JP2006313559A - Operation method of numerical control machine tool equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To virtually execute working program creation support programs even if a machine tool side does not have any operation means. <P>SOLUTION: There are provided a plurality of numerical control machine tools 2, and a support program distribution arithmetic unit 21 connected via a communication network 20. The support program distribution arithmetic unit comprises a memory 26 for storing a plurality of working program creation support programs MPR; a program operation section 29 for executing the support program; and means 22, 25 for reading the corresponding support program from the memory for installing at the program operation section according to the execution request of programs requested via the communication network from each numerical control machine tool. Each numerical control machine tool 2 requests the support program distribution arithmetic unit to create a working program by executing a specific support program, and receives the created working program via the communication network. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

    The present invention provides a CAD (computer-aided drafting, simply referred to as “CAD” in this specification) program or CAM (computer-aided manufacturing, simply referred to as “CAM” in this specification) program on the numerically controlled machine tool side. Even if you do not have a machining program creation support program for machine tools, etc., each numerically controlled machine tool can virtually execute such a machine tool machining program creation support program to perform predetermined machining. The present invention relates to a method for operating a control machine tool facility.

    Recent numerically controlled machine tools store machining program creation support programs for machine tools such as CAD programs and CAM programs in a built-in memory, and execute the creation support programs as required by the operator. A machining program to be executed by the numerical control machine tool is created on the numerical control machine tool side.

    As a result, machining programs can be created quickly at the machining site, leading to significant advantages such as reduced lead time. However, since it is necessary to execute a huge creation support program on the numerical control machine tool side, it is indispensable to install a high-performance CPU as an arithmetic element, and it is necessary to prepare a large memory for storing the creation support program. For example, the burden on the hardware side is becoming extremely large.

    In addition, the performance of computing elements is steadily improving, and the aging of computing elements equipped in numerically controlled machine tools is much faster than the aging of machine tools themselves, and the machine parts of machine tools are sufficiently high. Even if the accuracy is maintained, the arithmetic element of the numerical control device installed in the machine tool has become obsolete, which causes a disadvantage that the entire numerical control machine tool must be replaced.

    Further, since a machining program creation support program for machine tools is stored in each numerically controlled machine tool, there is a disadvantage that a great deal of labor and cost is required for managing these support programs. For example, each time the version is upgraded, the upgraded support program must be installed on each machine tool, which is extremely complicated, and the time required for such work increases as the number of machine tools increases. There was an inconvenience of becoming longer.

    In view of the circumstances described above, the present invention provides a machining program creation support program for a machine tool and a support program for each numerical control machine tool even if it does not have an arithmetic element for executing the support program. It is an object of the present invention to provide a method of operating a numerically controlled machine tool facility capable of virtually executing the machining.

The invention of claim 1 is required for creating a plurality of numerically controlled machine tools and a machining program connected to the plurality of numerically controlled machine tools through a communication network and executable by the numerically controlled machine tool. In a numerically controlled machine tool facility having a support program distribution arithmetic unit that can store and read a machining program creation support program for a machine tool, and can execute it to create the machining program by itself.
When it is necessary to create a machining program on each numerically controlled machine tool side, the machining program creation support program for machine tools is sent from each numerically controlled machine tool to the support program distribution calculation device. Creating a drawing of a work to be executed by a numerically controlled machine tool and machining with the numerically controlled machine tool, and further creating a machining program to be executed by the numerically controlled machine tool based on the created drawing And requesting the numerically controlled machine tool to output the created machining program,
Each numerically controlled machine tool is configured to be executed by the support program distribution calculation device without executing the machine tool machining program creation support program and receive the calculation result via the communication network.

    According to a second aspect of the present invention, in the operation method of the numerically controlled machine tool facility according to the first aspect, when the machining program creation support program for machine tool is upgraded, the machining program stored in the support program distribution arithmetic unit is stored. By upgrading the creation support program, the upgrade related to the machining program creation support program for the machine tool of the numerically controlled machine tool facility is completed.

    According to a third aspect of the present invention, in the method of operating a numerically controlled machine tool facility according to the first aspect, each of the numerically controlled machine tools does not have a computing means for executing a machine tool machining program creation support program. The calculation of the machining program creation support program necessary for each numerically controlled machine tool is performed on the support program distribution calculation device side.

    According to a fourth aspect of the present invention, in the operation method of the numerically controlled machine tool facility according to the first aspect, the machining program creation support program for the machine tool includes a CAD program or a CAM program, and each of the numerically controlled machine tools includes: A machining program creation support program for machine tools is executed by the support program distribution calculation device, and a machining program to be executed by each numerically controlled machine tool is received as the calculation result.

A fifth aspect of the present invention is the operation method of the numerically controlled machine tool facility according to the first aspect, wherein the plurality of numerically controlled machine tools includes a plurality of types of numerically controlled machine tools,
The machine tool machining program creation support program is also configured by storing a plurality of types for each of the plurality of types of numerically controlled machine tools.

    According to the first aspect of the present invention, on each numerically controlled machine tool side, without executing the machine program machining program creation support program, all of them are executed on the support program distribution calculation device side, and the completed machining program is transmitted to the communication network. Therefore, the numerical control device of each machine tool does not require any computing means for executing the machining program creation support program for machine tools, greatly simplifying the configuration of the numerical control machine tool. Not only can it be managed, it can also dramatically reduce the effort and cost of managing it.

    According to the second aspect of the present invention, the upgrade of the machining program creation support program for machine tools executed by a plurality of numerically controlled machine tools is completed simply by being performed on the support program distribution calculation device. Time and cost can be greatly reduced.

    According to the invention of claim 3, each numerically controlled machine tool itself does not have a calculation means for executing a machining program creation support program for machine tools, and therefore labor and cost required for maintenance and inspection of such calculation means. Can be greatly reduced.

    According to the fourth aspect of the present invention, each numerically controlled machine tool only needs to immediately execute the machining program received from the support program distribution calculation device. The machine tool will not be occupied. Therefore, each numerically controlled machine tool can utilize its ability for machining the original workpiece of the machine tool, and an efficient machining operation is possible.

    According to the invention of claim 5, even if it is a numerically controlled machine tool facility composed of various types of numerically controlled machine tools having different machining modes, such as a machining center, a lathe, a laser beam machine, etc., these plural types of numerically controlled machine tools Since the machining program creation support program for machine tools corresponding to the above is prepared in the support program distribution calculation device, it is possible to immediately respond to various calculation requests, and it is extremely versatile and practical.

    Note that the numbers in parentheses are for the sake of convenience indicating the corresponding elements in the drawings, and therefore the present description is not limited to the descriptions on the drawings.

    Embodiments of the present invention will be described below with reference to the drawings.

    FIG. 1 is a block diagram showing an example of a virtual numerically controlled machine tool facility to which the present invention is applied.

    As shown in FIG. 1, the numerically controlled machine tool facility 1 includes a plurality of numerically controlled machine tools 2 such as a lathe, a machining center, and a laser processing machine. Among these numerically controlled machine tools 2, for example, “machine tool A” and “machine tool B” are installed in factory 3, and “machine tool C” and “machine tool D” are installed in factory 3. The other numerically controlled machine tool 2 (not shown) is further installed in a factory 6 located in a geographically different place from the factories 3 and 4. Has been. The plurality of numerically controlled machine tools 2 may be composed of a plurality of types of numerically controlled machine tools having different processing modes such as a lathe, a machining center, and a laser processing machine, or a numerical value consisting of a single type. You may be comprised from the control machine tool.

    Each numerically controlled machine tool 2 includes a numerical control device 7 as shown in “machine tool A”, for example, and the numerical control device 7 is provided with a main control unit 9. Hereinafter, the configuration of the numerical control device 7 of the “machine tool A” will be described. Since the configuration of the numerical control device 7 is the same for all the numerical control machine tools 2, “machine tools B, C, D... The description of “is omitted. A communication control unit 11, a servo control unit 12, a keyboard 13, a display 15, and an expansion slot 16 are connected to the main control unit 9 via a bus line 10. A plurality of servo motors 17 for driving a control axis to be controlled by the machine tool A are connected to the servo control unit 12, and a communication network 20 is connected to the communication control unit 11 via a communication line 19. is doing.

    As this communication network 20, various lines such as a public communication line, an Internet line, and an intranet line can be used. At least one support program distribution calculation device 21 is connected to the communication network 20 via a plurality of communication lines 19, and the support program distribution calculation device 21 has a main control unit 22. The support program distribution calculation device 21 is arranged in a geographically different place from the above-described numerically controlled machine tool 2, but may be arranged in any factory 3, 5 or 6. Good.

    The main control unit 22 is connected to a communication control unit 25 to which one of the communication lines 19 is connected via a bus line 23. The bus line 23 is further connected to an application program memory 26 and a plurality of expansion lines. A slot 27 is connected. The application program memory 26 is composed of a lathe CAM program PRO1, a machining center CAM program PRO2, a laser processing machine CAM program PRO3, a three-dimensional CAD program 1PRO4, a two-dimensional CAD program 1PRO5, and the aforementioned three-dimensional CAD program 1. All of the three-dimensional CAD programs 2PRO6 and the two-dimensional CAD program 2PRO7 having a different configuration from the above-described two-dimensional CAD program 1, etc., that can be executed by each numerically controlled machine tool 2 constituting the numerically controlled machine tool facility 1 A machining program creation support program MRP for machine tools is stored. The machining program creation support program MPR for machine tools means all support programs such as CAD and CAM programs required to create a machining program that can be executed by each numerically controlled machine tool 2. is there.

    Each expansion slot 27 is detachably mounted with a plurality of application program calculation units 29 arranged and configured on the calculation board 30. Each calculation board 30 itself has its own configuration. Arithmetic elements that can execute the machining program creation support program MPR for machine tools are mounted. Each arithmetic board 30 is provided with a communication slot 30 a, and a communication network 20 is connected to the communication slot 30 a via a communication line 19. Each application program calculation unit 29 is provided on a one-to-one basis corresponding to each numerical control machine tool 2 constituting the numerical control machine tool equipment 1. Therefore, the calculation board 30 is also provided with the numerical control machine tool equipment 1. Are provided for the number of numerically controlled machine tools 2 constituting the.

    Since the numerically controlled machine tool facility 1 has the above-described configuration, it is necessary to create a machining program on any numerically controlled machine tool 2 in the numerically controlled machine tool facility 1, for example, “machine tool A”. If this occurs, the operator operates the keyboard 13 of the numerical control device 7 of the “machine tool A” to use the support program distribution calculation device 21 when the operator creates a machining program from now on. Then, a program selection command C1 for selecting a CAD program as a support program to be executed is input.

    The input program selection command C1 is output to the main control unit 22 via the communication control unit 11 and the communication line 19, the communication network 20, and the communication control unit 25 of the support program distribution calculation device 21.

    The main control unit 22 connects all the numerically controlled machine tools 2 to which the program selection command C1 is output from the machine identification code stored in the input program selection command C1 to the support program distribution calculation device 21. The CAD program designated by the selection command C1 is selected from the application program memory 26, and is provided corresponding to the numerical control machine tool 2 from which the program selection command C1 is output. The application program calculation unit 29 is selectively distributed and installed.

    Now, suppose that the three-dimensional CAD program 1PRO4 is read from the application program memory 26 in response to a program execution command C1 from “machine tool A”, and is provided corresponding to “machine tool A”. It is assumed that it is installed in (B). When the three-dimensional CAD program 1PRO4 is installed in the application program calculation unit 29 (B) corresponding to “machine tool A”, the installation completion notification R1 is sent to the communication slot 30a of the calculation board 30 of the application program calculation unit 29 (B). Is transmitted to the “machine tool A” of the factory 3 via the communication line 19 and the communication network 20, and the main control unit 9 of the “machine tool A” receives the signal on the display 15 or a speaker (not shown). Then, it is notified that the CAD program requested by the operator has been installed on the calculation board 30 of the application program calculation unit 29 (B) corresponding to “machine tool A”.

    In response to this, the operator immediately operates the keyboard 13 to instruct the application program calculation unit 29 (B) in which the three-dimensional CAD program 1PRO4 is installed to execute the CAD program. Thus, the installed three-dimensional CAD program 1PRO4 is executed on the calculation board 30 of the application program calculation unit 29 (B). Thereafter, various data about the workpiece to be processed from the keyboard 13 while directly communicating with the three-dimensional CAD program 1PRO4 executed by the application program calculation unit 29 (B) via the communication line 19 and the communication network 20. Is directly input to the application program calculation unit 29 (B) via the communication slot 30 a of the calculation board 30.

    The result of the arithmetic processing in the application program arithmetic unit 29 (B) based on the input of the data is output to the “machine tool A” via the sequential communication network 20, and the numerical control device 7 of the “machine tool A” Data sent from the operation board 30 of the application program operation unit 29 executing the three-dimensional CAM program 1PRO4 via the communication slot 30a is displayed on the display 15 as a graphic image of the work. The operator operates various application data input means such as the keyboard 13 while referring to the image displayed on the display 15 to execute various 3D CAM programs 1PRO4 such as dimension data related to the workpiece. The predetermined drafting operation is performed on the display 15 of the “machine tool A” while inputting the application data.

    At this time, various application data input from the keyboard 13 is transferred to the communication slot 30a of the calculation board 30 of the corresponding application program calculation unit 29 (B) via the communication control unit 11, the communication line 19, and the communication network 20. Is output.

    Although the operator is not equipped with an operation board or the like for executing the machining program creation support program MPR for the machine tool on the “machine tool A” side, the operator can execute the application program calculation provided in the support program distribution calculation device 21. The machine program machining program creation support program MPR is freely executed as if the application program calculation unit 29 (B) is provided in the numerical controller 7 in communication with the unit 29 (B). I can do it.

    Thus, while looking at the display 15 of the numerical control device 7 of the “machine tool A” of the factory 3, the application program calculation unit 29 (B) corresponding to the “machine tool A” of the support program distribution calculation device 21 performs the three-dimensional CAD. The program 1PRO4 is executed, and a drawing of the workpiece to be machined by the “machine tool A” is created. Next, the operator operates the keyboard 13 to create a machining program to be executed by the “machine tool A” from the created drawing. A program selection command C2 for instructing installation to the application program calculation unit 29 (B) is output via the communication control unit 11, the communication line 19, and the communication control unit 25.

    In response to this, the main control unit 22 of the support program distribution calculation device 21 determines the numerically controlled machine tool 2 to which the program selection command C2 is output from the machine identification code stored in the input program selection command C2. Then, it discriminates from all the numerically controlled machine tools 2 connected to the support program distribution arithmetic unit 21, selects and reads out the CAM program designated by the selection command C2 from the application program memory 26, and selects the program selection command C2. Is selectively installed in the application program calculation unit 29 provided corresponding to the numerically controlled machine tool 2 to which is output.

    If the “machine tool A” is a machining center, the machining center CAM program PRO2 is read from the application program memory 26 by the program selection command C2 from the “machine tool A” and is stored in the “machine tool A”. It is installed in the corresponding application program calculation unit 29 (B). When the machining center CAM program PRO2 is installed in the application program calculation unit 29 (B) corresponding to "machine tool A", the installation completion notification R2 is sent to the communication slot 30a of the calculation board 30 of the application program calculation unit 29 (B). Is transmitted to the “machine tool A” of the factory 3 via the communication line 19 and the communication network 20, and the main control unit 9 of the “machine tool A” receives the signal on the display 15 or a speaker (not shown). Then, it is notified that the CAM program requested by the operator has been installed on the calculation board 30 of the application program calculation unit 29 corresponding to “machine tool A”.

    Upon receiving this, the operator immediately operates the keyboard 13 to instruct the application program calculation unit 29 (B) in which the machining center CAM program PRO2 is installed to execute the CAM program. While communicating directly with the application program operation unit 29 (B) via the line 19 and the communication network 20, on the display 15 of the “machine tool A”, based on the previous drawing created by the three-dimensional CAD program 1 PRO, Create a machining program to be executed by “Machine Tool A”.

    Although the operator is not equipped with an operation board or the like for executing the machining program creation support program MPR for the machine tool on the “machine tool A” side, the operator can execute the application program calculation provided in the support program distribution calculation device 21. The machine program machining program creation support program MPR is freely executed as if the application program calculation unit 29 (B) is provided in the numerical controller 7 in communication with the unit 29 (B). I can do it.

    Thus, when the machining program for “machine tool A” is created by the application program computing unit 29 (B) of the support program distribution computing device 21, the operator of “machine tool A” operates the keyboard 13, A download command C3 for instructing the application program calculation unit 29 (B) to download the created machining program to the “machine tool A” is output.

    In response to this, the application program calculation unit 29 (B) transfers the machining program created by the machining center CAM program PRO2 to the “machine tool A” via the communication line 19 and the communication network 20, and the “machine tool A” ", The transferred machining program is stored in an appropriate memory (not shown).

    Thus, when the machining program is transferred and stored in “machine tool A”, the operator operates the keyboard 13 of “machine tool A” to output a machining start command C4 to the main control unit 9 of the numerical controller 7. The main control unit 9 immediately drives and controls each servo motor 17 via the servo control unit 12 based on the machining program transferred from the support program distribution calculation device 21 to perform predetermined machining.

    In the above-described example, the “machine tool A” is described, but the numerically controlled machine tool 2 is used. In the same manner as described above, the numerical control device 7 of each machine tool is used in all the numerically controlled machine tools 2 such as “machine tool B”, “machine tool C”, “machine tool D”, “machine tool E”,. The application program calculation unit 29 of the support program distribution calculation device 21 executes the machining program creation support program MPR for the machine tool via the keyboard 13 and the display 15, and only the generated machining program is transmitted via the communication network 20. Download and run on each machine tool.

    Note that all application data such as graphic data and machining programs calculated and generated by the application program calculation unit 29 provided corresponding to each numerically controlled machine tool 2 is stored in the memory in the application program calculation unit 29. Since it is stored, the application data of all numerically controlled machine tools 2 can be managed centrally. The application data is not necessarily stored in the memory in the application program calculation unit 29, and may be stored in a memory independent of the application program calculation unit 29 of the support program distribution calculation device 21.

    Further, when the machining program creation support program MPR for each machine tool stored in the application program memory 26 is upgraded, all the virtual numerically controlled machine tool equipment 1 can be obtained by upgrading the corresponding program in the application program memory 26. The numerically controlled machine tool 2 can use the machine tool machining program creation support program MPR, and the management of the machine tool machining program creation support program MPR is extremely easy.

    Further, each application program calculation unit 29 is provided in a one-to-one correspondence with all the numerically controlled machine tools 2 constituting the virtual numerically controlled machine tool facility 1, so that it is supported by its own numerically controlled machine tool 2. Calculation requests to the program distribution calculation device 21 do not conflict with calculation requests of other numerically controlled machine tools 2. Therefore, there is no waiting until the arithmetic processing of the other numerically controlled machine tool 2 is completed, and an efficient machining operation is possible.

    Further, the calculation board 30 of the application program calculation unit 29 corresponding to each numerical control machine tool 2 is detachably provided to the connection slot 27 of the support program distribution calculation device 21, so that each numerical control machine tool 2 is to be disconnected from the numerically controlled machine tool equipment 1 for some reason, the arithmetic board 30 is simply disconnected from the connection slot 27 and connected to the expansion slot 16 of the corresponding numerically controlled machine tool 2. In the numerical control device 7 of the numerical control machine tool 2, a calculation element capable of executing a machine tool machining program creation support program is provided by the calculation board 30. As a result, the numerically controlled machine tool 2 can execute CAD and CAM programs independently without requiring support from the support program distribution calculation device 21, and the system flexibility is high.

    As described above, the calculation board 30 constituting each application program calculation unit 29 is configured to be detachable from the support program distribution calculation device 21 via the expansion slot 27. Even if the arithmetic elements mounted on the computer become obsolete, it is possible to immediately improve the arithmetic performance of each numerically controlled machine tool 2 by replacing the arithmetic board 30 with high-performance arithmetic elements. There is no need to replace the board 30 at the factories 3, 5 and 6 where the numerically controlled machine tools 2 are arranged one by one, maintenance becomes easy, and management costs can be greatly reduced.

    Furthermore, although each application program operation part 29 described the case where it was arrange | positioned on the physical operation board 30 provided in the form corresponding to each numerical control machine tool 2, each application program operation part 29 does not necessarily need to be It is not necessary to be divided by the physical calculation board 30, and a plurality of application program calculation units 29 are virtually arranged on a larger calculation board, or a single calculation board 30 Of course, the application program calculation unit 29 can be used in a time-sharing manner. In the latter case, the calculation board 30 operates as an application program calculation unit 29 of a numerical control machine tool at a certain moment, and operates as an application program calculation unit 29 of another numerical control machine tool at the next moment. Become.

    Further, the type of machine tool machining program creation support program MPR executed by each numerical control machine tool in each application program calculation unit 29 is completely arbitrary. Accordingly, at the same time, in the support program distribution calculation device 21, various CAM programs PRO1 to PRO, CAD programs PRO4 to PRO7, etc. relating to various numerically controlled machine tools such as a machining center, a laser processing machine, and a lathe are executed simultaneously.

    Further, different versions of the machining program creation support program MPR for each machine tool are stored in the application program memory 26, and a plurality of different versions of the same application program are stored from the numerically controlled machine tool side. Of course, it is possible to select the version of the application program to be executed. In this case, application programs of different versions are stored in the application program memory 26 as different machine tool machining program creation support programs.

FIG. 1 is a block diagram showing an example of numerically controlled machine tool equipment to which the present invention is applied.

Explanation of symbols

1 …… Numerically controlled machine tool equipment 2 …… Numerically controlled machine tool 15 …… Display means (display)
20 …… Communication network 21 …… Support program distribution computing devices MPR, PRO1, PRO2, PRO3, PRO4, PRO5, PRO6, PRO7, PRO8 …… Machine tool machining program creation support programs PRO4, PRO5, PRO6, PRO7 …… CAD Program PRO1, PRO2, PRO3 ... CAM program

Claims (5)

A machining program for a machine tool required for creating a plurality of numerically controlled machine tools and a machining program connected to the plurality of numerically controlled machine tools through a communication network and executable by the numerically controlled machine tool In a numerically controlled machine tool facility having a support program distribution calculation device that can store and read a creation support program and execute it to create the machining program itself,
When it is necessary to create a machining program in each of the numerically controlled machine tools, the numerically controlled machine tool sends the machine tool machining program creation support program to the support program distribution calculation device. Create a drawing of a workpiece to be processed by the numerically controlled machine tool and execute a machining program to be executed by the numerically controlled machine tool based on the created drawing. And requesting the numerically controlled machine tool to output the created machining program,
In each numerically controlled machine tool, the machining program creation support program for machine tools is not executed, but all of them are executed by the support program distribution computation device, and the created machining program is received via the communication network. Configured,
Operation method of numerically controlled machine tool equipment. When upgrading a machining program creation support program for a machine tool, the machining program creation support program for a numerically controlled machine tool facility is upgraded by upgrading the machining program creation support program for the machine tool stored in the support program distribution arithmetic unit. Configured to complete the version upgrade related to the creation support program,
The operation method of the numerically controlled machine tool facility according to claim 1. Each numerically controlled machine tool itself does not have a computing means for executing a machining program creation support program for machine tools, and the computation of the machining program creation support program necessary for each numerically controlled machine tool is , All configured to be performed on the support program distribution arithmetic unit side,
The operation method of the numerically controlled machine tool facility according to claim 1. The machine tool machining program creation support program includes a CAD program or a CAM program, and each numerically controlled machine tool causes the machine program machining program creation support program to be executed in the support program distribution arithmetic device, Configured to receive a machining program to be executed by each numerically controlled machine tool as the calculation result,
The operation method of the numerically controlled machine tool facility according to claim 1. The plurality of numerically controlled machine tools are composed of a plurality of types of numerically controlled machine tools,
The machine tool machining program creation support program is also configured by storing a plurality of types for each of the plurality of types of numerically controlled machine tools.
The operation method of numerically controlled machine tool equipment according to claim 1.

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