JP2006007274A - Device for indicating position of die for press brake - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a die position indicating device for a press brake with which the change of all necessary die position is processed or a new indication is performed by one moving operation without being conscious of other processes by an operator. <P>SOLUTION: This die position indicating device 10 takes a press brake for performing bending work by using a die 2 which is divided into the plural in the longitudinal direction as an object machine. The die position indicating device 10 is provided with a die arrangement indicating means 12 for indicating the arrangement state of the die 2 on the screen 17 of the indicating device 16 by a figure and an operating means 13 for moving the die figure by which the die 2 arranged on the screen 7 is arranged in a desired position according to indication input. By this operating means 13 for moving the die figure, all dies 2 which are used in any stage of a series of stages are moved together with the one die 2 by the indication input for moving one of the divided dies 2. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a die position indicating device for a press brake that determines an arrangement of divided dies when a press brake machining program is created.

There is a press brake shown in FIGS. 3 and 4 (for example, Patent Document 1). In this method, a sheet material W is sandwiched between a female mold 2 as a lower mold and a male mold 2 as an upper mold and bent into a V shape. The lower mold 2 is fixedly installed on the bed 1, and the upper mold 2 is installed at the lower end of the ram 3 supported on the bed 1 by a guide 5 so as to be movable up and down. The ram 3 is moved up and down by the lift drive mechanism 6. As shown in FIG. 4, the lower mold 2 has a plurality of types having different mold surface shapes arranged side by side, and the mold 2 at an arbitrary front / rear position is moved to a shift type automatic tool changer (ATC). ) Can be selectively used directly opposite to the upper die 2.
In the bed 1, the plate material support 7 and the gauge 8 are installed before and after the lower mold 2, and the plate material W to be bent is placed on the plate material support 7 until it hits the gauge 8. Bending by the upper and lower molds 2 and 2 is performed in this inserted state.

Each of the upper and lower molds 2 is divided into a plurality in the longitudinal direction, and only the necessary mold 2 is arranged at the use position according to the product shape, and the mold arrangement width B and position are selected. Thereby, an unnecessary mold 2 can be bent without causing interference with the plate material W. For example, the bent product may be bent by raising the four sides of the plate material W. In this case, the bent piece on the adjacent side that has been bent may interfere with the mold 2 and may not be processed. is there. Such interference is avoided by selecting the mold 2.
Each of the divided molds 2 can be repositioned to the bed 1 or the ram 3 by changing the position at an arbitrary position in the width direction, and is removable. Some of these positions are changed by an automatic tool changer (ATC). In addition, the above-described automatic tool changer may allow the upper die 2 to retreat unnecessary items to the retreat position on the back side by swinging or sliding. Each mold 2 is provided with a plurality of types having different mold widths so that a desired mold arrangement width B can be easily obtained.

When creating a machining program for controlling such a press brake, it is determined which mold 2 is used for machining and how much the mold arrangement width B is, and where the mold 2 is arranged. It is necessary to keep.
Usually, at the stage of creating a machining program, the mold 2 to be used is determined and its position is also determined for the time being. However, there is a case where the arrangement is not appropriate and there is a possibility of interference. Therefore, a process for changing the position of the mold 2 may be necessary.

The process of changing the mold position is performed by inputting a numerical mounting position for each mold 2 or by displaying a mold layout on the screen and moving the mounting position by operating the mouse. . According to the mouse operation, the operation is easier than the numerical input of the attachment position.
When moving with a mouse or the like, if the moving mold 2 is divided in the longitudinal direction as described above, the mold 2 to be moved is designated in advance and then moved at once. Alternatively, the molds 2 are moved separately one by one.
JP 2001-074406 A

However, the bending process is usually performed over a plurality of processes, and the mold used for each process differs. Further, since it is not possible to set up a mold position change in the middle of a series of processes, it is necessary to set a mold position where all the series of processes can be performed.
Therefore, it is necessary to confirm whether or not the mold 2 can be moved in all processes, and it takes time to confirm when the number of processes is large. Further, when the mold 2 used in a certain process is moved, a mistake such as forgetting the process of moving the mold 2 used in another process is likely to occur.

An object of the present invention is to provide a mold position indicating device for a press brake that allows an operator to change all necessary mold positions or perform new instructions by a single movement operation without being aware of other processes. It is to be.
Another object of the present invention is to make it easier for an operator to indicate the position of a mold without considering a necessary mold for a series of bending process molds.
Still another object of the present invention is to make it possible to identify a mold of a process which is a current object among molds which are objects of confirmation or position indication.

  The press brake mold position indicating device (10) according to the present invention performs bending using a mold (2) divided into a plurality of parts in the longitudinal direction, and the arrangement state of the mold (2). The mold arrangement display means (12) for displaying the image on the screen (17) of the display device (16) and the mold (2) arranged on the screen (17) are arranged at a desired position according to the instruction input. And a mold drawing moving operation means (13). The mold drawing moving operation means (13) is used in one of a series of processes together with the one mold (2) by an instruction input for moving one divided mold (2). All molds (2) are moved together.

  According to this configuration, when the operator moves one mold (2) by an input operation, the mold drawing moving operation means (12) is used in any one of a series of processes. Move all molds (2) together. Therefore, even if the arrangement state displayed on the mold arrangement display means (12) is the arrangement state in any one of the series of processes, the forgetting to move the mold (2) in other processes does not occur. . Therefore, the operator can change all the necessary mold positions or give new instructions without being conscious of other processes, and move all necessary molds (2) by a single movement operation. be able to.

A grouping means (14) for grouping dies (2) used in a series of bending processes is provided, and the mold drawing movement operating means (13) is set to any one of the groups in accordance with the grouping data. It is also possible to move all the molds (2) in the group together with the one mold (2) by an instruction input for moving one mold (2).
The data of the mold (2) used in each process in the series of processes is determined before the process of changing or confirming using the mold position indicating device (10). Therefore, the data (22) determined in this way is used to group by the grouping means (14), and all the molds (2) in the group are moved together with the one mold (2). By doing so, it is not necessary for the operator to consider which molds (2) are all necessary molds (2) in a series of bending steps. Therefore, it is possible to more easily perform the mold position instruction process.

The said mold arrangement | positioning display means (12) is good also as what displays the metal mold | die (2) used at the designated process so that it can distinguish with another metal mold | die (2) by the process being designated. .
Thereby, among the molds (2) that are the targets of confirmation or position change, the mold (2) of the process that is the current target can be identified by the operator. Therefore, it becomes easy for the operator to perform some confirmation or consideration for the current process.

The press brake mold position indicating device according to the present invention is a press brake mold position indicating device that performs bending using a plurality of molds divided in the longitudinal direction, and displays the arrangement state of the mold. A mold arrangement display means for displaying the figure on the screen of the apparatus; and a mold drawing movement operation means for arranging the mold arranged on the screen at a desired position in accordance with an instruction input. The means is to move all the molds used in one of the series of processes together with the one mold by the instruction input to move one divided mold. However, all the necessary mold position changing processes or new instructions can be performed by a single movement operation without being conscious of other processes.
A grouping means for grouping dies used in a series of bending processes is provided, and the mold drawing moving operation means is input according to an instruction input for moving any one mold in the group according to the grouping data. When all the molds in the group are moved together with the one mold, the operator does not need to consider the necessary molds for the series of bending process molds, The instruction process can be performed more easily.
In the case where the mold arrangement display means displays a mold used in the designated process so that it can be distinguished from other molds by designating a process, it is a target for confirmation or position indication. Among the existing molds, it is possible to identify the mold of the current process.

  An embodiment of the present invention will be described with reference to FIGS. The press brake mold position indicating device 10 is intended for the press brake described above with reference to FIGS. 3 and 4, and is configured as a part of an automatic programming device 11 for generating a processing program for the press brake. ing. The automatic programming device 11 generates bending process data 22 for each process from the product graphic data 21, and generates a machining program 23 in a format that can be executed by the numerical controller of the press brake from the bending process data 22. The automatic programming device 11 is configured by a computer.

This mold position indicating device 10 is used for confirming and correcting a temporarily determined mold position in the bending process data 22. The mold position indicating device 10 includes a mold arrangement display unit 12, a mold drawing movement operation unit 13, and a grouping unit 14.
The mold arrangement display means 12 is a means for displaying the arrangement state of the mold on the screen 17 of the display device 16 in a figure. The display device 16 is a device capable of displaying on a screen such as a liquid crystal screen display device or a cathode ray tube. The figure on the screen 17 may be a photograph. In the figure on the screen 17, the same reference numerals “2” as those of the corresponding press brake molds are attached to the portions showing the respective molds. The figure of the arrangement state of the mold may be a part of the screen portion 17 a on the screen 17 or the entire screen 17. When a diagram showing the arrangement state of the mold is displayed on a part of the screen portion 17a of the screen 17, the remaining portion of the screen 17 includes the bending process data 22, a message column, or various software key diagrams. Is displayed.

  The mold drawing moving operation means 13 is a means for arranging the mold 2 arranged on the screen 17 at a desired position in accordance with an instruction input. An instruction input to the mold drawing moving operation means 13 is given by the input means 15. The input means 15 includes, for example, a pointing device such as a mouse that displays a cursor K on the screen 17 and gives an instruction input by moving the cursor K. The mold drawing moving operation means 13 selects a mold 2 to be used in any one of a series of processes together with the one mold 2 in response to an instruction input for moving one divided mold 2. Everything is moved together. The dies 2 to be moved together are determined by grouping data by the next grouping means 14.

  The grouping means 14 is a means for grouping the molds 2 used in a series of bending processes. In the grouping means 14, recognition of which mold 2 is used in a series of bending processes is obtained from the bending process data 22.

  The bending process data 22 is created for each bending process when the plate material W is bent in a plurality of processes, and the mold name, the number of molds 2 for each mold width, and the tentatively determined position of the mold 2 respectively. Have the data. As described for the lower mold 2 together with FIG. 4, the mold name is a name assigned to each type when a plurality of types of molds 2 having different mold surface shapes are provided. The grouping means 14 recognizes which mold 2 is used in a series of processes by using the bending process data 22 of each process prepared for each process in this way, and recognizes the recognition. Define things as a group.

  The mold drawing moving operation means 13 moves all the molds 2 in the group together with the one mold 2 by an instruction input for moving any one mold in the group according to the grouping data. It is supposed to let you.

In addition, the mold drawing moving operation means 13 displays the mold 2 used in the specified process so that it can be distinguished from the other molds 2 by specifying the process. As an identifiable display method, for example, the color of the mold 2 is changed. As a specific example, the other mold 2 is white, and the mold 2 in the designated process is displayed in red.
Designation of a process is performed in accordance with an instruction input from the input unit 15, and in response to the input, the mold arrangement display unit 12 displays a diagram of the mold arrangement of the designated process. In this display state, the mold drawing movement operation means 13 recognizes that the process is designated. That is, the process currently displayed on the screen 17 becomes the designated process.

The operation of the above configuration will be described together with a specific example. At present, for example, in FIG. 2A, it is assumed that the arrangement state of the mold 2 in the third step is displayed on the screen 17 in a series of steps including the first to fourth steps. On this screen 17, the molds 2 ₁ and 2 ₂ used in the third step are displayed in a color different from that of the other molds 2 as shown by hatching. Note that the gauge 8 is displayed with the arrangement width of the molds 2 that are currently used (third step), and the gauge width adjusting means (not shown) is used so that the arrangement width is actually set. Adjusted.

In this state, one of the mold 2 ₁ designated by the cursor K in Fig. (A), Then is moved as shown in FIG. 2 (B), the by treatment of the mold view movement operation means 13 of FIG. 1 As shown in FIG. 2B, the other molds 2 ₂ and 2 ₃ in the group also move together with the moved _one mold 2 ₁ . In this case, the _three molds 2 of the molds 2 ₁ to 23 are one group.

FIG. 3C shows the display state of the screen 17 in the fourth step. In the fourth step, since the _three molds 2 ₁ to 2 ₃ are used, all the used molds 2 are shaded and shown in a different color from the other molds 2 as shown in the figure. It is displayed.

As described above, when the operator moves one mold 2, all the molds 2 used in any one of the series of processes are moved together. However, even if it is the arrangement state in any one process in a series of processes, forgetting to move the mold 2 in other processes does not occur. Therefore, the operator can change all the necessary mold positions or give new instructions without being aware of other processes, and can move all necessary molds with a single movement operation. .
In addition, since the molds 2 used in each process in the series of processes are grouped by the grouping means 14 and all the molds 2 in the group are moved together with the one mold 2, the operator However, it is not necessary to consider which molds are all necessary for the mold 2 in a series of bending processes. Therefore, it is possible to more easily perform the mold position instruction process.
Further, since the mold 2 used in the designated process is displayed so as to be distinguishable from other molds 2 by different colors or the like, the mold 2 of the current target process can be identified by the operator. Therefore, it becomes easy for the operator to perform some confirmation or consideration for the current process.

  In the above embodiment, the mold 2 is moved together in a group having a series of processes as a unit. However, when the automatic tool changer (ATC) is provided, the unit moved by the automatic tool changer. A function of grouping and moving the items may be added.

It is a block diagram which shows the conceptual structure of the metal mold | die position instruction | indication apparatus of the press brake concerning one Embodiment of this invention. It is explanatory drawing of the operation | movement on the screen. It is a front view of the conventional press brake. It is a fracture side view of the press brake.

Explanation of symbols

2 ... Mold 3 ... Ram 8 ... Gauge 10 ... Mold position indicating device 12 ... Mold arrangement display means 13 ... Mold drawing movement operation means 14 ... Grouping means 15 ... Input means 16 ... Display device 17 ... Screen 22 ... Bending process data K ... Cursor

Claims (3)

  A mold position indicating device for a press brake that performs bending using a mold divided into a plurality of parts in the longitudinal direction, and a mold arrangement display means for displaying the arrangement state of the mold on a screen of a display device. And a mold drawing movement operation means for arranging the mold arranged on the screen at a desired position in accordance with an instruction input, and the mold drawing movement operation means moves one divided mold. A press brake mold position indicating device characterized in that all molds used in any one of a series of processes are moved together with the one mold by an instruction input.   Grouping means for grouping dies used in a series of bending processes is provided, and the mold drawing moving operation means is in accordance with an instruction input for moving any one mold in the group according to the grouping data. 2. The press brake mold position indicating device according to claim 1, wherein all the molds in the group are moved together with the one mold. The press according to claim 1 or 2, wherein the mold arrangement display means displays a mold used in the designated process so as to be distinguishable from other molds when the process is designated. Brake mold position indicating device.

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