JP2010224923A - Machine monitoring system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To change a monitor data configuration for each version number to flexibly deal with changes in information indicating the state of a machine due to differences in the version number of a machine to be monitored by a system that monitors the state of the machine by means of a computer, the machine being connected to a network. <P>SOLUTION: Monitor data are obtained from the machine to be monitored and a determination is made as to whether a correspondence table of version numbers stored is retained on the monitor data; if it is not retained, the correspondence table is obtained from the machine to be monitored (SA1-SA3). A monitor data obtaining counter is reset to zero and the i-th piece of identification information in the correspondence table is obtained; then the i-th monitor data is obtained based on the identification information and stored in a work area for display, and the monitor data obtaining counter is incremented by one (SA4-SA7). A determination is made as to whether or not all the monitor data have been obtained, and if all the monitor data have been obtained, the data stored in a work area for a display chart is displayed in the display screen of the display device of the computer and processes are complete (SA8, SA9). <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a monitoring system for monitoring various machines such as a wire cut electric discharge machine via a network.

  A machine monitoring system that connects to a machine such as a wire-cut electric discharge machine via a network and monitors the state of the machine on a computer is a known system. In a machine monitoring system, when there is a request from a monitoring software operating on a computer at a certain period or time, information indicating the state of the machine is transferred as monitor data from the machine to the computer. Based on the above, the state of the machine is displayed on the display screen of the computer display device. For example, Patent Documents 1 and 2 disclose documents that disclose a system that transmits monitoring data to a computer via a network. For example, Patent Document 3 discloses that the monitored apparatus returns version information in response to a request from the monitoring apparatus.

  In Patent Document 1, a plurality of electric injection molding machines are connected to a network, and information on industrial machines that can be reproduced and displayed arbitrarily by a computer at the request of an operator is centrally managed. Techniques to do this are disclosed. This document does not disclose the configuration of monitor data transferred from an industrial machine to a computer.

  Patent Document 2 discloses an electric discharge machine equipped with a numerical control device and a server, a browser connected to the electric discharge machine via a network, and an NC screen from the electric discharge machine side to the browser side in response to the browser's NC screen request. A technique for remote monitoring of an electric discharge machine comprising means for transferring to the machine and means for displaying the transferred NC screen on a browser screen is disclosed. This document does not disclose the configuration of the monitor data transferred from the electric discharge machine to the computer.

  Patent Document 3 discloses a technique in which, when a main package collects an interface package error log in a plurality of modules constituting one communication system of a transmission device and an exchange device, the main package uses version information of the interface package. It is disclosed. The technique disclosed in this document is not a system for monitoring an independent machine tool with a computer, nor is it related to a transmission technique using version number information.

JP-A-10-52843 JP 2002-166328 A JP 2000-89980 A

  Machines such as wire-cut electric discharge machines are generally improved from time to time, and information indicating the state of the machine as well as the function and performance of the machine has been changed due to differences in equipment installation time of the machine user. Usually, this change is distinguished by the software version number (hereinafter simply referred to as “version number”).

  In the past, the number of monitor data or the size of all monitor data has been recorded in order to determine when the information indicating the state of the machine to be monitored changes due to the change in the version number (see FIG. 11). . Since the number or size of the monitor data cannot be determined, the order of the individual monitor data must be maintained in order to maintain the compatibility of the monitor data even when the version number is changed due to machine improvements. And the position was not changed. That is, conventionally, there is only one set of correspondence table indicating the configuration of monitor data.

  As a result, the data structure for monitoring corresponding to the new machine improvement may be constrained by the conventional data structure. Even if there is data that has become unnecessary due to machine improvements, the area cannot be filled. For this reason, the memory of machines and computers is consumed, and unnecessary information transmission occurs over the network.

12 to 14 are diagrams illustrating an example in which the configuration of the monitor data changes for each version number. FIG. 12 is a configuration example of monitor data of the 01 version in the prior art. FIG. 13 is a configuration example of monitor data of version 02 in the prior art.
FIG. 14 shows a configuration example of monitor data of version 03 in the prior art. In the 02 version (see FIG. 13), monitor data 5 (remote switch) and monitor data 6 (insulating jig) are added to the 01 version (see FIG. 12). The 03 version (see Fig. 14) does not require monitor data 4 (display screen number) and monitor data 5 (remote switch), and monitor data 7 (specific resistance) and monitor data 8 (water surface position) are added. Has been. In the case of version 03, since eight pieces of data including unnecessary monitor data 4 and monitor data 5 are transferred, useless information is transferred.

  In the 03 version example, the number of data is 8, but the actual machine monitor data may be composed of several hundred pieces, and the number of monitor data that is no longer used may increase.

Therefore, the present invention solves the above-described problems of the prior art, and in a system in which a machine is connected to a network and the state of the machine is monitored by a computer, a change in information indicating the state of the machine due to a difference in the version number of the monitored machine In order to be able to flexibly cope with the problem, it is possible to change the monitor data configuration for each version number and to prevent unnecessary data transfer on the network.
Another object of the present invention is to acquire a correspondence table held by monitoring software running on a computer from a monitored machine and update the correspondence table.

  The invention according to claim 1 of the present application is a machine monitoring system in which a plurality of machines and a computer are connected via a data transmission path, and monitor data indicating the state of the machine transmitted from the machine is monitored by the computer. The machine has transmission means for adding and transmitting version number information when transmitting monitor data to the computer, the computer receiving means for receiving monitor data from the plurality of machines, and the version number A monitoring system for a machine comprising: monitor data configuration information storage means for associating information with a configuration of monitor data; and display means for displaying monitor data received by the receiving means in accordance with the monitor data configuration information It is.

The invention according to claim 2 is the machine monitoring system according to claim 1, wherein the version number information is a version number of software of a control device that controls the machine.
The invention according to claim 3 is the machine monitoring system according to claim 1, wherein the version number information is a version number set for each configuration of the monitor data.
The invention according to claim 4 is characterized in that the monitor data configuration information is stored in a storage unit of each machine, and the computer acquires the monitor data configuration information from the machine and stores it in the monitor data configuration information storage unit. The machine monitoring system according to any one of claims 1 to 3.

  According to the present invention, in a system in which a machine is connected to a network and the state of the machine is monitored by a computer, it is possible to flexibly cope with a change in information indicating the state of the machine due to a difference in the version of the machine to be monitored. It is possible to change the monitor data configuration and prevent unnecessary data transfer on the network. Also, the correspondence table held by the monitoring software running on the computer can be acquired from the monitored machine and the correspondence table can be updated.

1 is a schematic block diagram of a monitoring system including a plurality of wire cut electric discharge machines and a monitoring device via a network according to an embodiment of the present invention. It is a figure explaining the structure of monitor data. It is a figure explaining the structural example of the monitor data of the version number (01 version) in this invention. It is a figure explaining the structural example of the monitor data of the version number (02 version) in this invention. It is a figure explaining the structural example of the monitor data of the version number (03 version) in this invention. It is a schematic block diagram of the monitoring system provided with a different version number. It is an example of identification information of individual data on a correspondence table in which one monitor data includes a name, a data type, and a data size. It is an example of a correspondence table when the version number of the machine to be monitored is the version number 01 shown in FIG. It is a figure explaining the algorithm of the process which the computer in embodiment of this invention performs. It is a figure explaining the algorithm of the process which the control apparatus of the machine in embodiment of this invention performs. FIG. 7 is a diagram for explaining recording of the number of monitor data or the size of monitor data in the prior art. It is a structural example of the monitor data of 01 version in a prior art. It is a structural example of the monitor data of 02 version in a prior art. It is a structural example of the monitor data of 03 version in a prior art.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, a wire cut electric discharge machine will be described as an example.
FIG. 1 is a schematic block diagram of a monitoring system including a plurality of wire cut electric discharge machines and a monitoring device via a network according to an embodiment of the present invention. The computer 10 is connected via a network 11 to numerical control devices 12 to 15 that drive and control the four wire cut electric discharge machines 16 to 19 respectively. The computer 10 and each of the numerical control devices 12 to 15 are provided with a communication interface (not shown). Each of the numerical control devices 12 to 15 is connected to the communication interface of the computer 10 via each communication interface and the network 11.

  FIG. 2 is a diagram for explaining the configuration of monitor data. The monitor data includes version number data indicating the version number and a plurality of monitor data 1 to n necessary for the version. The number of monitor data may be several hundred in some cases. Actually, values indicating the state of the machine are entered in these monitor data 1 to n. In the example of FIG. 1, values indicating the states of the wire cut electric discharge machines 16 to 19 enter the respective monitor data 1 to n.

3 to 5 are configuration examples of monitor data for each version number. 3 is a diagram for explaining the configuration of the monitor data of the version number (01 version), FIG. 4 is a diagram for explaining the configuration of the monitor data of the version number (02 version), and FIG. It is a figure explaining the structure of the monitor data.
Version number 01 (see FIG. 3) uses 1 wire diameter, 2 wire material name, 3 workpiece material name, and 4 display screen number as monitor data. Version number 02 (see FIG. 4) uses 1 wire diameter, 2 wire material name, 3 workpiece material name, 4 display screen number, 5 remote switch, and 6 insulation jig as monitor data. Version 03 (see FIG. 5) uses 1 wire diameter, 2 wire material name, 3 workpiece material name, 4 insulation jig, 5 specific resistance, and 6 water surface position as monitor data. The 02 version is obtained by adding the monitor data 5 (5 remote switches) and the monitor data 6 (6 insulation jig) to the monitor data of the 01 version. In version 03, monitor data 4 (4 display screen number) and monitor data 5 (5 remote switch) of version 02 are deleted, and monitor data 5 (5 specific resistance) and monitor data 6 (6 water surface position) are newly added. Has been.

  As shown in the examples of the 01 version to the 03 version described above, in the machine monitoring system of the present invention, the total number of monitor data can be changed, the monitor data can be deleted, and new monitor data can be added.

  FIG. 6 is a schematic block diagram of a monitoring system for an electric discharge machine provided with a configuration example of the monitor data of the above-described 01 version to 03 version. The numerical control device 12 for controlling the wire-cut electric discharge machine 16 has a version number 01, the numerical control device 13 for controlling the wire-cut electric discharge machine 17 has a version number 01, and the numerical value for controlling the wire-cut electric discharge machine 18. The control device 14 is provided with a version number 02, and the numerical control device 15 for controlling the wire cut electric discharge machine 19 is provided with a version number 03. These version numbers may be the version numbers of the control software of the control device that controls the wire cut electric discharge machines 16-19. Or it is good also as a version number decided for every composition of monitor data. Each of the numerical control devices 12 to 15 can transmit monitor data to the computer 10 according to the version number.

  The monitored machine has a correspondence table corresponding to the version number of each machine. The computer 10 of the machine monitoring system can acquire monitor data transmitted from each machine by holding a correspondence table corresponding to the version number of each machine. As mentioned above, the machine version may be changed. When the machine version number is changed, the computer 10 must also store the correspondence table of the changed version number. In the present invention, if the computer 10 does not hold the changed version correspondence table, the correspondence table is acquired from the monitored machine.

  FIG. 7 is an example of identification information of individual data on a correspondence table composed of “name”, “data type”, and “data size”. The individual monitor data indicates what information of the machine and the attribute of the data. “Data type” includes an integer type, a real number type, and a character type. FIG. 8 is an example of a correspondence table when the version number of the machine to be monitored is the version number 01 shown in FIG. Each piece of monitor data is identified by the identification information consisting of “name”, “data type”, and “data size”. Is represented. For example, in FIG. 6, since the numerical control devices 12 and 13 are version 01, the correspondence table shown in FIG. 8 is stored in a storage means (not shown). When the computer 10 does not have a correspondence table corresponding to the version number 01, the computer 10 obtains it from the numerical control devices 12 and 13.

Next, an algorithm of processing executed by the computer according to the embodiment of the present invention will be described with reference to FIG. The flowchart of this algorithm explains that the monitor data acquired from the machine to be monitored is displayed on the computer display device.
Hereinafter, it demonstrates according to each step. The computer 10 executes processing of the following algorithm for each machine to be monitored at a predetermined timing or based on a command from an operator to the computer 10.
[Step SA1] Monitor data is acquired from the machine to be monitored, and the process proceeds to Step SA2.
[Step SA2] It is determined whether the computer has a correspondence table of version numbers stored in the monitor data acquired in Step SA1, and if so, the process proceeds to Step SA4. Control goes to step SA3.
[Step SA3] The correspondence table data is acquired from the monitored machine, and the process proceeds to Step SA4.
[Step SA4] The monitor data acquisition count is reset to 0, and the process proceeds to Step SA5.
[Step SA5] The i-th identification information in the correspondence table is acquired, and the process proceeds to Step SA6.
[Step SA6] The i-th monitor data is acquired based on the identification information, stored in the display work area, and the process proceeds to Step SA7.
[Step SA7] The monitor data acquisition counter is incremented by 1, and the process proceeds to Step SA8.
[Step SA8] It is determined whether or not all monitor data has been acquired. If not, the process proceeds to Step SA5. If all monitor data has been acquired, the process proceeds to Step SA9. Whether all have been acquired can be determined based on the monitor data acquisition counter i since the number of monitor data corresponding to the version number can be obtained from the correspondence table.
[Step SA9] The data stored in the display table work area is displayed on the display screen of the display device of the computer, and the process ends.

  In addition to executing display processing on the display screen of the display device 100 of the computer 10, it is also possible to execute predetermined processing such as whether the machine is operating normally based on the acquired monitor data as necessary. it can.

Next, an algorithm of processing executed by each control device of each machine in the embodiment of the present invention will be described with reference to FIG. Hereinafter, it demonstrates according to each step.
[Step SB1] It is determined whether there is a monitor data request command from the computer. If there is a request command, the process proceeds to Step SB2.
[Step SB2] Monitor data is output to the computer, and the process proceeds to Step SB3.
[Step SB3] It is determined whether or not there is a request command for correspondence table data from the computer. If there is a request command, the process proceeds to Step SB4. If there is no request command, the process returns to Step SB1 to continue the processing.
[Step SB4] The correspondence table data is output to the computer, the process returns to Step SB1, and the processing is continued.

DESCRIPTION OF SYMBOLS 10 Computer 101 Display apparatus 11 Network 12, 13, 14, 15 Numerical control apparatus 16, 17, 18, 19 Wire cut electric discharge machine

Claims (4)

In a machine monitoring system in which a plurality of machines and a computer are connected via a data transmission path, and monitor data indicating the state of the machine transmitted from the machine is monitored by the computer.
The machine has transmission means for adding and transmitting version number information when transmitting monitor data to the computer,
The computer
Receiving means for receiving monitor data from the plurality of machines;
Monitor data configuration information storage means that associates the version number information with the configuration of the monitor data;
Display means for displaying the monitor data received by the receiving means according to the monitor data configuration information;
A machine monitoring system comprising:   The machine monitoring system according to claim 1, wherein the version number information is a version number of software of a control device that controls the machine.   2. The machine monitoring system according to claim 1, wherein the version number information is a version number set for each configuration of monitor data. The monitor data configuration information is stored in the storage means of each machine,
The machine monitoring system according to claim 1, wherein the computer acquires monitor data configuration information from the machine and stores the monitor data configuration information in the monitor data configuration information storage unit.

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