing the pallet information, it becomes easier to access information about the rolls mounted on the pallet when working in units of pallets. In particular, when the types of rolls mounted on the pallet are unified, the burden of information processing in the management apparatus can be reduced as compared with the case where individual roll information is used.

  Further, in the third roll shop management system according to the present invention, in the second roll shop management system, a command that can be accepted by the command accepting means is a movement instruction command for instructing that the roll is moved to a specific position. And the role information management means preferably stores the pallet present at the specific position in the storage means in association with the roll addition ID when the movement instruction command and the roll addition ID are received.

  According to this solution, when a roll is moved to a specific position by human work, it is assumed that the roll is mounted on a pallet existing at the specific position, and the roll is tied to the pallet at the specific position. Attached. Roll shop work saves the labor of inputting the identification number of the pallet on which the roll is mounted when the operator moves the roll to the specific position by linking the roll to the specific position of the pallet. Can be made more efficient.

  Further, in the third roll shop management system, a plurality of pallet addition ID storage means configured to store the pallet addition ID as unique identification information and to be able to read the pallet addition ID by wireless communication, and wireless communication A pallet addition ID reading device for reading the pallet addition ID from the pallet addition ID storage unit attached to the pallet existing at the specific position and transmitting the read pallet addition ID to the management device. The pallet addition ID received from the pallet addition ID reading device is preferably stored in the storage unit in association with the roll addition ID received together with the movement instruction command from the terminal device.

  By providing the pallet addition ID reader, the work load on the operator can be reduced. By separating the device that reads the roll additional ID from the device that reads the pallet additional ID, the management device refers to the identification information of the terminal device and the pallet additional ID reader that are used for communication. Since it is possible to distinguish and accept the roll addition ID and the palette addition ID without receiving identification information for identifying the palette addition ID, communication is performed in comparison with the case where the roll addition ID and the palette addition ID are read by a common terminal. The amount of information at the time can be reduced. By automatically reading the pallet addition ID with the pallet addition ID reading device, the operator does not have to switch reading between the roll addition ID and the pallet addition ID by wireless communication with the terminal device. It is possible to prevent an input operation mistake with the ID.

  Further, in the third roll shop management system, unique pallet identification information is given to the pallet, and the storage means displays the pallet addition ID attached to the pallet, the pallet identification information of the pallet, and the pallet of the pallet. Is stored as pallet management information in association with the pallet information, and the roll information includes at least one roll classification information to which the roll belongs, and the pallet information includes a roll addition ID corresponding to the roll mounted on the pallet. In addition, the pallet information includes pallet classification information that matches roll classification information to which at least one roll mounted on the pallet belongs, and the management device receives the roll addition ID and the movement command from the terminal device. At the same time, the palette additional ID is received from the palette additional ID reader. In this case, it is preferable to further include a movement condition determining means for generating an error signal if the roll classification information corresponding to the received roll additional ID does not match the pallet classification information corresponding to the received palette additional ID. . Further, the roll information includes a plurality of roll classification information, the pallet information includes a plurality of pallet classification information, and the movement condition determination means obtains one roll classification information from the plurality of roll classification information corresponding to the received roll additional ID. It is preferable to send an error if the selected roll category information corresponding to the received roll addition ID does not match the palette category information corresponding to the received palette addition ID.

  By automatically transmitting an error by the movement condition judging means, the operator can transfer the roll to the pallet without checking the roll classification information of the roll loaded on one pallet. Work efficiency can be improved and a pallet with uniform pallet classification information can be generated accurately.

  In the fourth roll shop management system according to the present invention, the second or third roll shop management system further includes a printing unit, and the management apparatus prints a unique identification image corresponding to the roll identification information. The terminal device further includes identification image reading means for reading the roll identification information from the identification image, and the management device stores the read roll identification information via the terminal side communication means. The role information management means associates the received role identification information with the received role addition ID when the role addition ID and role identification information are received from the terminal device via the management side communication means. It is preferable to store it in the storage means.

  The unique identification image corresponding to the roll identification information may be a character or a graphic such as a barcode. The printing means may be a general-purpose printer or a special-purpose printing apparatus such as a barcode printer. The identification image reading means may be configured to read the identification image with a barcode reader or a scanner.

  According to this solving means, the roll addition ID and the identification image are read by different means, so that the information input by the difference in the reading means by the terminal device is the roll addition ID regardless of which one is read by the worker first. Since it can be recognized whether there is roll identification information or role identification information, it is possible to prevent an input error by an operator and improve work efficiency. By reading the printed identification image, the operator can easily input the roll identification information as compared with the key input, so that the operator can prevent input mistakes and improve the work efficiency. it can. Since the association between the roll additional ID and the roll identification information is normally performed only at the time of new warehousing, it is cheaper and simpler than printing the identification image and storing the roll identification information in the roll additional ID. The association can be performed.

  Further, in the fifth roll shop management system according to the present invention, in any one of the first to fourth roll shop management systems, a fitting part that is detachable with respect to an edge part of the roll, and a roll addition It is preferable to further include a plurality of roll management members having a holding unit capable of holding the ID storage means.

  According to this solving means, the roll additional ID storage means can be attached to the roll only by fitting the edge of the roll into the roll management member, and the roll shop work can be made efficient. The roll management member is preferably non-conductive. By making the roll management member non-conductive, the possibility of hindering reading of the roll additional ID storage means by wireless communication is reduced.

  Further, in the fifth roll shop management system, the roll processing device has a polishing device for polishing the roll in a state where the roll management member is removed, and the roll addition ID is wirelessly communicated from the roll management member removed from the roll. And a polishing roll additional ID reading means for transmitting the read roll additional ID to the management apparatus, and an informing means for notifying the replacement of the roll management member. Including a roll management state indicating at least whether or not the edge is an object to be polished, and the management device is an object whose edge corresponding to the roll additional ID received from the polishing roll additional ID reading means is to polish the edge. In some cases, the notification means notifies the replacement of the roll management member, and the received roll additional ID is set to the old roll. The roll information management unit further stores a roll addition ID different from the old roll addition ID after receiving the old roll addition ID from the polishing roll addition ID reading unit. When received as the role addition ID, it is preferable to store the role identification information and role information corresponding to the old role addition ID in the storage unit in association with the new role addition ID.

  The roll neck diameter detecting means is further provided, and the replacement instructing means replaces the roll management member with the notification means only when the diameter at the edge (roll neck diameter) becomes smaller than a predetermined size due to roll neck polishing. Is preferably notified. The roll neck diameter detection means may be a measuring device that measures the roll neck diameter, or may estimate the roll neck diameter after processing from a program instructing roll neck polishing. Furthermore, it is preferable that the polishing roll additional ID reading means is configured to be able to place a roll management member.

  According to this solution, when the roll neck diameter is reduced by roll neck polishing in which the edge of the roll is polished by a polishing apparatus and the roll management member must be replaced, the operator replaces the roll management member. It is possible to prevent forgetting.

  ADVANTAGE OF THE INVENTION According to this invention, while being able to manage the information regarding a roll shop (especially the information regarding the roll introduce | transduced into a roll shop) exactly, operation control of a roll shop work can be performed efficiently.

2 is a plan view schematically showing the entire structure of a roll shop P. FIG. It is the external appearance perspective view which looked at the automatic warehouse 70 from diagonally upward. 3 is a front sectional view schematically showing the internal structure of the ZM rolling mill 2. FIG. FIG. 3 is an external perspective view of a pallet 200 on which a specified number of rolls 100 are mounted. FIG. 2 is a schematic perspective view for explaining the appearance of a roll end cover 110 and a roll 100. 2 is a side partial cross-sectional view of a state in which a roll end cover 110 is attached to a roll 100. FIG. 1 is a system configuration diagram schematically showing an overall configuration of a roll shop management system 1. FIG. It is a data block diagram which shows the detail of warehouse management DB310. It is a data block diagram which shows the detail of pallet management DB330. It is a data block diagram which shows the detail of role management DB350. It is a flowchart which shows the flow of a roll shop work. It is a figure which illustrates the flow of operation V performed at a roll introduction process. FIG. 13 is a diagram illustrating the flow of operation V following FIG. 12. It is a flowchart which shows a "new warehousing process." It is a flowchart which shows an "introduction role setting process." It is a figure which illustrates the flow of operation W performed at a roll grinding | polishing process. FIG. 17 is a diagram illustrating the flow of operation W following FIG. 16. It is a flowchart which shows "polishing automatic loading / unloading process". It is a flowchart which shows "polishing execution processing." It is a flowchart which shows a "roll movement process." It is a figure which illustrates the flow of operation X performed in a dull processing process. It is a flowchart which shows a "dull automatic loading / unloading process". It is a flowchart which shows "dull processing execution processing." It is a figure which illustrates the flow of operation Y performed in a roll exchange process. FIG. 25 is a diagram illustrating the flow of operation Y following FIG. 24. FIG. 26 is a diagram illustrating the flow of operation Y following FIG. 25. It is a flowchart which shows a rolling automatic loading / unloading process. It is a flowchart which shows "roll movement processing before rolling use." It is a flowchart which shows a "rolling used roll movement process." It is a figure which illustrates the flow of the operation Z performed in a roll discard process. It is a flowchart which shows a waste disposal process.

  Hereinafter, the best mode for carrying out the roll shop management system according to the present invention will be specifically described with reference to the drawings.

[Overall structure of roll shop P]
First, the entire structure of the roll shop P according to the present embodiment will be described with reference to FIG. FIG. 1 is a plan view schematically showing the entire structure of the roll shop P according to the present embodiment. FIG. 4 is a perspective view of a pallet 200 on which a plurality of rolls 100 are mounted.

  The roll shop P is attached to the ZM rolling mill 2 that performs cold rolling of a hard-rolling steel type (for example, a stainless steel strip). In the ZM rolling mill 2, a plurality of rolls 100 as shown in FIG. 4 are used. Since the roll surface of the roll 100 used for cold rolling is worn, it is necessary to replace the roll surface of the old roll 100 that has been worn with a new roll 100 that has been processed (polished and / or dulled). A large number of rolls 100 used in the ZM rolling mill 2 are introduced into the roll shop P, and a series of roll shop operations (for example, roll conveyance, roll polishing, dull processing, cold rolling, etc.) are smoothly performed. Work areas and equipment required for roll shop work are provided as appropriate so that they can be executed.

  Specifically, as shown in FIG. 1, the work area required for the roll shop work includes an off-site area 20 for introducing the roll 100 into the roll shop P, a polishing area 30 for polishing the roll 100, and the roll 100. A rolling area 60 for supplying and collecting the roll 100 to and from the ZM rolling mill 2 is included. In the approximate center of the roll shop P, there is an automatic warehouse 70 for storing the roll 100 and for loading and unloading the roll 100 with respect to the out-of-field area 20, the polishing area 30, the dull area 40, and the loading / unloading area 50. Yes. Further, a main traverser 90 for conveying the roll 100 between the loading / unloading area 50 and the rolling area 60 is installed.

[Type of roll 100 used in ZM rolling mill 2]
The roll shop P is an area for performing a roll shop operation provided attached to the ZM rolling mill 2, but in the present embodiment, the ZM rolling mill 2 is disposed in the rolling area 60 for convenience of explanation. Explain that it is. The ZM rolling mill 2 is a Sendzimir mill in which a plurality of rolls 100 are arranged in multiple stages in a cluster shape. The ZM rolling machine 2 is used to cold-roll a stainless steel strip that is a workpiece.

  The internal structure of the ZM rolling mill 2 will be described with reference to FIG. FIG. 3 is a front sectional view schematically showing the internal structure of the ZM rolling mill 2. As shown in FIG. 3, in the ZM rolling mill 2, a plurality of types of iron rolls 100 having different diameters are arranged in multiple stages in a cluster shape so as to face each other with a stainless steel strip (strip) conveyance line in between. Yes. The roll group forming one set with the rolling mill upper part 2a and the roll group forming one set with the rolling mill lower part 2b are arranged so as to be symmetrical about the strip conveying line. Each roll group includes a combination of a work roll 100a, a first roll 100b, a second roll 100c, and a backing roll 100d. In the present embodiment, when the work roll 100a, the first roll 100b, the second roll 100c, and the backing roll 100d are described without distinction, they are simply expressed as the roll 100.

  The work roll 100a directly contacts the strip and applies an external pressure. The work role 100a is a role type that is the center of the management target in this roll shop management system. In the present embodiment, two work rolls 100a are incorporated into the ZM rolling mill 2 as a set, and one work roll 100a is disposed on each of the rolling mill upper portion 2a and the rolling mill lower portion 2b. The two work rolls 100a are arranged close to the transport line so as to sandwich the transport line of the strip. In the roll shop P, a total of 1000 work rolls 100a are introduced and managed. The roll length of the work roll 100a is 1615 mm. The roll diameter of the work roll 100a is 82 mm, which is the smallest diameter among all roll types.

  The first roll 100b is an intermediate roll for applying an external pressure toward the strip side to the work roll 100a. In the present embodiment, the first roll 100b is incorporated in the ZM rolling mill 2 as a set of four. In the rolling mill upper part 2a and the rolling mill lower part 2b, two first rolls 100b are sequentially arranged along the strip conveying line. The work roll 100a is disposed between the two first rolls 100b and the strip conveying line.

  The second roll 100c is an intermediate roll for applying an external pressure toward the strip side to the first roll 100b. In the present embodiment, the second roll 100c is incorporated into the ZM rolling mill 2 in a set of six. In the rolling mill upper part 2a and the rolling mill lower part 2b, three second rolls 100c are arranged in order in the direction of the strip conveying line. The two first rolls 100b are arranged between the three first rolls 100b and the work roll 100a. Of the three second rolls 100c arranged in the rolling mill upper part 2a and the rolling mill lower part 2b, two sides are drive rolls whose rotation is controlled by a motor (not shown), and the central one is a ZM rolling mill. It is an idle roll that runs free in 2.

  The backing roll 100d is a roll for applying an external pressure toward the strip side to the second roll 100c. In the present embodiment, the backing roll 100d is incorporated into the ZM rolling mill 2 as a set of eight. In the rolling mill upper part 2a and the rolling mill lower part 2b, four backing rolls 100d are arranged in order in the strip conveying line direction. The three second rolls 100c are arranged between the four backing rolls 100d and the two first rolls. The backing roll 100d is disposed at a position farthest from the strip conveyance line among all the roll types.

  The plurality of rolls 100 arranged in the ZM rolling mill 2 have a roll diameter that increases in the order of a work roll 100a, a first roll 100b, a second roll 100c, and a backing roll 100d. That is, the roll group formed in the rolling mill upper part 2a and the rolling mill lower part 2b is configured such that rolls 100 having larger diameters are arranged for each type as the distance from the strip conveying line increases. In each roll group, the external pressure from the backing roll 100d is applied to the work roll 100a via intermediate rolls (first roll 100b and second roll 100c). Due to the pressure applied to each work roll 100a, a high pressure is generated between a pair of work rolls 100a facing each other across the transport line of the strip. Cold rolling is performed by conveying the strip under high pressure between the work rolls 100a while the roll 100 is rotated by a motor (not shown).

[Roll 100, roll tag 15, pallet 200 and pallet tag 16]
Each roll 100 used in the ZM rolling mill 2 is used for various work processes in each work area after being introduced into the roll shop P until it is discarded. When each roll 100 is transported and stored one roll at a time, the work load and management load on the operator increases. Therefore, in the roll shop P, as shown in FIG. 4, the pallet 200 on which the specified number of rolls 100 are mounted is transported and stored as a unit.

  The roll 100 and the pallet 200 will be described with reference to FIGS. FIG. 5 is a schematic perspective view for explaining the external appearance of the roll end cover 110 and the roll 100. FIG. 6 is a side sectional view of the roll 100 with the roll end cover 110 attached thereto.

  The roll 100 includes a substantially cylindrical body 101 as shown in FIG. 4, a substantially cylindrical neck 102 as shown in FIG. 5 integrally formed at both axial ends of the body 101, and the body 101 and the neck. It is constituted integrally by a substantially cylindrical connecting portion 103 that connects to 102. When the body 101 is used in the roll 100ZM rolling machine 2, the body 101 abuts against the strip or another roll 100 to perform rolling. As shown in FIG. 5, the diameter of the neck portion 102 is slightly smaller than that of the body portion 101, and the diameter of the connecting portion 103 is slightly smaller than that of the neck portion 102. The lengths of the neck portion 102 and the connecting portion 103 in the axial direction are sufficiently shorter than the trunk portion 101.

  As shown in FIG. 4, roll end covers 110 can be fitted to both ends of the roll 100. As shown in FIG. 6, the roll end cover 110 has a main body portion 111 that is molded into a substantially cylindrical shape with rubber. In addition, the main-body part 111 may be formed with the other nonelectroconductive material which has heat resistance. On one end surface 111 a in the axial direction of the main body 111, a concave fitting portion 112 that can be freely fitted to and removed from the neck portion 102 of the roll 100 is formed. On the inner surface near the opening of the fitting portion 112, a protrusion 112a is provided to prevent the fitting portion 112 from falling off the neck portion 102. An air escape hole 115 that penetrates from the other end surface 111 b of the main body 111 to the inside of the fitting portion 112 is formed in the main body 111. Since air can move through the air escape hole 115, the fitting portion 112 can be smoothly fitted and removed from the neck portion 102. On the other end surface 111b of the main body 111, a holding portion 113 having a circular opening and recessed in the axial direction is formed. The holding portion 113 includes a first portion 113a close to the end surface 111b and a second portion 113b that is disposed deeper than the first portion 113a and has a smaller diameter than the first portion 113a. A roll tag 15 that is a coin-type wireless tag is fitted into the second portion 113b. A sealing plug 114 is fitted in the first portion 113a. The sealing plug 114 prevents the roll tag 15 from being removed from the holding portion 113.

  The roll tag 15 stores at least ID information (tag ID) unique to each wireless tag. When the roll end cover 110 is attached to the roll 100, the tag ID of the roll tag 15 included in the roll end cover 110 functions as information for uniquely identifying the roll 100 as a distinction from other rolls. That is, by attaching the roll end cover 110 to the roll 100, it is possible to perform association (so-called association) on the data of the roll 100 and the roll tag 15. The roll end cover 110 is attached to the neck portions 102 at both ends of the roll 100, but the roll tag 15 is accommodated only in one of the roll end covers 110.

  By attaching the roll tag 15 to the roll 100, various information related to the roll 100 can be managed efficiently and accurately. In addition to identifying the roll 100 based on the identification information attached to the roll 100, the identification information stored in the wireless tag is used to identify the roll 100, thereby making it easier for the operator to read the identification information. . Further, since the identification information can be read regardless of the direction in which the wireless tag is attached, identification of a member having a shape that is easy to roll, such as the roll 100, is easier than identification by characters.

  As shown in FIG. 4, the pallet 200 has a pedestal 201 in which four rectangular columnar reinforcing bars are connected in a frame shape. The upper part of the pedestal 201 can place a specified number of work rolls 100a in parallel. A plurality of roll stoppers 202 that prevent the work roll 100a from dropping when the pallet 200 is transported can be attached to and detached from the base 201. A pallet tag 16, which is a non-contact type storage medium that can be written and / or read by wireless communication, is attached to the side surface position of the base 201.

  The pallet tag 16 is a wireless tag having a card-type outer shape, stores at least ID information (tag ID) unique to each wireless tag, and the tag ID is information for uniquely identifying the pallet 200. Function. By attaching the pallet tag 16 to the pallet 200, it is possible to perform association (so-called linking) between the two data. By attaching the pallet tag 16 to the pallet 200, various information about the pallet 200 can be managed efficiently and accurately.

  When a plurality of rolls 100 are mounted on the pallet 200 as shown in FIG. 4, the roll end cover 110 in which the roll tag 15 is accommodated is positioned on one side surface (DS surface side shown in FIG. 4) of the pallet 200. An operator or the like places each roll 100 on the pallet 200 so that the roll end cover 110 that does not accommodate the roll tag 15 is positioned on the other side of the pallet 200 (the WS surface shown in FIG. 4). By positioning the roll tag 15 on the DS surface side of the pallet 200 in advance, there is no confusion when an operator reads the roll tag 15.

  In addition to management of the pallet 200 by the pallet tag 16, management of the roll 100 by the roll tag 15 makes it possible to manage information regarding the roll 200 in more detail.

  The specified number of rolls 100 mounted on one pallet 200 varies depending on the roll diameter. For example, the prescribed number of work rolls 100a is 10, the prescribed number of first rolls 100b is four, and the prescribed number of second rolls 100c is two. The backing roll 100d has the largest roll diameter and roll length among all roll types, and the frequency of roll replacement is low. Therefore, unlike the other types of rolls, the backing roll 100d can be mounted on the pallet 200 or stored in the automatic warehouse 70. Absent.

  Hereinafter, the pallet 200 on which the roll 100 is mounted may be distinguished as “real pallet” and the pallet 200 on which the roll 100 is not mounted as “empty pallet”.

[Each work area and automatic warehouse 70]
In the off-site area 20, various members used in the roll shop work (here, the roll 100 and the pallet 200) are introduced and discarded. The out-of-field area 20 is provided with an out-of-field storage cart 21 which is a transport device that transports the pallet 200 by connecting the out-of-field area 20 and the automatic warehouse 70. The off-site entry / exit cart 21 moves between a position where the automatic warehouse 70 enters from the off-site area 20 (warehouse side) and a position where the automatic warehouse 70 leaves the off-site area 20 (unloading side). When the off-site entry / exit cart 21 is located on the unloading side, the operator manually loads and unloads the pallet 200 from / to the off-site entry / exit cart 21 by manually operating an overhead crane (not shown). When the off-site entry / exit cart 21 is located on the warehouse side, the pallet 200 is delivered between the off-site entry / exit cart 21 and the automatic warehouse 70.

  In the out-of-field area 20, a stationary tag reader 80 is installed in the vicinity of the unloading side of the off-site entry / exit cart 21. The stationary tag reader 80 is a stationary reader with a fixed position for reading information from the wireless tag. The stationary tag reader 80 installed in the out-of-field area 20 is operated from the pallet tag 16 attached to the pallet 200 mounted on the off-site entry / exit cart 21 when the off-site entry / exit cart 21 is located on the cargo handling side. Various information including a tag ID can be automatically read by wireless communication. Since the pallet tag 16 is provided at the side surface position of the base 201, the pallet tag 16 can be easily read from the side by the stationary tag reader 80.

  The polishing area 30 is a work area for polishing a new roll 100 immediately after purchase, a used old roll 100, and the like. In the polishing area 30, a first polishing machine 31 and a second polishing machine 32 that perform a polishing process on the surface of the roll 100 are installed. Each of the first polishing machine 31 and the second polishing machine 32 can perform the polishing process on only one roll 100 for each cycle of polishing operation. Close to the first polishing machine 31 and the second polishing machine 32, crane apparatuses (not shown) that can be moved up and down by manual operation are provided. The operator can install or remove the roll 100 from the first polishing machine 31 and the second polishing machine 32 by operating the crane device.

  The polishing area 30 is provided with a temporary placement space 39 in which the roll 100 and the pallet 200 are temporarily placed in a suspended state. Further, in the polishing area 30, various conveying devices such as a polishing entry / exit traverser 33, a first polishing conveyor 34, a second polishing conveyor 35, a central polishing conveyor 36, a polishing waiting lifter 37 and a polished lifter 38 are arranged. Yes.

  The polishing entry / exit traverser 33 mounts the pallet 200 between a position where the automatic warehouse 70 enters from the polishing area 30 (warehouse side) and a position where the automatic warehouse 70 exits the polishing area 30 (polishing side). Moving. The polishing entry / exit traverser 33 has a mounting portion that is configured with a turntable on which the pallet 200 is mounted and can be rotated in a horizontal plane. When the polishing entry / exit traverser 33 is located on the polishing side, the mounting portion is appropriately swung in the direction of the first polishing conveyor 34, the second polishing conveyor 35 or the central polishing conveyor 36 connected to the polishing side, and the pallet 200 Delivery of. When the polishing entry / exit traverser 33 is located on the warehouse side, the pallet 200 is delivered to and from the automatic warehouse 70.

  The first polishing conveyor 34 delivers the polishing input / output traverser 33 and the pallet 200 on the first polishing machine 31 side. The second polishing conveyor 35 delivers the polishing entry / exit traverser 33 and the pallet 200 on the second polishing machine 32 side. The central polishing conveyor 36 delivers the polishing input / output traverser 33 and the pallet 200 at an intermediate position between the first polishing machine 31 and the second polishing machine 32. The central polishing conveyor 36 has a transfer line that extends approximately at a middle position between the first polishing machine 31 and the second polishing machine 32. A polishing waiting lifter 37 and a polished lifter 38 are disposed on the terminal end side of the transport line of the central polishing conveyor 36 in order from the polishing input / output traverser 33 side.

  The polishing standby lifter 37 raises and lowers the pallet 200 between the upper position and the lower position. The polishing waiting lifter 37 delivers the central polishing conveyor 36 and the pallet 200 at the lower position. The operator can transfer the roll 100 from the actual pallet 200 at the upper position to the first polishing machine 31 and the second polishing machine 32 by crane operation.

  The polished lifter 38 moves the pallet 200 up and down between the upper position and the lower position. The polished lifter 38 transfers the polishing waiting lifter 37 and the pallet 200 at the lower position. The operator can transfer the roll 100 from the first polishing machine 31 and the second polishing machine 32 to the empty pallet 200 at the upper position by crane operation.

  Four stationary tag readers 80 are installed adjacent to the first polishing machine 31, the second polishing machine 32, the first polishing conveyor 34, and the second polishing conveyor 35, respectively. Each stationary tag reader 80 attached to each of the first polishing machine 31 and the second polishing machine 32 is configured to be capable of mounting the roll end cover 110 and is mounted on the mounted roll end cover 110. The tag ID is automatically read from the roll tag 15 by wireless communication. The stationary tag reader 80 installed on the first polishing conveyor 34 reads the tag ID from the pallet tag 16 of the pallet 200 conveyed to the first polishing conveyor 34. Similarly, the stationary tag reader 80 installed on the second polishing conveyor 35 reads the tag ID from the pallet tag 16 of the pallet 200 conveyed to the second polishing conveyor 35.

  The dull area 40 is a work area for performing dull processing on the polished roll 100. In the dull area 40, a dull processing machine 41 that performs surface treatment (shot blasting) of the polished roll 100 is disposed. The dull processing machine 41 can perform dull processing only on one roll 100 per dull operation.

  In the dull area 40, various conveying devices such as a dull supply carriage 42, a dull collection carriage 43, and a dull roll transfer machine 44 are arranged. The dull supply cart 42 and the dull collection cart 43 connect between the dull area 40 and the automatic warehouse 70, the position (the warehouse side) that entered the automatic warehouse 70 from the dull area 40, and the dull area 40 exited from the automatic warehouse 70 to the dull area 40. The pallet 200 is mounted and moved between the position (dull side). When the dull supply cart 42 and the dull collection cart 43 are respectively located on the warehouse side, the pallet 200 is transferred to and from the automatic warehouse 70. The dull roll transfer machine 44 is a robot arm that handles the rolls 100 one by one and moves them by a turning operation. The dull roll transfer machine 44 transfers the roll 100 from the pallet 200 mounted on the dull supply carriage 42 positioned on the dull side to the dull processing machine 41. Further, the dull roll transfer machine 44 transfers the roll 100 from the dull processing machine 41 to the pallet 200 mounted on the dull collection carriage 43 located on the dull side.

  The automatic warehouse 70 is configured to accommodate a plurality of pallets 200 (actual pallets and empty pallets) and to be able to load and unload the pallets 200 between each work area. Details of the automatic warehouse 70 will be described with reference to FIGS. FIG. 2 is an external perspective view of the automatic warehouse 70 as viewed obliquely from above.

  As shown in FIG. 2, the automatic warehouse 70 includes a first warehouse row 70 a, a second warehouse row 70 b, and a crane 71. Each of the first warehouse row 70a and the second warehouse row 70b is a wall-like frame-like structure, and is arranged to face each other in two rows. Each of the first warehouse row 70a and the second warehouse row 70b has a plurality of storage shelves (also referred to as stations) arranged in a matrix along the longitudinal direction (left-right direction) and the short side direction (vertical direction). It is configured. In each of the first warehouse row 70a and the second warehouse row 70b, the storage shelves are arranged in 15 rows in the longitudinal direction, and 5 rows are stacked in the short direction (vertical direction) in each row. One pallet 200 can be accommodated in one accommodation shelf. The crane 71 is configured to be able to move between the first warehouse row 70a and the second warehouse row 70b by automatic control. The crane 71 is movable to a position adjacent to an arbitrary storage shelf, and stores and takes out the pallet 200 for each storage shelf in units of one pallet.

  In the present embodiment, the first warehouse row 70a and the second warehouse row 70b are sequentially counted as one row and two rows. In each of the first warehouse row 70a and the second warehouse row 70b, the first warehouse row 70a and the second warehouse row 70b are counted as one station, two stations,. The first storage rack is disposed on the outside area 20 side. The 15th storage bin is arranged on the loading / unloading area 50 side. In each series, the first, second,..., Five stages are counted from the lower stage to the upper stage. The position (location) of each storage shelf is expressed in numbers in the order of “row-continuous-stage”. For example, the storage shelf “1-7-5” indicates the first, seventh, and fifth storage shelves.

  Each of the first warehouse row 70a and the second warehouse row 70b has a maximum of 75 storage shelves (a maximum of 150 places in the entire automatic warehouse 70). The storage shelves include a normal shelf that can actually store the pallet 200 and a prohibited shelf that cannot store the pallet 200. The prohibited shelf is a storage shelf at a position where the pallet 200 is delivered to or from the crane 71 when another transport device enters. Specifically, the storage shelf “2-1-1” into which the off-site entry / exit cart 21 enters and exits, and the storage shelves “1-5-1” and “1-5-2” into which the polishing entry / exit traverser 33 enters and exits. The five shelves are a storage shelf “1-11-1” into which the dull supply cart 42 enters and exits and a storage shelf “1-12-1” into which the dull collection cart 43 enters and exits. There are a maximum of 145 normal shelves.

  As shown in FIG. 1, the loading / unloading area 50 is a relay area provided adjacent to the terminal position (15th station) of the automatic warehouse 70. The loading / unloading area 50 relays the pallet 200 that is unloaded from the automatic warehouse 70 and supplied to the rolling area 60 and the pallet 200 that is collected from the rolling area 60 and loaded into the automatic warehouse 70. In the loading / unloading area 50, a loading conveyor 51 and a loading conveyor 52, which are transfer devices, are arranged. The delivery conveyor 51 conveys the pallet 200 received from the automatic warehouse 70 to the main traverser 90 one way. The warehousing conveyor 52 conveys the pallet 200 received from the main traverser 90 to the automatic warehouse 70 one way.

  The main traverser 90 connects the loading / unloading area 50 and the rolling area 60. Since the main traverser 90 has two buffers (a supply unit 91 and a collection unit 92) on which pallets 200 can be mounted one by one, a maximum of two pallets 200 can be transported simultaneously. The supply unit 91 and the collection unit 92 are arranged side by side along the moving direction of the main traverser 90. The supply unit 91 is disposed closer to the rolling area 60 than the collection unit 92.

  In the rolling area 60 shown in FIG. 1, the workpiece is rolled.

  The rolling area 60 is provided with a ZM rolling mill 2 and a change cart (changer) 69 for exchanging the roll 100 used in the ZM rolling mill 2. The operator uses the changer 69 to perform roll replacement by pulling out or inserting the rolls 100 one by one through a roll replacement opening (not shown) formed in the ZM rolling mill 2. As shown in operation Y5 of FIG. 24, the changer 69 includes a supply side upper stage 69a, a supply side lower stage 69b, a collection side 69c and a reuse part 69d, which are roll holding bases, and a built-in part 69e, which is a roll conveyance base. Composed. The reuse unit 69 d is a roll holding base for temporarily placing the used old roll 100 for reuse in the ZM rolling mill 2. The built-in part 69e is a roll conveyance base that can move in a direction (front-rear direction with respect to the ZM rolling mill 2) inserted into and removed from the roll replacement opening of the ZM rolling mill 2. The built-in portion 69e is connected to each roll holding base so as to be able to deliver the roll 100, and the roll 100 is mounted and moved forward to insert the roll 100 into the ZM rolling mill 2, and the roll 100 The roll 100 is withdrawn from the ZM rolling mill 2 by moving backward. The changer 69 is provided with a plurality of sensors that detect the mounting position of the roll 100 and transmit the detected position to the ZM process controller 4.

  The rolling area 60 is further provided with a ZM supply area 61 for supplying the new roll 100 to the changer 69 and a ZM recovery area 62 for recovering the old roll 100 from the changer 69 as work areas.

  In the ZM supply area 61, various stock equipment such as an actual stock conveyor 63, two delivery lifters 64a and 64b, and a roll supply traverser 65 are arranged.

  The upper stage position 63a, the middle stage position 63b, and the lower stage position 63c of the actual stock conveyor 63 are configured to accommodate the pallets 200 one by one. The actual stock conveyor 63 conveys the pallet 200 in the front-rear direction between the front position and the rear position at each of the upper position 63a, the middle position 63b, and the lower position 63c.

  A delivery lifter 64 a that can be moved up and down is provided adjacent to the main traverser 90 at a position behind the actual stock conveyor 63. The delivery lifter 64 a delivers the pallet 200 between each stage of the actual stock conveyor 63 at the rear position and the supply unit 91 of the main traverser 90.

  A transfer lifter 64 b that can be moved up and down is provided adjacent to the roll supply traverser 65 at a position in front of the actual stock conveyor 63. The delivery lifter 64b delivers the pallet 200 between each stage of the actual stock conveyor 63 at the front position and the roll supply traverser 65 at the reverse position.

  The roll supply traverser 65 moves with the pallet 200 mounted between a reverse position adjacent to the delivery lifter 64 b and an advanced position adjacent to the changer 69. The roll supply traverser 65 has an accommodating portion for the pallet 200 at the upper position 65a and the lower position 65b, and can transport a maximum of two pallets 200 simultaneously. When the roll supply traverser 65 is in the forward position, the operator can connect the roll supply traverser 65 to the changer 69. The upper position 65 a of the roll supply traverser 65 is connected to the supply-side upper stage 69 a of the changer 69. The lower stage position 65 b of the roll supply traverser 65 is connected to the supply side lower stage 69 b of the changer 69.

  In the ZM collection area 62, various conveying devices such as an empty stock conveyor 66, two delivery lifters 67a and 67b, and a roll collection traverser 68 are disposed.

  The upper stage position 66a, the middle stage position 66b, and the lower stage position 66c of the empty stock conveyor 66 are configured to accommodate the pallets 200 one by one. The empty stock conveyor 66 conveys the pallet 200 in the front-rear direction between the front position and the rear position at the upper stage position 66a, the middle stage position 66b, and the lower stage position 66c.

  A delivery lifter 67 a that can be raised and lowered is provided adjacent to the main traverser 90 at a position behind the empty stock conveyor 66. The delivery lifter 67 a delivers the pallet 200 between each stage of the empty stock conveyor 66 at the rear position and the collection unit 92 of the main traverser 90.

  A delivery lifter 67 b that can be raised and lowered is provided adjacent to the roll recovery traverser 68 at a position in front of the empty stock conveyor 66. The delivery lifter 67b delivers the pallet 200 between each stage of the empty stock conveyor 66 at the forward position and the roll recovery traverser 68 at the reverse movement position.

  The roll collection traverser 68 moves with the pallet 200 mounted between a reverse position adjacent to the delivery lifter 67 b and an advanced position adjacent to the changer 69. The roll collection traverser 68 has only a one-stage storage section that can store one pallet 200. When the roll recovery traverser 68 is in the forward position, the operator can connect the roll recovery traverser 68 to the changer 69. The collection side 69 c of the changer 69 is connected to the roll collection traverser 68.

  When an operator transfers the new roll 100 from the roll supply traverser 65 to the changer 69, the roll supply traverser 65 and the changer 69 need to be connected. When an operator transfers the old roll 100 from the changer 69 to the roll collection traverser 68, the roll collection traverser 68 and the changer 69 need to be connected.

[System configuration of roll shop management system 1]
Next, the overall configuration of the roll shop management system that manages the roll shop P will be described with reference to FIG. FIG. 7 is a system configuration diagram schematically showing the overall configuration of the roll shop management system 1.

  As shown in FIG. 7, the roll shop management system 1 includes an external storage device (RAID: redundant arrays of inexpensive disks) 300, a ZM process controller 4, a plurality of PCs (personal computers) 5, a first computer. Polishing machine 31, second polishing machine 32, dull processing machine 41, dull roll transfer machine 44, crane control panel 78, peripheral control panel 79, multiple stationary tag readers 80, multiple wireless HT (handy terminal) 6 and measuring instrument 85 and the like constitute a system configuration in which a plurality of HUB devices 89, a wireless AP (access point) 7, a receiver 87, and a transmitter 86 are connected to the management server 3 by wired communication or wireless communication.

  The roll shop management system 1 includes each roll processing device (first polishing machine 31, second polishing machine 32, and dull machine) in addition to the management function of various information about the roll shop P (including information about the roll 100 and the pallet 200). Functions such as a processing instruction to the processing machine 41), supply and recovery of the roll 100 to and from the rolling area 60, and operation control of each conveying device are realized.

  The management server 3 is a main server that controls the entire roll shop management system 1. The management server 3 includes a central processing unit (CPU), a read only memory (ROM), a random access memory (RAM), and various input / output devices. The management server 3 transmits commands and various information to various devices connected by wired communication or wireless communication, executes operation control, and receives various information from various devices connected by wired communication or wireless communication. To do. The management server 3 performs centralized management (specifically, input / output of various data, search, setting, and the like) on the basis of the received information. Information about the roll shop P is stored in the external storage device 300 as a management database (DB). The management server 3 controls various processes related to the roll shop work based on the information stored in the external storage device 300. In this embodiment, the management server 3 is installed in a place (for example, a computer room) different from the roll shop P and is electrically and physically protected. The operator directly operates the management server 3 using a management PC (not shown) provided in the vicinity of the management server 3.

  The ZM pro-con 4 is a controller that controls the operation of the ZM rolling mill 2 and is provided in the ZM rolling mill 2 in the rolling area 60. The ZM process controller 4 transmits and receives various types of information to and from the management server 3. For example, the ZM process control 4 receives information regarding the roll 100 used in the ZM rolling mill 2 during the rolling operation from the management server 3. Further, when the rolling operation is completed, the ZM pro-con 4 transmits rolling data (roll rolling results) regarding the roll 100 used in the ZM rolling mill 2 to the management server 3.

  The plurality of PCs 5 are client terminals for an operator to input various instructions to the management server 3 and to output various types of information received from the management server 3. The CPU, ROM, RAM, display And a general-purpose personal computer having a keyboard and a printer. In the present embodiment, one PC 5 is installed for each work area of the roll shop P. The plurality of PCs 5 are located in the out-of-field area PC 5a installed in the out-of-field area 20, the polishing area PC 5b, the polishing area PC 5c, and the dull area 40 installed corresponding to the first polishing machine 31 and the second polishing machine 32 in the polishing area 30, respectively. The dull area PC5d installed and the rolling area PC5e installed in the rolling area 60 consist of a total of five units.

  The first polishing machine 31, the second polishing machine 32, and the dull processing machine 41 are configured to be able to send and receive various types of information to and from the management server 3, and execute each processing according to instructions from the management server 3. To do. For example, the first polishing machine 31 and the second polishing machine 32 execute a polishing process when receiving a polishing command from the management server 3, and when the polishing process ends, information (roll polishing results) about the polished roll 100 is managed by the management server 3. Send to. The dull processing machine 41 executes a dull processing process when receiving a dull command from the management server 3, and transmits information (dull processing result) about the dulled roll 100 to the management server 3 when the dull processing process ends.

  The crane control panel 78 and the peripheral control panel 79 are programmable logic controllers (PLCs) for controlling various transport devices installed in the roll shop P, and are installed in the automatic warehouse 70 for management. Various types of information can be transmitted to and received from the server 3.

  The crane control panel 78 includes a crane 71 of the automatic warehouse 70, an off-site entry / exit cart 21, a polishing entry / exit traverser 33, a first polishing conveyor 34, a second polishing conveyor 35, a central polishing conveyor 36, a dull supply cart 42, and a dull collection cart. 43 and the dull roll transfer machine 44 are controlled, and each conveyance operation is executed in accordance with a command from the management server 3. For example, when the crane control panel 78 receives a work instruction from the management server 3, the crane control panel 78 causes the transport device to be controlled to execute the transport process. 3 to send. The status information includes position information of each transport device, operation status, and pallet 200 enrollment information.

  The dull roll transfer machine 44 is connected to the crane control panel 78 via a dedicated network, and transmits / receives information to / from the management server 3 via the crane control panel 78. The dull roll transfer machine 44 and the dull processing machine 41 are configured to contact each other, and when one of them is operating, the other is stopped so that a malfunction is prevented (so-called interlock).

  The peripheral control panel 79 controls the delivery devices of the delivery conveyor 51, the entry conveyor 52, the actual stock conveyor 63, the empty stock conveyor 66, and the main traverser 90, and executes each conveyance operation according to a command from the management server 3. . For example, when the peripheral control panel 79 receives a work instruction from the management server 3, the peripheral control panel 79 causes the transport device to be controlled to execute the transport process, and when the transport process is completed, information on the current state (status information) along with a work completion response 3 to send. The status information includes position information of each transport device, operation status, and pallet 200 enrollment information.

  The plurality of wireless HTs 6 read and / or write various information with respect to the wireless tag by wireless communication. The wireless HT 6 is a small and lightweight terminal device that can be carried by an operator. One wireless HT 6 is installed in each of the out-of-field area 20, the polishing area 30, the dull area 40, and the rolling area 60 where work is performed directly by an operator. The wireless HT 6 can wirelessly communicate with the wireless AP 7 that is appropriately arranged in the roll shop P. Each wireless AP 7 is wired to the management server 3 via the HUB device 89. Each wireless HT 6 can transmit / receive various information to / from the management server 3 via any wireless AP 7. Further, the wireless HT 6 has a display for displaying various information.

  The wireless HT 6 has a tag reading processing function for reading the tag ID of the roll 100 and transmitting the tag ID to the management server 3. In the work area, a wireless tag (action tag 17) that stores a command to be transmitted to the management server 3 is appropriately installed. The wireless HT 6 has a command reception processing function for reading the command of the action tag 17 and transmitting the command to the management server 3. The wireless HT 6 has a function of reading the printed barcode information and transmitting the barcode information to the management server 3. The wireless HT 6 has a function of receiving information from the management server 3 and displaying it.

  In each work area of the roll shop P, an action tag 17 to which a command is added is attached corresponding to the work (manual work) directly performed by the worker manually. The action tag 17 is a card-type wireless tag similar to the pallet tag 16, and a unique tag ID is stored in each wireless tag. The external storage device 300 stores the tag ID of each action tag 17 in association with the command written on the action tag 17. For example, when the operator reads the “Purchase Role” action tag 17 on the wireless HT 6, the management server 3 automatically performs “Purchase Role” even if the “Role Purchase” command is not directly input on the wireless HT 6. It is determined that a command has been input. In the out-of-field area 20, action tags 17 of “roll purchase”, “entry setting (out-of-field)”, and “roll discard” are attached. In the polishing area 20, an action tag 17 of “roll movement (TO polished lifter)” is attached. In the rolling area 60, action tags 17 of “roll movement before rolling use” and “rolling used roll movement” are added.

  The polishing area 30 is provided with a wireless micrometer composed of a measuring instrument 85, a transmitter 86 and a receiver 87. The measuring device 85 is a small micrometer for an operator to actually measure the roll diameter. The transmitter 86 is a small wireless transmitter that is integrally attached to the measuring device 85. The receiver 87 is a wireless receiver that is wired to the management server 3 via the HUB device 89 and performs wireless communication with the transmitter 86 in the VHS band. The measuring device 85 is placed in the vicinity of the first polishing machine 31 and the second polishing machine 32 in the polishing area 30, and when the operator measures the roll diameter of the polished roll 100 with the measuring device 85, roll diameter information thereof is obtained. Is automatically transmitted from the transmitter 86 to the receiver 87, and the roll diameter information received by the receiver 87 is transmitted to the management server 3.

  A plurality of stationary tag readers 80 are installed in the off-site area 20 and four in the polishing area 30. Each stationary tag reader 80 is wired to the management server 3 via the HUB device 89, and the tag ID of the roll tag 15 and the tag ID of the pallet tag 16 read by each stationary tag reader 80 are automatically managed by the management server. 3 is transmitted. The stationary tag reader 80 installed in the out-of-field area 20 is operated from the pallet tag 16 attached to the pallet 200 mounted on the off-site entry / exit cart 21 when the off-site entry / exit cart 21 is located on the cargo handling side. The tag ID is read and the tag ID is transmitted to the management server 3. Each stationary tag reader 80 attached to each of the first polishing machine 31 and the second polishing machine 32 automatically reads the tag ID from the roll tag 15 of the roll 100 by wireless communication, and sends the tag ID to the management server 3. Send. Each stationary tag reader 80 attached to each of the first polishing conveyor 34 and the second polishing conveyor 35 automatically reads the tag ID from the pallet tag 16 of the pallet 200 by wireless communication, and uses the tag ID for the management server 3. Send to.

  Among a plurality of types of rolls 100, the work roll 100a that is rolled in direct contact with the strip has a very high roll replacement frequency compared to other types of rolls, and the number of rolls introduced into the roll shop P is also different. Much more than rolls. In the following description, the flow of managing various information related to the work roll 100a by the management server 3 and the flow from when the work roll 100a is introduced to the roll shop P until it is discarded will be mainly described. Hereinafter, when the term “roll 100” is simply referred to without limiting the role type, the work role 100a is generally indicated.

  The management DB constructed in the external storage device 300 includes the warehouse management DB 310 shown in the data configuration diagram of FIG. 8, the pallet management DB 330 shown in the data configuration diagram of FIG. 9, and the data configuration diagram of FIG. A role management DB 350 is included.

  As shown in FIG. 8, the warehouse management DB 310 is a database for managing a plurality of storage shelves provided in the automatic warehouse 70. The warehouse management DB 310 is composed of a plurality of records. Each record of the warehouse management DB 310 has a location 311, a shelf state 312, a reservation state 313, a prohibited state 314, and a pallet No. 315 as data items. The location 311 is data indicating the position of the storage rack in the automatic warehouse 70 in the form of “column-continuous-stage”, and serves as a key for uniquely identifying the storage rack corresponding to each record. The shelf state 312 is data indicating whether or not the pallet 200 is stored in the storage shelf indicated by the location 311. The reservation state 313 is data indicating whether an entry reservation or an exit reservation for the pallet 200 is made for the storage shelf indicated by the location 311. The prohibited state 314 is data indicating whether the storage shelf indicated by the location 311 is a prohibited shelf or a normal shelf. The pallet No. 315 is an identification number unique to the pallet 200 accommodated in the accommodation shelf indicated by the location 311.

  As shown in FIG. 9, the pallet management DB 330 is a database for managing the pallet 200 introduced into the roll shop P. The palette management DB 330 is composed of a plurality of records. Each record of the pallet management DB 330 includes pallet No. 331, pallet tag ID 332, pallet category 333, pallet status 334, pallet type 335, use prohibition category 336, enrollment position 337, roll diameter category 338, number of rolls 339, and roll No. 340. It consists of items. There may be more or less data items.

  The pallet No. 331 is an identification number unique to the pallet 200 like the pallet No. 315, and serves as a key for uniquely identifying the pallet 200 corresponding to each record. The pallet tag ID 332 is unique ID information stored in the pallet tag 16 that is associated (linked) in the data with the pallet 200 indicated by the pallet No. 331. The pallet classification 333 is data indicating the type of the roll 100 suitable for mounting on the pallet 200 indicated by the pallet No. 331. The pallet state 334 is data indicating a current progress state in the roll shop operation of the pallet 200 indicated by the pallet No. 331. The pallet type 335 is data indicating whether or not the roll 100 is mounted on the pallet 200 indicated by the pallet No. 331. The use prohibition category 336 is data indicating whether or not the pallet 200 indicated by the pallet No. 331 can be used or reserved for use. The enrollment position 337 is data indicating the current position of the pallet 200 indicated by the pallet No. 331. The roll diameter section 338 is data indicating to which of the sections according to a predetermined roll diameter the plurality of rolls 100 mounted on the pallet 200 indicated by the pallet No. 331. The number of rolls 339 is data indicating the number of rolls 100 mounted on the pallet 200 indicated by pallet No. 331. The roll No. 340 is an identification number unique to each roll 100 mounted on the pallet 200 indicated by the pallet No. 331. Along with the mounting position on the pallet 200, the identification number of each roll 100 is the tenth maximum in order from the first. Is set up.

  As shown in FIG. 10, the role management DB 350 is a database for managing the role 100 introduced into the roll shop P. The role management DB 350 is composed of a plurality of records. Each record of the roll management DB 350 includes a roll No 351, a roll tag ID 352, a roll classification 353, a roll diameter classification 354, a registered position 355, a roll processing state 356, a roll management state 357, a pallet No 358, a pallet position 359, rolling-related information 360, Each data item includes polishing-related information 361 and dull-related information 362. There may be more or less data items.

  The roll No. 351 is an identification number unique to the roll 100 as with the roll No. 340, and serves as a key for uniquely identifying the roll 100 corresponding to each record. The roll tag ID 352 is unique ID information stored in the roll tag 15 that is associated (linked) in the data with the roll 100 indicated by the roll No. 340. The roll classification 353 is data indicating the type of the roll 100 indicated by the roll No. 340. The roll diameter section 354 is data indicating the roll diameter section to which the roll 100 indicated by the roll No. 340 belongs as in the roll diameter section 338. The enrollment position 355 is data indicating the current position of the roll 100 indicated by roll No. 340. Roll processing state 356 is data indicating the current processing state of roll 100 indicated by roll No. 340. The role management state 357 is data indicating the current progress state in the roll shop operation of the roll 100 indicated by the roll No. 340. The pallet No. 358 is an identification number unique to the pallet 200 on which the roll 100 indicated by the roll No. 340 is mounted similarly to the pallet No. 331. The in-pallet position 359 is data indicating at which position in the pallet 200 the roll 100 indicated by the roll No. 340 is mounted. The rolling related information 360 is various information (such as roll rolling results) regarding the roll 100 indicated by the roll No. 340 used in the ZM rolling mill 2. The polishing related information 361 is various information (such as roll polishing results) regarding the roll 100 indicated by the roll No. 340 used in the first polishing machine 31 and the second polishing machine 32. The dull-related information 362 is various types of information (for example, dull processing results) regarding the roll 100 indicated by the roll No. 340 used in the dull processing machine 41.

  The external storage device 300 stores position data (tracking information) of the roll 100 and the pallet 200. The tracking information is updated according to the status information output from each facility device to the management server 3. The management server 3 tracks (tracks) the detailed current positions of the roll 100 and the pallet 200 based on the tracking information.

[Operation control of roll shop management system]
Below, the operation control performed in the roll shop management system 1 (especially management server 3) demonstrated above is demonstrated with reference to FIGS. FIG. 11 is a flowchart showing the flow of roll shop work. FIG. 12 is a diagram illustrating the flow of operation V executed in the roll introduction process. FIG. 13 is a diagram illustrating the flow of operation V following FIG. FIG. 14 is a flowchart showing the “new warehousing process”. FIG. 15 is a flowchart showing the “introduction role setting process”. FIG. 16 is a diagram illustrating a flow of the operation W executed in the roll polishing process. FIG. 17 is a diagram illustrating the flow of the operation W following FIG. FIG. 18 is a flowchart showing the “polishing automatic loading / unloading process”. FIG. 19 is a flowchart showing the “polishing execution process”. FIG. 20 is a flowchart showing the “roll movement process”. FIG. 21 is a diagram illustrating a flow of operation X executed in the dull machining process. FIG. 22 is a flowchart showing the “dull automatic loading / unloading process”. FIG. 23 is a flowchart showing “dull processing execution processing”. FIG. 24 is a diagram illustrating the flow of operation Y executed in the roll exchange process. FIG. 25 is a diagram illustrating the flow of operation Y following FIG. FIG. 26 is a diagram illustrating the flow of operation Y following FIG. FIG. 27 is a flowchart showing the rolling automatic loading / unloading process. FIG. 28 is a flowchart showing the “roll movement process before rolling use”. FIG. 29 is a flowchart showing the “rolling used roll moving process”. FIG. 30 is a diagram illustrating a flow of operation Z executed in the roll discarding process. FIG. 31 is a flowchart showing the discarding and unloading process.

  First, with reference to FIG. 11, the outline | summary of the operation control performed in the roll shop management system 1 is demonstrated. As shown in FIG. 11, the roll shop work of the present embodiment is mainly expressed as five work processes (process T) including a roll introduction process, a roll polishing process, a dull processing process, a roll replacement process, and a roll discarding process. Each work process is executed under the operation control of the roll shop management system 1.

  The flow of the roll shop work of this embodiment will be described. First, the roll 100 is introduced into the roll shop P in the roll introduction process (process T1). Next, a polishing process is performed on the roll surface of the roll 100 using the first polishing machine 31 and the second polishing machine 32 in the roll polishing step (process T2). Next, as necessary, the dull processing is performed on the roll surface of the roll 100 that has been polished by the dull processing machine 41 in the dull processing step (process T3). Next, in the roll exchange step (process T4), the used old roll 100 incorporated in the ZM rolling mill 2 is replaced with a new roll (new roll) 100 that has been polished or dulled. Next, the old roll 100 exchanged from the ZM rolling mill 2 is reused after being subjected to polishing again in the roll polishing step (process T2), or in the roll disposal step (process T5). Discarded from P.

  Hereinafter, a series of operations (denoted as operations V, W, X, Y, and Z) executed by workers and various devices for operation control of each work process (processes T1 to T5) in the roll shop management system 1 are described. And a series of internal processes (indicated as S) executed by the management server 3 (specifically, the CPU) will be described in comparison. Moreover, in this embodiment, the case where ten rolls 100 (roll No. “AB340” to “AB349”) are applied to the roll shop work is exemplified, and the roll 100 is discarded after being introduced into the roll shop P. A series of steps up to this point will be described specifically.

  In the role management DB 350, information on the newly purchased role 100 is stored in advance as a record. Here, 10 records in which roll Nos. 351 “AB340” to “AB349” are respectively set corresponding to the 10 new rolls 100 are stored in the role management DB 350. The role classification 353 of each record is set to “WR”. The roll diameter section 354 is set to “A”. The enrollment position 355 is set to “off-site”. The roll processing state 356 is set to “purchase”. The role management state 357 is set to “Purchasing work in progress”. Other data items are blank.

  The pallet management DB 330 stores four records in which four pallet Nos. 331 “W001” to “W004” are set, and pallet tag IDs 332 “90001” to “90004” are set in each record. . The pallet classification 333 of each record is set to “WR”. The palette type 335 is set to “empty palette”. The use prohibition category 336 is set to “usable”. The number of rolls 339 is set to “0”. The pallet state 334 of the pallet 200 whose pallet No. 331 is “W001” is set to “inventory (outside)”, and the registered position 337 is set to “outside”. The pallet states 334 of the pallets 200 “W002” to “W003” are set to “inventory (automatic warehouse)”, and the registered position 337 is set to “inside warehouse”. Other data items are blank.

[Roll introduction process]
With reference to FIGS. 12-15, the operation control of the roll introduction process (process T1) in the roll shop management system 1 is demonstrated. In the roll introduction process of this embodiment, a case where new rolls 100 “AB340” to “AB349” are mounted on the pallet 200 “W001” and carried into the automatic warehouse 70 from the off-site area 20 is illustrated.

  First, with reference to FIG.12 and FIG.13, a series of operation | movement (operation V (V1-V20)) which an operator and various apparatuses perform focusing on the out-of-field area 20 in a roll introduction process is demonstrated.

  First, as shown in FIG. 12, the worker prints the purchase roll list LA on the PC 5 (for example, the off-site area PC 5a) (V1). More specifically, upon receiving a purchase roll list print instruction from the PC 5, the management server 3 refers to the role management DB 350, and a list of role Nos. 351 in the role management state 357 “Purchasing work” (purchasing role list) LA) is created, and the purchase roll list LA is printed on the PC 5 side. In the purchased roll list LA, each roll No. is registered together with the roll No. (here, “AB340” to “AB349”) stamped on the new roll (introduction waiting roll) 100 introduced into the roll shop P in the roll introduction process. Bar code information corresponding to is displayed.

  Next, the operator prepares a roll end cover 110 to be attached to the introduction waiting roll 100 (V2). Two roll end covers 110 are prepared for one roll 100. The roll tag 15 is accommodated only in one roll end cover 110 of the two roll end covers.

  Next, the worker reads the action tag 17 written as “roll purchase” installed in the off-site area 20 with the wireless HT 6 (V3). The wireless HT 6 automatically transmits the read “roll purchase” command to the management server 3.

  Next, the worker confirms the roll number stamped on the introduction waiting roll 100, and reads the barcode information corresponding to the roll number in the purchase roll list LA with the wireless HT 6 (V4). The wireless HT 6 automatically transmits a roll number corresponding to the read barcode information to the management server 3.

  Next, the worker attaches roll end covers 110 to both end portions of the introduction waiting roll 100 (V5).

  Next, an operator reads tag ID of the roll tag 15 accommodated in the attached roll end cover 110 (V6). The wireless HT 6 automatically transmits the read tag ID to the management server 3. When the management server 3 receives the “role purchase” command, the role number, and the tag ID, the management server 3 updates the role management DB 350. Specifically, the received tag ID is set in the roll tag ID 352 corresponding to the received roll No. 351, and the roll management information 357 is updated from “Purchasing work” to “Waiting for initial polishing”.

  The worker repeatedly executes operations V4 to V6 for all the introduction waiting rolls 100 (V7).

  Next, the worker loads the introduction waiting roll 100 on the pallet 200 (here, pallet No. “W001”) (V8). On the pallet 200, 10 introduction waiting rolls 100 are arranged side by side. The roll 100 is loaded so that the roll tag 15 is positioned on the DS surface side of the pallet 200.

  Next, as shown in FIG. 13, the worker loads the pallet 200 on which the introduction waiting roll 100 is mounted on the off-site entry / exit cart 21 using an overhead crane disposed in the off-site area 20 (V9). ).

  When the pallet 200 is loaded on the off-site entry / exit cart 21, the stationary tag reader 80 automatically reads the pallet tag 16 attached to the pallet 200 (V10).

  When the out-of-field entry / exit cart 21 is not “conveying”, the out-of-field entry / exit cart 21 is controlled to the “entry mode” or the “exit mode”. In the “entry mode”, the off-site entry / exit cart 21 is located on the cargo handling side, and the pallet 200 can be transported to the warehouse side. In the “exit mode”, the off-site entry / exit cart 21 is located on the warehouse side, and the pallet 200 can be conveyed to the unloading side. In the roll introduction process, it is necessary to be in “receipt mode”. When the off-site entry / exit cart 21 is in the “exit mode”, the operator needs to switch to the “entry mode”. An operation panel 28 is provided in the out-of-field area 20, and when an operator presses the storage PBL on the operation panel 28, the out-of-field storage truck 21 moves from the warehouse side to the unloading side and is switched to the “entry mode”. .

  Next, the operator reads the action tag 17 described as “entrance setting (outside)” on the wireless HT 6 (V11).

  When the action tag 17 of “entry setting (outside)” is read, a roll list screen Q1 is displayed on the wireless HT 6 (V12). On the roll list screen Q1, the pallet No. of the pallet 200 on the off-site entry / exit cart 21 is displayed, and a registration column for the introduction target roll is provided.

  Next, the operator reads the roll tags 15 of the introduction waiting roll 100 mounted on the pallet 200 by the wireless HT 6 one by one in accordance with a predetermined tag reading order (V13). In the pallet 200, the roll positions are determined in ascending order from the left end position on the DS surface side to the right side. In other words, the first, second,... The operator reads the roll tag 15 of the introduction waiting roll 100 with the roll position order as the tag reading order.

  Each time the operator reads the roll tag 15 with the wireless HT 6, a roll detail screen Q 2 showing detailed information of the introduction waiting roll 100 linked to the roll tag 15 is displayed on the wireless HT 6 (V 14). When the operator inputs “ENTER” on the roll detail screen Q2, the roll number and roll position of the roll 100 are added to the roll list screen Q1.

  When the operator sequentially reads the roll tags 15 up to the tenth, ten introduction waiting rolls 100 are registered in the roll list screen Q1 by repeating the operations V13 to V14 (V15).

  Next, when the operator inputs “ENTER” on the role list screen Q1, a registration confirmation screen Q3 is displayed on the wireless HT 6 (V16). When the operator inputs “ENTER” on the registration confirmation screen Q3, the registration is completed.

  When the registration of the introduction waiting roll 100 is completed, the completed PBL provided in the off-site area 20 blinks. The operator presses the blinking completion PBL (V17).

  When the completion PBL is pressed, the off-site entry / exit cart 21 moves from the unloading side to the warehouse side (V18).

  The crane 71 unloads the pallet 200 on the off-site entry / exit cart 21 that has arrived at the automatic warehouse 70 (V19).

  The crane 71 transports and stores the unloaded pallet 200 to an empty storage shelf (V20).

  As described above, the rolls 100 “AB340” to “AB349” are sequentially loaded on the pallet 200 “W001” and then received from the off-site area 20 into the automatic warehouse 70, so that the introduction into the roll shop P is realized.

  In addition, although operation V1-V7 demonstrated the case where the introduction waiting roll 100 and the roll tag 15 were linked | related, the operation | work which links | relates the introduction waiting pallet 200 and the pallet tag 16 is performed similarly.

  Next, referring to FIG. 14 and FIG. 15, as a series of internal processes executed by the management server 3 in the roll introduction process (process T <b> 1), a “new receipt” for receiving the introduction waiting roll 100 from the off-site area 20. “Process” and “Installation roll setting process” for mounting the introduction waiting roll 100 on the pallet 200 will be described.

  Assuming that the “new warehousing process” is executed, it is assumed that the introduction waiting roll 100 and the roll tag 15 are linked by operations V1 to V7. In the present embodiment, the introduction waiting rolls 100 with the roll numbers “AB340” to “AB349” are sequentially linked to the roll tags 15 with the tag IDs “10000” to “10009”. Further, the pallet 200 with the pallet No. “W001” is linked to the pallet tag 16 with the tag ID “90001”.

  In the “new warehousing process” shown in FIG. 14, it is first determined whether or not the off-site entry / exit cart 21 is in the “entry mode” based on information from the crane control panel 78 connected to the operation panel 28 ( S101).

  When the off-site entry / exit cart 21 is in the “entry mode” (S101: YES), it is determined whether or not the pallet 200 is present on the off-site entry / exit cart 21 (S103). A sensor (not shown) for detecting the presence of the pallet is provided in the off-site entry / exit cart 21, and a detection signal of the sensor is input to the crane control panel 78. Therefore, when the worker loads the pallet 200 on the off-site entry / exit cart 21 (V9), the management server 3 changes the pallet presence from “OFF” to “ON” based on the information from the crane control panel 78. Can be specified.

  When the out-of-field entry / exit cart 21 is not in “entry mode” but is “conveying” or “exit mode” (S101: NO), or when the pallet 200 is not present on the off-site entry / exit cart 21 ( S103: NO) returns to step S101.

  When the pallet 200 is present on the off-site entry / exit cart 21 (S103: YES), the pallet tag 16 attached to the pallet (introduction waiting pallet) 200 is read by the stationary tag reader 80 in the off-site area 20. (S105), the stationary tag reader 80 reads the pallet tag 16 (V10).

  When the tag ID is normally read from the pallet tag 16, the pallet No. corresponding to the read tag ID is acquired with reference to the pallet management DB 330 (S107). For example, if the tag ID read from the stationary tag reader 80 is “90001”, the pallet No. 331 “W001” corresponding to the pallet tag ID 332 “90001” is acquired from the pallet management DB 330.

  Next, the “warehousing allocation process” is performed in which the automatic warehouse 70 makes a warehousing reservation for a storage shelf that can store the pallet 200 (S109). In the “warehousing allocation process”, the management server 3 uses the warehouse management DB 310 to store the storage rack locations 311 corresponding to all of the shelf state 312 “empty shelf”, the reservation state 313 “unallocated”, and the prohibited state 314 “normal shelf”. Search for. The management server 3 updates the storage shelf at any location 311 hit by the search to the reservation state 313 “reservation reservation” and sets the introduction waiting palette 200 in the palette No 315. For example, the reservation state 313 of the storage shelf whose location 311 is “1-1-1” is updated to “reservation reservation”, and “W001” is set to pallet No. 315.

  Next, the management server 3 determines whether a predetermined “entry setting completion condition” is satisfied (S111).

  When the predetermined “entry setting completion condition” is satisfied, the management server 3 executes “introduction role setting process” to be described later shown in FIG. 15 (S113).

  Next, the management server 3 issues a completion instruction request to the crane control panel 78 (S115). When the completion instruction request is issued, the crane control panel 78 blinks the completed PBL provided in the out-of-field area 20 so that the introduction waiting pallet 200 introduction waiting roll 100 can be received and conveyed to the worker. Is notified.

  The worker presses the completed PBL blinking at an arbitrary timing (V17), and the crane control panel 78 issues a completion notification to the management server 3. The management server 3 determines whether a completion notice has been issued from the crane control panel 78 (S117).

  If there is no completion notification (S117: NO), the process returns to step S117 and enters a waiting state.

  When a completion notification is issued from the crane control panel 78 (S117: YES), the management server 3 issues a control instruction for the off-site entry / exit cart 21 to the crane control panel 78 (S119). When a control instruction for the off-site entry / exit cart 21 is issued from the management server 3, the crane control panel 78 controls the off-site entry / exit cart 21 to convey the introduction waiting pallet 200 from the unloading side to the warehouse side. When the management server 3 issues a control instruction for various transport devices to the crane control panel 78 or the peripheral control panel 79, the pallet state 334 of the pallet 200 to be transported is updated to “transporting”. Hereinafter, the same applies to other loading / unloading processes.

  The management server 3 will issue the control instruction | indication of the crane 71 with respect to the crane control panel 78, if the conveyance operation completion signal of the field entry / exit cart 21 is received from the crane control panel 78 (S121). When the control instruction for the crane 71 is issued, the crane control panel 78 controls the crane 71 to store the introduction waiting pallet 200 mounted on the off-site entry / exit cart 21 in the storage shelf reserved for entry.

  Finally, various DBs are updated as a new “entry completion setting” (S123). Specifically, in the “warehouse completion setting”, in the warehouse management DB 310, the shelf state 312 of the storage shelf record in which the introduced pallet 200 is stored is updated to “actual shelf”, and the reservation state 313 is “unallocated”. The pallet No. of the introduced pallet 200 stored in the storage shelf is set as the pallet No. 315. Further, in the pallet management DB 330, the pallet state 334 of the record of the introduced pallet 200 is updated to “inventory (automatic warehouse)”, and the registered position 337 is updated to “inside warehouse”. Further, in the roll management DB 350, the registered position 355 of the record of each introduced roll 100 is updated to “in warehouse”, and the roll processing state 356 is updated to “acceptance waiting”. For example, in the warehouse management DB 310, the record of the storage shelf “1-1-1” in which the introduced pallet 200 is stored is stored in the shelf state 312 “actual shelf”, the reservation state 313 “unallocated”, and the pallet No. 315 “W001”. Updated. In the pallet management DB 330, the record of the introduced pallet 200 “W001” is updated to the pallet state 334 “inventory (automatic warehouse)” and the registered position 337 “inside warehouse”. In the role management DB 350, the records of the introduced rolls 100 “AB340” to “AB349” are updated to the enrollment position 355 “in the warehouse” and the roll processing state 356 “inspection waiting”, respectively.

  In the “new warehousing process”, the introduction waiting pallet 200 is automatically transported by simply loading the introduction waiting pallet 200 with the introduction waiting roll 100 mounted on the off-site entry / exit cart 21 and pressing the completion PBL. The goods are stored in the automatic warehouse 70 from the outside area 20. Therefore, the introduction waiting roll 100 can be quickly and accurately introduced into the roll shop P while reducing the burden on the operator in the roll introduction process as much as possible.

  The “introduction role setting process” shown in FIG. 15 is started when an “entry setting (outside)” command is received (S131). That is, when the worker reads the action tag 17 indicated as “entrance setting (outside)” on the wireless HT 6 (V11), the management server 3 determines that the “entry setting (outside)” command is received, and The process is executed.

  When the “receipt setting (outside)” command is accepted, the introduction target role list Q1 in which the roll number is not input is displayed on the wireless HT 6 (S133, V12).

  Next, it is determined whether or not the tag ID of the roll tag 15 has been received (S135).

  When the operator reads the roll tag 15 with the wireless HT 6 (V13) and the roll tag ID is received (S135: YES), it is determined whether or not the “pallet mounting condition” is satisfied (S137). The “pallet mounting condition” is a condition for mounting the introduction waiting roll (mounting target roll) 100 on the introduction waiting pallet 200. The “pallet mounting condition” is determined with reference to each management DB, tracking information, and the like. Specifically, in the “pallet loading condition”, there is a space (empty) in which the loading target roll 100 can be loaded on the introduction waiting pallet 200, the loading target roll 100 exists in the off-site area 20, and , The mounting target roll 100 is equal to the other rolls 100 mounted on the introduction waiting pallet 200, and the like.

  If the roll section 353, the roll diameter section 354, and the roll processing state 356 of the mounting target roll 100 are the same as those of the other rolls 100 mounted on the introduction waiting pallet 200, it is determined that they are equal. It should be noted that other conditions may be included in the determination of the equality of the roll 100. Whether the mounting target roll 100 is equal to the other rolls 100 on the introduction waiting pallet 200 is determined based on the first roll 100 mounted on the pallet 200, and the mounting target roll 100 is the first one. This judgment is not made when it corresponds to. By setting the mounting target roll 100 equal to the other mounted rolls 100 as “pallet mounting conditions”, it is possible to mount only a plurality of substantially uniform introduction waiting rolls 100 on the introduction waiting pallet 200.

  When the “pallet mounting condition” is not satisfied (S137: NO), the management server 3 causes the wireless HT 6 to output an error (S139).

  When the “pallet mounting condition” is satisfied (S137: YES), the management server 3 acquires the detailed information of the mounting target roll 100 from the role management DB 350, transmits the detailed information to the wireless HT6, and the role details indicating the detailed information to the wireless HT6 The screen Q2 (V14) is displayed (S141).

  When the operator inputs “ENTER” on the role details screen Q2, the installation target role 100 shown on the role details screen Q2 is added to the introduction target role registration field on the role list screen Q1 (S143).

  Next, it is determined whether or not the total number of introduced introduction target rolls 100 is 10 or more (S145).

  If the total number of introduction target rolls 100 is less than 10 (S145: NO), the process returns to step S131. The wireless HT 6 displays a role list screen Q1 on which less than 10 introduction target roles added by the worker are displayed.

  If the total number of added introduction target roles is 10 or more (S145: YES), a registration confirmation is displayed on the wireless HT6 (S147). When the worker reads the roll tag 15 of the 10 introduction waiting rolls 100 and adds the introduction waiting roll 100 as an introduction target role to the roll list screen Q1, a registration confirmation screen Q3 is displayed on the wireless HT 6 (V15 to V16). .

  Next, when the operator inputs “ENTER” on the registration confirmation screen Q3, data registration to the pallet management DB 330 and the role management DB 350 is executed, and the plurality of introduction waiting rolls 100 and the introduction waiting pallets 200 are linked. At the same time, the wireless HT 6 outputs a message indicating that “entry setting (outside)” has been completed, and ends the “introduction role setting process” (S149). For example, in the pallet management DB 330, the pallet type 335 “actual pallet”, the number of rolls 339 “10”, and the roll No. 340 “first: AB340” to “10th: AB349” are set for the introduction waiting palette 200 “W001”. . In the roll management DB 350, pallet No. 358 “W001” and pallet positions 359 “1” to “10” are set for the introduction waiting rolls 100 “AB340” to “AB349”, respectively.

  In the “introduction roll setting process”, the operator simply reads the roll tags 15 of the rolls 100 mounted on the pallet 200 on the off-site entry / exit cart 21 with the wireless HT 6 in order, and the data of the introduction waiting pallet 200 and the introduction waiting roll 100. The above association is realized. After the “introduced roll setting process”, the management server 3 can manage which roll 100 is mounted on the pallet 200 and which pallet 200 each roll 100 is mounted on. .

  When the operator inputs “ENTER” on the role list screen Q1, the registration confirmation screen Q3 is displayed even if the total number of introduction target roles added by the worker is less than 10 (S147), and the number of roles is Registration execution (S149) is possible even in the fractional state. When the operator inputs “CANCEL” on the role list screen Q1 and the registration confirmation screen Q3, the “introduced role setting process” ends without performing registration execution (S149). When the operator inputs “ENTER” on the role detail screen Q2, the roll list screen Q1 is displayed by returning to step S133 without adding the introduction target role (S143).

[Roll polishing process]
With reference to FIGS. 16-20, the operation control of the roll grinding | polishing process (process T2) in the roll shop management system 1 is demonstrated. In the roll introduction process of the present embodiment, the inspection waiting rolls 100 “AB340” to “AB349” mounted on the pallet 200 “W001” are subjected to a polishing process using the first polishing machine 31. Illustrate.

  First, with reference to FIGS. 16 and 17, a series of operations (operation W) performed by an operator and various devices centering on the polishing area 30 in the roll polishing step will be described.

  In the roll polishing step, each transfer device provided in the polishing area 30 is not “in transfer”, the polishing entry / exit traverser 33 is positioned on the warehouse side, the polishing waiting lifter 37 is positioned on the lower position 37a, and the polishing is performed. The equipment state in which the finished lifter 38 is located at the lower position 38a is defined as an initial state. In the initial state, it is assumed that the first polishing machine 31 is in an unused state, and neither the roll 100 nor the pallet 200 exists in any of the first polishing machine 31 and each transport device (W1).

  In the roll polishing process, the management server 3 refers to the roll management DB 350 to create a polishing waiting roll list. The polishing waiting roll list is a list of rolls (polishing waiting rolls) 100 corresponding to the records of the enrollment position 355 “in the warehouse” and the roll management state 357 “polishing wait” (including the initial polishing wait). In the roll polishing step, the polishing standby roll 100 is supplied to the polishing area 30 in the order of registration in the polishing standby roll list.

  When executing the neck polishing process, the management server 3 refers to the roll management DB 350 to create a neck polishing waiting roll list. The neck polishing waiting roll list is a list of rolls (neck polishing waiting rolls) 100 corresponding to the records of the registered position 355 “in warehouse” and the roll management state 357 “neck polishing waiting”.

  In the initial state (W1), in the automatic warehouse 70, a pallet (polishing standby pallet) on which the crane 71 is mounted with the polishing standby roll 100 (here, roll Nos. “AB340” to “AB349”) registered in the polishing standby roll list. 200 (here, pallet No. “W001”) is transported from the storage shelf to the polishing entry / exit traverser 33. When the polishing waiting pallet 200 is loaded on the polishing input / output traverser 33, the polishing input / output traverser 33 moves from the warehouse side toward the polishing side. When the polishing input / output traverser 33 arrives at the polishing side, the polishing input / output traverser 33 delivers the polishing waiting pallet 200 onto the central polishing conveyor 36. The central polishing conveyor 36 delivers the polishing standby pallet 200 to the lower position 37 a of the polishing standby lifter 37. The polishing standby lifter 37 raises the polishing standby pallet 200 placed at the lower stage position 37a to the upper stage position 37b (W2).

  Next, in the automatic warehouse 70, the crane 71 transports the empty pallet 200 (here, pallet No. “W002”) from the storage shelf to the polishing entry / exit traverser 33. The polishing entry / exit traverser 33 and the central polishing conveyor 36 convey the empty pallet 200 to the lower position 37 a of the polishing waiting lifter 37. The polishing standby lifter 37 delivers the empty pallet 200 from the lower position 37a to the lower position 38a of the polished lifter 38. The polished lifter 38 raises the empty pallet 200 placed at the lower stage position 38a to the upper stage position 38b (W3).

  Next, the operator transfers one polishing waiting roll 100 from the polishing waiting pallet 200 on the polishing waiting lifter 37 to the first polishing machine 31 by crane operation. The operator removes the roll end cover 110 from the polishing waiting roll 100 to be transferred and places it on the stationary tag reader 80 provided in the first polishing machine 31. The stationary tag reader 80 automatically reads the tag ID from the roll tag 15 of the placed roll end cover 110 (W4).

  In the case of neck polishing, if the roll 100 corresponding to the tag ID read by the stationary tag reader 80 is the neck polishing waiting roll 100, it is notified that the roll end cover 110 may need to be replaced. The lamp lights up.

  After the polishing waiting roll 100 is installed in the first polishing machine 31, the operator presses the polishing execution PBL provided in the polishing area 30 (W5).

  When the polishing execution PBL is pressed, the first polishing machine 31 executes one cycle of polishing processing on the roll surface of the polishing waiting roll 100 (W6).

  When the polishing process is completed, the operator measures the roll diameter of the roll (polished roll) 100 that has been subjected to the polishing process by the first polishing machine 31 using the measuring device 85 (W7).

  When the roll diameter measurement is completed, the operator attaches the roll end cover 110 on the stationary tag reader 80 to the polished roll 100 again (W8). Since the roll tag 15 is housed in a roll end cover 110 that is removable from the roll 100, even if the roll shop operation includes a process that requires the roll end cover 110 to be removed and processed as in the polishing process. Information on the roll 100 can be managed by attaching and detaching the roll end cover 110 before and after the process. By installing a stationary tag reader 80 on which the roll end cover 110 can be placed in the polishing area 30, the operator can remove the roll end cover 110 and read the roll tag 15 at a time, thus simplifying the work. Is done.

  In the case of neck polishing, the diameter of the neck 102 is measured. Since the roll end cover 110 is formed according to the diameter of the neck 102, the management server 3 turns on a lamp that instructs the operator to replace the roll end cover 110 according to the diameter of the neck 102.

  Next, the operator reads the action tag 17 labeled “roll movement (TO polished lifter)” with the wireless HT 6 (W 9), and then reads the roll tag 15 of the roll end cover 110 with the wireless HT 6.

  Next, the polished roll 100 is transferred from the first polishing machine 31 to the empty pallet 200 on the polished lifter 38 by the operator's crane operation (W10). When the polished roll 100 is transferred to the empty pallet 200 on the polished lifter 38, the polished roll 100 is left-aligned when viewed from the DS surface side of the empty pallet 200 (that is, in a predetermined roll position order). It is mounted on the pallet 200 without a gap. The operator repeatedly executes operations W4 to W10 one by one for all the polishing waiting rolls 100 mounted on the polishing waiting pallet 200.

  When the polishing waiting pallet 200 on the polishing waiting lifter 37 becomes empty (that is, when the empty pallet 200 is generated) (W11), the polishing waiting completion PBL provided in the polishing area 30 blinks.

  The operator presses the blinking polishing waiting completion PBL at an arbitrary timing (W12).

  When the polishing standby completion PBL is pressed, the polishing standby lifter 37 lowers the empty pallet 200 placed at the upper stage position 37b to the lower stage position 37a. The polishing waiting lifter 37 delivers the empty pallet 200 from the lower position 37 a to the central polishing conveyor 36. The central polishing conveyor 36 delivers the empty pallet 200 onto the polishing loading / unloading traverser 33. When the empty pallet 200 is loaded on the polishing loading / unloading traverser 33, the polishing loading / unloading traverser 33 moves from the polishing side toward the warehouse side. When the polishing entry / exit traverser 33 arrives at the warehouse side, the crane 71 unloads the empty pallet 200 and stores it in the storage shelf (W13).

  When the empty pallet 200 on the polished lifter 38 is fully loaded with the polished roll 100 (that is, when the polished pallet 200 on which ten polished rolls 100 are mounted is generated) (W14), the polishing provided in the polishing area 30 is performed. Completed PBL flashes.

  The operator presses the blinked polished PBL at an arbitrary timing (W15).

  When the polished completion PBL is pressed, the polished lifter 38 lowers the polished pallet 200 placed at the upper position 38b to the lower position 38a. The polished lifter 38 delivers the polished pallet 200 from the lower position 38 a to the lower position 37 a of the polishing waiting lifter 37. As with the empty pallet 200, the polishing wait lifter 37, the central polishing conveyor 36, and the polishing entry / exit traverser 33 transport the polished pallet 200 to the automatic warehouse 70, and the crane 71 unloads and stores the polished pallet 200. Store on the shelf (W16).

  Thus, the rolls 100 “AB340” to “AB349” mounted on the pallet 200 “W001” are supplied from the automatic warehouse 70 to the polishing area 30, and the roll 100 is subjected to the polishing process by the first polishing machine 31. Later, it is mounted on the pallet 200 “W002” and collected from the polishing area 30 to the automatic warehouse 70.

  Next, referring to FIG. 18 to FIG. 20, as a series of internal processes executed by the management server 3 in the roll polishing step (process T <b> 2), the supply of the polishing waiting roll 100 to the polishing area 30 and the polishing roll 100. “Automatic grinding / removal processing” for automatically performing collection, “polishing execution processing” for performing polishing processing on the polishing waiting roll 100, and the polished roll 100 mounted on a pallet 200 different from that before polishing The “roll movement process” for performing this will be described.

  In “polishing automatic loading / unloading processing” shown in FIG. 18, whether or not the condition for unloading the polishing waiting pallet 200 to the polishing waiting lifter 37 (“polishing waiting pallet shipping condition”) is satisfied is determined in each management DB and tracking information. Etc. with reference to (S201). Specifically, the “polishing waiting pallet delivery conditions” satisfy that the polishing waiting pallet 200 exists in the automatic warehouse 70 and that the pallet 200 is not present in the polishing waiting lifter 37. Is determined. For example, in the initial state (W1), the “polishing waiting pallet delivery condition” is satisfied (S201: YES).

  When the “polishing waiting pallet delivery condition” is satisfied (S201: YES), “polishing waiting lifter delivery processing” for automatically delivering the polishing waiting pallet 200 to the polishing wait lifter 37 is executed (S203). In the “polishing wait lifter delivery process”, first, the “delivery allocation process” of the polishing wait pallet 200 is executed. For example, in the management server 3, a polishing waiting pallet 200 (that is, pallet No “W001”) loaded with a polishing waiting roll 100 (here, roll numbers “AB340” to “AB349”) to be delivered is a roll. It is specified with reference to the management DB 350. Next, the reservation state 313 of the storage shelf in which the polishing waiting pallet 200 is stored in the warehouse management DB 310 is updated to “shipping reservation”, and the pallet state 334 of the polishing waiting pallet 200 in the pallet management DB 330 is “ Updated to “Allowed to issue”. When the “delivery allocation process” for the polishing waiting pallet 200 is completed, control instructions for the crane 71, the polishing entry / exit traverser 33, the central polishing conveyor 36, and the polishing waiting lifter 37 are sequentially issued to the crane control panel 78. In accordance with the issued control instruction, the respective conveying devices work together to convey the polishing waiting pallet 200 (here, pallet No. “W001”) in the automatic warehouse 70 to the upper position 37b of the polishing waiting lifter 37 (W2). .

  When the “polishing waiting pallet delivery condition” is not satisfied (S201: NO), whether or not the condition for the empty pallet 200 to be delivered to the polished lifter 38 (“empty pallet delivery condition”) is satisfied is shown in each management DB and tracking. The determination is made with reference to information or the like (S205). Specifically, it is determined whether the empty pallet 200 is present in the automatic warehouse 70 and the pallet 200 is not present in the polished lifter 38 as the “empty pallet delivery condition”. Is done. For example, after execution of the operation W2, the “empty pallet delivery condition” is satisfied (S205: YES).

  When the “empty pallet delivery condition” is satisfied (S205: YES), “polished lifter delivery process” for automatically delivering the empty pallet 200 to the polished lifter 38 is executed (S207). In the “polished lifter delivery process”, first, “empty allocation process” for the empty pallet 200 is executed. Specifically, in the management server 3, an empty pallet 200 (here, pallet No. “W002”) that can be delivered in the warehouse management DB 310 is a shelf state 312 “real shelf” and a reservation state 313 “unallocated”. Searched using as a key. Next, the reservation state 313 of the storage shelf storing the searched empty pallet 200 is updated to “reservation of delivery”, and the pallet state 334 of the empty pallet 200 is set to “reservation of delivery” in the pallet management DB 330. Updated. When the “shipment allocation process” for the empty pallet 200 is completed, the control instructions for the crane 71, the polishing entry / exit traverser 33, the central polishing conveyor 36, the polishing waiting lifter 37 and the polished lifter 38 are sequentially given to the crane control panel 78. publish. In accordance with the issued control instruction, the respective conveying devices work together to convey the empty pallet 200 (in this case, pallet No. “W002”) in the automatic warehouse 70 to the upper position 38b of the polished lifter 38 (W3).

  If the “empty pallet delivery condition” is not satisfied (S205: NO), whether or not the condition for receiving the empty pallet 200 from the polishing wait lifter 37 (“empty pallet entry condition”) is satisfied is determined in each management DB and tracking information. Etc. with reference to the above (S209). Specifically, as “empty pallet warehousing conditions”, the empty pallet 200 is present on the polishing wait lifter 37, and there is an empty space in the automatic warehouse 70 that can accommodate the pallet 200. It is determined whether or not For example, when the worker repeats the work of transferring the polishing standby rolls 100 “AB340” to “AB349” from the polishing standby lifter 37 to the first polishing machine 31 and the polishing standby pallet 200 “W001” becomes empty, “will be described later”. The number of rolls of the pallet 200 is set to “0” by the “roll movement process” (FIG. 20), and the “empty pallet warehousing condition” is satisfied (W4, W11) (S209: YES).

  When the “empty pallet warehousing condition” is satisfied (S209: YES), “polishing wait lifter warehousing process” for automatically warehousing the empty pallet 200 from the polishing wait lifter 37 is executed (S211). In the “polishing wait lifter warehousing process”, first, “a warehousing provision process” for the empty pallet 200 is executed. Specifically, in the management server 3, as in the above-described “reservation process for warehousing” (S109), the warehousing reservation of the empty pallet 200 (in this case, pallet No. “W001”) with respect to the empty storage shelf of the automatic warehouse 70. Is made. When the “entry allocation process” for the empty pallet 200 is completed, a completion instruction request is issued to the crane control panel 78. When the completion instruction request is issued, the crane control panel 78 blinks the polishing waiting completion PBL provided in the polishing area 30 to notify the operator that the empty pallet 200 can be stored and conveyed. When the operator presses down the polishing waiting completion PBL, control instructions for the polishing waiting lifter 37, the central polishing conveyor 36, the polishing entry / exit traverser 33, and the crane 71 are sequentially issued to the crane control panel 78. In accordance with the issued control instruction, the respective transport devices are linked to transport the empty pallet 200 seated at the upper position 37b of the polishing wait lifter 37 to the automatic warehouse 70 and store it in the storage shelf reserved for storage (W12). 13). When the “polishing wait lifter warehousing process” is completed, “warehouse completion setting” is executed, and various DBs are updated.

  Next, when the “empty pallet warehousing condition” is not satisfied (S209: NO), whether or not the condition (“polished pallet warehousing condition”) for receiving the polished pallet 200 from the polished lifter 38 is satisfied is determined. The determination is made with reference to the management DB, tracking information, etc. (S213). Specifically, as “polished pallet warehousing conditions”, the actual pallet 200 fully loaded with the polished roll 100 is present on the polished lifter 38, and the pallet 200 can be accommodated in the automatic warehouse 70. It is determined whether there is sufficient free space. For example, when the operator repeats the operation of transferring the polished rolls 100 “AB340” to “AB349” from the first polishing machine 31 to the polished lifter 38 and the empty pallet 200 “W002” is fully loaded, The number of rolls of the pallet 200 is set to “10” by the “movement process” (FIG. 20), and the “polished pallet warehousing condition” is satisfied (W10, W14) (S213: YES).

  If the “polished pallet entry condition” is not satisfied (S213: NO), the process returns to step S201.

  When the “polished pallet warehousing condition” is satisfied (S213: YES), “polished lifter warehousing process” for automatically grooving the polished pallet 200 from the ground lifter 38 is executed (S215). In the “polished lifter warehousing process”, first, “a warehousing provision process” for the ground pallet 200 is executed. Specifically, the management server 3 receives the polished pallet 200 (in this case, pallet No. “W002”) with respect to the empty storage shelf of the automatic warehouse 70, as in the above-described “reservation process” (S109). A reservation is made. When the “warehousing allocation process” for the polished pallet 200 is completed, a completion instruction request is issued to the crane control panel 78. When the completion instruction request is issued, the crane control panel 78 blinks the polished completion PBL provided in the polishing area 30 to notify the operator that the pallet 200 can be moved in and out. . When the operator presses down the polished completion PBL, control instructions for the polished lifter 38, the polishing waiting lifter 37, the central polishing conveyor 36, the polishing entry / exit traverser 33, and the crane 71 are sequentially issued to the crane control panel 78. The In accordance with the issued control instruction, the respective conveying devices are linked to convey the polished pallet 200 seated at the upper position 38b of the polished lifter 38 to the automatic warehouse 70 and store it in the storage shelf reserved for warehousing ( W15, W16). When the “polished lifter warehousing process” is completed, “warehouse completion setting” is executed, and various DBs are updated.

  An operator arbitrarily sets a roll supply pattern in which the roll 100 is automatically supplied to the rolling area 60 in advance by the PC 5 (for example, the polishing area PC 5b). The roll supply pattern is stored in the external storage device 300. The roll supply pattern is set to, for example, “smooth only”, “dull only”, and “alternate”. When the roll supply pattern is “smooth only”, the “smooth” roll 100 subjected to only the polishing process is automatically supplied to the rolling area 60. When the roll supply pattern is “dull only”, the “dull” roll 100 that has been subjected to the polishing process and the dull processing process is automatically supplied to the rolling area 60. When the roll supply pattern is set to “alternate”, the polished roll 100 without dulling and the polished roll 100 with dulling are alternately supplied to the rolling area 60.

  The roll management DB 350 of the polished roll 100 for which the “polished lifter warehousing process” has been completed is updated according to the roll supply pattern. Specifically, when the roll supply pattern is set to “smooth only”, the roll management state 357 is updated from “first polished (polished)” described later to “rolling wait”. When the roll supply pattern is set to “dull only”, the roll management state 357 is updated from “initial polished (polished)” described later to “dull waiting”. When the roll supply pattern is set to “alternate”, “dull wait” and “rolling wait” are alternately set in the roll management state 357.

  In this way, in the “polishing automatic loading / unloading process”, the supply of the polishing pallet 200 to the polishing lifter 37 and the recovery of the empty pallet 200, the supply of the empty pallet 200 to the polished lifter 38 and the recovery of the polished pallet 200 are performed. However, it is almost automatically operated. Therefore, it is possible to save labor and time for the operator to unload the polishing waiting roll 100 or to receive the polishing roll 100, and to supply the polishing waiting roll 100 and collect the polishing roll 100 in the roll polishing process quickly and accurately. It can be carried out.

  The “polishing execution process” shown in FIG. 19 is triggered by the fact that the tag ID read by the stationary tag reader 80 provided in each of the first polishing machine 31 and the second polishing machine 32 is received by the management server 3. The process is started (S231). Specifically, when the operator transfers the polishing waiting roll 100 to the first polishing machine 31 or the second polishing machine 32, the stationary tag reader 80 provided alongside the first polishing machine 31 or the second polishing machine 32. The roll end cover 110 removed from the roll 100 is placed on the top (W4). The stationary tag reader 80 automatically reads the tag ID from the roll tag 15 accommodated in the placed roll end cover 110 and transmits it to the management server 3. When the management server 3 accepts reading of the tag ID, the following processing is executed.

  First, the “polishing roll recognition process” for specifying the polishing waiting roll 100 installed in the first polishing machine 31 or the second polishing machine 32 is executed (S233). Specifically, with reference to roll management DB 350, polishing waiting roll 100 corresponding to the tag ID received in step S231 is specified. In the neck polishing process, the neck polishing waiting roll 100 is specified.

  Next, a “polishing machine recognition process” for specifying the polishing machine on which the polishing waiting roll 100 is installed is executed (S235). More specifically, the management server 3 identifies the first polishing machine 31 or the second polishing machine 32 in which the polishing waiting roll 100 is installed based on the identification ID of the stationary tag reader 80 that has read the tag ID. . For example, when the roll end cover 110 equipped with the roll tag 15 with the tag ID “10000” is placed on the stationary tag reader 80 provided in the first polishing machine 31, the polishing waiting roll is determined from the identification ID of the stationary tag reader 80. 100 is specified in the first polishing machine 31, and the roll number “AB340” of the polishing standby roll 100 is specified with reference to the roll management DB 350.

  Next, various data are updated in the roll management DB 350 as a pre-process for performing the polishing process on the polishing waiting roll 100 (S237). Specifically, for the movement source pallet 200 “W001”, the roll number 339 is decremented by “1” (here, “9”), “AB340” is deleted from the roll No. 340, and the roll position of the other roll 100 is updated. ("1st: AB341" to "9th: AB349"). The enrollment position 355 of the polishing waiting roll 100 is updated to “other”, and the roll management state 357 is updated from “initial polishing standby (polishing standby)” to “during initial polishing (polishing)”.

  Next, a roll polishing control instruction that is a program for executing and controlling the polishing process by the first polishing machine 31 is created, and the roll polishing control instruction is issued to the first polishing machine 31 (S239). . In step S239, an optimum program (roll polishing control) corresponding to each polishing waiting roll 100 is determined according to the detailed information of the polishing waiting roll 100 set in the roll management DB 350, the polishing content previously set by the operator, and the like. Instructions) are automatically created and issued. Since the roll polishing control instruction is issued after the tag ID is read by the stationary tag reader 80, it is possible to prevent an operator from mistakenly removing the roll end cover 110.

  When the roll polishing control instruction is issued, in the polishing area 30, the first polishing machine 31 blinks the polishing execution PBL to notify the operator that one cycle of polishing processing can be executed. When the operator depresses the polishing execution PBL at an arbitrary timing, the first polishing machine 31 executes one cycle of polishing processing on the roll surface of the polishing standby roll 100 based on the roll polishing control instruction (W5 to W6). . When the polishing process for one cycle is completed, the polishing execution PBL blinks again. Therefore, the operator can perform the polishing process for a plurality of cycles on one roll 100 by pressing the polishing execution PBL (repolishing). When the polishing process on the roll 100 is completed, the first polishing machine 31 issues the record data (roll polishing record) of the polishing process on the roll 100 to the management server 3.

  In the management server 3, when the roll polishing result issued from the first polishing machine 31 is received (S241: YES), the roll polishing result is set as “polishing result information” in the polishing related information 361 of the roll management DB 350 or the like. .

  Next, when the management server 3 receives the roll polishing result issued from the first polishing machine 31, it determines whether or not the roll diameter measurement with the wireless micrometer has been completed (S243). If the roll diameter is reduced by performing polishing on the roll 100, the roll diameter section 354 of the roll 100 registered in the roll management DB 350 may have to be changed from that before polishing. Management is required. Since the polishing amount scheduled in the roll polishing control instruction of the management server 3 and the actual polishing amount in the first polishing machine 31 may not always match, the actual roll diameter is measured. When the polishing process is completed, the operator measures the roll diameter of the polished roll 100 with the measuring instrument 85 so as to satisfy the specified number of times (W7). In the case of the work roll 100a, the roll diameter is measured at three points. The measuring device 85 automatically transmits the measured roll diameter data to the management server 3. When the management server 3 receives the roll diameter data measured by the measuring device 85 for the specified number of times, the management server 3 determines that the roll diameter measurement with the wireless micrometer is completed.

  If the roll diameter measurement has been completed (S243: YES), the management server 3 gives priority to the roll polishing data issued by the first polishing machine 31 and uses the roll diameter data measured by the measuring instrument 85 as “ It is adopted as “roll diameter information” (S245).

  When the roll diameter measurement is not performed by the measuring device 85, or when the roll diameter measurement data received from the measuring device 85 is abnormal (S243: NO), the roll polishing issued by the first polishing machine 31 is performed. The actual roll diameter data is adopted as “roll diameter information” (S247).

  The management server 3 determines whether or not the roll diameter classification of the ground roll 100 needs to be changed based on the “roll diameter information”. If the roll diameter classification needs to be changed, the management server 3 sets the roll diameter classification 354 that is optimal for the current roll diameter in the roll management DB 350 (S249).

  In this way, in the “polishing execution process” (FIG. 19), the operator simply installs the polishing standby roll 100 in the first polishing machine 31 and presses the cycle start PBL, so that the optimum polishing standby roll 100 is achieved. While the polishing process is executed, the management server 3 automatically records information related to the polishing process. Therefore, it is possible to save the trouble of the operator instructing the contents of polishing and inputting information related to the polishing process, and the polishing process for the roll 100 can be performed quickly and accurately.

  The “roll moving process” shown in FIG. 20 is started when the “roll moving (TO polished lifter)” command is received (S251). That is, when the operator reads the action tag 17 labeled “roll movement (TO polished lifter)” on the wireless HT 6 (W9), the management server 3 receives a “roll movement (TO polished lifter)” command. And the following processing is executed.

  First, before the polished roll 100 is moved from the first polishing machine 31 to the polished lifter 38, the status of the polished lifter 38 to which the roll is moved is checked (S253). Specifically, referring to the pallet management DB 330 and the tracking information, the pallet 200 is present on the polished lifter 38 and there is an empty space in which the polished roll 100 can be placed on the pallet 200. In this case, it is determined that there is no problem in the destination situation. If there is a problem in the destination situation, the management server 3 causes the wireless HT 6 to output an error.

  If there is no problem in the destination situation, the pallet management DB 330 is referred to, and the detailed information of the pallet 200 (here, pallet No “W002”) present on the polished lifter 38 serving as the roll destination is wireless HT6. Is displayed (S255).

  Next, the management server 3 determines whether or not a tag ID has been accepted (S257). The operator confirms the state of the pallet 200 that is the roll movement destination with the wireless HT 6 and then starts the operation of transferring the polished roll 100 from the first polishing machine 31 to the polished lifter 38 (W10). When the operator transfers the polished roll 100 and reads the roll tag 15 of the roll end cover 110 with the wireless HT 6, the management server 3 determines that the tag ID is received. Here, in step S257, the tag ID “10000” corresponding to the polished roll 100 “AB340” is received.

  If the tag ID is not received (S257: NO), the process returns to step S257 and enters a waiting state.

  When the tag ID is received (S257: YES), the condition (““ the transfer destination pallet) 200 on the polished lifter 38 is transferred to the polished roll (moving target roll) 100 corresponding to the tag ID (“ Whether or not the “pallet movement condition” is satisfied is determined with reference to each management DB, tracking information, and the like (S259). Specifically, as the “pallet movement condition”, it is determined with reference to the roll management DB 350 that the movement target roll 100 is equivalent to the other rolls 100 already mounted on the movement destination pallet 200. Whether the movement target roll 100 is equal to the other rolls 100 on the movement destination pallet 200 is determined based on the first roll 100 mounted on the pallet 200, and the movement target roll 100 is the first roll 100. If this is the case, this judgment is not made. By setting the movement target roll 100 equal to the other loaded rolls 100 as a “pallet movement condition”, only a plurality of almost uniform polished rolls 100 can be loaded on the movement destination pallet 200.

  When the “pallet movement condition” is not satisfied (S259: NO), the management server 3 causes the wireless HT 6 to output an error (S261).

  When the “pallet movement condition” is satisfied (S259: YES), the detailed information of the movement target roll 100 is displayed on the wireless HT 6 with reference to the role management DB 350 (S263).

  When the worker confirms the detailed information of the movement target roll 100 on the wireless HT 6 and instructs movement execution, various DBs are updated as movement execution settings (S265). For example, in the roll management DB 350, for the movement target roll 100 “AB340”, the roll processing state 356 is updated to “polished”, the pallet No. 358 is updated to “W002”, and the roll management state 357 is set to “initial polishing (polishing) Middle) ”to“ initial polished (polished) ”, and the position 359 in the pallet is updated in accordance with the roll position (here,“ 1 ”) on the pallet 200“ W002 ”. In the pallet management DB 330, for the destination pallet 200 “W002”, the roll number 339 is incremented by “1”, and the roll No. 340 “AB340” is set according to the roll position (here, “1”).

  In this way, after the operator reads the roll tag ID 15 from the polishing waiting roll 100 with the wireless HT 6 in the “polishing execution process” (FIG. 19), the worker moves with the wireless HT 6 in the “roll moving process” (FIG. 20). By reading the roll tag 15 from the polished roll 100, the association of the roll 100 is updated from the movement source pallet (polishing standby pallet) 200 to the movement destination pallet (empty pallet) 200. Therefore, even if the pallet 200 on which the roll 100 is mounted changes before and after the polishing process, the operator does not need to update the association between the roll 100 and the pallet 200 each time, and the first polishing is performed. The transfer work of the roll 100 with respect to the machine 31 can be performed quickly and accurately.

[Dull processing process]
With reference to FIGS. 21 to 23, operation control of the dull processing step (process T3) in the roll shop management system 1 will be described. In the dull processing step of the present embodiment, the polished rolls 100 “AB340” to “AB349” mounted on the pallet 200 “W002” are subjected to dull processing on the roll surface using the dull processing machine 41. Is illustrated.

  First, with reference to FIG. 21, a series of operations (operation X) performed by an operator and various devices around the dull area 40 in the dull processing step will be described. In the dull processing step, the equipment state in which the respective transport devices provided in the dull area 40 are not “in transit” and the dull supply cart 42 and the dull collection cart 43 are located on the warehouse side is set as an initial state. In the initial state, it is assumed that the dull processing machine 41 is in an unused state, and neither the roll 100 nor the pallet 200 exists in any of the dull processing machine 41 and each conveying device (X1).

  In the dull processing step, the management server 3 refers to the roll management DB 350 and displays a list of rolls (dull wait rolls) 100 corresponding to the records of the enrollment position 355 “in the warehouse” and the roll management state 357 “dull wait roll”. A dull waiting roll list is created. In the dull processing step, the dull waiting rolls 100 are sequentially supplied to the dull area 40 based on the order of registration in the dull waiting roll list.

  In an initial state, the crane 71 of the automatic warehouse 70 has a pallet (dull waiting pallet) 200 (here, a dull waiting pallet) 200 mounted with a dull waiting roll 100 (here, roll numbers “AB340” to “AB349”) registered in the dull waiting roll list. Then, pallet No. “W002”) is transported from the storage shelf to the dull supply carriage 42. When the dull waiting pallet 200 is loaded on the dull supply carriage 42, the dull supply carriage 42 moves from the warehouse side to the dull side (X2).

  Next, the crane 71 conveys the empty pallet 200 (here, pallet No. “W003”) from the storage shelf to the dull collection carriage 43. When the empty pallet 200 is loaded on the dull collection carriage 43, the dull collection carriage 43 moves from the warehouse side to the dull side (X3).

  The dull roll transfer machine 44 in the dull area 40 unloads one dull waiting roll 100 from the dull waiting pallet 200 on the dull supply carriage 42 (X4). The dull roll transfer machine 44 unloads the dull waiting rolls 100 in order from the right side (the tenth roll position) of the dull waiting pallet 200 on the DS surface.

  The dull roll transfer machine 44 conveys the dull waiting roll 100 by a turning operation and installs it on the dull processing machine 41 (X5).

  When the dull waiting roll 100 is supplied to the dull processing machine 41, the dull processing machine 41 performs shot blasting on the roll 100 to perform dull processing on the roll surface (X6).

  When the dull processing is completed in the dull processing machine 41, the dull roll transfer machine 44 unloads the dulled roll 100 from the dull processing machine 41, conveys the dulled roll 100 by a turning operation, and empties the pallet on the dull recovery cart 43. 200 is loaded (X7). The dull roll transfer machine 44 loads the dull roll 100 in order from the DS surface left side (first roll position) of the empty pallet 200.

  The dull processing machine 41 and the dull roll transfer machine 44 repeatedly execute operations X4 to X7 one by one for all the dull waiting rolls 100 mounted on the dull waiting pallet 200.

  When all the dull waiting rolls 100 mounted on the dull waiting pallet 200 are unloaded, the dull waiting pallet 200 on the dull supply carriage 42 becomes empty (the empty pallet 200 is generated) (X8).

  When the empty pallet 200 is generated on the dull supply carriage 42, the dull supply carriage 42 moves from the dull side to the warehouse side. The crane 71 of the automatic warehouse 70 unloads the empty pallet 200 from the dull supply carriage 42 that has arrived at the warehouse and stores it in the storage shelf (X9).

  When the dulled roll 100 is fully loaded on the empty pallet 200 on the dull collecting carriage 43, the dulled pallet 200 on which ten dulled rolls 100 are mounted is generated (X10).

  When the dulled pallet 200 is generated, the dull collecting carriage 43 moves from the dull side to the warehouse side. The crane 71 unloads the pallet pallet 200 from the dal collection carriage 43 that has arrived at the warehouse side and stores it in the storage shelf (X11).

  As described above, the rolls 100 “AB340” to “AB349” mounted on the pallet 200 “W002” are supplied from the automatic warehouse 70 to the dull area 40, and the roll 100 is subjected to the dull processing by the dull processing machine 41. The rolls 100 “AB349” to “AB340” are mounted on the pallet 200 “W003” and collected from the dull area 40 to the automatic warehouse 70.

  Since the dull roll transfer machine 44 sequentially loads from the DS surface right side (10th position) of the pallet 200 “W002”, it loads in order from the DS surface left side (1st position) of the pallet 200 “W003”. At 200 “W002” and “W003”, the loading order of the rolls 100 “AB349” to “AB340” is reversed.

  Next, referring to FIG. 22 and FIG. 23, as a series of internal processes executed by the management server 3 in the dull processing step, the supply of the dull waiting roll 100 to the dull area 40 and the collection of the dulled roll 100 are automatically operated. The “dull automatic loading / unloading process” and “dull processing execution process” for performing the dull processing process on the dull waiting roll 100 will be described.

  In the “dull automatic loading / unloading process” shown in FIG. 22, first, whether or not a condition for “dull waiting pallet 200 to be discharged from the dull supply cart 42 (“ dull waiting pallet shipping condition ”)” is satisfied is shown in each management DB and tracking information. Etc. with reference to (S301). Specifically, the “dull waiting pallet delivery condition” satisfies that the dull waiting pallet 200 exists in the automatic warehouse 70 and that the pallet 200 is not present in the dull supply cart 42. Is determined. For example, in the initial state (X1), the “dull waiting pallet delivery condition” is satisfied (S301: YES).

  When the “dull waiting pallet delivery condition” is satisfied (S301: YES), “dull supply trolley delivery processing” for automatically delivering the dull waiting pallet 200 to the dull supply cart 42 is executed (S303). In the “dull supply cart delivery process”, first, the “delivery allocation process” of the dull waiting pallet 200 is executed. Specifically, in the management server 3, similarly to the “delivery allocation process” (S 203) in the above-described “polishing wait lifter delivery process”, the delivery reservation of the dull waiting pallet 200 equipped with the dull waiting roll 100 to be delivered is made. Made. When the “allocation provision process” for the dull waiting pallet 200 is completed, control instructions for the crane 71 and the dull supply carriage 42 are sequentially issued to the crane control panel 78. In response to the control instruction, the transporting devices are linked to mount the dull waiting pallet 200 in the automatic warehouse 70 on the dull supply cart 42 and transport it to the dull side (X2). Here, a pallet waiting pallet 200 of pallet No. “W002” equipped with dal waiting rolls 100 of roll Nos. “AB340” to “AB349” is reserved for delivery, and the pallet waiting pallet 200 is transported to the dal side of the dal supply cart 42. Is done.

  Next, when the “dull waiting pallet delivery condition” is not satisfied (S301: NO), each management determines whether or not the condition (“empty pallet delivery condition”) on which the empty pallet 200 should be delivered to the dull collection carriage 43 is satisfied. The determination is made with reference to DB, tracking information, etc. (S305). Specifically, as “empty pallet delivery condition”, it is determined whether the empty pallet 200 is present in the automatic warehouse 70 and that the pallet 200 is not present in the dull collection cart 43. Is done. For example, after the operation X2 is executed, the “empty pallet delivery condition” is satisfied (S305: YES).

  When the “empty pallet delivery condition” is satisfied (S305: YES), a “dull collection truck delivery process” for automatically delivering the empty pallet 200 to the dull collection truck 43 is executed (S307). In the “dull recovery cart delivery process”, first, “empty allocation process” for the empty pallet 200 is executed. Specifically, the “shipment allocation process” for the empty pallet 200 is executed in the same manner as the “shipment allocation process” (S207) in the above-described “polished lifter delivery process”. When the “shipment allocation process” for the empty pallet 200 is completed, the control instructions for the crane 71 and the dull collection carriage 43 are sequentially issued to the crane control panel 78. In response to the control instruction, the respective conveying devices are linked to each other, and the empty pallet 200 in the automatic warehouse 70 is mounted on the dull collecting cart 43 and conveyed to the dull side (X3). Here, the “shipment allocation process” of the empty pallet 200 of the pallet No. “W003” is executed, and the empty pallet 200 is conveyed to the dull side of the dull collection carriage 43.

  Next, when the “empty pallet delivery condition” is not satisfied (S305: NO), each management DB determines whether or not the condition for receiving the empty pallet 200 from the dull supply carriage 42 (“empty pallet entry condition”) is satisfied. It is determined with reference to tracking information or the like (S309). Specifically, as “empty pallet entry conditions”, the empty pallet 200 is present on the dull supply carriage 42, and there is an empty space in the automatic warehouse 70 that can accommodate the pallet 200. It is determined whether or not For example, when the dull roll transfer machine 44 repeats the operation of supplying the dull waiting rolls 100 “AB349” to “AB340” from the dull supply carriage 42 to the dull processing machine 41, the dull waiting pallet 200 “W002” will be described later. The “dull processing execution process” (FIG. 23) sets the number of rolls of the pallet 200 to “0” and satisfies the “empty pallet warehousing condition” (X4, X5, X8) (S309: YES).

  If the “empty pallet warehousing condition” is satisfied (S309: YES), “dull supply trolley warehousing process” for automatically warehousing the empty pallet 200 from the dull supply trolley 42 is executed (S311). In the “dull supply cart warehousing process” in step S311, “empty allocating process” for the empty pallet 200 is first executed. Specifically, in the management server 3, similarly to the “reservation allocation process” in step S 211, the storage reservation for the empty pallet 200 (here, pallet No “W002”) is made to the empty storage shelf of the automatic warehouse 70. Made. When the “entry allocation process” for the empty pallet 200 is completed, control instructions for the dull supply carriage 42 and the crane 71 are sequentially issued to the crane control panel 78. In response to the control instruction, the respective transport devices work together to transport the empty pallet 200 mounted on the dull supply carriage 42 to the automatic warehouse 70 and store it in the storage shelf that has been reserved (X9). When the “dull supply cart warehousing process” is completed, “warehouse completion setting” is executed, and various DBs are updated.

  Next, when the “empty pallet warehousing condition” is not satisfied (S309: NO), whether or not the condition (“dulled pallet warehousing condition”) for receiving the dulled pallet 200 from the dull collecting cart 43 is satisfied is determined. The determination is made with reference to the management DB, tracking information, etc. (S313). Specifically, as the “dulled pallet warehousing condition”, the fact that the actual pallet 200 having ten dulled rolls 100 mounted on the dull collecting cart 43 is present, and the pallet 200 is placed in the automatic warehouse 70. It is determined whether there is a free space that can be accommodated. For example, when the dull roll transfer machine 44 repeats the operation of transferring the dulled rolls 100 “AB349” to “AB340” from the dull processing machine 41 to the dull collecting carriage 43, the dulled pallet 200 “W003” is fully loaded later. The “dull processing execution process” (FIG. 23) sets the number of rolls of the pallet 200 to “0” and satisfies the “dulled pallet warehousing condition” (X7, X10) (S313: YES).

  When the “dulled pallet warehousing condition” is not satisfied (S313: NO), the process returns to step S301.

  When “dulled pallet warehousing condition” is satisfied (S313: YES), “dull collection trolley warehousing process” for automatically warehousing the dulled pallet 200 from the dull collection trolley 43 is executed (S315). In the “dull recovery cart warehousing process”, first, “a warehousing provision process” for the dulled pallet 200 is executed. Specifically, similarly to the “reservation process for warehousing” in step S215 (S215), the warehousing reservation of the dulled pallet 200 (here, pallet No “W003”) is made to the empty storage shelf of the automatic warehouse 70. The When the “reservation process” for the dulled pallet 200 is completed, the control instructions for the dull collection carriage 43 and the crane 71 are sequentially issued to the crane control panel 78. In response to the control instruction, the respective conveying devices are linked to convey the dulled pallet 200 mounted on the dull collecting carriage 43 to the automatic warehouse 70 and store it in the storage shelf reserved for warehousing (X11). When the “dull collection cart warehousing process” is completed, “warehouse completion setting” is executed, and various DBs are updated.

  Thus, in the “dull automatic loading / unloading process” (FIG. 22), the supply of the dull waiting pallet 200 to the dull supply carriage 42 and the collection of the empty pallet 200, the supply of the empty pallet 200 to the dull collection carriage 43, and the dulled pallet. 200 collections are operated almost automatically. Therefore, it is possible to save labor and time for the worker to unload the dull waiting roll 100 or to receive the dulled roll 100, and to supply the dull waiting roll 100 and recover the dulled roll 100 in the dull processing step quickly and accurately. It can be carried out.

  The “dull machining execution process” shown in FIG. 23 is started when a condition for executing the dull machining process (“dull machining execution condition”) is first established in the dull machining machine 41 (S331). Specifically, the pallet 200 having the dull waiting roll 100 mounted thereon is present on the dull supply cart 42, and the pallet 200 having an empty space on which the dulled roll 100 can be mounted exists on the dull collecting cart 43. If the equipment in the dull area 40 is not down, the following processing is executed assuming that the “dull processing execution condition” is satisfied.

  First, it is determined whether or not the dull processing machine 41 is performing a shaking process for preventing clogging at the shot blasting portion (S333).

  If the shaking process is being executed by the dull processing machine 41 (S333: YES), the process waits at step S333 until the shaking process is completed.

  When the shaking processing is not executed in the dull processing machine 41 (S333: NO), the control instruction of the dull roll transfer machine 44 is issued to the crane control panel 78 (S335) and the roll management DB 350 does not move. Various data is updated for the dull waiting roll 100 to be loaded. For example, the roll management state 357 of the dulled roll 100 to be transferred (here, roll number “AB349”) is updated from “dull waiting” to “dull in progress”. In the pallet management DB 330, the roll number 339 is decremented by “1” (here, “9”) and the tenth roll No. 340 “AB349” is deleted from the pallet waiting pallet 200 (ie, pallet No. “W002”). .

  In the dull area 40, the dull roll transfer machine 44 performs the handling operation in accordance with the control instruction issued in step S335, and the dull waiting roll 100 located on the right side of the DS surface of the dull waiting pallet 200 is dull processed from the dull supply carriage 42. It supplies to the machine 41 (X5). When the dull roll transfer machine 44 is installed in the dull processing machine 41, the dull processing machine 41 issues a one-cycle dull processing command request to the management server 3.

  In the management server 3, when it is determined that there is a dull machining process command request (S337: YES), a dull machining control instruction that is a program for executing and controlling the dull machining process by the dull machining machine 41 is created, A dull processing control instruction is issued to the dull processing machine 41 (S339). In step S339, an optimal program (dull processing) corresponding to each dull waiting roll 100 is determined according to the detailed information of the dull waiting roll 100 set in the roll management DB 350, the dull processing contents set in advance by the operator, and the like. Control instructions) are automatically created and issued.

  The dull processing machine 41 performs one cycle of shot blasting on the dull waiting roll 100 based on the dull processing control instruction to perform dull processing on the roll surface. When the dull processing for the dull waiting roll 100 is completed, the dull processing is performed so that the dulled roll 100 is positioned on the left side of the DS surface of the empty pallet (dulled pallet) 200 on the dull collecting carriage 43 by the handling operation of the dull roll transfer machine 44. It is recovered from the machine 41 to the dull recovery carriage 43 (X6, X7). When the dull processing process is completed, the dull processing machine 41 issues the dull processing result data (dull processing result) for the roll 100 to the management server 3.

  In the management server 3, when the dull processing result issued from the dull processing machine 41 is received (S341), various DBs are updated as the dull processing completion setting, and the dull processing result is set as “dal performance information” and the role management DB 350. Is set in the dull related information 362 or the like (S343). For example, in the roll management DB 350, for the dulled roll 100 “AB349”, the roll processing state 356 “dulled” and the pallet No. 358 “W003” are updated, and the roll management state 357 is updated from “dulled” to “dulled”. Then, the pallet position 359 is updated to the roll position (here, “1”) on the pallet 200 “W003”. In the pallet management DB 330, “1” is added to the number of rolls 339 for the dulled pallet 200 “W003”, and the roll No. 340 “AB349” is set according to the roll position (here, “1”).

  The dull roll transfer machine 44 sequentially loads the pallet 200 “W002” from the right side (10th position) of the DS surface, and loads the pallet 200 “W003” from the left side (first position) of the pallet 200 “W003”. By executing the “dull processing execution process”, the management server 3 automatically moves the positions in the pallet so that the stacking order of the rolls 100 “AB349” to “AB340” is reversed in the pallets 200 “W002” and “W003”. 359 is set. Even if the in-pallet position 359 of the dull waiting roll 100 in the dull waiting pallet 200 is different from the in-pallet position 359 of the dull waiting roll 100 in the dull waiting pallet 200, the “dull processing execution process” is executed. The in-pallet position 359 can be managed accurately.

  In this way, in the “dull processing execution process” (FIG. 23), the supply and recovery of the roll 100 to and from the dull processing machine 41 is automatically operated by the dull roll transfer machine 44, and the dull processing machine 41 moves to the dull waiting roll 100. On the other hand, the optimum dull processing is automatically executed. Further, in the management server 3, information on the dull processing is automatically recorded for the polished roll 100 and linked from the movement source pallet (dull waiting pallet) 200 to the movement destination pallet (empty pallet) 200. Updated. Therefore, it is not necessary for the operator to transfer the roll 100 to the dull processing machine 41, and it is possible to save the trouble of instructing the contents of the dull processing and updating the association between the roll 100 and the pallet 200. The dull processing for 100 can be performed quickly and accurately.

[Roll exchange process]
With reference to FIGS. 24 to 29, the operation control of the roll changing process (process T4) in the roll shop management system 1 will be described. In the roll replacement process of the present embodiment, the dulled rolls 100 “AB349” to “AB340” mounted on the pallet 200 “W003” are incorporated in place of the old roll 100 of the ZM rolling mill 2, and further rolled. The case where the rolled rolls 100 “AB349” to “AB340” used in the work are removed from the ZM rolling mill 2 in place of the new roll 100 will be illustrated.

  First, referring to FIG. 24 to FIG. 26, in a roll exchange process, with regard to a series of operations (operation Y) performed by an operator and various equipment around the rolling area 60, operations related to the ZM supply area 61, The operations related to the ZM collection area 62 will be described separately.

  In the roll exchanging process, the management server 3 refers to the roll management DB 350 and refers to a roll (rolling roll) 100 that is a list of rolls (rolling rolls) 100 corresponding to the record of the registered position 355 “in the warehouse” and the roll management state 357 “rolling wait”. An area issue list is created.

  The rolling area delivery list includes a “smooth” roll 100 (rolled state roll 356 “polished” roll waiting roll 100) or a “dull” roll 100 (rolled state 356 “dulled” based on the roll supply pattern described above. "Rolling waiting roll 100)" is set. If the roll supply pattern is “smooth only”, only the “smooth” roll 100 is sequentially registered in the rolling area delivery list. If the roll supply pattern is “DAL only”, only the “DAL” roll 100 is registered in the rolling area delivery list. If the roll supply pattern is “alternate”, the “smooth” roll 100 and the “dull” roll 100 are registered in an alternating order in the rolling area delivery list.

  In the roll exchange process, the rolling standby rolls 100 are sequentially supplied to the rolling area 60 based on the order of registration in the rolling area delivery list.

  First, in the roll exchanging process, each transport device provided in the ZM supply area 61 is not “in transit”, the roll supply traverser 65 is in the reverse position, and the delivery lifters 64a and 64b are respectively in the middle positions of the actual stock conveyor 63. The equipment state when the pallet 200 is at a height position where the pallet 200 can be delivered in 63c is set as the initial state of the ZM supply area 61 (Y1).

  In the initial state of the ZM supply area 61, the dulled pallet 200 is accommodated as the rolling pallet 200 at the upper position 63a of the actual stock conveyor 63 and the upper position 65a of the roll supply traverser 65, and the lower position of the actual stock conveyor 63. It is assumed that the polished pallet 200 is accommodated as a rolling standby pallet 200 in the lower position 65b of 63b and the roll supply traverser 65, respectively. Here, for easy understanding, the dulled pallet 200 “W003” loaded with the dulled rolls 100 “AB349” to “AB340” is supplied from the automatic warehouse 70 to the actual stock conveyor 63 as will be described later. After that, it is assumed that the roll supply traverser 65 is already mounted at the upper position 65a.

  In the initial state (Y1) of the ZM supply area 61, the operator depresses the supply traverser advance PBL provided in the ZM supply area 61 at an arbitrary timing (Y2).

  When the supply traverser advance PBL is pressed, the roll supply traverser 65 on which the rolling pallet 200 is mounted moves from the reverse position to the forward position (Y3).

  When the roll supply traverser 65 reaches the forward movement position, the operator connects the roll supply traverser 65 and the changer 69. Then, the worker reads the action tag 17 labeled “roll movement before rolling” on the wireless HT 6 (Y4).

  Next, the worker starts the operation of rolling the rolling standby roll 100 and transferring it from the roll supply traverser 65 to the changer 69. An operator transfers one by one on the changer 69 in order from the rolling standby roll 100 located on the left side of the DS surface of the rolling standby pallet 200. When transferring the roll waiting roll 100, the roll end cover 110 is removed after reading the roll tag 15 of the rolled roll 100 with the wireless HT 6 (Y5). Here, the operator moves from the upper stage position 65a of the roll supply traverser 65 (that is, the dulled pallet 200 “W003”) to the upper stage on the supply side of the changer 69, so that the rolled roll 100 (that is, the dulled roll 100 “AB349” to The case where "AB340") is transferred is illustrated.

  When the rolling pallet 200 on the roll supply traverser 65 becomes empty (that is, when the empty pallet 200 is generated) by repeating the operation Y5 by the operator (Y6), the supply traverser reverse PBL provided in the ZM supply area 61 is Flashes.

  Next, the operator depresses the blinking supply traverser reverse PBL after releasing the connection between the roll supply traverser 65 and the changer 69 (Y7).

  When the supply traverser reverse PBL is pressed, the roll supply traverser 65 moves from the forward position to the reverse position (Y8).

  When the roll supply traverser 65 arrives at the reverse drive position, the delivery lifter 64b rises and receives the empty pallet 200 from the upper position 65a of the roll supply traverser 65. Next, the delivery lifter 64b descends and unloads the empty pallet 200 to the middle position 63c of the actual stock conveyor 63 (Y9).

  Next, the delivery lifter 64 a receives the empty pallet 200 from the middle position 63 c of the actual stock conveyor 63. Next, the delivery lifter 64b rises and receives the rolling standby pallet 200 from the upper position 63a of the actual stock conveyor 63 (Y10).

  Next, the delivery lifter 64 a delivers the empty pallet 200 to the supply unit 91 of the main traverser 90. Next, the delivery lifter 64b delivers the rolling pallet 200 to the upper position 65a of the roll supply traverser 65 (Y11).

  When an empty pallet 200 (in this case, pallet No. “W003”) is collected from the ZM supply area 61, the pallet 200 is automatically stored in the automatic warehouse 70, except for what is supplied to the empty stock conveyor 66 as described later. Is received. Specifically, when the empty pallet 200 is unloaded to the supply unit 91 of the main traverser 90, the main traverser 90 moves from the rolling area 60 side to the loading / unloading area 50 side, and the supply unit 91 transfers the empty pallet 200 to the loading conveyor. Place on 52. When the warehousing conveyor 52 transports the empty pallet 200 to the automatic warehouse 70 side, the crane 71 unloads the pallet 200 from the warehousing conveyor 52 and stores it in the storage shelf. Thus, the supply of the rolling pallet 200 to the roll supply traverser 65 and the recovery of the empty pallet 200 are completed.

  As a result of the above operations Y1 to Y11, the upper stage position 63a of the actual stock conveyor 63 becomes empty. Based on the order of registration in the rolling area delivery list, the rolling standby pallet 200 is automatically supplied to the empty upper position 63a. Specifically, when the crane 71 loads the rolling waiting pallet 200 to be delivered on the delivery conveyor 51 in the automatic warehouse 70, the delivery conveyor 51 conveys the rolling waiting pallet 200 to the main traverser 90 side and loads it to the supply unit 91. Hand it over. When the main traverser 90 moves from the loading / unloading area 50 side to the rolling area 60 side, the supply unit 91 unloads the rolling standby pallet 200 to the delivery lifter 64a. The delivery lifter 64 a rises when the rolling standby pallet 200 is loaded, and delivers the rolling standby pallet 200 to the upper position 63 a of the actual stock conveyor 63. As a result, the rolling stock pallet 200 is supplied to the actual stock conveyor 63, and the ZM supply area 61 is in the initial state (Y1).

  By the way, an operator performs the exchange operation | work of the roll 100 used for the ZM rolling mill 2 using the changer 69 as follows.

  First, the operator advances the assembly portion 69e of the changer 69 to the ZM rolling mill 2 side and inserts it into the roll replacement opening, and the rolled roll (old roll) 100 to be replaced in the ZM rolling mill 2 is inserted. Is removed and installed on the built-in portion 69e. Next, the built-in part 69e is moved backward from the ZM rolling mill 2 side and extracted from the roll replacement opening (Y12).

  The old roll 100 on the extracted built-in portion 69e is transferred onto the roll collection traverser 68 (Y13).

  Next, an operator mounts the rolling waiting roll (new roll) 100 to be replaced on the supply-side upper stage 69a with the changer 69 on the built-in portion 69e (Y14).

  Next, the built-in portion 69e is advanced to the ZM rolling mill 2 side and inserted into the roll replacement opening, and the new roll 100 is attached in place of the old roll 100 in the ZM rolling mill 2 (Y15).

  The operator executes operations Y12 to Y15 one by one for all the replacement target rolls 100 in the ZM rolling mill 2.

  Next, in the roll exchanging process, each transport device provided in the ZM recovery area 62 is not “in transport”, the roll recovery traverser 68 is in the reverse position, and the delivery lifters 67a and 67b are respectively in the middle stages of the empty stock conveyor 66. The equipment state when the pallet 200 is at a height position where the pallet 200 can be delivered at the position 66c is set as the initial state of the ZM collection area 62 (Y16).

  In the initial state of the ZM recovery area 62, it is assumed that the empty pallet 200 is accommodated in the lower position 66b of the empty stock conveyor 66 and the roll recovery traverser 68, respectively. Here, in order to facilitate understanding, it is assumed that the empty pallet 200 “W004” is already mounted on the roll recovery traverser 68 after being supplied from the automatic warehouse 70 to the empty stock conveyor 66 as will be described later. .

  In the initial state (Y16) of the ZM recovery area 62, the operator depresses the recovery traverser advance PBL provided in the ZM recovery area 62 at an arbitrary timing (Y17).

  When the recovery traverser advance PBL is pressed, the roll recovery traverser 68 moves from the reverse position to the forward position (Y18). When the roll collection traverser 68 reaches the advanced position, the operator connects the roll collection traverser 68 and the changer 69.

  Next, the operator reads the action tag 17 described as “roll movement after rolling” on the wireless HT 6 (Y19).

  Next, the worker starts the work of rolling and transferring the rolled roll 100 (here, the rolled rolls 100 “AB349” to “AB340”) from the changer 69 to the roll collection traverser 68. The operator transfers the rolled roll 100 on the changer 69 in order from the left side of the DS surface of the empty pallet 200 (here, pallet No “W004”) on the roll collection traverser 68. When transferring the rolled roll 100, the operator attaches a new roll end cover 110 to the rolled roll 100, and then reads the roll tag 15 of the roll end cover 110 with the wireless HT6 (Y20).

  When the operator repeats the operation Y20, the empty pallet 200 on the roll collection traverser 68 is fully loaded with the rolled roll 100 (that is, when the rolled pallet 200 on which ten rolled rolls 100 are mounted is generated) (Y21) , The recovery traverser reverse PBL provided in the ZM recovery area 62 blinks.

  The operator depresses the blinking collection traverser reverse PBL after releasing the connection between the roll collection traverser 68 and the changer 69 (Y22).

  When the recovery traverser reverse PBL is pressed, the roll recovery traverser 68 moves from the forward position to the reverse position (Y23).

  When the roll collection traverser 68 arrives at the reverse position, the delivery lifter 67b receives the rolled pallet 200 from the roll collection traverser 68 and unloads the rolled pallet 200 to the middle position 66c of the empty stock conveyor 66 (Y24).

  Next, the delivery lifter 67a receives the rolled pallet 200 from the middle position 66c of the empty stock conveyor 66, and the delivery lifter 67b descends to receive the empty pallet 200 from the lower position 66b of the empty stock conveyor 66 (Y25). .

  Next, the delivery lifter 67a delivers the rolled pallet 200 to the collection unit 92 of the main traverser 90, and the delivery lifter 67b delivers the empty pallet 200 to the roll collection traverser 68 (Y26).

  When the rolled pallet 200 (here, pallet No. “W004”) is recovered from the ZM recovery area 62, the pallet 200 is stored in the automatic warehouse 70. Specifically, when the rolled pallet 200 is unloaded to the collecting unit 92 of the main traverser 90, the main traverser 90 moves from the rolling area 60 side to the loading / unloading area 50 side, and the collecting unit 92 removes the rolled pallet 200. It is loaded on the warehousing conveyor 52. When the warehousing conveyor 52 transports the rolled pallet 200 to the automatic warehouse 70 side, the crane 71 unloads the pallet 200 from the warehousing conveyor 52 and stores it in the storage shelf. Thus, the supply of the empty pallet 200 to the roll recovery traverser 68 and the recovery of the rolled pallet 200 are completed.

  Although the lower position 66b of the empty stock conveyor 66 becomes empty by the above operations Y16 to Y26, when there is an empty pallet 200 collected from the ZM supply area 61, the empty pallet 200 is automatically supplied to the lower position 66b. Is done. Specifically, when the empty pallet 200 is recovered from the ZM supply area 61 (see Y11), the main traverser 90 moves from the ZM supply area 61 to the ZM recovery area 62 and unloads the empty pallet 200 to the delivery lifter 67a. To do. The delivery lifter 67a descends when the empty pallet 200 is loaded, and delivers the empty pallet 200 to the lower position 66b of the empty stock conveyor 66. As a result, the empty pallet 200 is supplied to the empty stock conveyor 66, and the ZM recovery area 62 is in the initial state (Y16). On the other hand, when there is no empty pallet 200 collected from the ZM supply area 61, the empty pallet 200 in the automatic warehouse 70 is supplied to the ZM collection area 62 by the transport operation of the crane 71, the delivery conveyor 51, and the main traverser 90.

  As described above, the rolls 100 “AB349” to “AB340” mounted on the pallet 200 “W003” are supplied from the automatic warehouse 70 to the rolling area 60 and attached to the ZM rolling mill 2 as new rolls. On the other hand, after the rolls 100 “AB349” to “AB340” are used in the ZM rolling mill 2, the old rolls are mounted on the pallet 200 “W004” and collected from the rolling area 60 to the automatic warehouse 70.

  Next, with reference to FIGS. 27 to 29, as a series of internal processes executed by the management server 3 in the roll replacement step (process T4), the supply of the rolling standby roll 100 to the rolling area 60 and the rolling finished roll 100 are performed. "Rolling automatic loading / unloading process" for automatically operating the collection, "rolling pre-rolling roll process" for supplying the rolling waiting roll 100 to the ZM rolling mill 2, and the rolled roll 100 from the ZM rolling mill 2 The “rolling used roll moving process” for collection will be described.

  In the “rolling automatic loading / unloading process” shown in FIG. 27, first, whether or not a condition for advancing the roll supply traverser 65 (“feed traverser advanceable condition”) is satisfied is based on the status information from the roll supply traverser 65. (S401). Specifically, it is determined whether or not the “feed traverser advanceable condition” satisfies that the roll supply traverser 65 is in the reverse position and that the roll supply traverser 65 is not “conveying”. For example, in the initial state (Y1), the “supply traverser advanceable condition” is satisfied (S401: YES).

  When the “supply traverser advanceable condition” is satisfied (S401: YES), a supply traverser advance instruction request is issued to the crane control panel 78 (S403). When a supply traverser advance instruction request is issued, the crane control panel 78 blinks the supply traverser advance PBL provided in the ZM supply area 61 to notify the operator that the roll supply traverser 65 can advance. . When the operator depresses the supply traverser advance PBL at an arbitrary timing, the crane control panel 78 moves the roll supply traverser 65 from the reverse position to the forward position (Y2, Y3).

  When the “supply traverser advanceable condition” is not satisfied (S401: NO), or when a supply traverser advance instruction request is issued, a condition for moving the roll supply traverser 65 backward (“supply traverser advanceable condition”) is set. It is determined with reference to each management DB, tracking information, etc. whether it satisfy | fills (S405). Specifically, as the “supply traverser reverseable condition”, the roll supply traverser 65 is in the forward movement position, the roll supply traverser 65 is not “conveying”, and the empty pallet 200 is present in the roll supply traverser 65. It is determined whether or not For example, when the operator repeats the operation of transferring the rolling standby rolls 100 “AB349” to “AB340” from the roll supply traverser 65 to the changer 69 and the rolling standby pallet 200 “W003” becomes empty, the “before rolling use” described later is used. The number of rolls of the pallet 200 is set to “0” by the “roll movement process” (FIG. 28), and the “supply traverser reverse enabling condition” is satisfied (Y5, Y6) (S405: YES).

  When the “supply traverser reverse travel enabling condition” is satisfied (S405: YES), a supply traverser reverse travel instruction request is issued to the crane control panel 78 (S407). When a supply traverser reverse instruction request is issued, the crane control panel 78 blinks the supply traverser reverse PBL provided in the ZM supply area 61 to notify the operator that the roll supply traverser 65 can be moved backward. . When the operator depresses the supply traverse reverse PBL at an arbitrary timing, the crane control panel 78 moves the roll supply traverser 65 from the forward movement position to the reverse movement position (Y7, Y8).

  Next, it is determined with reference to each management DB, tracking information, etc. whether the roll supply traverser 65 is in the reverse drive position and the pallet 200 is mounted (S409).

  When the roll supply traverser 65 arrives at the reverse position (S409: YES), “empty pallet collection process” for automatically collecting the empty pallet 200 from the roll supply traverser 65 is started (S411). The “empty pallet collection process” differs depending on whether or not the empty stock conveyor 66 has an empty space that can accommodate the empty pallet 200 as follows.

  If there is no empty space in the empty stock conveyor 66 that can accommodate the empty pallet 200, first, the “reservation process” for the empty pallet 200 is executed as in step S211 and step S311. When the “entry allocation process” for the empty pallet 200 is completed, control instructions for the roll supply traverser 65, the delivery lifter 64b, the actual stock conveyor 63, the delivery lifter 64a, the main traverser 90, the receipt conveyor 52, and the crane 71 are sent to the crane control panel. 78 or peripheral control panel 79 are issued sequentially. In response to the control instruction, the respective transport devices are linked to transport the empty pallet 200 seated at the upper position 65a of the roll supply traverser 65 to the automatic warehouse 70 and store it in the storage shelves reserved for storage (Y9 to Y11). . In the management server 3, “warehouse completion setting” is executed, and various DBs are updated.

  When the empty stock conveyor 66 has an empty space capable of accommodating the empty pallet 200, each of the roll supply traverser 65, the delivery lifter 64b, the actual stock conveyor 63, the delivery lifter 64a, the main traverser 90, the delivery lifter 67a, and the empty stock conveyor 66 Control instructions are sequentially issued to the crane control panel 78 or the peripheral control panel 79. In response to the control instruction, the respective transport devices work together to directly transport the empty pallet 200 seated at the upper position 65a of the roll supply traverser 65 to the empty stock conveyor 66 without going through the automatic warehouse 70 (Y9 to Y11). ).

  When the empty pallet 200 is absent from the roll supply traverser 65 and the delivery lifter 64b by the “empty pallet collection process”, the “real pallet replenishment process” for automatically replenishing the roll supply traverser 65 with the rolling pallet 200 is performed. The process is started (S413). In the “real pallet replenishment process”, control instructions for the real stock conveyor 63, the delivery lifter 64b, and the roll supply traverser 65 are sequentially issued to the crane control panel 78 or the peripheral control panel 79. In response to the control instruction, the respective conveying devices work together to convey the rolling pallet 200 seated at the upper position 63a of the actual stock conveyor 63 to the upper position 65a of the roll supply traverser 65 (Y9 to Y11).

  Next, when an empty space that can accommodate the rolling standby pallet 200 is generated on the actual stock conveyor 63, an “actual pallet supply process” for automatically supplying the rolling standby pallet 200 to the actual stock conveyor 63 is started ( S415). In the “actual pallet supply process”, similarly to the “delivery provision process” (S203) in the “polishing wait lifter delivery process” and the “delivery provision process” (S303) in the “dull supply cart delivery process”, first, the waiting pallet for rolling 200 “issue allocation process” is executed. When the “shipment allocation process” for the rolling pallet 200 is completed, control instructions for the crane 71, the delivery conveyor 51, the main traverser 90, the delivery lifter 64 a, and the actual stock conveyor 63 are sent to the crane control panel 78 or the peripheral control panel 79. Are issued sequentially. In response to the control instruction, the respective conveying devices are linked to convey the rolling standby pallet 200 accommodated in the automatic warehouse 70 to the upper position 63a of the actual stock conveyor 63 (Y9 to Y11).

  In step S405, when the “supply traverser reverse condition” is not satisfied (S405: NO), or when the roll supply traverser 65 is not in the reverse position (S409: NO) in step S409, the roll recovery traverser 68 is moved forward. Whether or not the condition (recovery traverser advanceable condition) is satisfied is determined based on the status information from the roll recovery traverser 68 (S417). Specifically, it is determined whether or not the “recovery traverser advanceable condition” satisfies that the roll recovery traverser 68 is in the reverse drive position and that the roll recovery traverser 68 is not “conveying”. For example, in the initial state (Y16), the “recovery traverser advanceable condition” is satisfied (S417: YES).

  When the “recovery traverser advanceable condition” is satisfied (S417: YES), a recovery traverser advance instruction request is issued to the crane control panel 78 (S419). When a recovery traverser advance instruction request is issued, the crane control panel 78 blinks the recovery traverser advance PBL provided in the ZM recovery area 62 to notify the operator that the roll recovery traverser 68 can advance. . When the operator depresses the recovery traverser advance PBL at an arbitrary timing, the crane control panel 78 moves the roll recovery traverser 68 from the reverse position to the forward position (Y18, Y19).

  When the “recovery traverser advanceable condition” is not satisfied (S417: NO), step S421 is executed.

  Next, it is determined with reference to each management DB, tracking information, etc. whether or not a condition for moving the roll collection traverser 68 backward (“recovery traverser backward enabling condition”) is satisfied (S421). Specifically, as the “recoverable traverser reverseable condition”, the roll recovery traverser 68 is in the forward position, the roll recovery traverser 68 is not “in transit”, and the rolled roll 100 is set to 10 in the roll recovery traverser 68. It is determined whether or not the actual pallet 200 installed is satisfied.

  When the “recoverable traverser reverse travel enabling condition” is satisfied (S421: YES), a recovery traverser reverse travel instruction request is issued to the crane control panel 78 (S423). For example, when the operator repeats the operation of transferring the rolled rolls 100 “AB349” to “AB340” from the changer 69 to the roll recovery traverser 68 and the empty pallet 200 “W004” is fully loaded, The number of rolls of the pallet 200 is set to “10” by the “movement process” (FIG. 29), and the “recoverable traverser reverse enabling condition” is satisfied (Y20, Y21).

  When a recovery traverser reverse instruction request is issued in step S423, the crane control panel 78 blinks the recovery traverser reverse PBL provided in the ZM recovery area 62, and the roll recovery traverser 68 can move backward to the operator. Inform the effect. When the operator depresses the recovery traverser reverse PBL at an arbitrary timing, the crane control panel 78 moves the roll recovery traverser 68 from the forward position to the reverse position (Y22, Y23).

  If the “recovery traverser backward travelable condition” is not satisfied (S421: NO), the process returns to step S401.

  Whether the roll collection traverser 68 is in the reverse position and the pallet 200 is mounted is determined with reference to each management DB, tracking information, etc. (S425).

  When the roll collection traverser 68 has arrived at the reverse position (S425: YES), an “actual pallet collection process” for automatically collecting the rolled pallet 200 from the roll collection traverser 68 is started (S427). In the “actual pallet collection process”, the rolled pallet is first processed in the same way as the “reservation process” (S215) in the “polished lifter warehousing process” (S215) and the “reservation process for warehousing” (S315) in the “dull collection cart warehousing process” 200 "reservation process for warehousing" is executed. When the “reservation process” for the rolled pallet 200 is completed, the control instructions for the roll collection traverser 68, the delivery lifter 67b, the actual stock conveyor 63, the delivery lifter 67a, the main traverser 90, the receipt conveyor 52, and the crane 71 are transferred to the crane control. It is issued sequentially to the panel 78 or the peripheral control panel 79. In response to the control instruction, the respective transport devices are linked to transport the rolled pallet 200 “W004” seated in the roll collection traverser 68 to the automatic warehouse 70 and store it in the storage shelves reserved for storage (Y24 to Y26). . In the management server 3, “warehouse completion setting” is executed, and various DBs are updated.

  If the roll recovery traverser 68 is not in the retracted position (S425: NO), the process returns to step S401.

  Next, when the rolled pallet 200 is no longer seated from the roll recovery traverser 68 and the delivery lifter 67b, an “empty pallet replenishment process” for automatically replenishing the roll recovery traverser 68 with the empty pallet 200 is started ( S429). In the “empty pallet replenishment process”, control instructions for the empty stock conveyor 66, the delivery lifter 67b, and the roll recovery traverser 68 are sequentially issued to the crane control panel 78 or the peripheral control panel 79. In response to the control instruction, the conveying devices are linked to convey the empty pallet 200 seated at the upper position 66a of the empty stock conveyor 66 to the roll recovery traverser 68 (Y24 to Y26).

  Next, when an empty space capable of accommodating the empty pallet 200 is generated on the empty stock conveyor 66, an “empty pallet supply process” for automatically supplying the empty pallet 200 to the empty stock conveyor 66 is started (S431). The process returns to step S401. In the “empty pallet supply process”, first, the empty pallet 200 is processed in the same manner as the “shipment allocation process” (S207) in the “polished lifter delivery process” (S207) and the “shipment allocation process” (S307) in the “dull recovery cart delivery process”. The “issue allocation process” is executed. When the “shipment allocation process” for the empty pallet 200 is completed, control instructions for the crane 71, the output conveyor 51, the main traverser 90, the delivery lifter 67 a, and the empty stock conveyor 66 are sent to the crane control panel 78 or the peripheral control panel 79. Issued sequentially. In response to the control instruction, the respective conveying devices are linked to convey the empty pallet 200 accommodated in the automatic warehouse 70 to the upper position 66a of the empty stock conveyor 66 (Y24 to Y26). However, when the empty pallet 200 is supplied to the empty stock conveyor 66 and there is no empty space in the “empty pallet collection process” (S411), the “empty pallet supply process” is not executed.

  As described above, in the automatic rolling loading / unloading process (FIG. 27), the supply of the rolling standby pallet 200 to the ZM supply area 61 (specifically, the roll supply traverser 65), the recovery of the empty pallet 200, and the ZM recovery area 61 (details). In this case, the supply of the empty pallet 200 to the roll recovery traverser 68) and the recovery of the dull pallet 200 are almost automatically operated. Therefore, it is possible to save time and labor for the operator to unload the rolling standby roll 100 or store the rolled roll 100, and to supply the rolling standby roll 100 and collect the rolled roll 100 quickly and accurately in the roll replacement process. It can be carried out.

  “Roll movement before rolling use” shown in FIG. 28 is started when the “roll movement before rolling use” command is received (S451). That is, when the operator reads the action tag 17 labeled “roll movement before rolling use” on the wireless HT 6 (Y4), the management server 3 determines that the “roll movement before rolling use” command is received, and The process is executed.

  When the “roll before rolling use” command is received, the roll waiting rolls 100 mounted on the roll waiting pallet 200 of the roll supply traverser 65 are displayed in a list on the wireless HT 6 (S453).

  Next, whether or not a condition for completing the transfer operation of the roll 100 waiting roll 100 from the roll supply traverser 65 to the changer 69 (transfer completion condition) is satisfied is referred to each management DB and tracking information. (S455). Specifically, as the “transfer completion condition”, one of the absence of the roll waiting roll 100 on the roll supply traverser 65 and the absence of a free space on the changer 69 in which the roll waiting roll 100 can be mounted. It is determined whether or not

  When the “transfer completion condition” is not satisfied (S455: NO), the detailed information of the rolling standby roll 100 on the roll supply traverser 65 is displayed on the wireless HT6 (S457). Specifically, the wireless HT 6 displays detailed information of the rolling standby roll 100 located on the left side of the DS surface of the rolling standby pallet 200 (that is, the changer 69 side) among the rolling standby rolls 100 on the roll supply traverser 65. Is done.

  Next, it is determined whether the tag ID of the roll tag 15 has been received (S459). As described above, the operator confirms the roll detailed information with the wireless HT 6 and moves the rolling standby roll 100 located on the left side of the DS surface of the rolling standby pallet 200 on the roll supply traverser 65 from the roll supply traverser 65 to the changer 69. Transfer to the top (Y5). When the operator reads the roll tag 15 of the roll end cover 110 that is removed from the roll waiting roll 100 to be transferred, the management server 3 determines that the tag ID is received (S459: YES).

  When the tag ID is received in step S459 (S459: YES), the condition (changer transfer condition) for transferring the rolling waiting roll (transfer target roll) 100 corresponding to the tag ID to the changer 69 is satisfied. It is determined with reference to each management DB, tracking information, etc. (S461). Specifically, as the “changer transfer condition”, the transfer target roll 100 is positioned on the roll supply traverser 65, and the transfer target roll 100 is located on the left side of the DS surface of the rolling pallet 200 (changer side). ) Is taken out.

  When the “changer transfer condition” is not satisfied (S461: NO), the management server 3 causes the wireless HT 6 to output an error (S463).

  When the “changer transfer condition” is satisfied (S461: YES), various DBs are updated as transfer settings from the roll supply traverser 65 to the changer 69 (S465). For example, in the pallet management DB 330, for the rolling pallet 200 “W003”, the roll number 339 is decremented by “1” (here, “9”), “AB349” is deleted from the roll No. 340, and the roll position of the other roll 200 Are updated (here, “first: AB348” to “9th: AB342”). In the role management DB 350, the transfer target roll 100 “AB349” is released from the association with the roll tag 15 (that is, the roll tag ID 352 is set to “blank”), and the association with the pallet 200 is released (that is, Pallet No. 358 and pallet position 359 are set to “blank”), and the roll management state 357 is updated from “Waiting for rolling” to “During rolling”.

  When the transfer setting is completed in step S465, the process returns to step S455 to determine whether or not the “transfer completion condition” is satisfied (S455). Steps until the “transfer completion condition” is satisfied (that is, until there is no rolling waiting roll 100 on the roll supply traverser 65 or there is no space (empty) on which the rolled roll 100 can be mounted on the changer 69). Steps S457 to S465 are repeatedly executed.

  When the “transfer completion condition” is satisfied (S455: YES), the management server 3 outputs to the wireless HT 6 that “roll movement before rolling use” is completed, and ends this process (S487).

  In this way, in the “roll movement before rolling use” (FIG. 28), the operator simply reads the roll tag 15 from the rolling roll 100 to be moved with the wireless HT 6 and the roll tag 15 and the movement source pallet (rolling pallet). ) Association with 200 is released. Therefore, even if the rolling standby roll 100 mounted on the changer 69 is physically separated from the roll tag 15 and the pallet 200, the operator releases the association between the roll tag 15 and the pallet 200 for the roll 100 each time. The work of transferring the polishing waiting roll 100 from the ZM supply area 61 to the changer 69 can be performed quickly and accurately without labor.

  The “rolling used roll movement process” shown in FIG. 29 is started when the “rolling used roll movement” command is received (S471). That is, when the operator reads the action tag 17 labeled “rolling used roll movement” on the wireless HT 6 (Y19), the management server 3 determines that the “rolling used roll movement” command has been received. The process is executed.

  When the “rolling used roll movement” command is accepted, a list of the rolled rolls 100 mounted on the changer 69 is displayed on the wireless HT 6 (S473).

  Next, whether or not a condition for completing the transfer operation of the rolled roll 100 from the changer 69 to the roll collection traverser 68 (“transfer completion condition”) is satisfied is determined based on each management DB, tracking information, and the like. The determination is made with reference to (S475). Specifically, as the “transfer completion condition”, one of the absence of the rolled roll 100 on the changer 69 and the absence of an empty space in which the rolled roll 100 can be mounted on the roll collection traverser 68. It is determined whether or not

  When the “transfer completion condition” is not satisfied (S475: NO), detailed information of the rolled roll 100 on the changer 69 is displayed on the wireless HT6 (S477). Specifically, the wireless HT 6 displays detailed information on the rolled roll 100 located on the roll collection traverser 68 side among the rolled rolls 100 mounted on the collection side 69 c of the changer 69.

  Next, it is determined whether the tag ID of the roll tag 15 has been received (S479). The operator confirms the detailed roll information on the wireless HT 6 and moves the rolled roll 100 positioned on the roll recovery traverser 68 side on the changer 69 to the left side of the DS surface of the empty pallet 200 on the roll recovery traverser 68 (first roll position). ) (Y20). When the operator attaches a new roll end cover 110 to the roll waiting roll 100 to be transferred and reads the roll tag 15 at the time of transfer, the management server 3 determines that the tag ID is received (S479: YES).

  When the tag ID (here, “11111”) is received in step S479, the condition for associating the tag ID with the rolled roll (transfer target roll) 100 (“tag linking condition”). It is determined with reference to each management DB, tracking information, etc. (S481). Specifically, whether the tag ID read in step S479 satisfies the fact that there is no problem in the data format and that the tag ID is not linked to another roll 100 as the “tag linking condition” Determined.

  When the “tag association condition” is not satisfied (S481: NO), the management server 3 causes the wireless HT 6 to output an error (S483).

  When the “tag linking condition” is satisfied (S481: YES), various DBs are updated as transfer settings from the changer 69 to the roll collection traverser 68 (S485). For example, in the roll management DB 350, for the transfer target roll 100 “AB349”, the roll processing state 356 is updated to “rolled”, and the roll management state 357 is updated from “under rolling” to “rolled”. Are re-linked, the roll tag ID 352 “11111” is set, the pallet 200 is re-linked, pallet No. 358 “W004” is set, and the roll in the pallet 200 “W004” is set at the position 359 in the pallet. A position (here, “1”) is set. In the pallet management DB 330, “1” is added to the number of rolls 339 for the destination pallet 200 “W004”, and roll No. 340 “AB349” is set according to the roll position (here, “first”).

  When the transfer setting is completed in step S485, the process returns to step S475 to determine whether or not the “transfer completion condition” is satisfied (S475). Step S477 until the “transfer completion condition” is satisfied (that is, until there is no rolled roll 100 on the changer 69 or there is no space (empty space) on which the rolled roll 100 can be mounted on the roll collection traverser 68). Step S485 is repeatedly executed.

  When the “transfer completion condition” is satisfied (S475: YES), the wireless HT 6 is informed that the “rolling used roll movement” has been completed, and the process is terminated (S487).

  Thus, in the “rolling used roll moving process” (FIG. 29), the operator simply reads the roll tag 15 from the roll end cover 110 attached to the rolled roll 100 to be moved with the wireless HT 6, and Re-linking with the destination pallet (empty pallet) 200 is executed. Therefore, even if the rolled roll 100 mounted on the changer 69 is physically attached to the roll tag 15 and the pallet 200, it is troublesome for the operator to set re-linking between the roll tag 15 and the pallet 200 for the roll 100. The transfer operation of the polished roll 100 from the changer 69 to the ZM collection area 62 can be performed quickly and accurately.

  Note that each roll 100 is associated with the roll tag 15 until the “rolling used roll movement process” (FIG. 29) is executed after the “rolling roll use process before rolling” (FIG. 28) is executed. It is mounted on the changer 69 in a released state. The ZM process controller 4 performs position tracking (tracking) of each roll 100 on the changer 69 based on output signals from a plurality of sensors that detect the position of each roll 100 mounted on the changer 69. The management server 3 specifies the roll position on the changer 69 of each roll 100 on the basis of the tracking information from the ZM process controller 4 without being associated with the roll tag 15, and is being used by the ZM rolling mill 2. Roll (rolling roll) 100 is specified. For example, every time one cycle of rolling processing is completed, the ZM process controller 4 transmits rolling data (roll rolling performance) about the roll 100 during rolling to the management server 3. In the management server 3, when the roll rolling record issued from the ZM process control 4 is received, the roll rolling record is set as “rolling record information” in the rolling related information 360 of the roll management DB 350 or the like.

  After the rolled pallet 200 is collected in the automatic warehouse 70 in the “actual pallet collecting process” in step S427, the operator designates an arbitrary rolled roll 100 as a polishing target on the PC 5 (for example, the rolling area PC 5e). Then, in the management server 3, the roll management state 357 of the roll 100 to be polished is updated to “polishing wait” in the roll management DB 350. The old roll 100 designated as the object to be polished is subjected to the polishing process in the roll polishing step (process T2) and regenerated as the new roll 100. In the roll shop work of the present embodiment, the old roll 100 used in the ZM rolling mill 2 is regenerated to the new roll 100 by the roll polishing process (further, the dull processing process) and then used again for the roll replacement process. This loop is repeated until a roll discarding process described later is executed. Note that when the rolled roll 100 is received in the automatic warehouse 70, the roll management state 357 of the roll 100 may be automatically updated to “awaiting polishing”.

[Roll disposal process]
With reference to FIG.30 and FIG.31, the operation control of the roll disposal process (process T5) in the roll shop management system 1 is demonstrated. In the roll disposal process of the present embodiment, a case where the rolled rolls 100 “AB349” to “AB340” mounted on the pallet 200 “W004” are carried out from the automatic warehouse 70 to the off-site area 20 is illustrated.

  First, with reference to FIG. 30, a series of operations (operation Z) performed by an operator and various devices centering on the out-of-field area 20 in the roll discarding process will be described.

  As a premise that the roll disposal step is executed, the operator designates an arbitrary roll 100 (or pallet 200) as a disposal target on the PC 5 (for example, the off-site area PC 5a). The management server 3 updates the role management state 357 of the role 100 to be discarded in the role management DB 350 to “discard waiting”. Here, it is assumed that the worker designates the rolls 100 having the roll numbers “AB349” to “AB340” as the disposal target (that is, the disposal waiting roll 100).

  In the roll disposal process, the pallet (disposal waiting pallet) 200 loaded with the disposal waiting roll 100 in the automatic warehouse 70 is carried out to the off-site area 20, so that the off-site entry / exit cart 21 is in “exit mode”. Cost. If the out-of-field entry / exit cart 21 is in the “exit mode”, the operator presses the exit PBL on the operation panel 28. When the delivery PBL is pressed, the off-site entry / exit cart 21 is moved from the cargo handling side to the warehouse side and switched to the “exit mode” (Z1).

  Next, the operator designates an arbitrary disposal waiting roll 100 and instructs the delivery (inquiry delivery) on the PC 5 (for example, the off-site area PC 5a) (Z2).

  When the operator instructs the inquiry delivery of the disposal waiting roll 100, the crane 71 unloads the pallet (discarding pallet) 200 loaded with the roll 100 from the storage shelf in the automatic warehouse 70 (Z3).

  Next, the crane 71 loads the waste waiting pallet 200 (here, pallet No. “W004”) on the off-site entry / exit cart 21 (Z4).

  Next, the off-site entry / exit cart 21 loaded with the waste waiting pallet 200 moves from the warehouse side to the unloading side (Z5).

  When the off-site entry / exit cart 21 arrives at the unloading side, the completed PBL provided in the off-site area 20 blinks (Z6).

  The operator uses the overhead crane disposed in the off-site area 20 to unload the disposal pallet 200 from the off-site entry / exit cart 21 that arrives at the unloading side (Z7).

  The worker unloads the plurality of disposal waiting rolls 100 from the discarded disposal waiting pallet 200 and removes the roll end cover 110 from each disposal waiting roll 100 (Z8).

  Next, the worker prints the disposal roll list LB on the PC 5 (for example, the off-site area PC 5a) (Z9). More specifically, upon receiving a print instruction for the disposal roll list from the PC 5, the management server 3 refers to the roll management DB 350 to refer to the list of roll Nos 351 in the roll management state 357 “discard waiting” (discarding Roll list LB) is created, and the discard roll list LB is printed on the PC 5 side. In the discard roll list LB, the roll numbers “AB349” to “AB340” stamped on the discard waiting roll 100 are displayed, as well as bar code information corresponding to each roll No.

  Next, the operator reads the action tag 17 indicated as “roll discard” on the wireless HT 6 (Z10), confirms the roll No. imprinted on the discard waiting roll 100, and discards the roll. By reading the barcode information corresponding to the roll No. with the wireless HT 6 in the list LB, the disposal of the disposal waiting roll 100 is completed (Z11, Z12).

  As described above, the rolls 100 “AB349” to “AB340” mounted on the pallet 200 “W004” are received from the automatic warehouse 70 to the automatic warehouse 70 from the off-site area 20, and are discarded from the roll shop P. .

  Next, referring to FIG. 31, as a series of internal processes executed by the management server 3 in the roll disposal process (process T <b> 5), “disposal delivery” for delivering the disposal waiting roll 100 to the off-site area 20. Process "will be described.

  31, first, it is determined based on information from the crane control panel 78 connected to the operation panel 28 whether or not the off-site entry / exit cart 21 is in the “exit mode”. (S501).

  When the out-of-field entry / exit cart 21 is in the “exit mode” (S501: YES), it is determined whether or not the pallet 200 is present on the out-of-field entry / exit cart 21 (S503). As described above, if the pallet 200 is not loaded on the off-site entry / exit cart 21, the management server 3 specifies that the pallet seating is “OFF” based on the information from the crane control panel 78. Can do.

  When the out-of-field entry / exit cart 21 is not in the “exit mode” but is “conveying” or “entry mode” (S501: NO), and when the pallet 200 is present on the off-site entry / exit cart 21 ( (S503: NO) returns to step S501.

  When the pallet 200 is not present on the off-site entry / exit cart 21 (S503: YES), it is determined whether or not the “inquiry delivery” instruction of the disposal waiting roll 100 has been received (S505).

  When the operator instructs the inquiry delivery on the PC 5 (S505: YES), the “pickup allocation process” (S203) in the “polishing waiting lifter delivery process” (S203), etc., “ The “issue allocation process” is executed (S507).

  When the “shipment allocation process” for the disposal waiting pallet 200 is completed, a control instruction for the crane 71 is issued to the crane control panel 78 (S509).

  When the transport operation of the crane 71 is completed, a control instruction for the off-site entry / exit cart 21 is issued to the crane control panel 78 (S511). In accordance with the control instructions, the respective transport devices are linked to dispose of the waste waiting pallet 200 accommodated in the automatic warehouse 70 on the off-site entry / exit cart 21 and transport it to the off-site area 20 (Z3 to Z6).

  When the out-of-field entry / exit cart 21 arrives at the cargo handling side, various DBs are updated as the disposal / removal completion setting (S513). For example, in the pallet management DB 330, the pallet management pallet 200 “W004” is updated to the registered position 337 “off-site”. Further, the role management DB 350 is updated to the enrollment position 355 “outside” of the disposal waiting rolls 100 “AB349” to “AB340”. Further, in the pallet management DB 330 and the roll management DB 350, the disposal waiting pallet 200 “W004” and the disposal waiting rolls 100 “AB349” to “AB340” are linked when they arrive at the unloading truck 21 on the unloading side. The roll No. 340, the pallet No. 358, etc. are set to blanks.

  As described above, in the “discarding and unloading process” (FIG. 31), the worker simply designates the discarding waiting roll 100 (or the discarding waiting pallet 200) and instructs inquiries to issue the discarding waiting roll 100. The waste waiting pallet 200 loaded with is automatically transported and delivered from the automatic warehouse 70 to the off-site area 20. Therefore, the disposal waiting roll 100 can be quickly and accurately discarded from the roll shop P while reducing the burden on the operator in the roll disposal process as much as possible.

  After the “discarding and unloading process” is completed, the worker unloads the disposal waiting pallet 200 from the off-site loading / unloading cart 21 and removes the roll end cover 110 (Z7, Z8). Then, the association between the disposal waiting roll 100 and the roll tag 15 in the roll management DB 350 is not released. After printing the disposal roll list LB, the operator reads the “roll disposal” action tag 17 by the wireless HT 6 and reads the barcode information corresponding to the marking of the disposal waiting roll 100 (Z9 to Z11). In the role management DB 350 of the management server 3, the roll processing state 356 and the roll management state 357 of the disposal waiting roll 100 (here, roll numbers “AB349” to “AB340”) are changed from “discarding waiting” to “discarding”. And a blank field is set in the roll tag ID 352. As a result, the association between the disposal waiting roll 100 and the roll tag 15 is released, and the roll tag 15 can be associated with another roll 100 and reused.

[Features of roll shop management system]
Typical features of the roll shop management system 1 of the present embodiment are listed below.

  In the roll shop management system 1 according to the present embodiment, the tag IDs of the roll tags 15 accommodated in the roll end cover 110 attached to each roll 100 are a large number of rolls 100 introduced into the roll shop P by the management server 3. Are managed in association with each other. Therefore, when the action tag 17 and the role tag 15 are read by the wireless HT 6, the management server 3 stores the information (the record of the role management DB 350) related to the role 100 corresponding to the tag ID read from the role tag 15. Updated according to the command corresponding to the action tag 17. For example, when performing a human task to attach the roll end cover 110 to the roll 100 newly purchased by the operator, the “roll purchase” action tag 17 that instructs the human task is read by the wireless HT 6. And an operator reads the roll tag 15 attached to the roll 100 with which the said manual work is performed by radio | wireless HT6. Then, the management server 3 updates the information (record) regarding the role 100 stored in the role management DB 350 in response to the “role purchase” command, and associates the role 100 with the role tag 15 (that is, The association between the roll No. 351 and the roll tag ID 352 on the data) is executed. Thereby, in the management server 3, it becomes possible to identify the roll 100 for which the human work for attaching the roll end cover 110 has been completed.

  Conventionally, even if the roll shop work is automated, the worker is directly manpowered to add or change any work or because of safety or structural problems in each equipment. In some cases, various work (human work) is performed. For example, even if supply and recovery of rolls to and from a polishing machine and a rolling mill are automatically operated by each transport device, roll attachment / detachment with a polishing machine and roll replacement with a rolling mill are performed manually by an operator. For this reason, it is not possible to grasp which role the worker is performing a human task with only the information from each facility device. Furthermore, when a specified number of rolls are transported at the same time and used one by one in each equipment device (for example, when a roll is ground by a polishing machine one by one), information from the equipment equipment is used. However, it is impossible to grasp the detailed contents such as which one of the specified number of roles is used.

  According to the roll shop management system 1 of the present embodiment, the management server 3 performs role management based not only on information from each facility device (operation completion report, status information, etc.) but also on a command and tag ID from the wireless HT 6. Information regarding the plurality of rolls 100 stored in the DB 350 is set to more detailed and accurate contents. And based on this information, the optimal roll shop work is performed about each roll 100, the yield in rolling work is improved, and efficient operation control is implement | achieved.

  In the present embodiment, the roll 100 is not accommodated and transported as a unit, and the pallet 200 on which the specified number of rolls 100 is mounted is accommodated and transported as a unit. In general, the greater the number of rolls introduced into a roll shop, or the higher the processing frequency or replacement frequency of the rolls, the greater the control load on each equipment device. In particular, if the rolls are accommodated and transported, the control load becomes excessive, causing problems such as work delay and yield reduction. In the present embodiment, a prescribed number (for example, 10) of rolls 100 are mounted on the pallet 200, and the pallet 200 is accommodated and transported as a unit, so that the control load of each facility device can be reduced. .

  Here, when the pallet 200 on which the specified number of rolls 100 are mounted is accommodated and transported as a unit, data of the roll 100 and the pallet 200 is used to grasp which pallet 200 each roll 100 is mounted on. The above association (so-called pegging) needs to be performed. Therefore, in the management server 3, the pallet 200 on which each roll 100 is mounted is stored in association with each other as information on a large number of rolls 100 stored in the role management DB 350. As described above, since the management server 3 associates the roll 100 with the pallet 200, even if each roll 100 is accommodated and transported by the pallet 200, the operation control of the roll shop work is accurately performed. It can be carried out.

  In this embodiment, the pallet 200 is assigned a unique pallet number. In the pallet management DB 330, the pallet No. 331 and the pallet tag ID 332 of the pallet 200 are stored in association with the roll No. 340 mounted on the pallet 200. In the roll management DB 350, the roll No 351 and the roll tag ID 352 of the roll 100 mounted on the pallet 200 are stored in association with the pallet No. of the pallet 200.

  By storing (linking) the pallet 200 in the pallet management DB 330 and the roll management DB 350 in association with the roll 100, the management server 3 may store and transport each roll 100 in units of pallets 200. Operation control of shop work can be performed accurately. By storing the pallet tag ID of the pallet tag 16 capable of wireless communication in association with the roll tag ID in the pallet management DB 330 and the roll management DB 350, the pallet 200 can be easily identified. Relationships can be managed easily. By associating the pallet tag ID with the roll tag ID, the management server 3 can easily access the roll information of the roll 100 mounted on the pallet 200 only by recognizing the pallet tag ID when working on a pallet 200 basis. Can do.

  In the present embodiment, the pallet management DB 330 stores the pallet tag ID 332 attached to the pallet 200 in association with the pallet No. of the pallet 200 and the pallet information regarding the pallet 200.

  By storing the pallet information, it becomes easy to access information about the roll 100 mounted on the pallet 200 when working in units of the pallet 200. In particular, when the types of the rolls 100 mounted on the pallet 200 are unified, the burden of information processing in the management server 3 can be reduced as compared with the case where individual roll information is used.

  In the present embodiment, when the management server 3 receives a command instructing that the roll 100 is moved to a specific position and further receives a tag ID, the management server 3 associates it with the roll 100 associated with the tag ID. As the pallet 200 to be attached, the pallet 200 existing at the specific position is set. For example, when an operator performs a human task of transferring the polished roll 100 from the first polishing machine 31 to the polished lifter 38, the “roll movement (TO polished) is instructed by the wireless HT6. Lifter) ”action tag 17 is read. Then, the operator reads the roll tag 15 attached to the polished roll 100 where the human work is performed by the wireless HT 6. Then, in the management server 3, information (record) related to the roll 100 stored in the roll management DB 350 is updated in response to the “roll movement (TO polished lifter)” command, and the roll 100 and the polished lifter are updated. 38 is associated with the pallet 200 (that is, the association between the roll No and the pallet No.), and the roll management state 357 of the roll 100 is updated to “polished (initial polished)”. Is done.

  That is, in the roll shop management system 1, when the roll 100 is moved to a specific position (here, the polished lifter 38) by human work, the roll 100 is mounted on the pallet 200 existing at the specific position. The management server 3 associates the roll 100 with the pallet 200 at a specific position. Thereby, when an operator moves the roll 100 to a specific position, the trouble of inputting the identification number of the pallet 200 on which the roll 100 is mounted can be saved, and the roll shop work can be made efficient.

  Further, when the roll 100 is moved to a specific position (here, the polished lifter 38) by human work, the roll 100 is regarded as being used for work or processing corresponding to the specific position. 100 management states are set based on work and processing corresponding to a specific position. Thereby, when an operator moves the roll 100 to a specific position, the effort which inputs the management state of the said roll 100 is saved, and roll shop work can be made efficient.

  In the present embodiment, a plurality of palette tags 16 configured to store the tag ID and to be able to read the tag ID through wireless communication are used. Further, in the out-of-field area 20, the pallet tag ID is read from the pallet tag 16 attached to the pallet 200 existing on the off-site entry / exit cart 21 located on the unloading side by wireless communication, and the read pallet tag ID is read. A stationary tag reader 80 for transmitting to the management server 3 is installed. The management server 3 receives the pallet tag ID received from the stationary tag reader 80 from the wireless HT 6 together with the “entry setting (outside)” command instructing that the roll 100 is moved to the pallet 200 on the off-site entry / exit cart 21. It is stored in the roll management DB 350 and the pallet management DB 330 in association with the received roll tag ID.

  By providing the stationary tag reader 80, the work burden on the operator can be reduced. By separating the device that reads the roll tag ID from the device that reads the pallet tag ID, the management server 3 refers to the identification information of the wireless HT 6 and the stationary tag reader 80 used for communication. Since it is possible to distinguish and accept the roll tag ID and the pallet tag ID without receiving information identifying whether it is a pallet tag ID, communication is performed in comparison with a case where the roll tag ID and the pallet tag ID are read by a common terminal. The amount of information can be reduced. By automatically reading the pallet tag ID with the stationary tag reader 80, the operator does not have to switch the reading between the roll tag ID and the pallet tag ID by wireless communication on the wireless HT 6, so that the roll tag ID and the pallet tag ID Input errors can be prevented.

  In the present embodiment, the external storage device 300 stores the pallet tag ID attached to the pallet 100 as a pallet management DB in association with the pallet No. and pallet information of the pallet 100. The roll management DB 350 includes roll classification information (roll classification 353 and roll diameter classification) to which the roll 100 belongs. The pallet management DB 330 includes a roll tag ID corresponding to the roll 100 mounted on the pallet 200. Further, the pallet management DB 330 includes pallet classification information (pallet classification and roll classification) that matches the roll classification 353 to which at least one roll 100 mounted on the pallet 200 belongs or the roll diameter classification. When the management server 3 receives the roll tag ID and the command instructing that the roll 100 is moved to a specific position from the wireless HT 6 and receives the pallet tag ID from the stationary tag reader 80, the management server 3 If the corresponding roll classification information (for example, roll classification) does not match the pallet classification information (here, roll classification) corresponding to the received pallet tag ID, an error is displayed on the wireless HT 6. Furthermore, the management server 3 selects one roll classification information (for example, roll diameter classification) from a plurality of roll classification information corresponding to the received roll tag ID, and the selected roll classification corresponding to the received roll tag ID If the information (here, the roll diameter classification) does not match the pallet classification information (here, the roll diameter classification) corresponding to the received pallet tag ID, an error is displayed on the wireless HT 6.

  When the management server 3 automatically transmits an error to the wireless HT 6, the operator can transfer the roll 100 to the pallet 200 without checking the roll classification information of the roll 100 mounted on one pallet 200. Therefore, the work efficiency of the worker can be improved, and the pallet 200 with the unified pallet classification information can be generated accurately.

  In this embodiment, when the management server 3 receives a command instructing that the role 100 is used for a specific work and further receives a tag ID, information on the role 100 associated with the tag ID is received. The management state of the role 100 corresponding to the specific work is set. For example, as described above, when performing a human task to attach the roll end cover 110 to the roll 100 newly purchased by the worker, the “roll purchase” action tag 17 for instructing the human task is read by the wireless HT 6. . And an operator reads the roll tag 15 attached to the roll 100 with which the said manual work is performed by radio | wireless HT6. Then, the management server 3 updates the information (record) related to the role 100 stored in the role management DB 350 in response to the “role purchase” command, and the role management state 357 of the role 100 changes to “initial polishing wait”. Is updated.

  That is, in the roll shop management system 1, when the roll 100 is used for a specific human work (here, role purchase), the management state of the roll 100 is set based on the specific work. Thereby, when an operator uses the roll 100 for a specific work, the trouble of inputting the management state of the roll 100 can be saved, and the roll shop work can be made efficient.

  In the present embodiment, when the worker reads the roll tag 15 attached to the roll 100 using the wireless HT 6, detailed information regarding the roll 100 is displayed on the wireless HT 6. That is, when the operator wants to obtain detailed information on the desired roll 100, it is only necessary to read the roll tag 15 attached to the roll 100, so that the labor and burden on the operator is greatly reduced. And about the desired roll 100, it can be judged correctly based on the information displayed on radio | wireless HT6 whether it is the roll diameter, the management state, or an accident roll.

  In particular, since the roll 100 (so-called accident roll) in which a defect has occurred in the past rolling operation or the like is likely to cause a defect again in the rolling operation even if it is regenerated by polishing or dull processing, Being able to grasp the accident roll is important for careful rolling work. In that respect, if the operator reads the roll tag 15 with the wireless HT 6, it is possible to determine whether or not it is an accident roll by referring to the detailed information of the desired roll 100.

  In the present embodiment, the management server 3 causes the purchase role list LA to be printed on the printer in the off-site area PC 5a. The wireless HT 6 reads the roll number from the barcode information of the purchased roll list LA and transmits it to the management device. When the management server 3 receives the role tag ID and the roll number from the wireless HT 6, the management server 3 stores the received role number in the role management DB 350 in association with the received role tag ID.

  By reading the roll tag with wireless communication and reading the barcode with infrared rays, it is possible to recognize whether the reading target is the roll tag ID or the roll identification information, regardless of the reading means, regardless of which one the operator reads first. , Input errors by the operator can be prevented, and work efficiency can be improved. By reading the printed bar code, the operator can easily input the roll number as compared with the key input, so that the operator can prevent an input error and improve the work efficiency. . Since the association between the roll tag ID and the roll number is normally performed only at the time of new warehousing, it is possible to associate the roll number with the roll tag ID more easily and cheaply than when storing the roll number in the roll tag ID.

  Further, in this embodiment, the roll end cover 110 has at least a fitting portion 112 that can be fitted to and detached from the neck portion 102 of the roll 100 and a holding portion 113 that can hold the roll tag 15.

  The roll tag 15 can be attached to the roll 100 simply by fitting the neck portion 102 of the roll 100 into the roll end cover 110, and the roll shop work can be made more efficient. In addition, since the roll end cover 110 is non-conductive, the possibility of preventing reading of the roll tag 15 by wireless communication is reduced.

  The first polishing device 31 and the second polishing device 32 polish the roll with the roll end cover 110 removed. The first polishing device 31 and the second polishing device 32 are informed of the replacement of the roll end cover 110 and the stationary tag reader 80 that reads the roll tag ID from the roll end cover 110 removed from the roll 100 and transmits it to the management server 3. The lamp to be attached is attached. The roll management state 357 of the roll management DB 350 is set to “wait for neck polishing” when the roll is an object to polish the neck portion 102 in the polishing apparatus. When “waiting for neck polishing” is set in the roll management state 357 of the roll 100 corresponding to the roll tag ID received from the stationary tag reader 80, the management server 3 turns on the lamp installed in the polishing area 30. The change of the roll end cover 110 is notified. The management server 3 stores the received roll tag ID in the external storage device 300 as the old roll tag ID. Thereafter, when the roll tag ID (new roll tag ID) of the roll end cover 110 placed by the worker on the stationary tag reader 80 is different from the old roll tag ID, the management server 3 determines the roll number and roll corresponding to the old roll tag ID. The information is stored in the role management DB 350 in association with the new role tag ID.

  According to this solution, when the roll neck diameter is reduced by polishing the neck portion 102 of the roll 100 and the roll end cover 110 must be replaced, the operator forgets to replace the roll end cover 110. Can be prevented.

  In the present embodiment, the first polishing machine 31, the second polishing machine 32, and the dull processing machine 41 correspond to the “roll processing apparatus” of the present invention, and the ZM rolling machine 2 and the ZM process control 4 of the present invention are “rolling”. It corresponds to "apparatus". Out-of-field storage cart 21, first polishing conveyor 34, second polishing conveyor 35, central polishing conveyor 36, polishing waiting lifter 37, polished lifter 38, dull roll transfer machine 44, output conveyor 51, input conveyor 52, actual stock conveyor 63, delivery lifter 64a, delivery lifter 64b, roll supply traverser 65, empty stock conveyor 66, delivery lifter 67a, delivery lifter 67b, roll recovery traverser 68, crane 71, crane control panel 78, peripheral control panel 79, main traverser 90 Corresponds to the “conveying device” of the present invention.

  The roll 100 corresponds to the “roll” of the present invention, and the roll No. corresponds to the “roll identification information” of the present invention. The roll tag ID corresponds to the “roll additional ID” of the present invention. The roll tag 15 corresponds to the “roll additional ID storage unit” of the present invention. The wireless HT6 corresponds to the “terminal device” of the present invention, the command reception processing function of the wireless HT6 corresponds to the “command reception means” of the present invention, and the tag reading processing function of the wireless HT6 corresponds to the “roll addition ID” of the present invention. It corresponds to “reading means”.

  The management server 3 corresponds to the “management device” of the present invention, and the external storage device 300 storing the role management DB 350 corresponds to the “storage means” of the present invention. Information included in the role management DB 350 corresponds to “role information”. The function of acquiring information from various devices connected to the management server 3 by wired communication and / or wireless communication in the management server 3 corresponds to the “operation information acquisition means” of the present invention. The function of communicating with the wireless terminal HT6 by wireless communication corresponds to the “management communication means” of the present invention, and the management function for inputting / outputting, searching, setting, etc. of various data in the management server 3 is “ It corresponds to “role information management means”.

  The pallet 200 corresponds to the “pallet” of the present invention. The pallet No. corresponds to “pallet identification information” unique to the pallet, and the information included in the pallet management DB 330 corresponds to “pallet information”. The pallet tag ID corresponds to “pallet addition ID” that is unique identification information, and the pallet tag corresponds to “pallet addition ID storage means” that stores the pallet addition ID in a readable manner. The stationary tag reader 80 corresponds to a “pallet addition ID reader”. The stationary tag reader 80 provided in the polishing area 30 corresponds to “polishing roll additional ID reading means”. The roll movement (TO polished lifter) command and the warehousing setting (outside) command correspond to the “movement instruction command” of the present invention. Further, the printer constituting the PC 5 corresponds to the “printing means” of the present invention, the barcode information included in the purchase roll list LA and the disposal roll list LB corresponds to the “identification image” of the present invention, and the management server 3 The function of creating the purchase roll list LA and the disposal roll list LB and printing on the PC 5 corresponds to the “print control means” of the present invention, and the function of reading the barcode information in the wireless HT 6 is the “identification image reading” of the present invention. It corresponds to “means”. The roll end cover 110 corresponds to the “roll management member” of the present invention, the fitting portion 112 corresponds to the “fitting portion” of the present invention, and the holding portion 113 corresponds to the “holding portion” of the present invention.

  In addition, although this invention is described in said preferable embodiment, this invention is not restrict | limited only to it. Various embodiments are possible without departing from the spirit and scope of the invention.

  For example, in the roll shop management system 1 of the present embodiment, a case where most of the operation control of the roll shop work is automated in order to keep the human work by the worker to a minimum is illustrated, but the operation control of the roll shop work is illustrated. The ratio of automating (in other words, the ratio of manual operation by the worker) can be arbitrarily set. For example, in the present embodiment, the allocation of the roll 100 to “smooth” or “dull” is automatically determined based on the above-described roll supply pattern. However, the operator can select “smooth” or “ "Dal" may be set manually.

  Moreover, in this embodiment, supply and collection | recovery of the roll 100 with respect to the grinding | polishing area 30, the dull area 40, and the rolling area 60 are automated, However, It is not limited to this aspect. For example, an operator may issue an inquiry for an arbitrary roll 100 using the PC 5 in each area, and perform polishing or rolling on the roll 100. Even when the above-described various pallet warehousing conditions are not satisfied (for example, when the pallet 200 is not empty or the pallet 200 is not full), the operator presses the various pallets 200 and presses the various PBLs. You may make it make it forcibly enter.

  Further, in the present embodiment, “roll purchase”, “entry setting (outside)”, “roll movement (TO polished lifter) according to human work (that is, a command that can be input by the worker) by the worker. ”,“ Roll movement before rolling use ”,“ rolling used roll movement ”, and“ roll discard ”action tags 17 are provided, but this is not a limitation. By increasing commands that can be input by the worker (that is, by increasing the action tag 17), the worker may arbitrarily execute more tasks. Further, the command input by the operator is not limited to the mode in which the action tag 17 is read by the wireless HT 6, and an arbitrary command can be selected on the screen of the wireless HT 6 or voice input can be performed by the wireless HT 6. Good.

  In this embodiment, the roll end cover 110 is attached to the roll 100 to physically associate the roll tag 15 with the roll 100. However, the present invention is not limited to this mode. For example, the roll tag 15 may be directly attached to the roll 100, or the roll tag 15 may be attached via another attachment member (such as an adhesive seal).

DESCRIPTION OF SYMBOLS 1 Roll shop management system 2 ZM rolling mill, 2a Upper part of rolling mill, 2b Lower part of rolling mill 3 Management server 4 ZM Procon 5 PC, 5a Off-site area PC, 5b Polishing area PC, 5c Polishing area PC
5d Dal area PC, 5e Rolling area PC
6 wireless HT, 7 wireless AP
15 roll tag, 16 pallet tag, 17 action tag 20 off-site area, 21 off-site entry / exit cart, 28 operation panel 30 polishing area, 31 first polishing machine, 32 second polishing machine, 33 polishing entry / exit traverser 34 first polishing conveyor, 35 Second polishing conveyor, 36 Central polishing conveyor 37 Polishing waiting lifter, 37a Lower position, 37b Upper position 38 Polished lifter, 38a Lower position, 38b Upper position 39 Temporary storage space 40 Dal area, 41 Dal processing machine, 42 Dal supply carriage , 43 Dal recovery cart 44 Dal roll transfer machine 50 Entry / exit area, 51 Entry conveyor, 52 Entry conveyor 60 Rolling area, 61 ZM supply area, 62 ZM recovery area 63 Real stock conveyor, 63a Upper stage position, 63b Lower stage position, 63c Middle stage Position 64a delivery lifter, 64b delivery lifter 65 Roll supply traverser, 65a Upper position, 65b Lower position 66 Empty stock conveyor, 66a Upper position, 66b Lower position, 66c Middle position 67a Delivery lifter, 67b Delivery lifter 68 Roll recovery traverser 69 Changer, 69a Supply side upper stage, 69b Supply Side lower stage, 69c Collection side 69d Reuse section, 69e Built-in section 70 Automatic warehouse, 70a First warehouse row, 70b Second warehouse row 71 Crane, 78 Crane control panel, 79 Peripheral control panel 80 Stationary tag reader 85 Measuring instrument, 86 Transmitter, 87 Receiver, 89 HUB device 90 Main traverser, 91 Supply unit, 92 Recovery unit 100 roll, 100a Work roll, 100b First roll 100c Second roll, 100d Backing roll 101 Body, 102 Neck, 103 Part 110 roll end cover, 111 main body part, 111a one end face, 111b other end face 112 fitting part, 112a protrusion 113 holding part 113a first part, 113b second part, 114 sealing plug, 115 air escape hole 200 Pallet, 201 Base, 202 Roll stopper 300 External storage device 310 Warehouse management DB, 311 Location, 312 Shelf status, 313 Reserved status 314 Prohibited status, 315 Pallet No.
330 Pallet management DB, 331 Pallet No., 332 Pallet tag ID
333 Pallet classification, 334 Pallet condition, 335 Pallet type 336 Use prohibited classification, 337 Enrollment position, 338 Roll diameter classification 339 Number of rolls, 340 Roll number
350 Roll management DB, 351 Roll No, 352 Roll tag ID
353 Roll section, 354 Roll diameter section, 355 Enrollment position 356 Roll processing state 357 Roll management state, 358 Pallet number, 359 Position in pallet 360 Rolling related information, 361 Polishing related information, 362 Dal related information

Claims (5)

It is a roll shop management system that manages a roll shop to which a roll is introduced, which is a plurality of rolls used in a rolling apparatus, and is assigned with unique roll identification information,
A transport device for transporting the roll;
A roll processing device for processing the surface of the roll;
A plurality of role addition ID storage means configured to store the role addition ID as unique identification information and to be able to read the role addition ID from the outside;
A roll additional ID reading unit that reads the roll additional ID from the roll additional ID storage unit; a command receiving unit that receives a command; and a terminal-side communication unit that transmits at least the roll additional ID and the command to the management device. A terminal device having
The management device
Storage means for storing the roll addition ID of the roll addition ID storage means attached to the roll in association with the roll identification information of the roll and roll information related to the roll;
Operation information acquisition means for acquiring operation information from the rolling device, the transport device and the roll processing device;
Management-side communication means for communicating with the terminal device;
Based on the operation information, the role management information is managed, and the role addition ID received from the terminal device via the management side communication unit and the role addition ID associated with the role addition ID based on the command And a role information management means for managing the role information. It further includes a pallet that is configured to be transportable with the specified number of rolls mounted thereon,
The roll shop management system according to claim 1, wherein the roll information management means stores the pallet in the storage means in association with the roll additional ID of the roll mounted on the pallet. The command that can be received by the command receiving means includes a movement instruction command that instructs that the roll is moved to a specific position,
When the roll information management unit receives the movement instruction command and the roll addition ID, the roll information management unit stores the pallet existing at the specific position in the storage unit in association with the roll addition ID. The roll shop management system according to claim 2. A printing means;
The management apparatus further includes a print control unit that causes the printing apparatus to print a unique identification image corresponding to the roll identification information,
The terminal device further includes identification image reading means for reading the roll identification information from the identification image, and transmits the read roll identification information to the management device via the terminal side communication means,
When the role information management unit receives the role addition ID and the role identification information from the terminal device via the management side communication unit, the role information management unit corresponds to the received role addition ID. The roll shop management system according to claim 2, wherein the roll shop management system is additionally stored in the storage unit. The apparatus further comprises a plurality of roll management members each having a fitting part that is detachable with respect to an edge part of the roll, and a holding part capable of holding the roll additional ID storage unit. The roll shop management system according to claim 4.