JP2003266265A - Rotary machining device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a rotary machining device of excellent practicability capable of easily achieving at a low cost both prevention of breakage of a power terminal or a feed terminal in connecting the power terminal to the feed terminal and reduction of machining time. <P>SOLUTION: In this rotary machining device 11, a tool holder 1 to hold a tool 21 is installed, and the tool 21 is rotated to conduct work. The rotary machining device 11 is provided with a rotary part 12 where the tool holder 1 is installed and rotated. The tool holder 1 is provided with a rotation mechanism 2 to rotate the tool 21, and the power terminal 3 to drive the rotation mechanism 2. The rotary machining device 11 is provided with the feed terminal 13 to be connected to the power terminal 3. In addition, it is composed in such a way that actuation for connecting the power terminal 3 to the feed terminal 13 is conducted only after actuation for installing the tool holder 1 to the rotary part 12 is conducted. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary working device for performing a working operation using a drill or the like.

[0002]

2. Description of the Related Art In a general rotary machine tool, a mounting portion (shank portion) of a tool holder for holding a tool such as a drill or an end mill is mounted on a rotating portion (spindle), With this rotation of the spindle, the tool holder is rotated so that the tool is used for the work operation.

In addition, since this rotary machine tool carries out various machining operations, different tools are held by a plurality of tool holders, and the plurality of tool holders are sequentially mounted on a spindle to perform machining operations. Is configured to do.

On the other hand, there is a limit to the rotational speed of the spindle of the rotary machine tool. Therefore, when it is desired to rotate the tool at a rotation speed higher than the limit of the spindle, for example, Japanese Patent Application Laid-Open No.
As in the case of 01-150281, a configuration is adopted in which the tool holder has a built-in rotation mechanism (motor) and the motor rotates the tool.

By the way, when using a tool holder having a built-in motor, of course, energy (electricity) for operating the motor is required. Therefore, for example, in the above-mentioned Japanese Patent Laid-Open No. 2001-150281, when a tool holder is provided with a power supply terminal while a machine tool is provided with a power supply terminal and the tool holder is mounted on a spindle,
The power supply terminal and the power supply terminal are connected.

However, the structure in which the operation of mounting the tool holder on the spindle and the operation of connecting the power supply terminal to the power supply terminal are performed at the same time has the following problems.

When a plurality of tool holders are sequentially mounted on the spindle for machining work, the tool holders must be moved at high speed to be mounted on the spindle in order to shorten the machining time. And, if the mounting is performed at a high speed, the impact at the time of mounting is naturally large.

Therefore, in the case where the shank portion of the tool holder and the spindle are slightly misaligned, the positions of the power supply terminal and the power supply terminal are naturally slightly misaligned (connection failure) and the impact is not generated. Due to the size, the power supply terminal and the power supply terminal may be damaged.

If the moving speed of the tool holder is slow, even if the positions of the power supply terminal and the power feeding terminal are slightly deviated, the impact is small and the damage can be prevented, but the moving speed of the tool holder is low. Inevitably, it is not preferable from the viewpoint of shortening the processing time (of course, a connection failure may occur).

If the machining program is set so that the tool holder having no power supply terminal moves at a high speed and only the tool holder having the power supply terminal moves at a low speed, damage to the power supply terminal or the power supply terminal is prevented. Both prevention and shortening of the machining time can be achieved, but in this case, of course, the problem that the machining program becomes complicated and the change of the machining program when changing the type of machining becomes troublesome. Problems occur.

Further, for example, a method of accurately mounting the moving body and connecting the power supply terminal and the power supply terminal by manually moving the tool holding body can be considered. Replacing the holder is time consuming and fatal.

The present invention solves the above problems,
(EN) Provided is a rotary machine tool excellent in practicability, which can both prevent damage to a power supply terminal and a power supply terminal when connecting a power supply terminal to a power supply terminal and shorten a machining time easily at low cost. It is a thing.

[0013]

The gist of the present invention will be described with reference to the accompanying drawings.

A rotary machine tool for mounting a tool holder 1 holding a tool 21 and rotating the tool 21 to perform work. The tool holder 1 is mounted on the rotary machine apparatus 11 and rotated. A rotating part 12 is provided, the tool holder 1 is provided with a rotating mechanism 2 for rotating the tool 21, and a power supply terminal 3 for driving the rotating mechanism 2. The rotating machine device 11 is provided with: A power supply terminal 13 connected to the power supply terminal 3 is provided, and the tool holder 1 is further provided with a rotating portion 12.
The operation of mounting the tool holder 1 on the rotating portion 12 and the operation of connecting the power supply terminal 3 to the power supply terminal 13 are performed after the operation of mounting the tool holder 1 on the rotating part 12 and the operation of connecting the power supply terminal 3 to the power supply terminal 13. The present invention relates to a rotary machine tool having the above-mentioned configuration.

Further, in the rotary machine tool according to the first aspect, the power supply terminal 13 is movably provided, and after the operation for mounting the tool holder 1 on the rotating portion 12 is performed, the power supply terminal 13 moves. The present invention relates to a rotary machine tool, characterized in that the operation of connecting the power supply terminal 3 to the power supply terminal 13 is performed.

Further, in the rotary machine tool according to any one of claims 1 and 2, the tool holder 1 is provided with a rotating mechanism 2
A cooling mechanism 4 for blowing cold air to cool the cooling mechanism 4 is provided, and an inlet port 5 for introducing the cold air into the cooling mechanism 4 is provided near the power supply terminal 3 of the tool holder 1, and the power supply terminal is provided.
A cold air supply port 14 connected to the introduction port 5 is provided in the vicinity of 13, and an operation of connecting the introduction port 5 to the cold air supply port 14 is also performed.
The present invention relates to a rotary machine tool, which is configured to be performed after an operation of mounting the tool holder 1 on the rotating portion 12 is performed.

Further, in the rotary machine tool according to any one of claims 1 to 3, an arbitrary tool holder 1 is selected from a plurality of tool holders 1 for performing a plurality of different operations, and the rotary unit is selected.
The present invention relates to a rotary machine tool characterized in that an attaching / detaching mechanism 15 for attaching / detaching to / from 12 is provided.

In addition, a rotary machine tool for mounting a tool holder 1 for holding a tool 21 and rotating the tool 21 to perform work. The tool holder 1 is mounted on the rotary machine apparatus 11. A rotating part 12 for rotating is provided, the tool holder 1 is provided with a rotating mechanism 2 for rotating the tool 21, and a power supply terminal 3 for driving the rotating mechanism 2.
The rotary machine tool 11 is provided with a power supply terminal 13 connected to the power supply terminal 3, and further, an operation of mounting the tool holder 1 on the rotating part 12 and an operation of connecting the power supply terminal 3 to the power supply terminal 13. The present invention relates to a rotary machine tool characterized in that and are configured to be operated separately.

[0019]

The operation and effect of the present invention is such that, after the operation of mounting the tool holder 1 on the rotating portion 12, the operation of connecting the power supply terminal 3 to the power supply terminal 13 is performed, for example, the tool holder 1
Even if the operation of attaching the power supply terminal 3 to the rotating portion 12 is performed at high speed, the operation of connecting the power supply terminal 3 to the power supply terminal 13 can be performed at low speed. Therefore, when the power supply terminal 3 is connected to the power supply terminal 13, It is possible to prevent both the terminal 3 and the power supply terminal 13 from being damaged and shorten the processing time.

Since the operation of mounting the tool holder 1 on the rotating portion 12 and the operation of connecting the power supply terminal 3 to the power supply terminal 13 are different operations, and the order of this operation is determined,
The present invention is inexpensive and easy to achieve.

Since the present invention is configured as described above, both the prevention of damage to the power supply terminal and the power supply terminal when connecting the power supply terminal to the power supply terminal and the reduction of the processing time are inexpensive and simple. It is a rotary machine tool with excellent practicality that can be achieved.

[0022]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The drawings illustrate one embodiment of the present invention and will be described below.

In this embodiment, tools such as drills and end mills are used.
A rotary machine tool for mounting a tool holder 1 holding 21 and rotating the tool 21 to perform work. The rotary machine apparatus 11 has a mounting part 6 (shank part) of the tool holder 1 mounted thereon. A rotating part 12 (spindle) for rotating
The tool holder 1 is attached to the rotating portion 12 and the tool holder 1 is attached.
A rotary working device for performing work with the tool 21 by rotating the tool, wherein the tool holder 1 has the tool 21
A rotating mechanism 2 (high frequency motor) for rotating the rotating machine and a power supply terminal 3 for driving the rotating mechanism 2 are provided.
The rotary machine tool 11 is provided with a power supply terminal 13 connected to the power supply terminal 3, and further, an operation of mounting the tool holder 1 on the rotating part 12 and an operation of connecting the power supply terminal 3 to the power supply terminal 13. Is configured such that after the operation of mounting the tool holder 1 on the rotating portion 12 is performed, the operation of connecting the power supply terminal 3 to the power supply terminal 13 is performed.

The tool holder 1 has a mounting portion 6 at the base end (upper part in FIG. 1) and a chuck portion 7 for holding the tool 21 at the tip.

Further, a gripped portion 10 for holding the tool holder 1 by the attaching / detaching mechanism 15 is provided at the tip end side position of the mounting portion 6 of the tool holder 1.

Further, the tool holder 1 is provided with the rotating mechanism 2
A cooling mechanism 4 is provided to cool the air by blowing cold air. The rotating mechanism 2 is often used to rotate the tool 21 at several tens of thousands of rotations, and since they generate a large amount of heat, the cooling mechanism 4 is almost essential.

A projecting portion 8 is provided on a side portion (right portion in FIG. 1) of the tool holder 1, and a power source terminal 3 for supplying electricity to the rotating mechanism 2 is provided on the projecting portion 8 and the cooling portion. An inlet 5 for supplying cold air to the mechanism 4 is provided.

The protrusion 8 is provided with a fitting recess 9 into which a fitting projection 16 described later is fitted.
Is provided with the power supply terminal 3 and the inlet 5.

The rotary machine tool 11 is configured to operate according to an appropriate machining program.

For the rotary machine tool 11, a predetermined tool holder 1 is selected according to a machining program from a plurality of tool holders 1 held by a tool holder holder (not shown), and the selected tool holder 1 is selected. An attachment / detachment mechanism 15 for attaching / detaching the tool holder 1 to / from the rotating portion 12 is provided, and the rotary working device 11 is configured to perform different work for each different tool holder 1 depending on the selected tool holder 1. Has been done.

The attachment / detachment mechanism 15 is configured to grip the gripped portion 10 of the tool holder 1 and mount the tool holder 1 on the rotating portion 12 or hold it on the tool holding holder.

In the vicinity of the rotating part 12, a moving body 17 is provided which slides in the front-back direction (vertical direction in FIG. 1) according to the machining program.

The moving body 17 is provided with a power supply terminal 13 connectable to the power supply terminal 3 and a cold air supply port 14 connectable to the inlet 5.

Further, the movable body 17 is provided with a cylindrical fitting convex portion 16 which can be fitted into the fitting concave portion 9 of the tool holding body 1. Inside the power supply terminal
13 and the cold air supply port 14 are provided.

The moving body 17 includes a power supply (not shown) for supplying electricity to the power supply terminal 13 and the cold air supply port 1.
4 are connected to blowers (not shown) for supplying cool air to the respective units.

The moving body 17 is detachably provided in the vicinity of the rotating portion 12 in the rotary working device 11.

The power supply terminal 13 and the cold air supply port 14 of the moving body 17 are always covered with an appropriate cover, and when the power supply terminal 3 and the introduction port 5 of the tool holder 1 are connected, the cover is covered. It is advisable to adopt a configuration in which the power supply terminal 13 and the cold air supply port 14 are exposed by opening.

In the figure, reference numeral 24 designates a projecting / contracting body 24 which projects by drawing out cool air from the cold air supply port 14 and which immerses when the drawing of the cool air is stopped. The projecting and retracting body 24 is configured so that it can be fitted into a locking hole 25 provided in the fitting recess 9 of the tool holder 1. Further, reference numeral 18 is an adjusting mechanism for setting the power supply terminal 13 and the cold air supply port 14 at proper positions (positions where the power supply terminal 3 and the introduction port 5 can be satisfactorily connected), and 19 sends electricity to the power supply terminal 13. Alternatively, it is a supply mechanism for sending cold air to the cold air supply port 14.

The operation of this embodiment will be described below.

A predetermined tool holder 1 is selected according to the machining program, and the tool holder 1 is held by the attachment / detachment mechanism 15.

When the tool holder 1 not having the power supply terminal 3 is selected, the tool holder 1 is mounted on the rotating portion 12 and then the rotating portion 12 is rotated so that the tool holder 1 is rotated. The tool 21 is rotated and the tool 21 is rotated by the rotation of the tool holder 1 to perform the working operation.

When the tool holder 1 having the power supply terminal 3 is selected, the tool holder 1 is mounted on the rotating part 12 and then the moving body 17 is moved so that the feeding terminal of the moving body 17 is moved. 13 and the cold air supply port 14 are connected to the power supply terminal 3 and the introduction port 5 of the tool holder 1, respectively, and the tool 21 is rotated at high speed using the rotation mechanism 2 of the tool holder 1 to perform the working operation (this machining Do not rotate the tool holder 1 during work.)

At this time, the operation for mounting the tool holder 1 on the rotating portion 12 (operation by the attachment / detachment mechanism 15) is performed at high speed, and the power supply terminal 13 and the cold air supply port 14 of the moving body 17 are connected to the tool holder 1. The operation for connecting to the power supply terminal 3 and the inlet 5 (operation of the moving body 17) is performed at low speed.

As a result, the tool holder 1 can be moved at high speed in a short time, and the tool 21 of the tool holder 1 can be connected at a high speed by the rotating mechanism 2 (moving body).
The connection between the power supply terminal 13 and the cold air supply port 14 of 17 and the power supply terminal 3 and the introduction port 5 of the tool holder 1 can be reliably performed at a low speed.

As a result, when various machining operations are carried out using a plurality of tool holders 1, the tool holders 1 move at a high speed, so that the work to be applied to the work can be carried out in a short time, and , The power supply terminal 13 of the moving body 17 and the cold air supply port 14
Since the connection between the power supply terminal 3 and the introduction port 5 of the tool holder 1 is slow, it is possible to prevent damage to these connection portions.

Since this embodiment is configured as described above, both the prevention of damage to the power supply terminal 3 and the power supply terminal 13 when the power supply terminal 3 is connected to the power supply terminal 13 and the reduction of the processing time are achieved. It is a rotary machine tool with excellent practicality.

Further, since the power feeding terminal 13 is simply moved, the above effects can be implemented inexpensively and easily.

Further, when the power supply terminal 13 is moved, the cold air supply port 14 is simultaneously moved to be connected to the introduction port 5 of the tool holder 1, so that the power supply terminal 3 is connected to the power supply terminal 13. It is possible to simultaneously perform the operation for connecting the inlet 5 and the cold air supply port 14, and also in this respect, it is possible to shorten the processing time and prevent damage to the inlet 5 and the cold air supply port 14. Will be achieved.

Further, since the work in which the tool 21 is rotated at a high speed can be performed without using an expensive ultra-high speed rotation type machine tool, it is excellent in practicability also in this respect.

[Brief description of drawings]

FIG. 1 is an explanatory partial cross-sectional view of the present embodiment.

[Explanation of symbols]

1 Tool holder 2 rotation mechanism 3 power terminals 4 Cooling mechanism 5 entrance 11 rotary machine tool 12 rotating parts 13 Power supply terminal 14 Cold air supply port 15 Detachable mechanism 21 tools

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Tetsuo Seki             Niigata Prefecture Ojiya-shi Ojiya 2600-1 Yu             Kiwa Seiko Co., Ltd. (72) Inventor Takashi Ikehara             Niigata Prefecture Ojiya-shi Ojiya 2600-1 Yu             Kiwa Seiko Co., Ltd. F-term (reference) 3C011 FF01

Claims (5)

[Claims] 1. A rotary machine tool for mounting a tool holder for holding a tool and rotating the tool to perform a work.
The rotating machine device is provided with a rotating portion for mounting and rotating a tool holder, and the tool holder is provided with a rotating mechanism for rotating the tool and a power supply terminal for driving the rotating mechanism. The rotating machine device is provided with a power supply terminal connected to the power supply terminal, and further, the operation of mounting the tool holder on the rotating portion and the operation of connecting the power supply terminal to the power supply terminal are performed by the tool holder. A rotary machine tool characterized in that it is configured such that after the operation of mounting on the rotating part is performed, the operation of connecting the power supply terminal to the power supply terminal is performed. 2. The rotary machine tool according to claim 1,
The power supply terminal is movably provided, and after the operation of mounting the tool holder on the rotating portion is performed, the power supply terminal is moved and the operation of connecting the power supply terminal to the power supply terminal is performed. A rotary machine tool that is characterized by 3. The rotary machine tool according to claim 1, wherein the tool holder is provided with a cooling mechanism for blowing cold air to the rotary mechanism to cool the rotary mechanism. An inlet for introducing the cold air into the cooling mechanism is provided near the terminal, a cold air supply port connected to the inlet is provided near the power supply terminal, and an operation for connecting the inlet to the cold air supply port is provided. Is also configured to be performed after the operation of mounting the tool holder on the rotating portion is performed. 4. The rotary machine tool according to claim 1, wherein an arbitrary tool holder 1 is selected from a plurality of tool holders that perform a plurality of different operations, and is attached to and detached from a rotary unit. A rotary machine tool having a mechanism. 5. A rotary machine tool for mounting a tool holder for holding a tool and rotating the tool to perform work.
The rotating machine device is provided with a rotating portion for mounting and rotating a tool holder, and the tool holder is provided with a rotating mechanism for rotating the tool and a power supply terminal for driving the rotating mechanism. The rotating machine tool is provided with a power supply terminal connected to the power supply terminal, and the operation of mounting the tool holder on the rotating part and the operation of connecting the power supply terminal to the power supply terminal are performed separately. A rotary machine tool characterized in that it is configured to be opened.