JPS58139207A - Processing condition setting system for working machine by numerical control - Google Patents

Abstract

PURPOSE:To set working conditions automatically, by operating a menu selection switch in response to a desired menu from plural kinds of menus and inputting the menu. CONSTITUTION:On a screen of a CRT16, 9 kinds of finished surface coarseness menus are displayed. The operator selects a desired menu among the 9 kinds of menus on the screen. The menu selection switch corresponding to the desired menu is operated and the said menu is inputted to a numerical controller. For example, when[V2]is selected, a menu selection switch 20-2 corresponding to the menu[V2]is operated and inputted to the numerical controller. Further, on the screen of the CRT16 similarly, two kinds of the menus of tool material types are automatically displayed. The operator operates a desired menu selection switch out of the two kinds of the menus, e.g., a switch 20-2, and inputs it in the numerical controller.

Description

[Detailed description of the invention] The present invention is a numerically controlled processing machine (hereinafter referred to as a No. processing machine).
The present invention relates to a method for setting machining conditions.

MC processing machines command and control the position of the tool relative to the workpiece using corresponding numerical information, and process the workpiece.According to MA processing machines, complex commendations can be easily and efficiently processed. It can be processed with precision and productivity can be further improved. In MC machining machines, it is necessary to set machining conditions such as tool depth of cut, tool feed amount, and tool rotation speed in advance prior to machining, and setting these machining conditions is important. FIG. 1 shows the relationship between the tool 10 and the workpiece 12, and in the figure, the tool depth of cut, tool feed, and tool rotation speed are the amount in the direction of arrow A and the amount in the direction of arrow B, respectively. , refers to the rotation speed in the direction of arrow C.

However, the conventional Ha processing machine has a problem in that setting of processing conditions is complicated. In other words, in the conventional No. processing machine, the operator can control the finished surface roughness,
The machining conditions (i.e., tool depth of cut, feed rate, rotation speed, etc.) are determined by complex calculations based on machining items such as workpiece material and tool material, and the values are entered using numerical keys. Since settings were made offline at the actual processing site, there was a drawback that setting processing conditions was complicated.

The present invention has been made in view of the above-mentioned conventional problems, and its purpose is to automatically set processing conditions.
o Provides a method for setting machining conditions for machining machines.

In order to achieve the above object, the present invention includes a display that displays a plurality of types of processing item menus on the screen, and a plurality of menu selection switches provided corresponding to the menus. Multiple types of menus for processing items are displayed on the screen, and when you input the Mukuro menu by operating the menu selection switch corresponding to the desired menu from the multiple types of menus, multiple types of menus for the next processing item will be automatically displayed. The processing conditions of the processing machine are automatically determined based on predetermined arithmetic processing from the input multiple menus by operating the menu selection switch corresponding to the desired menu from multiple types of menus displayed on the screen. It is characterized by

Hereinafter, preferred embodiments of the present invention will be described based on the drawings.

FIG. 2 shows the configuration of an operating gate according to an embodiment of the present invention. In this example, the finished surface roughness, workpiece material, 1, and tool material are selected as the machining items, and the tool depth of cut, tool feed amount, and tool rotation speed are selected as the machining conditions. has been done.

In FIG. 2, the operation &-) 714 is provided with a CRT 16 as a display, and on the screen of 0RTI@, there are a plurality of types of processing items, for example, nine types of menus 18.
-1. The menu display section 18 that displays 18-2, . . . , 18-9 has been redone. Also, the lower Kti of 0RT16, the menu 18-1, 18-2, . . .
, 18-9 menu selection switch 2G
-1, 2G-2, ..., 20-9 are menu 18-
1, 1g-2, . . . , 1B-9. Further, the operation key 14 is provided with a numeric key switch group 22, through which desired numeric data is input.

FIG. 3 shows nine types of menus 18-1, . . . , 18.
-9 is displayed on the screen of the ORT 16. Here, the menu 18-1 in Fig. 3,'...
, 1B-9 are determined with reference to the surface roughness code, surface roughness (μ), and triangular symbol in Table 1. Note that Table 1 is for the case where the tool is transferred every time (referring to the tool feed per second of one revolution of the spindle), and the paper cutting and surface roughness codes are for the case without grinding.

Table 1 Next, a method of setting machining conditions according to an embodiment of the present invention will be explained based on FIGS. 2.4, S, and 6.

First, in the process of inputting the machine program, when it comes to inputting data on the material of the workpiece, a menu of the eight types of workpiece materials shown in Figure 4 is automatically displayed on the screen of the ORT16. Is displayed. The operator selects a desired menu from the eight types of menus on the screen (Fig. 4), for example, "8V
8J is selected and a menu selection switch corresponding to the desired menu, such as switch 20-5, is operated to input the menu into the numerical control device. Note that in normal cases, a series of machining is performed on the same workpiece, so this selected workpiece material is used for the following series of machining! No changes need to be made in Rodarum.

Then, by operating the menu selection switch, a plurality of menus for the next processing item are automatically displayed. In other words, (!On the screen of RTl1g, nine types of finished surface roughness menus shown in [IK] are displayed. The operator selects the desired menu from the nine types of menus (Fig. 5) on the screen. , and operate the menu selection switch corresponding to the desired menu to input the menu into the numerical control device.For example, if you select 142J, press the menu selection switch 20 corresponding to the menu "v2". −
2 to input menu "v2" into the numerical control device.

Furthermore, in the same way, a menu of two types of tool materials shown in FIG. 6 is automatically displayed on the screen of the 0RT16 with &. The operator selects two types of menus (6th menu) on the screen.
The user operates a menu selection switch, for example switch 20-2, corresponding to a desired menu, for example "Chocolla" from FIG.

As described above, when a desired menu of 1 workpiece material, finished surface roughness, and tool material, for example, "878J,""v2," and "chocola" is input to the numerical control device, the numerical control device inputs A plurality of menus are processed in a predetermined order by predetermined arithmetic processing to automatically determine the machining conditions of the processing machine, that is, the tool depth of cut, tool feed amount, and tool rotation speed.

As described above, according to the embodiment of the present invention, the processing conditions of the processing machine can be automatically determined.

In the example, finished surface roughness, workpiece material, and tool material are selected as machining items, and tool depth of cut, □tool feed amount, and tool rotation speed are selected as machining conditions. It is sufficient that at least one of these is selected as a processing item, and at least one of these is selected as a processing condition, and another turtle is selected as a processing item and another as a processing condition. It may also be selected.

In addition, in the embodiment, the processing items were displayed on the screen of the CRT 16, and the desired menu was input using the menu selection switch in response to the question on the screen. It is also possible to input desired numerical data using the numerical key switch group 22 shown.

Furthermore, in one embodiment, when a desired menu selection switch is operated, a plurality of menus for the next processing item are automatically displayed on the screen. It is also possible to display a plurality of menus of desired processing items by operating the event selection switch in an interruptive manner.

Next, the relationship between processing items and processing conditions will be explained in detail.

The machining conditions for the tool, V (peripheral speed) and ? (Feeding speed) is expressed by the following general formula.

v''' (Gl, Gt, Gm, G4, GI
sGs % Gy)F=f(Gt NG,, Ga
, G4, GI, GI, Gy) Here, Gx = gt (tool material, tool) G, = g, (workpiece material, tool) e, = g, (tool diameter, tool) G* = ga ( radial depth of cut, tool) Gs = g (axial depth of cut, tool) G, = g・(hole depth, hole diameter, tool) G, ” = g, (number of tool teeth, pitch, tool) * G ma is required only for taps and mentric cutters. The machining items that determine V and F for each tool are shown in Table 2, and the machining items for nine locations marked with o are shown. It becomes necessary.

(Note 1) y takes a constant value based on the above-mentioned Km relationship (Note 2) 1 is determined only by the pitch of the cod Δ- (Note 3)
1 is determined by the number of teeth on the cutter (Note 4) and is related to the rigidity of the tool.

Table, table! Finished surface roughness is not listed as a KL processing item, but it is possible to take into account the finished surface roughness.And when calculating V and 1, press the menu selection switch as in the above-mentioned 9th embodiment. This is done by sequentially operating the . That is, on the screen K of the OR'r 16 shown in FIG. 7, first select a desired menu K from a plurality of menus for the material of the workpiece, and then operate the corresponding menu selection switch.

Operate the desired menu selection switches in sequence. Next, when you operate the menu selection switch corresponding to the desired menu from the multiple types of menus for the machining unit, the tools used to obtain that machining unit are selected: tool (machining element), tool 1, tool 2, etc.・is automatically induced. The oilator has each tool L, tool 2,...K,
A predetermined machining item (for example, tool diameter) is input using a menu selection switch or a numerical key switch. In addition, tool diameter% v%? Regarding other items, some tools may not be necessary. Furthermore, input appropriate values for each item using the numerical key switches. When inputting the item V, a tool material menu is displayed. At this time, if the tool material is specified in the menu, V and P are calculated according to the arithmetic processing described above. If this automatic determination is inappropriate, enter an appropriate value using the numeric key switches. Furthermore, when %7% ν is automatically determined by specifying the tool material, the display color of the tool name is changed in accordance with the material.

As described above, it is also possible to automatically obtain V and ν for two or more tools.

As described above, according to the present invention, the processing conditions of the processing machine can be automatically determined by sequentially operating the menu selection switches.

[Brief explanation of drawings]

Fig. 1 is an explanatory diagram showing the relationship between the tool and the workpiece, and Fig. 2 is an illustration of the operation according to the embodiment of the present invention. - Explanatory diagram of the configuration of the code, Part 3
The figure is an explanatory diagram showing a menu of nine types of finished surface roughness displayed on the ORT screen, Figure 4 is an explanatory diagram showing a menu of eight types of workpiece materials, and Figure 5 is an explanatory diagram showing a menu of nine types. FIG. 6 is an explanatory diagram showing a menu for two types of tool materials, and FIG. 7 is an explanatory diagram showing a display state on the screen of ORT. In each figure, the same members are given the same reference numerals, 14 is one operation, 16 is ORT, 1B-1, ..., 18-9 is menu, 20-1, ..., 2G-9 is The menu selection switch 22 is a group of numerical key switches. Agent Patent attorney Shin Kuzuno - (#1 or 1 person)

Claims (1)

[Claims] (Rose) A display that displays a plurality of types of menus for processing items on the screen, and a plurality of menu selection switches configured to correspond to the menus, Multiple types of menus are displayed on the screen, and when you input the menu by operating the menu selection switch corresponding to the desired menu from the multiple types of menus, multiple types of menus for the next processing item are automatically displayed on the screen. The feature is that the processing conditions of the processing machine are automatically determined based on predetermined calculation processing from the multiple input menus by operating the menu selection switch that is displayed above and corresponding to the desired menu from the multiple types of menus. A method for setting machining conditions for numerically controlled machining machines. (In the method described in claim (1), at least one of the finished surface roughness, workpiece material, and tool material is selected as a machining item, and the machining conditions are a tool depth of cut and a tool feed rate. , a machining condition setting method for a numerically controlled machining machine, characterized in that at least one of the tool rotation speeds is selected. (3) The method described in claim - (!) or (2) , a numeric key switch is provided for inputting numeric data, and processing items are displayed on the display screen.
A processing condition setting method for a numerically controlled processing machine characterized by inputting desired numerical data using numerical key switches in response to questions on a screen.