JP6443460B2 - Rolling line display system - Google Patents

Description

The present invention relates to a rolling line display system.

  For example, in a manufacturing plant, the state of a manufacturing device and the state of a manufactured product manufactured by the manufacturing device are displayed on a display, which is useful for stable operation and quality improvement of the manufactured product. Conventionally, a figure of a standard two-dimensional manufacturing apparatus and a figure of a product to be manufactured are displayed on a display, and various numerical data related to them are further displayed. The operator or engineer selected necessary information from the displayed numerical data and used it for operation.

  On the other hand, a technique for improving convenience by performing three-dimensional display on a display has been proposed. For example, Patent Document 1 describes a system for maintaining equipment. In the system described in Patent Document 1, CAD data of a device and a CG image of contents stored in the device are synthesized and displayed on a display unit in a visually correlated manner.

Japanese Unexamined Patent Publication No. 2013-190442

  The system described in Patent Document 1 is for maintaining equipment. For this reason, in this system, the state of the equipment and the like cannot be displayed on the display in an easy-to-read manner according to the operating status.

  For example, there are a quality management department and an equipment management department in the departments involved in the manufacturing plant. The quality control department is a department that manages the quality of the manufactured product manufactured by the manufacturing apparatus. The equipment management department is a department that manages manufacturing equipment. These departments have different targets to be monitored. For example, a person in a quality control department wants to monitor how a product is processed inside a manufacturing apparatus in order to maintain the quality of the product. The person in the facility management department wants to monitor the operating status of the manufacturing apparatus in order to keep the manufacturing apparatus in a good state. The system described in Patent Document 1 cannot meet these requirements.

The present invention has been made to solve the above-described problems. The object of the invention is to provide a display system of the rolling line can be displayed easily seen on the display of the status of the rolled material in accordance with the request or status, etc. that pass through the state and rolling stand of the rolling stand.

The rolling line display system according to the present invention performs a calculation necessary for displaying the state of the rolling stand on the display based on the first information relating to the rolling stand and the second information relating to the rolled material passing through the rolling stand. First calculating means for performing, second calculating means for performing calculations necessary for displaying the state of the rolled material passing through the rolling stand on the display, based on the first information and the second information, and the first calculating means Display control means for controlling the display of the display based on the calculation result by the second calculation means and the calculation result by the second calculation means, and a selection means for selecting one of the rolling stand and the rolled material passing through the rolling stand. . The selection means selects the rolled material while the rolled material passes through the rolling stand, and selects the rolling stand while the rolled material does not pass through the rolling stand. When the rolling stand is selected by the selecting means, the display control means is configured such that the state of the rolling stand and the rolling material passing through the rolling stand are higher in visibility than the rolling material passing through the rolling stand. The status is displayed on the display at the same time. When the rolling material is selected by the selection means, the display control means is configured so that the rolling material that passes through the rolling stand has higher visibility than the rolling stand and the state of the rolling material that passes through the rolling stand. The status is displayed on the display at the same time.

If the display system of the rolling line according to the present invention, can be displayed easily seen on the display to match the state of the rolled material passing through the states and rolling stand of the rolling stand to a request or status, etc..

It is a figure which shows the structure of the display system in Embodiment 1 of this invention. The example of a display of the indicator when the display system shown in FIG. 1 is applied to a rolling line is shown. It is a flowchart which shows the operation example of the display system shown in FIG. It is a general figure which shows the external appearance of the manufacturing apparatus manufactured with a manufacturing apparatus and a manufacturing apparatus. It is a figure which shows the example of a display of the indicator at the time of giving priority to the display of a rolling material. It is a figure which shows the example of a display of the indicator at the time of giving priority to the display of a rolling stand. It is a figure which shows the example which highlighted the rolling material of the exit side of a rolling roll. It is a figure which shows the example which highlighted and displayed the cross section of the rolling roll. It is a figure which shows the example of a display of the indicator at the time of using the image | video image | photographed with the camera. It is a figure which shows the other structure of the display system in Embodiment 1 of this invention.

  The present invention will be described with reference to the accompanying drawings. The overlapping description will be simplified or omitted as appropriate. In each figure, the same reference numerals indicate the same or corresponding parts.

Embodiment 1 FIG.
FIG. 1 is a diagram showing a configuration of a display system according to Embodiment 1 of the present invention.
The display system shown in FIG. 1 is applied to, for example, a manufacturing plant equipped with a manufacturing apparatus. By using this display system, it is possible to monitor both the state of the manufacturing apparatus and the state of the product manufactured by the manufacturing apparatus. The product may be a product or an intermediate product. For example, a person in the quality control department uses this display system to monitor how a product is processed inside the manufacturing apparatus. A person in the facility management department uses this display system to monitor the operating status of the manufacturing apparatus.

  The display device 1 is provided in the present display system so that monitoring by the quality control department and monitoring by the equipment management department can be performed accurately and efficiently. The display device 1 includes, for example, a calculation unit 2, a calculation unit 3, a storage unit 4, a display control unit 5, a selection unit 6, and a display 7.

  The calculation unit 2 performs various calculations necessary for displaying the state of the manufacturing apparatus on the display unit 7. The computing unit 2 performs computation based on, for example, the first information and the second information. The first information is information related to the manufacturing apparatus. The second information is information relating to a workpiece manufactured by the manufacturing apparatus. The first information and the second information are stored in the storage unit 4, for example.

  The calculation unit 3 performs various calculations necessary for displaying on the display unit 7 the state of the product manufactured by the manufacturing apparatus. The computing unit 3 performs computation based on, for example, the first information and the second information. For example, the calculation unit 3 performs a calculation by using part of the same information as the information used by the calculation unit 2 for calculation among the first information stored in the storage unit 4. Similarly, the calculation unit 3 performs calculation using part of the same information as the information used by the calculation unit 2 for calculation among the second information stored in the storage unit 4.

  The detection device 8 detects specific information regarding the manufacturing device. For example, when the manufacturing apparatus includes a motor, the detection device 8 detects the speed of the motor. The information detected by the detection device 8 is not limited to this. A plurality of detection devices 8 may be provided. The detection device 8 outputs the detected information to the display device 1. Information detected by the detection device 8 may be included in the first information.

  The detection device 9 detects specific information related to a workpiece manufactured by the manufacturing device. For example, when the manufacturing apparatus includes a rolling device that rolls a metal plate, the detection device 9 detects the thickness of the metal plate. The information detected by the detection device 9 is not limited to this. A plurality of detection devices 9 may be provided. The detection device 9 outputs the detected information to the display device 1. Information detected by the detection device 9 may be included in the second information.

  The display control unit 5 controls the display on the display unit 7. The display control unit 5 controls display based on the calculation result by the calculation unit 2 and the calculation result by the calculation unit 3. For example, the display control unit 5 causes the display device 7 to simultaneously display the state of the manufacturing apparatus and the state of the workpiece manufactured by the manufacturing apparatus. The display control unit 5 adjusts the amount of information displayed on the display unit 7 so that the visibility of the manufacturing apparatus is higher than that of the manufactured object manufactured by the manufacturing apparatus, depending on the conditions. Moreover, the display control part 5 adjusts the information amount displayed on the indicator 7 so that the visibility of the to-be-manufactured object manufactured with a manufacturing apparatus may become higher than a manufacturing apparatus according to conditions.

  The selection unit 6 is for selecting one from a manufacturing apparatus and a manufactured object manufactured by the manufacturing apparatus. The selection unit 6 includes a device for manually performing the selection such as a push button or a changeover switch. In such a case, the selection by the selection unit 6 is manually performed by the user of the display system. The selection by the selection unit 6 may be performed automatically. In such a case, the selection unit 6 selects the article to be manufactured while the article to be manufactured is manufactured by a manufacturing apparatus, for example. The selection unit 6 selects the manufacturing apparatus while the article to be manufactured is not manufactured by the manufacturing apparatus.

The selection by the selection unit 6 may be performed both automatically and manually. In such a case, the selection unit 6 performs automatic selection according to the condition if manual selection is not performed. When manual selection is performed, the selection unit 6 gives priority to the manually selected result over the automatically selected result.
The selection by the selection unit 6 is not limited to these methods.

  The selection by the selection unit 6 is performed in order to select what is highlighted on the display unit 7. When the selection unit 6 selects the manufacturing apparatus, the display control unit 5 controls the display on the display 7 so that the visibility of the manufacturing apparatus is higher than that of the article to be manufactured. Thereby, the state of the manufacturing apparatus is displayed in detail on the display 7, and the display relating to the workpiece is simplified. When the product to be manufactured is selected by the selection unit 6, the display control unit 5 controls the display on the display unit 7 so that the visibility of the product to be manufactured is higher than that of the manufacturing apparatus. Thereby, the state of the article to be manufactured is displayed in detail on the display device 7, and the display relating to the manufacturing apparatus is simplified.

  Next, an example in which the present display system is applied to a rolling line will be described. FIG. 2 shows a display example of the display 7 when the display system shown in FIG. 1 is applied to a rolling line. The rolling line includes a plurality of manufacturing apparatuses such as a shear 10, FSB 11, edger 21, rolling stand 12, runout table 13, and downcoiler 14. FIG. 2 shows a display example when the present display system is applied to a rolling line having seven rolling stands 12. The product to be manufactured by the rolling line manufacturing apparatus is a metal plate (rolled material 15).

  The user of the present display system views the display on the display unit 7 shown in FIG. The function of the input unit 16 is a function provided in the display device 1 as necessary. For example, a keyboard or a mouse may be provided as the input unit 16. As an example, the operation of the present display system when one rolling stand 12 is selected as a manufacturing apparatus to be enlarged and displayed will be described with reference to FIG. FIG. 3 is a flowchart showing an operation example of the display system shown in FIG.

When one rolling stand 12 is selected as a manufacturing apparatus to be enlarged and displayed, the calculation units 2 and 3 acquire information necessary for calculation from the storage unit 4 and the detection devices 8 and 9 (S101). The information acquired by the computing units 2 and 3 in S101 includes, for example, the following information.
I) Information originally possessed by the rolled material 15: second information The chemical composition of the rolled material 15, the thickness / width / length of the raw material (slab), the thickness / width as a product target value, etc. II) From the upstream rolling stand 12 Succession information: second information Thickness, width, temperature, thickness profile in the width direction (sheet thickness distribution), flatness, etc. of the rolling material 15 on the entry side of the rolling roll III) Information on the rolling mill: First information Actual value of rotation speed, actual value of roll gap, profile in roll width direction (roll diameter distribution considering thermal expansion amount and wear amount), dimensions of each component (to display the rolling mill in detail and skeleton) The profile in the width direction of the roll can be calculated using a model.

The calculation unit 2 performs a calculation necessary for displaying the state of the rolling stand on the display unit 7 based on the acquired various information (S102). The calculation unit 3 performs calculations necessary for displaying the state of the rolled material 15 passing through the rolling stand on the display unit 7 based on the acquired various information (S102). For example, the calculation units 2 and 3 calculate the following information using the rolling model stored in the storage unit 4 in S102.
IV) Various information in the rolling roll bite Deformation resistance, rolling load, advance rate and reverse speed, neutral angle, biting angle, etc. V) Various information on the rolling roll exit side Thickness / width / temperature / width direction of the rolling material 15 Thickness profile (plate thickness distribution), flatness, position, etc.

  Based on the information acquired in S101 and the information calculated in S102, the display control unit 5 causes the display 7 to simultaneously display the state of the rolling stand 12 and the state of the rolled material 15 (S103). At this time, the display control unit 5 displays one state of the rolling stand 12 or the rolled material 15 in detail according to the selection result by the selection unit 6 and simply displays the other state. Hereinafter, the function of the display control unit 5 will be described in detail with reference to FIGS.

  FIG. 4 is a general view showing an appearance of a manufacturing apparatus and a product manufactured by the manufacturing apparatus. The manufacturing apparatus performs processing such as processing or painting on the workpiece. When the workpiece before processing enters the manufacturing apparatus, the manufacturing apparatus performs processing on the workpiece. The product to be processed is unloaded from the manufacturing apparatus. Generally, the outside of a manufacturing apparatus is covered with a case. For this reason, the apparatus and to-be-manufactured product which exist inside a case cannot be seen from the outside. Further, even when the manufacturing apparatus is not covered by the case, it is not possible to see the part where the device interferes from the outside.

  Therefore, when the product to be manufactured is selected by the selection unit 6, the display control unit 5 gives priority to the display of the product over the display of the manufacturing apparatus, and displays the state of the product on the display 7 in detail. . If it is the said example, the display control part 5 will display the state of the rolling material 15 which passes the rolling stand 12 from the state of the rolling stand 12 in detail.

  FIG. 5 is a diagram showing a display example of the display unit 7 when priority is given to the display of the rolled material 15. The display control unit 5 displays the state of the rolling stand 12 and the state of the rolled material 15 on the display 7 in a three-dimensional manner, for example. At this time, as shown in FIG. 5, the display control unit 5 three-dimensionally displays the state of the rolled material 15 on the display 7 so that the portion of the rolled material 15 that is behind the rolling stand 12 can be visually recognized. Display. Regarding the display of the rolling stand 12, the display control unit 5 changes the state of the rolling stand 12 so that the outer shape of a part or all of the equipment in contact with the rolling material 15 among the equipment constituting the rolling stand 12 can be visually recognized. Displayed on the display 7. FIG. 5 shows an example in which a rolling roll 17 for extending the rolled material 15 thinly is displayed on the display 7 as a skeleton. In addition, the display method which gives priority to the display of the rolling material 15 is not limited to this.

  When the selection unit 6 selects the manufacturing apparatus, the display control unit 5 gives priority to the display of the manufacturing apparatus over the display of the workpiece, and displays the state of the manufacturing apparatus on the display unit 7 in detail. If it is the said example, the display control part 5 will display the state of the rolling stand 12 in more detail than the state of the rolling material 15 which passes the rolling stand 12. FIG.

  FIG. 6 is a diagram illustrating a display example of the display unit 7 when priority is given to the display of the rolling stand 12. For example, as shown in FIG. 6, the display control unit 5 three-dimensionally displays the state of the rolling stand 12 on the display unit 7 so that a portion of the rolling stand 12 that is behind the rolled material 15 can be visually recognized. Let Regarding the display of the rolled material 15, the display control unit 5 causes the display 7 to display the state of the rolled material 15 so that a part or all of the outer shape of the rolled material 15 can be visually recognized. FIG. 6 shows an example in which the thickness of the rolled material 15 is ignored and the rolled material 15 is displayed on the display 7 in a skeleton manner two-dimensionally. In addition, the display method which gives priority to the display of the rolling stand 12 is not limited to this.

  Thus, by displaying one piece of information on the rolling stand 12 or the rolled material 15 more than the other piece of information, it is possible to display appropriately according to the user's request or the situation at that time. Further, by displaying in detail up to the shaded part of one and simplifying the display of the other, a sharp display is possible, and visibility can be improved. In order to further improve the visibility of one, it is preferable to make the other display transparent as in the above example. If it is the said example, the state by which the rolling material 15 is rolled with the rolling roll 17 can be displayed on the indicator 7 in detail. In addition, when one of the displays is transparent, the state where the electric motor 18 of the rolling stand 12 is rotating may be displayed in detail on the display 7.

  Further, when an output item is designated (S104), the display control unit 5 may display information on the designated item on the display unit 7 (S105). The designation of the output item is performed using the input unit 16, for example. The items that can be specified are set in advance.

  When the product to be manufactured is selected by the selection unit 6, only items related to the product to be manufactured may be designated. FIG. 5 shows an example in which the thickness and width of the rolling material 15 on the entry side of the rolling roll 17 are specified as output items. The display control unit 5 additionally displays numerical data of specified items in the vicinity of the portion on the entry side of the rolled material 15 that is displayed by simulation using a rolling model or the like.

  The display control unit 5 may highlight part or all of the rolled material 15 when displaying information on the designated item on the display unit 7. FIG. 7 is a diagram showing an example in which the rolled material 15 on the exit side of the rolling roll 17 is highlighted. For example, when the content shown in FIG. 5 is displayed on the display device 7, when the rolling material 15 on the exit side of the rolling roll 17 is clicked with a pointer, the thickness of the center portion of the rolling material 15 is larger than the thickness of the end portion. The display changes to emphasized.

  The rolled material 15 has a quality index called a plate crown. It is difficult to form the rolled material 15 completely flat across the width direction. The rolled material 15 is generally thick at the center in the width direction and thin at the ends. The difference between the thickness of the central portion of the rolled material 15 in the width direction and the thickness of the portion inside several tens of mm from the end portion is called a plate crown. The plate crown is often on the order of 0.1 mm. For this reason, when the rolled material 15 is displayed on the display 7 with an actual scale when the plate crown is designated as an output item, it is difficult to distinguish the difference in thickness of the rolled material 15 from the display on the display 7.

  Therefore, as shown in FIG. 7, the difference in thickness of the rolled material 15 is highlighted and displayed on the display 7. Thereby, the difference in thickness of the rolled material 15 can be easily grasped from the display on the display unit 7. In addition, when the rolling material 15 is selected by the selection part 6, the display of the rolling stand 12 is simplified. For this reason, even if the rolled material 15 is highlighted, the boundary portion between the rolled material 15 and the rolling stand 12 does not become difficult to see. In addition to the plate crown, when data such as the plate width, thickness and flatness of the rolled material 15 are additionally displayed, the target portion may be highlighted.

  The display method of the information regarding the designated item is not limited to the above. For example, information on the designated item may be additionally displayed on the display device 7 in an easy-to-understand manner by using a diagram, a graph, a video, and the like by multidimensional display.

  On the other hand, when a manufacturing apparatus is selected by the selection unit 6, only items relating to the manufacturing apparatus may be designated. FIG. 6 shows an example in which the rotational speed, torque, current of the electric motor 18, the load of the reduction device 19, and the speed of the rolling roll 17 are specified as output items. The display control unit 5 additionally displays numerical data of designated items in the vicinity of the electric motor 18, the reduction device 19, and the rolling roll 17.

  The display control unit 5 may highlight part or all of the rolling stand 12 when displaying information on the designated item on the display unit 7. FIG. 8 is a diagram showing an example in which the cross section of the rolling roll 17 is highlighted. For example, when the content shown in FIG. 6 is displayed on the display unit 7, when the rolling roll 17 is clicked with a pointer so as to designate the cross section of the rolling roll 17, the cross section display changes to emphasize the difference in diameter of the rolling roll 17. .

  When the rolling material 15 is at a high temperature, the rolling roll 17 is thermally expanded by heat received from the rolling material 15, heat due to friction with the rolling material 15, and the like. Further, the rolling roll 17 is worn by contact with the rolling material 15 and friction. The cross section when the rolling roll 17 is cut in the width direction has a complicated shape due to thermal expansion and wear. However, the amount of change in the diameter of the rolling roll 17 is small compared to the diameter. For this reason, when the cross section of the rolling roll 17 is displayed on the display unit 7 with an actual scale, it is difficult to distinguish the difference in diameter of the rolling roll 17 from the display on the display unit 7.

  Therefore, as shown in FIG. 8, the difference in the diameter of the rolling roll 17 is emphasized and displayed on the display 7. Thereby, the difference in the diameter of the rolling roll 17 can be easily grasped from the display on the display unit 7. If the detection device 8 for detecting the cross-sectional shape of the rolling roll 17 is provided inside the rolling stand 12, the detection result by the detection device 8 may be used for display. When such a detection device 8 is not provided, for example, the cross-sectional shape of the rolling roll 17 can be obtained from a calculation result by simulation using a shape model of the rolling roll 17. In addition to the cross-sectional shape of the rolling roll 17, when displaying various information, a symmetrical portion may be highlighted.

  The display method of the information regarding the designated item is not limited to the above. For example, information on the designated item may be additionally displayed on the display device 7 in an easy-to-understand manner by using a diagram, a graph, a video, and the like by multidimensional display.

  In the above description, the calculation units 2 and 3 perform all calculations necessary for various displays, and then the display control unit 5 selects necessary information according to the selection result by the selection unit 6 and displays it on the display unit 7. I let you. This is an example. The calculation units 2 and 3 may perform only calculations necessary for display at that time according to the selection result by the selection unit 6.

  Next, another example in which the present display system can be adopted will be described. The configurations, functions, and operations not described in detail below are the same as the configurations, functions, and operations described above.

  As shown in FIG. 1, when the display system includes the camera 20, the display control unit 5 may cause the display device 7 to display an image captured by the camera 20. For example, when the camera 20 (first camera) captures an object manufactured by the manufacturing apparatus, the display control unit 5 captures an image by the camera 20 if the object to be manufactured is selected by the selection unit 6. The state of the product to be manufactured is displayed on the display 7 using a part of the image.

  FIG. 9 is a diagram illustrating a display example of the display unit 7 when an image captured by the camera 20 is used. A portion of the rolled material 15 disposed inside the rolling stand 12 cannot be photographed by the camera 20. However, the portion of the rolled material 15 that has come out of the rolling stand 12 can be photographed by the camera 20. FIG. 9 shows an example in which a part of the rolled material 15 that has come out of the case is replaced with a real image by the camera 20 from a display by simulation.

  On the other hand, when the camera 20 (second camera) captures the manufacturing apparatus, the display control unit 5 uses the video captured by the camera 20 as a part if the selection unit 6 selects the manufacturing apparatus. The state of the apparatus is displayed on the display 7. This is particularly effective when the camera 20 takes a picture of a device existing inside the case.

  FIG. 10 is a diagram showing another configuration of the display system according to Embodiment 1 of the present invention. The display system shown in FIG. 10 includes indicators 7a and 7b. The display controller 5a controls the display on the display device 7a. Selection by the selection unit 6a is performed in order to select an object to be displayed highlighted on the display 7a. The input unit 16a is for a person who views the display device 7a to input information.

  Similarly, the display control unit 5b controls display on the display unit 7b. The selection by the selection unit 6b is performed in order to select an object to be displayed highlighted on the display 7b. The input unit 16b is for a person viewing the display device 7b to input information.

  If it is the said structure, a manufacturing apparatus can be displayed on the display 7a in detail, and a to-be-manufactured object can also be displayed on the display 7b in detail. Three or more displays 7 may be provided in the present display system. In such a case, a part of the display device 7 may be remotely installed. By adopting such a configuration, even when there are a plurality of people who want to use this display system, it is possible to meet the demands of each person.

  In the present embodiment, each part indicated by reference numerals 2, 3 and 5 (further reference numeral 6 in the case of automatic selection) indicates a function of the display device 1. The display device 1 includes a circuit including, for example, an input / output interface, a CPU, and a memory as hardware resources. The display device 1 realizes each function of each unit 2, 3 and 5 (6) by executing a program stored in the memory by the CPU. You may implement | achieve part or all of the function which each part 2, 3 and 5 (6) has with hardware.

  The display system according to the present invention can be applied to a manufacturing plant equipped with a manufacturing apparatus.

DESCRIPTION OF SYMBOLS 1 Display apparatus 2 Calculation part (1st calculation part)
3. Calculation unit (second calculation unit)
4 storage unit 5 display control unit 6 selection unit 7 display unit 8 detection device (first detection device)
9 Detection device (second detection device)
10 Shah 11 FSB
DESCRIPTION OF SYMBOLS 12 Rolling stand 13 Runout table 14 Downcoiler 15 Rolled material 16 Input part 17 Rolling roll 18 Electric motor 19 Reduction device 20 Camera 21 Edger

Claims (7)

First calculation means for performing calculations necessary to display the state of the rolling stand on a display based on the first information on the rolling stand and the second information on the rolled material passing through the rolling stand;
Based on the first information and the second information, a second calculation means for performing a calculation necessary for displaying the state of the rolled material passing through the rolling stand on the display;
Display control means for controlling the display of the display based on the calculation result by the first calculation means and the calculation result by the second calculation means;
A selection means for selecting one of the rolling stand and a rolling material passing through the rolling stand;
With
The selection means selects the rolled material while the rolled material passes through the rolling stand, and selects the rolling stand while the rolled material does not pass through the rolling stand,
The display control means includes
When the rolling stand is selected by the selection means, the state of the rolling stand and the rolling material that passes through the rolling stand so that the rolling stand has higher visibility than the rolling material that passes through the rolling stand. Are displayed on the display at the same time,
When a rolling material is selected by the selection means, the state of the rolling stand and the rolling material that passes through the rolling stand so that the visibility of the rolling material that passes through the rolling stand is higher than that of the rolling stand. A rolling line display system for simultaneously displaying the status on the indicator. The display control means includes
When the rolling stand is selected by the selection means, the state of the rolling stand is displayed on the indicator so that a portion of the rolling stand that is behind the rolling material passing through the rolling stand can be visually recognized. Dimensional display,
When a rolling material is selected by the selection means, the state of the rolling material is three-dimensionally displayed on the display so that a portion of the rolling material that passes through the rolling stand can be visually recognized. The display system of the rolling line of Claim 1 displayed on these. The display control means includes
When the rolling stand is selected by the selection means, at least a part of the rolled material that passes through the rolling stand is displayed on the display unit so that the outer shape of the rolled material is visible.
When a rolling material is selected by the selecting means, the indicator of the state of the rolling stand so that the outer shape of at least a part of the device in contact with the rolling material among the devices constituting the rolling stand can be visually recognized. The display system of the rolling line of Claim 2 displayed on these. A first detection device for detecting specific information regarding the rolling stand;
A second detection device for detecting specific information on the rolled material passing through the rolling stand;
Further comprising
The first information includes information detected by the first detection device,
4. The rolling line display system according to claim 1, wherein the second information includes information detected by the second detection device. 5. A first camera for photographing a rolled material passing through the rolling stand;
Further comprising
The said display control means displays the state of a rolling material on the said display using the image image | photographed with the said 1st camera for a part, when a rolling material is selected by the said selection means. Item 5. The rolling line display system according to any one of Items 4 to 4. A second camera for photographing the rolling stand;
Further comprising
The said display control means displays the state of the said rolling stand on the said display using the image image | photographed with the said 2nd camera for a part, when the said rolling stand is selected by the said selection means. The display system of the rolling line as described in any one of Claim 4 to.   The rolling line display system according to any one of claims 1 to 6, wherein the selection unit is a device for manually performing selection.

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