JP2003001686A - Method for displaying operating states of injection molding machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for displaying operating states by which each of the operating states per injection molding machine can be displayed in an easily understandable way, in a real-time mode, even when a plurality of injection molding machines are operated under a collective control system. SOLUTION: The operating state of each of injection molding machines is displayed on the screen of a display unit installed on a control device of a system for controlling a plurality of injection molding machines. The display unit is capable of collectively displaying the operating states of all the machines in a split screen fashion. In this operating state display screen, a single bar graph B1 appears, indicating the operating state of each of the injection molding machine, in color code, for the past time from the present point of time, in each of the split screens for each machine represented in the split display mode.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an operation status display method for displaying an operation status of an injection molding machine on a display device in an easy-to-understand manner, and more particularly, in a multiple machine management system for collectively managing a plurality of injection molding machines. The present invention relates to an operation status display method suitable for display.

[0002]

2. Description of the Related Art As a multiple-unit management system for managing a plurality of injection molding machines installed at the same location, for example, a group management system for managing the productivity is provided. In this type of multiple-unit management system, for example, a personal computer with a display device is provided as a management device connected to a plurality of injection molding machines. The management device is
Receives various information from various sensors installed in the injection molding machine, processes the received information based on the built-in management program, saves the processed result in the built-in memory, and displays it on the display device as a management screen. . Of course,
Depending on the type of information, the received raw information may be stored in the memory as it is.

[0003]

By the way, since an injection molding machine is a facility for producing molded products, it is a very important issue for a production site to manage the operation rate and improve the operation rate. However, in the case of collectively managing a plurality of injection molding machines, it is difficult for the operator to easily understand the current operating rate of each injection molding machine.

Generally, if a management system for a plurality of units is used, the daily operating rate can be automatically totaled. However, the operating rate in this case is the operating rate that can be known only after the operation of one day is completed. That is,
The operating rate in this case is not a value obtained in real time. In addition, there are cases where the equipment operating the injection molding machine performs molding for 24 hours and cases where molding is performed for 12 hours.
That is, the calculation of the operating rate differs depending on whether it is on a 24-hour basis or a 12-hour basis.

In order to solve such a problem, the present invention is to provide an operation status display method capable of displaying the operation rate of an injection molding machine in real time in an easy-to-understand manner.

Another object of the present invention is to provide an operating status display method capable of easily displaying in real time the operating status of each injection molding machine even in a system in which a plurality of injection molding machines are collectively managed. To do.

[0007]

The operation status display method according to the present invention is carried out as follows when a single injection molding machine is used.

That is, in the display method of displaying the operating status of the injection molding machine on the screen of the display device connected to the control device, the operating status of the injection molding machine in the past X hours which can be arbitrarily set from the present time is color-coded. Are displayed as one bar graph. In this case, the operation status is defined by four kinds of operation, normal stop, stop due to an abnormality, and power off, and the four kinds of status are color-coded according to the elapsed time from the time X hours before to the present time. It is preferably displayed. Further, by the display device, a change in the cumulative value of the number of shots for the X hours is shown by a line graph with time as the horizontal axis, and a change situation of the quality data for the X hours with time as the horizontal axis. A graph screen may be displayed, and a bar graph indicating the operating status may be displayed together with a numerical value indicating the X time in the general graph screen.

When a single injection molding machine is used, the following may be carried out.

That is, in the display method of displaying the operating status of the injection molding machine on the screen of the display device connected to the control device, the operating status of the injection molding machine in the past Y time which can be arbitrarily set is 0 to 100. Display a bar graph with a utilization rate of%. In this case, the display device shows the change in the cumulative value of the number of shots for the Y time as a line graph with time as the horizontal axis, and shows the change state of the quality data for the Y time with time as the horizontal axis. The overall graph screen may be displayed, and the bar graph indicating the operating rate may be displayed in the overall graph screen together with the numerical value indicating the Y time.

When the present invention is applied to a multi-unit management system for collectively managing a plurality of injection molding machines, it is carried out as follows.

That is, in the display method for displaying the operation status of each injection molding machine on the screen of the display device provided in the management device in the multiple-unit management system for managing a plurality of injection molding machines, the display device comprises:
The operation status of the plurality of injection molding machines is displayed in a split screen format for all the machines at once, and the operation status screen is displayed in a split screen. In each of them, one first bar graph showing the operating status of the injection molding machine in the past X hours, which can be arbitrarily set, is displayed in different colors. In this case, the operation status is defined by four kinds of operation, normal stop, stop due to an abnormality, and power off, and the four kinds of status are color-coded according to the elapsed time from the time X hours before to the present time. It is preferably displayed. In addition, in order to show the current operating status, the background of the split screen of each machine is color-coded in the first bar graph for four types of operation, the normal stop, the stop due to the abnormality, and the power off. You may make it display with the same corresponding color relationship.

Further, by using the display device, by clicking a specific portion on the divided screen of each unit on the operation status screen, it is possible to display a general graph screen showing the operating status of only the corresponding unit in detail. In the summary graph screen, the change in the cumulative value of the number of shots for the past Y hours that can be arbitrarily set is shown in a line graph with the time as the horizontal axis, and the change status of the quality data for the Y time is also displayed as the time. It is shown as an axis, and the operation status of the relevant machine at the past Y time is further displayed at the operation rate of 0 to 100% by the second bar graph together with the numerical value indicating the Y time on the overall graph screen. You may do it.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION A case in which an embodiment of the present invention is applied to a system for managing a plurality of injection molding machines as shown in FIG. 1 will be described. In FIG. 1, a plurality of injection molding machines 10-1 to 10-n are installed in the same place, and these are collectively managed by a management device 20 with a display device. That is, the management device 20 controls the injection molding machines 10-1 to 10-1.
10-n, each of which is connected to each control device, receives various information from various sensors installed in each of the injection molding machines 10-1 to 10-n via each control device, and receives the received information. Processing is performed for each injection molding machine based on a built-in management program, and the processed results are stored in a built-in memory and displayed on a display device as a management screen. Depending on the type of information, the received raw information is stored in the memory as it is.

Next, four examples out of a plurality of types of management screens displayed on the display device to show the operating status of each injection molding machine in the management device 20 will be described.

FIG. 2 is an operation status screen for displaying the operation status of a plurality of injection molding machines in real time. On this operation status screen, the operation status of a plurality of injection molding machines is displayed in real time on a single screen in a screen-divided format for all machines (here, machines 1 to 30). For example, referring to FIG. 3 which is an enlarged view of the No. 9 machine, the number of the No. machine is shown at the upper left, the count value C1 (17 here) of the molding condition change counter is shown at the upper right, and 2 is shown on the right side.
4-hour operation status graph, number of shots on the lower side (529)
And the cycle time (14.9 sec) are displayed. Here, the molding condition change counter is a counter that counts how many times the molding conditions have been changed from the start of molding to the present. This counter is provided in the management device. The control device of each injection molding machine is provided with means for detecting a change in molding conditions, and the management device receives the detection result from each control device and counts each, and displays the count result for each machine on the display device. . In the management device, this display value can be reset as needed.

Further, the 24-hour operation status graph is one in which the operation status of the injection molding machine from the present time to the past 24 hours is color-coded and displayed by one first bar graph B1. The operating status is defined by four types: operating, normal stop (during standby), stop due to an abnormality, and power off. The four types of status are displayed in different colors according to the elapsed time from 24 hours ago to the present time. To be done. Here, the operation is shown in blue, the normal stop is shown in yellow, the stop due to an abnormality is shown in red, and the power is turned off in gray.
Blue indicates hatching on the left, yellow indicates hatching on the right, red shows a satin pattern, and gray shows a mesh pattern. Further, the lowermost end of the first bar graph B1 indicates 24 hours ago, and the uppermost end indicates the current time. For example, from the past 24 hours to 12 hours ago, the normal stop, from the past 12 hours to the present time, it is in operation. If so, the lower half of the first bar graph B1 is displayed in yellow and the upper half is displayed in blue.

Further, in this embodiment, the appearance of the injection molding machine is schematically displayed in the split screen of each machine, and the background thereof indicates the current operation status. The four types of stop due to an abnormality and the power-off are displayed in the same corresponding color relationship as the color classification in the first bar graph B1. That is, assuming the same as the above example, the background color is blue.

By looking at such an operation status screen, the operator or the administrator can know at a glance which machine was in what operating status in the past 24 hours. The value of 24 hours is usually a fixed value, but may be variable.

By the way, in the management device 20, by clicking a specific part (icon on the screen) in the divided screen of each unit in the above-mentioned operation status screen in the display device, the general condition showing in detail the operating condition of only that unit. The graph screen can be displayed.

FIG. 4 shows an example of the general graph screen. In this general graph screen, 2 for each machine (here, machine 10).
The change status of the quality data for four hours, the presence / absence of an abnormality, and the presence / absence of a setting change are displayed on one screen with time as the horizontal axis. In FIG. 4, the uppermost graph is a line graph showing the change in the cumulative value of the number of shots, and a plurality of vertically arranged lines, for example, the line L1 has a molding interruption (abnormal occurrence) around 18:00. Indicates that. The "state" of L2 is the same as the display of the operating status described above, and is defined by four types of operation, normal stop (during standby), stop due to an abnormality, and power off, for 24 hours. The state is displayed in different colors according to the time. The "condition name" of L3 is a graph showing the time when the color is changed when the molding condition is changed, that is, the condition name of each molded product is changed. In other words, this is changed when the molded product changes and is displayed in different colors, but the color itself does not have meaning, and the time when the color changes has meaning. On the other hand, the "item" of L4 is a graph that changes the color when the condition item in the molding condition is changed and displays the change with time. For example, the color is changed when the injection condition, the mold opening condition, and the like are changed, and this is also the time when the color is changed, rather than the color itself. Therefore, the colors of “condition name” and “item” are different from “state”, and four or more colors are prepared.

The graph in the first row of L5 is the "filling time" of the display item shown in the display item selection column on the lower side of FIG.
2 shows the passage of time, and the second stage similarly shows the passage of time of the "minimum cushion position". The graph in the third row shows the "holding pressure completion position", and the fourth and fifth steps show the elapsed time of the "VP switching position" and the "pre-filling position", respectively.

Further, in the present embodiment, the operating status of the relevant machine in the past 24 hours is further displayed on the right side of the summary graph screen.
With the second bar graph B2 at an operating rate of ~ 100%, 24
It is displayed together with a numerical value indicating time. In FIG. 4, it is shown that the operating rate for the past 24 hours is 95%,
"Time display" shown in the display item selection column at the bottom of Fig. 4
The number 24, which is the base of the operation rate calculation, is displayed in the section. The numbers in the "time display" column can be changed arbitrarily. That is, the "date and time" and "time display" shown in the display item selection field can be set arbitrarily, and here, September 4, 2000 1
By setting the numerical value from 0:00 to 24 hours, as shown in the uppermost part of FIG. 4, 24 hours from September 4, 2000 10:00 to September 5, 2000 10:00 Is displayed. If the number 12 is entered in the "time display", the operating rate for the past 12 hours based on 12 hours is displayed on the second bar graph B2. In this case, the graphs or items in the first to eighth rows in FIG. 4 are also shown for the past 12 hours. According to such a second bar graph B2, it is possible to display the operation rate from an arbitrary time and an arbitrary time.

FIG. 5 is an example of the setting history screen. In this setting history screen, the history of setting changes is classified by machine number (here, machine number 10), the changed item, the set value before and after the change, and the change value. It is displayed on one screen together with the date and time.

FIG. 6 is an example of an abnormality history screen. In this abnormality history screen, the history of abnormality occurrence is classified into 1 by machine number (here, 10th machine) together with the abnormality item, the occurrence date and time, and the cancellation date and time.
Displayed on the screen.

As described above, the summary graph screen of FIG. 4 is linked to the operation status screen of FIG. 2, and the specific location (icon on the screen) of each unit in the operation status screen of FIG.
It can be displayed by clicking. The setting history screen of FIG. 5 and the abnormality history screen of FIG. 6 are linked to the summary graph screen of FIG. 4, respectively, and displayed by clicking a specific part (icon on the screen) of the summary graph screen of FIG. It is supposed to be done.

Although the above description is applied to a multiple-unit management system, the present invention is not limited to the multiple-unit management system and can be applied to the case of only one injection molding machine. There is also no. That is, the injection molding machine always includes a control device, and a display device for monitoring is connected to the control device. Then, it is possible to display the summary graph screen as shown in FIG. 4, the setting history screen of FIG. 5, and the abnormality history screen of FIG. 6 on this display device. However, since there is no operation status screen as shown in FIG. 2, the first bar graph as shown in FIG. 3 may be displayed instead of the second bar graph on the general graph screen in FIG. Further, in the case of only one injection molding machine, since the control device and the display device are in the immediate vicinity of the main body of the injection molding machine, a screen that schematically shows the appearance of the injection molding machine as shown in FIG. Is unnecessary. In other words, it is not necessary to display the operating status only at the present time.

[0028]

As described above, according to the operating status display method of the present invention, the operating status and the operating rate can be easily checked at any time, and the information matched to the operating operating rate base time can be easily known. Therefore, such an operation status display method is most suitable for a multi-unit management system that collectively manages a plurality of injection molding machines.

[Brief description of drawings]

FIG. 1 is a diagram schematically showing a configuration of a multiple-unit management system for an injection molding machine to which the present invention is applied.

FIG. 2 is a diagram showing an example of a driving status screen as an example of a management screen displayed on the display device of the management device shown in FIG.

FIG. 3 is an enlarged view of one of the split screens shown in FIG.

4 is a diagram showing an example of a general graph screen as another example of the management screen displayed on the display device of the management device shown in FIG. 1. FIG.

5 is a diagram showing an example of a setting history screen as another example of the management screen displayed on the display device of the management device shown in FIG.

6 is a diagram showing an example of an abnormality history screen as another example of the management screen displayed on the display device of the management device shown in FIG.

[Explanation of symbols]

10-1 to 10-n injection molding machine 20 Management device B1 First bar graph B2 Second bar graph

Claims (9)

[Claims] 1. A method of displaying the operating status of an injection molding machine on a screen of a display device connected to the control device, wherein the operating status of the injection molding machine in the past X hours that can be arbitrarily set from the present time is color-coded. The method for displaying the operation status of the injection molding machine is characterized in that a single bar graph is displayed. 2. The operating status display method according to claim 1, wherein the operating status is defined by four types of operation, normal stop, stop due to abnormality, and power off, and the time from the time X hours before to the present time. An operating status display method for an injection molding machine, characterized in that the four types of status are displayed in different colors according to the progress. 3. The operating status display method according to claim 2, wherein the display device shows a change in the cumulative value of the number of shots for the X hours in a line graph with the time as the horizontal axis and for the X hours. It is possible to display a general graph screen showing the change status of the quality data with the time as the horizontal axis, and a bar graph showing the operating status is displayed in the general graph screen together with a numerical value showing the X time. How to display the operating status of injection molding machines. 4. A method of displaying the operating status of an injection molding machine on a screen of a display device connected to the control device, wherein the operating status of the injection molding machine in the past Y time that can be arbitrarily set is 0 to 100. A method for displaying the operating status of an injection molding machine, which is characterized by displaying a bar graph at an operating rate of%. 5. The operating status display method according to claim 4, wherein the display device shows a change in the cumulative value of the number of shots for the Y time in a line graph with time as the horizontal axis and for the Y time. It is possible to display a general graph screen showing the change status of the quality data with time as the horizontal axis, and a bar graph showing the operating rate is displayed in the general graph screen together with a numerical value showing the Y time. How to display the operating status of injection molding machines. 6. A display method for displaying an operating status of each injection molding machine on a screen of a display device provided in a management device in a multi-unit management system for managing a plurality of injection molding machines, wherein the display device comprises: It is possible to display an operation status screen that displays the operating status of multiple injection molding machines in a split screen format for all machines at once, and the operation status screen displays the split screen of each machine. An operating status display method for an injection molding machine, characterized in that a single first bar graph showing the operating statuses of the injection molding machine in the past X hours that can be set arbitrarily is displayed in different colors. 7. The operating status display method according to claim 6, wherein the operating status is defined by four types of operation, normal stop, stop due to an abnormality, and power off, and the time from X hours before to the present time. An operating status display method for an injection molding machine, characterized in that the four types of status are displayed in different colors according to the progress. 8. The operation status display method according to claim 7, wherein the background of the split screen of each unit indicates the current operation status, the operation, the normal stop, the stop due to the abnormality occurrence, the An operating status display method for an injection molding machine, characterized in that the four types of power-off are displayed in the same corresponding color relationship as the color classification in the first bar graph. 9. The operating status display method according to claim 8, wherein the display device shows in detail the operating status of only the corresponding unit by clicking a specific location on the split screen of each unit on the operating status screen. The summary graph screen can be displayed. The summary graph screen shows a change in the cumulative value of the number of shots for the past Y hours that can be arbitrarily set in a line graph with the time as the horizontal axis and the Y hours. The change status of the quality data is shown on the horizontal axis of time, and the summary graph screen further shows the operation status of the relevant machine at the past Y hours by a second bar graph at an operation rate of 0 to 100%. A method for displaying the operating status of an injection molding machine, characterized in that it is displayed together with the numerical value indicating the Y time.