KR200421487Y1 - A direct motor connecting type machine tool - Google Patents

Abstract

The present invention relates to a motor-directed machine tool which reduces the work time by directly connecting the motor to the rotary shaft of the wheel, instead of the worm and worm wheel used as the power transmission mechanism of the machining center, thereby reducing the work time. In the machining center, the drive shaft of the drive motor M is directly connected to the rotary shaft of the worm wheel 2 provided in the machining center.

Machining Center, Worm Wheel, Drive Motor, Spindle, Direct

Description

Machine-directed machine tool {A direct motor connecting type machine tool}

1 is a view showing an embodiment of the configuration of a conventional machining center.

Figure 2 is a perspective view showing the engagement state of the motor and the worm wheel according to the prior art.

Figure 3 is a perspective view showing the structure of one embodiment of a machine-directed machine according to the present invention.

-Explanation of symbols for the main parts of the drawings-

M: Drive Motor 2: Worm Wheel

C1: worm wheel rotation axis

The present invention relates to a machining center, and in particular, a motor-directed work in which the rotation axis of the worm wheel is directly connected to the rotation axis of the drive motor and the tool arm of the machining center so that the rotation speed of the worm wheel is the same as the rotation speed of the drive motor. Relates to a device.

Machine tools used for the purpose of processing metals or non-metal materials into shapes and dimensions by means of various cutting or non-cutting methods or by using appropriate tools or for more precise machining on semi-materials are called machine tools.

Among the machine tools, a machine tool in which chips are generated in a machining process is called a cutting machine tool, and a non-cut machine tool in which chips are not generated in a machining process is called a metal machine.

The above cutting machine tools include lathes, milling machines, machining centers, drilling machines, boring machines, grinding machines, gear cutters, special processing machines, and the like. Bending machine, forging machine, drawing machine and the like.

In general, in order to process a cutting object using a machine tool such as a lathe or a machining center, power generated by a power mechanism such as a motor is used.

1 is a view showing an embodiment of a configuration of a conventional machining center. When the first and second motors M1 and M2 are rotated by externally supplied power, the first and second motors M1, The first and second worms 1a and 1b connected to the rotation shaft of M2 rotate.

The rotation of the first and second worms 1a and 1b causes the first and second worm wheels 2a and 2b to be engaged with the first and second worms 1a and 1b, respectively.

At this time, the engagement state between the second worm 1b, the second worm wheel 2b and the motor is shown in FIG. 2.

In addition, a fixed arm or the like is provided on each of the rotation shafts of the first and second worm wheels 2a and 2b, so that the work of the workpiece is made in accordance with the rotation of the first and second worm wheels 2a and 2b. do.

When operating the machining center configured as described above, the worm and the worm wheel connected to the motor are not easy to rotate at high speed due to the characteristics of the gear, and accordingly, there is a problem that a lot of work time is required.

The present invention has been devised to solve the above problems, instead of the worm and worm wheel used as the power transmission mechanism of the machining center, the motor can be directly connected to the shaft of the wheel to obtain high-speed rotation, thereby reducing the work time. An object of the method is to provide a machine tool.

3 is a perspective view showing the structure of an embodiment of a motor-directed machine according to the present invention, in a machining center for processing a work, the drive motor to the rotary shaft (C1) of the worm wheel (2) provided in the machining center; It shows that it is formed by connecting the drive shaft of (M) directly.

An embodiment of the present invention will be described with reference to the drawings.

As shown in FIG. 3, the drive shaft installed in the drive motor M is configured to be directly connected to the rotation shaft C1 of the worm wheel 2.

It can be seen that the drive shaft of the drive motor M is directly connected to the rotation shaft of the worm wheel 2 without passing through a component such as a worm, so that the worm wheel 2 rotates at the same rotation speed as the rotation speed of the drive motor M. have.

Since the rotation of the drive motor M is transmitted to the worm wheel 2 without being decelerated, the rotation of the drive motor M and the worm wheel 2 is made the same, so that the rotation of the worm wheel 2 is made at a relatively high speed.

It is the same as in the prior art that the fixed arm for fixing the workpiece to the worm wheel (2) is the work of the workpiece by the rotation of the worm wheel (2).

At this time, since the rotation speed of the worm wheel 2 is the same as the rotation speed of the drive motor M, the rotation speed is relatively high, thereby reducing the work time of the workpiece.

According to the present invention configured as described above, the rotation axis of the drive motor is directly connected to the rotation axis of the worm wheel on which the tool arm is installed, so that the rotation speed of the worm wheel is the same as the rotation speed of the drive motor, thereby obtaining a high speed rotation of the worm wheel. Work time is saved.

Claims (1)

A machining center for processing a work, wherein the motor direct connection type machine tool is formed by directly connecting the drive shaft of the drive motor (M) to the rotation shaft (C1) of the worm wheel (2) provided in the machining center.

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