JPH0790444B2 - Tool component combination instruction device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION "Industrial field of use" The present invention relates to a tool component combination indicating device for selecting a component of a tool used in a machining center, a horizontal boring machine or the like and for instructing a combination thereof.

"Prior art" In order to hold tools such as drills, taps and end mills on the spindle of machine tools such as machining centers and horizontal boring machines, they are combined with collets, chucks, tappers, etc. and held directly on the spindle. It must be built into the arbor, which is a member that is attached to the main shaft, to form a tool that can be attached to the spindle. In particular, in numerically controlled machine tools, the total length of tools that are combined and configured is often specified, and an appropriate one is selected from many tool components (tool, chuck, collet, arbor, etc.) and combined. Need to Conventionally, there has been a problem that the selection of these tool components is left to the discretion of the operator, and a skilled person must deal with this.

"Problems to be Solved by the Invention" The present invention has been made to solve the above problems, and by designating the type, diameter, total length, etc. of a tool to be constructed from now on, it is possible to obtain an appropriate An object of the present invention is to provide a tool element combination instruction device capable of automatically selecting tool constituent elements and displaying the combination on a screen.

"Means for Solving Problems" FIG. 1 is an overall configuration diagram for clearly showing the configuration of the invention.

In the present invention, the data input means 1 and the display device 2
And element data consisting of data such as model numbers and dimensions of tool components such as tools, collets, chucks and arbors, and pixel data for graphically displaying the shape of the tool components, the format and dimension division of the tool element. Element information storage means 3 stored as a table that can be searched by, and the element information storage means 3 is searched and combined in accordance with the input data including the tool type, tool diameter, tool length and total length input from the data input means. Selecting means 4 for selectively extracting the tool constituent elements required for the reading, reading means 5 for reading the element data and pixel data of the tool constituent elements selected and extracted by the selecting means 4 from the element information storage means 3, and the reading means. 5. The pixel data of each tool component read out in step 5 is synthesized to display a tool figure in which each element is combined, and also each tool Display means 6 for displaying the element data of the formed elements in the display device 2, a combination instruction device of the tool components, characterized in that it comprises a are provided.

[Operation] According to the above configuration, by inputting from the input means 1 the type of tool to be produced, the tool diameter, the tool length and the total length, the necessary tool constituent elements are selected by the selection means 4 as the element information storage means. It is selected from the table in 3. And
Pixel data of the selected and extracted tool components are combined,
A schematic diagram of the combined tools is displayed on the display device 2. Further, element data such as the model number of each tool component is also displayed on the display device 2 at the same time. Since the configuration of the tool is displayed and instructed on the display device 2 by figures and characters, the operator can easily configure the tool.

"Example" An example of the present invention will be specifically described.

The apparatus of the present invention shown in FIG. 1 is specifically configured by a well-known computer having a processor, a memory, an auxiliary storage device, a keyboard 1 as data input means, a CRT display device 2 and a graphic control circuit therefor. Then, the selection unit 4, the reading unit 5, and the display unit 6 are realized as the processing of the processor. In the storage device in the computer, as illustrated in the element storage means 3 in FIG. 1, a large number of tables of pixel data and element data are stored.

For example, the tool table 31 stores pixel data for graphically displaying the shapes of tools such as drills and end mills as a table for each tool formation and tool diameter section. In addition, data is added to indicate whether or not a chuck or collet should be used. The tool type is stored as a character code such as "D" for a drill and "EM" for an end mill, and can be searched by the character code.

The chuck / collet table 32 is used to graphically display the outer shape of the chuck / collet and the element data including the model number of the chuck / collet used in combination and the chuck / collet combination length for each tool diameter category to be held. Pixel data and are stored. These element data and pixel data can be searched by the tool diameter.

The arbor table 33 stores, for each arbor length, element data including the model number of the arbor and pixel data for schematically illustrating the outer shape of the arbor, and can be searched by the arbor length dimension.

In addition to this, the element storage unit 3 also stores a table of various tool components such as a table of tappers and collets holding tap tools.

FIG. 2 is a flowchart showing the actual processing.

When the process is started, first, in step 101, a data input process is performed. Here, data such as the tool type, the tool diameter, the tool length, and the total length input from the keyboard 1 are stored in a predetermined memory. Further, regarding the data regarding the dimensions such as the tool diameter and the total length, the instructed tolerance is also input and stored at the same time. Then, steps 102 to 105
Then, the inputted tool format is examined, and the processing proceeds to tool display processing 120, 130, ..., 150 according to the corresponding tool format. If there is no corresponding tool type, an input error has occurred, and the process returns to step 101.

For details on tool display processing, see Drill tool display processing 120
Will be described as an example with reference to FIG.

In step 121, the pixel data of the corresponding diameter segment is read from the tool table 31 according to the input tool diameter A,
A graphic formed by the pixel data is displayed on the display device 2. In this step, the tool portion 201 shown in FIG. 3 is displayed.

In step 122, the pixel data and the model number data of the diameter section corresponding to the tool diameter A are read from the chuck / collet table 32, and the figures and the model numbers of the chuck and collet are displayed on the display device 2. In this step, the chuck collet portion 202 shown in FIG. 3 is displayed.

In step 123, the length D of the arbor used is calculated. The arbor length D is the tool length B and the total length E input from the keyboard 1, and the chuck collet table.
Chuck-collet combination length C found by searching for 32
The shortest collet length satisfying D ≧ E− (B + C) is obtained by searching the arbor table 33 using.

In step 124, the pixel data and model number are read from the arbor table 33 according to the arbor length obtained in step 123, and the graphic and arbor model number are displayed on the display device 2.
To display. In this step, the arbor section 203 shown in FIG. 3 is displayed.

In this way, the pixel data of each tool component is combined, and the tool graphic in which each element is combined is displayed on the display device 2.

4 to 7 are image diagrams showing display examples displayed on the display device 2. Each drawing has a tool type
Shown below are examples of displays for drills, end mills, taps, and reamers. In this display example, the schematic outer shape of the combined and configured tools is graphically displayed, and the model numbers, combined dimensions, and tolerances of each tool component are also displayed at the same time. Since the configuration of the tool is clearly indicated on the screen by the figure, model number, etc., the operator can easily configure the tool and prepare the tool (presetting, etc.).

"Effects of the Invention" As described above, the present invention has the above-described configuration, and since the tool configuration is automatically selected and the tool configuration is displayed on the screen of the display device by a graphic or the like, the operator There is an excellent effect that the tool can be easily constructed.

[Brief description of drawings]

The drawings show embodiments, FIG. 1 is a diagram for clearly showing the constitution of the present invention, FIG. 2 is a flow chart showing actual processing, FIG. 3 is a diagram for explaining tool components, and FIGS. FIG. 6 is an image diagram showing a display example on a display device. 1 ... Data input means, 2 ... Display device, 3 ...
... element information storage means, 4 ... selection means, 5 ... reading means, 6 ... display means, 31 ... tool table, 32 ... chuck collet table, 33 ... arbor table.

Claims (1)

[Claims] 1. A data input means, a display device, and element data including data such as model numbers and dimensions of tool components such as tools, collets, chucks, arbors, etc., and a graphic representation of the shape of the tool components. Pixel data is
Element information storage means stored as a table that can be searched by the type and size division of the tool element, and the tool type, tool diameter, input from the data input means,
Selection means for searching the element information storage means according to input data consisting of tool length and total length, and selectively extracting tool constituent elements required for combination, and element data and pixel data of tool constituent elements selectively extracted by the selecting means Is read from the element information storage means, and pixel data of each tool constituent element read by the reading means is combined to display a tool graphic in which the respective elements are combined, and each tool constituent element is also displayed. Means for displaying the element data of 1. on the display device, and a tool component combination instruction device.