JP2002036031A - Nc device for electric discharge machining, and electric discharge machining method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize electric discharge machining work with high reproducibility when the very same machining as previous machining is performed with the use of the same NC program as a previous one. SOLUTION: An NC device for electric discharge machining that is for machining a workpiece when an NC executing part 5 executes a machining command of an NC program for given machining on the workpiece comprises a storing means 1 for saving machining information, an input means 4 for inputting first input information 6 including setup information, a saving means 11 for saving the first input information 6 inputted by the input means 4 and second input information 7 including an NC program in the storing means 1, a selecting means 8 for selecting from the machining information in the storing means; 1, a discriminating means 9 for determining whether the machining information selected by the selecting means 8 is information to be displayed or information to be set in the NC executing part 5, a setting means 10 for, if the machining information discriminated by the discriminating means 9 is information to be set in the NC executing part 5, setting the information in the NC executing part 5, and a display means 12 for, if the machining information discriminated by the discriminating means 9 is information to be displayed, displaying the information.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an NC apparatus for electric discharge machining and an electric discharge machining method for generating an electric discharge between an electrode and a work to process the work.

[0002]

2. Description of the Related Art FIG. 6 is a block diagram showing a conventional NC apparatus disclosed in Japanese Patent Application Laid-Open No. 7-295419. In the figure, reference numeral 101 denotes a standard database in which standard tool and machining condition data are registered. 102 is a user-specific database in which user-specific tools and processing condition data are registered;
103 is input means for adding or modifying the contents of the user-specific database 102, 104 is processing step information input means for inputting processing step information, 105 is tool / processing condition automatic determination means for automatically determining tools and processing conditions, 106
Is an NC data generating means for generating NC data based on the automatically determined tool and processing conditions, 107 is an NC execution unit for performing processing based on the NC data, takes in the know-how possessed by a skilled worker into a database, The tool and the processing conditions can be automatically determined.

[0003] Japanese Unexamined Patent Application Publication No. 10-143231 discloses a processing information management system for collecting and managing processing information. This is the processing information computer and N
The C device is connected to the network, and the NC device reads and displays the processing information in which each layer is linked from the processing information computer, and selects a selectable item in the displayed layer. A processing information management system which reads another item from a processing information computer and displays the processing information, wherein, among the displayed processing information, processing control information required for processing control of an NC device is incorporated into the NC device; and The processing information management system includes means for performing processing using processing control information, and can improve the operability of an operator.

[0004]

With the rapid progress of science and technology in recent years and the strengthening of industrial competitiveness, the demand for high-precision machining with high reproducibility has been rapidly increasing even for electric discharge machining. I have.

In electric discharge machining, a programmer of an NC program of an electric discharge machine creates an NC program corresponding to a drawing in which a machining shape and specifications are described, and an operator sets various NC devices, and sets an electrode and a workpiece. After setting the workpiece, the workpiece is processed using the NC program. A series of operations such as adjustment of processing conditions and setup work for setting the workpiece on the surface plate. Some of them require the know-how of the workers, and the habit of each individual worker is included.
The set position and direction of the workpiece may be shifted. Further, even though the set position of the workpiece is the same, the setting of details such as which part of the workpiece is to be used and in which direction the processing is performed differs depending on the operator.

In the electric discharge machine, the peak value of the machining current and the no-load voltage change depending on the position of the workpiece with respect to the surface plate, so that the distance between the electrode and the workpiece during machining changes. This causes a machining accuracy error. Furthermore, even if the workpiece has the same dimensions as the original, the peak of the processing current will be affected by the current sneaking, etc., between the workpiece to be processed first and the workpiece that has already been machined and partially cut away. Differences arise.

[0007] Such setup work and the state of the workpiece have a large effect on the processing accuracy and the like, especially in high-precision machining, but the setup information and the workpiece information are included in the mechanical drawings or specifications. At present, it depends solely on the memory and experience of the worker. Therefore, even if machining is performed using the same NC program using exactly the same mechanical drawing, there is a problem that the machining result changes due to different operators.

In the NC apparatus disclosed in the above-mentioned Japanese Patent Application Laid-Open No. 7-295419, the know-how of a skilled worker is systematized, but the information is mainly limited to the generation of processing conditions, and the optimum processing is performed. Although it is possible to search for a condition, there is a problem in that processing reproducibility is deteriorated because there is no handling of setup information and the like. In addition, in order to generate only one processing condition, all the know-how of a skilled person must be converted into electronic data and processed as information that can be used for the system. There was a problem that it occurred.

In the processing information management system disclosed in Japanese Patent Laid-Open No. Hei 10-143231, the setting of the NC device can be simplified, but there is no disclosure of specific work contents, and the processing reproducibility is not improved. Has not been taken into account.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problem. In an electric discharge machining operation, the same machining as the previous machining is performed using the same NC program as the previous machining. It is possible to easily build a database capable of reproducing the machining performed last time, thereby obtaining an NC apparatus and an electric discharge machining method for electric discharge machining capable of performing highly accurate machining with high reproducibility. With the goal.

[0011]

An NC apparatus for electric discharge machining according to the present invention is an NC apparatus for performing a predetermined machining on a workpiece.
A machining command including setup information in an NC machine for electric discharge machining in which a machining command of a program is executed by an NC execution unit and a discharge is generated between a pole of the workpiece and an electrode to process the workpiece. And control means for controlling a processing operation including a setup operation of the workpiece using the processing information stored in the storage means.

Further, in the NC apparatus for electric discharge machining according to the present invention, an NC execution unit executes a machining command of an NC program for performing a predetermined machining on a workpiece, and a gap between the workpiece and an electrode is provided. An electric discharge machining NC apparatus for generating an electric discharge in the machining of the workpiece, storing means for storing machining information, input means for inputting first input information including setup information, Storage means for storing the first input information input by the input means and the second input information including the NC program in the storage means; selection means for selecting processing information of the storage means; Whether the processing information selected by the means is information to be displayed,
Or identification means for identifying whether the information is information to be set in the NC execution unit, and display means for displaying, when the processing information identified by the identification means is information to be displayed, the identification information; When the processing information identified by the means is information to be set in the NC execution section, the information processing apparatus further comprises setting means for setting this information in the NC execution section.

Further, the electric discharge machining NC apparatus according to the present invention is one in which machining result information is stored in the storage means.

In the electric discharge machining NC apparatus according to the present invention, a database for collectively managing machining information for each setup information is constructed in the storage means.

Further, the electric discharge machining NC apparatus according to the present invention includes an input / output means for exchanging machining information with another electric discharge machining NC apparatus.

According to the electric discharge machining method of the present invention, in the electric discharge machining method in which electric discharge is generated between a work and an electrode to process the work, the first work is processed. A first step, a second step of storing processing information including setup information in the first step in storage means, and a second workpiece using the processing information stored in the storage means. And a third step of performing a machining operation including the set-up operation.

Further, the electric discharge machining method according to the present invention is directed to an electric discharge machining method for producing an electric discharge between an electrode of a workpiece and an electrode to process the workpiece, wherein A first step of processing a first workpiece by a first electric discharge machine controlled by an apparatus; and machining information including setup information in the first step for the first electric discharge machine. A second step of storing the machining information stored in the first storage means in the first storage means of the NC device, and a third step of storing the machining information stored in the first storage means in the second storage means of the second NC device for the electric discharge machine.
And a machining operation including a setup work of a second workpiece is controlled by the second NC apparatus for an electric discharge machine using the machining information stored in the second storage means. And a fourth step performed by the second electric discharge machine.

[0018]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1 FIG. 1 is a configuration diagram showing an NC apparatus for electric discharge machining according to Embodiment 1 of the present invention, and shows an example of a case where the NC apparatus is used for wire electric discharge machining. In FIG. 1, 1 is a storage means, 2 is a storage means 1
A processing information database constructed therein, 3 a control means,
4 is an input unit, 5 is an NC execution unit, 6 is first input information,
7 is second input information, 8 is selection means for selecting processing information, 9 is identification means for identifying the processing information selected by the selection means 8, 10 is setting means for setting processing information in the NC execution unit 5, Reference numeral 11 denotes a storage unit, and 12 denotes a display unit. For example, the first input information 6 input from the input means 4 by the operator was used for processing, such as a machine drawing of a processed product, electrode information, workpiece information, setup information, and the like, and second input information 7. The NC program, processing conditions, NC setting information, and the like are stored in a predetermined folder of the processing information database 2 by the storage unit 11.

FIG. 2 is a block diagram showing an example of a data storage state in the processing information database 2. In FIG. 2, reference numeral 13 denotes a folder made up of drawing numbers, 14 denotes an operator input information folder, and 15 denotes NC execution. A copy setting information folder 16 is a processing result folder. The operator input information folder 14 includes a machine drawing 17, electrode information 18, workpiece information 19, and setup information 20, and the NC execution unit setting information folder 15 includes an NC program 21, machining conditions 22, and NC setting information 23. The processing result information 24 is stored in the processing result folder 16, and the processing information for each setup information is collectively managed for each drawing number as shown in FIG. 2 (the processing information in the processing information database 2 in FIG. 2). The reference numerals are affixed with alphabets a, b,... For each drawing number.

The electrode information 18 includes a wire diameter, a wire material, a manufacturing date, a manufacturing number, and the like.
9 is the size, material, date of manufacture, serial number, etc. of the workpiece, and the NC setting information 23 is N
These are the ON / OFF state of the C function, mirroring, figure rotation, and axis position.

FIG. 3 is an explanatory view showing an example of the setup information 20. In the figure, reference numeral 25 denotes a surface plate of a wire electric discharge machine,
6 is a workpiece, 27 is a processed shape, and 28 is a corner portion of the workpiece 26.

The set-up information 20 in FIG. 2 includes, in FIG. 3, the position and direction of the workpiece 26 to be set on the surface plate 25, the fixing means and the fixing position of the workpiece 26, and the processing on the workpiece 26. Information such as the position of the shape 27.

As a method of inputting the position information of the workpiece 26, for example, the shape of the workpiece 26 is selected from a plurality of shape samples previously provided as a template, and set to the size of the workpiece 26 and the surface plate 25. When the workpiece 26 is actually set on the surface plate 25, the position information of the workpiece 26 can be input by detecting a predetermined corner position 28 by detecting a contact position with an electrode. it can. Further, the position of the processed shape 27 with respect to the workpiece 26 can be automatically input from the positional information of the actual processing and the positional information of the workpiece 26.

As described above, it is possible to easily construct a processing information database including setup information that enables reproduction of processing performed last time.

Further, by inputting and storing information such as a processing time, a processing speed, a processing voltage and a processing accuracy as the processing result information 24, it is possible to grasp the processing accuracy corresponding to the processing conditions and setup conditions. Instead, by comparing the result with the next processing result based on the same condition, it can be used as analysis information of the processing itself.

FIG. 4 is an explanatory view showing an example in which the processing information stored in the processing information database 2 is extracted and used. In the drawing, reference numeral 29 denotes first output information, and reference numeral 30 denotes second output information. . The same reference numerals as those in FIG. 1 indicate the same or corresponding parts.

In FIG. 4, the identification means 9 comprises a selection means 8
Thus, it is determined whether the information read from the predetermined folder of the processing information database 2 is the information to be displayed on the display unit 12 or the information set in the NC execution unit 5. If the identification result is information to be displayed on the display unit 12, the first output information 29 is displayed as the first output information 29.
If the identification result is information to be set in the NC execution unit 5, this information (for example, the NC program used for machining, machining conditions, NC setting information, and the like) is executed by the setting unit 10 for NC execution. The second output information 30 is set in the unit 5.

By referring to the electrode information, workpiece information, setup information, and the like displayed on the display means 12, the operator can perform the setup work in exactly the same manner as the previous work. .

As described above, the processing information including the setup information and the like performed by the skilled worker is collectively stored and managed in the processing information database, so that the same processing can be performed later. In addition, another worker refers to the collective information on processing and performs a processing operation based on this information, so that a highly reliable processing operation can be performed with good reproducibility regardless of the skill level of the worker. Further, there is no need to perform any operation for generating new data from the collective information.

In the above description, the collective information is managed by the drawing number. However, since it is sufficient that the group of data can be identified and managed, the NC program number, the processing date and time, the processing shape, the number according to the creation order, and the like. It may be managed by information.

Further, since each information does not need to have a format of one file, all information may be stored as one file.

Furthermore, each piece of information is hierarchically classified by each folder. For example, it is only necessary that the information can be selected by the selection means 11, and it is not necessary to have a hierarchical structure.

Further, various types of information relating to machining stored in the machining information database of FIG. 2 are not limited to the information as shown in FIG.

In the above description, the case where the collective information is file-managed in a folder has been described. However, the present invention is not limited to such a configuration. For example, a link is provided to each information such as HTML to associate the information. The collective information may be managed by a function to be provided. For example, even if the control unit 3 of FIG. 1 and a plurality of storage units are network-connected, and the processing information is stored in a distributed manner in the plurality of storage units, it is sufficient that each information can be collectively managed.

In the above description, the case where the NC apparatus for electric discharge machining according to the present invention is used for wire electric discharge machining has been described. .

Embodiment 2 FIG. 5 is a configuration diagram showing an NC apparatus for electric discharge machining according to Embodiment 2 of the present invention.
In the figure, 1a and 1b are storage means, 2a and 2b are processing information databases, 4b is input means, 5b is an NC execution unit, 12b is display means, 29b is first output information,
0b is the second output information, 31a is the first NC device, 31
b is a second NC device, and 32a and 32b are input / output means. Further, the processing information database 2a stores collective information on processing including setup information similar to that in the first embodiment.

For example, after machining by a first electric discharge machine (not shown) controlled by the first NC device 31a,
A second control unit (not shown) controlled by the second NC device 31b
When the same machining is performed by the electric discharge machine of
The storage information of the machining information database 2a is written out by the input / output means 32a of the C device 31a, and is read into the machining information database 2b by the input / output means 32b of the second NC device 31b of the second electric discharge machine. By copying the processing information of the first NC device 31a (for example, folder No. 1 of the processing information database 2a in FIG. 5) and storing it in the processing information database 2b of the second NC device 31b, the second NC device 31b However, it is possible to use the first output information 29b and the second output information 30b, so that not only the setting of NC at the time of machining by the second electric discharge machine can be omitted, but also the first electric discharge machine can be used. It is possible to reproduce the same processing as the processing, and it is possible to easily realize the production management in which the variation in the whole production of the processed product is suppressed.

[0038]

The electric discharge machining NC apparatus and the electric discharge machining method according to the present invention are constructed as described above, so that the same machining as the previous machining is performed using the same NC program as the previous machining. In this case, the processing operation including the setup operation performed last time can be reproduced, and there is an effect that high-precision processing with high reproducibility can be realized.

In addition, there is an effect that the system can be easily constructed and a rise in cost can be suppressed.

[Brief description of the drawings]

FIG. 1 is an electric discharge machining N according to Embodiment 1 of the present invention.
It is a block diagram which shows C apparatus.

FIG. 2 is a configuration diagram illustrating an example of a storage state of data in a processing information database.

FIG. 3 is an explanatory diagram showing an example of setup information.

FIG. 4 is an explanatory diagram showing an example of extracting and using processing information stored in a processing information database.

FIG. 5 is an electric discharge machining N according to a second embodiment of the present invention.
It is a block diagram which shows C apparatus.

FIG. 6 is a configuration diagram showing a conventional NC device.

[Explanation of symbols]

1 storage means, 2 processing information database, 3 control means, 4 input means, 5 NC execution section, 6 first input information, 7 second input information, 8 selection means, 9 identification means,
10 setting means, 11 storage means, 12 display means, 1
3 folders, 14 worker input information folders, 15
NC execution section setting information folder, 16 processing result folder,
17 mechanical drawing, 18 electrode information, 19 work piece information, 20 setup information, 21 NC program, 22 processing condition, 23 NC setting information, 24 processing result information, 2
5 surface plate, 26 workpiece, 27 machined shape, 28 corner part, 29 first output information, 30 second output information, 31a first NC device, 31b second NC device, 32a, 32b input / output means.

 ──────────────────────────────────────────────────の Continued on the front page F term (reference) 3C059 AA01 AB01 AB05 CK01 CM01 CM02 CM03 CM05 CM07 5H269 AB08 BB03 EE11 QC01 QC03 QE03 QE13

Claims (7)

[Claims] An NC for performing a predetermined processing on a workpiece.
An NC apparatus for electric discharge machining, which executes a machining command of a program by an NC execution unit and generates an electric discharge between an electrode of the workpiece and an electrode to process the workpiece, includes machining information including setup information. NC for electric discharge machining, comprising: storage means for storing machining information; and control means for controlling machining work including setup work for the workpiece using the machining information stored in the storage means. apparatus. 2. An NC for performing a predetermined processing on a workpiece.
An NC machine for executing a machining command of a program by an NC execution unit to generate an electric discharge between a pole of the workpiece and the electrode to process the workpiece, wherein the NC apparatus for machining is used to store machining information. Storage means, input means for inputting first input information including setup information, and storage means for storing the first input information input by the input means and second input information including the NC program A processing unit that selects processing information in the storage unit; and the processing information selected by the selection unit is information to be displayed or information set in the NC execution unit. Identification means for identifying whether the processing information identified by the identification means is information to be displayed, display means for displaying this information, and processing information identified by the identification means If the information is information to be set in the NC execution unit,
An NC apparatus for electric discharge machining, comprising: setting means for setting an execution unit. 3. The electric discharge machining N according to claim 1, wherein machining result information is stored in said storage means.
C device. 4. The NC apparatus for electric discharge machining according to claim 1, wherein a database for collectively managing machining information for each setup information is constructed in said storage means. 5. The NC apparatus for electric discharge machining according to claim 1, further comprising an input / output means for exchanging machining information with another NC apparatus for electric discharge machining. 6. An electric discharge machining method for processing a workpiece by generating a discharge between a pole between the workpiece and an electrode, wherein: a first step of processing a first workpiece; A second step of storing processing information including setup information in the first step in a storage unit; and a processing including a setup operation of a second workpiece using the processing information stored in the storage unit. And a third step of performing an operation. 7. An electric discharge machining method for machining a workpiece by generating an electrical discharge between an electrode between the workpiece and an electrode, wherein the first electrical discharge controlled by the first NC apparatus for the electrical discharge machine. A first step of processing a first workpiece by a processing machine, and processing information including setup information in the first step is stored in a first storage unit of the NC apparatus for the first electric discharge machine. A second step of saving; a third step of saving machining information stored in the first storage means in a second storage means of a second NC apparatus for an electric discharge machine; and a second storage. Using the machining information stored in the means, a machining operation including a setup operation for the second workpiece is performed by the second electric discharge machine controlled by the NC device for the second electric discharge machine. And an electric discharge machining method.