JP2015058484A - Tool holder - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a tool holder that enables weight saving while securing rigidity required for the tool holder.SOLUTION: An arbor 2 and a small-diameter part 6 of a stepped tool head 3 are made of tool steel, and a large-diameter part 7 of the stepped tool head 3 is made of an aluminum alloy lighter than the tool steel. Thus, the tool holder 1 enables weight saving while securing rigidity (mechanical property) required for the tool holder 1.

Description

  The present invention relates to a tool holder, and more particularly to a tool holder for machining a stepped hole.

  The step hole is formed, for example, in a transmission case of a vehicle. In addition, the stepped hole here refers to two continuous holes sharing the central axis and having different inner diameters. Such a stepped hole is processed using, for example, a tool holder for machine tools described in Patent Document 1 (hereinafter referred to as “prior art tool holder”). Prior art tool holders include a tool head having a small diameter portion and a large diameter portion, and the tool head is made of an aluminum material to reduce weight. As is well known, reducing the weight of the tool holder has the effect of preventing runout in the high-speed rotation region.

  However, when the tool head is made of an aluminum material, the rigidity is lower than when the tool head is made of tool steel. Such a decrease in rigidity is particularly noticeable as the entire length of the tool holder is increased, and the processing accuracy (for example, roundness, coaxiality, etc.) of the processed stepped hole may be deteriorated.

Utility Model Registration No. 3099591

  Accordingly, the present invention has been made in view of the above circumstances, and an object of the present invention is to provide a tool holder that can be reduced in weight while ensuring the rigidity required for the tool holder.

  In order to solve the above-mentioned problems, a tool holder according to the present invention is a tool holder that includes an arbor and is attached to a spindle of a machine tool via the arbor, and has a small diameter portion and a large diameter portion. The arbor and the small diameter portion are made of tool steel, and the large diameter portion is made of a material lighter than the tool steel.

  ADVANTAGE OF THE INVENTION According to this invention, the tool holder which can be reduced in weight can be provided, ensuring the rigidity requested | required as a tool holder.

It is a front view which shows schematic structure of the tool holder of this embodiment, and is the figure which showed the large diameter part of the tool holder in the cross section by an axial plane especially. It is a front view which shows schematic structure of the tool holder of other embodiment, and is the figure which showed the large diameter part of the tool holder in the cross section by an axial plane especially.

An embodiment of the present invention will be described with reference to the accompanying drawings. The tool holder 1 according to the present embodiment is mounted on a spindle of a machining center (machine tool) and is used for stepping a prepared hole formed in a workpiece.
As shown in FIG. 1, the tool holder 1 has an arbor 2 and a stepped tool head 3. The arbor 2 has a tapered shank portion 4 fitted to the main shaft of the machining center and a flange portion 5 gripped by an ATC (automatic tool changer). In addition, the taper shank part 4 conforms to BT50 prescribed | regulated to JISB6340, for example.

  The stepped tool head 3 has a small diameter portion 6 and a large diameter portion 7 that are arranged coaxially with respect to the central axis C of the tool holder 1. The small diameter portion of the stepped tool head 3 is formed in a cylindrical shape. The small-diameter portion 6 and the arbor 2 are cut out from one shaft member (material) made of tool steel. In other words, the small diameter portion 6 is formed integrally with the arbor 2, and at the same time, the small diameter portion 6 and the arbor 2 are formed of tool steel. The stepped tool head 3 is provided with a throw-away tip 8 (cutting blade) at the tip of the small diameter portion 6.

  The large diameter portion 7 of the stepped tool head 3 is formed in an annular shape. The large diameter portion 7 is fitted with a predetermined fit on the outer periphery of the small diameter portion 6. The large-diameter portion 7 is fixed to the arbor 2 by at least one bolt (not shown), and relative rotation around the central axis C with respect to the arbor 2 and the small-diameter portion 6 is prevented by a rotation preventing mechanism. The anti-rotation mechanism can be constituted by, for example, a key attached to the arbor 2 and a key groove formed in the large diameter portion 7. Further, the stepped tool head 3 has a throw-away tip 9 (cutting blade) attached to the tip of the large-diameter portion 7.

  In the present embodiment, the large diameter portion 7 of the stepped tool head 3 is made of an aluminum alloy. This is not intended to limit the material of the large diameter portion 7 to an aluminum alloy. The material of the large diameter portion 7 is lighter than the material of the tool steel, that is, the arbor 2 and the small diameter portion 6 (specific gravity is small). As long as the material has sufficient rigidity (mechanical properties) required for the tool holder 1, for example, a known alloy or plastic may be used.

This embodiment has the following effects.
According to the present embodiment, the arbor 2 and the small diameter portion 6 of the stepped tool head 3 are made of tool steel, and the large diameter portion 7 of the stepped tool head 3 is made of an aluminum alloy that is lighter than the tool steel. The tool holder 1 can be reduced in weight while ensuring the rigidity (mechanical properties) required for the tool holder 1.
In the prior art tool holder in which the entire stepped tool holder 3, that is, the small diameter portion 6 and the large diameter portion 7 are made of an aluminum alloy, the overall length of the stepped tool head 3 (small diameter portion 6) is particularly long. Exceeding the thickness causes vibration during machining due to insufficient rigidity, which may adversely affect the machining accuracy (roundness, coaxiality, etc.) of the stepped hole. In the tool holder 1 according to this embodiment, It is possible to effectively suppress vibration in the high-speed rotation range, and it is possible to process a stepped hole with higher accuracy.
Further, in the tool holder 1 according to the present embodiment, since the small diameter portion 6 of the stepped tool head 3 is configured integrally with the arbor 2, the small diameter portion 6 of the stepped tool head 3 is configured separately from the arbor 2. It is possible to further increase the rigidity as compared with.

In addition, embodiment is not limited above, For example, it can comprise as follows.
In the above-described embodiment, the tool holder 1 is configured by fitting the inner periphery of the large-diameter portion 7 of the stepped tool head 3 to the outer periphery of the base portion of the small-diameter portion 6 (portion opposite to the tip portion). As shown in FIG. 2, the tool holder 11 can be configured by fitting the inner periphery of the large diameter portion 7 of the stepped tool head 3 to the outer periphery of the quill portion 12 of the arbor 2.
In this case, the small diameter portion 6 of the stepped tool head 3 can be fixed to the tip end portion of the quill portion 12 of the arbor 2 by a bolt (not shown).

1 Tool holder, 2 Arbor, 3 Step tool holder, 6 Small diameter part, 7 Large diameter part

Claims (2)

A tool holder including an arbor and attached to a spindle of a machine tool through the arbor,
A stepped tool head having a small diameter part and a large diameter part is provided,
The arbor and the small diameter portion are made of tool steel, and the large diameter portion is made of a material lighter than the tool steel. The tool holder according to claim 1, wherein the small diameter portion is configured integrally with the arbor.

Images