KR20190096558A - Machine tool anti-vibration device - Google Patents

Abstract

A guide roller of a vibration dampener is configured to be varied in a radial direction from a center rotation of the vibration dampener and a finger chuck of a bar feeder is rotate-supported by a guide roller in a state of entering the vibration dampener. In addition, a tapered part is formed on the guide roller of the vibration dampener, and the finger chuck is configured to easily enter the vibration dampener. In addition, a guide groove for guiding the guide roller in the body of the vibration dampener is formed such that the guide roller is easily variable in the radial direction. Therefore, an objective of the present invention is to solve a problem that a round bar material does not receive a rotation support from the vibration dampener as the processing proceeds.

Description

Machine tool anti-vibration device

The present invention relates to an anti-vibration port of a machine tool, and more particularly to an anti-vibration device for machine tools that can guide the outer diameter of a round rod or cylindrical long material.

Generally, in order to process a round bar or a cylindrical long material in a machine tool such as a turning center, as shown in FIG. 1, the round bar material 50 is supplied in the direction of the spindle 30, and at the same time, sagging and shaking of the round bar material 50 are performed. To prevent this, a bar feeder 40 is used at the rear end of the spindle.

The bar feeder 40 has a stroke distance of 1m to 2m, and as the machining operation proceeds at the front end of the spindle 30, the rod material 50 is gradually pushed toward the spindle 30 together with the finger chuck 41. Can give Of course, the stroke distance of the bar feeder 40 may be arbitrarily larger or smaller.

In addition, the bar feeder 40 may include a dustproof opening 10 on one side of the inside to prevent shaking of the rotating rod material 50. Such a vibration isolator is usually provided with three guide rollers 11 and made of a structure for rotationally supporting the outer periphery of the round bar material (50).

In addition, the bar feeder 40 has a finger chuck 41 which clamps the round bar material 50 penetrating therein and rotates together with the round bar material 50. In addition, the bar feeder 40 pushes the round bar material 50 together with the finger chuck 41 in the direction of the spindle 30 whenever the round bar material 50 is processed one by one at the tip of the spindle 30 of the machine tool.

However, as the bar feeder 40 is processed, the finger chuck 41 gradually moves toward the spindle 30 toward the dustproof opening 10 as the machining operation progresses. In this way, when the finger chuck 41 of the bar feeder 40 is close to the dustproof opening 10, the dustproof opening 10 is intended to support the rotation of the annular material 50 to avoid interference with the finger chuck 41. Stop and open the guide roller 11.

When the guide roller 11 of the anti-vibration opening 10 is in an open state, the round bar material 50 is vibrated and supported only by the finger chuck 41 of the bar feeder 40, and thus does not receive sufficient rotational support. This happens and makes an uneasy turn.

As such, when the processing of the full bar material 50 is progressed, the round bar material 50 is further vibrated, and the vibration of the round bar material 50 is transmitted to the spindle 30 and the bar feeder 40 so that the spindle 30 ) Decrease the precision of the workpiece of the tip and generate noise together.

In such a situation, the operator drops the rotational speed of the spindle 30 to reduce vibration and noise in the round bar material 50. As a result, the machining productivity is remarkably lowered, and in the case of a workpiece that needs to be processed by rotating the spindle 30 at a constant speed or more, the machining accuracy is also lowered. Even in the case of a workpiece that requires high precision, the machining is no longer possible, and the remaining round bar material 50 is discarded. This causes material waste.

The present invention is to overcome the same problems as the prior art, the object of the present invention is to solve the problem that the round bar material does not receive rotational support from the dustproof hole as the processing proceeds.

Another object of the present invention is to solve the vibration and noise problems caused by not receiving the rotation support by the dustproof hole as the processing proceeds.

Still another object of the present invention is to reduce the production speed by reducing the processing speed or the waste material caused by discarding the remaining round bar material because the dustproof sphere does not support the round bar material to the end.

The anti-vibration device of the present invention for achieving the above object, the finger chuck when the finger chuck of the bar feeder enters the inside of the anti-vibration opening by configuring the guide roller of the anti-vibration opening to be changed in the radial direction from the rotation center of the anti-vibration opening It can be rotated and supported by the guide roller.

In addition, the tapered portion is formed on the guide roller of the vibration isolator, the finger chuck is easily configured to enter into the vibration isolator.

In addition, the guide roller has a guide groove for guiding the guide roller in the body of the dustproof opening so that the variable in the radial direction is easily formed.

In addition, by installing a vibration isolation in the form of a separate tooth between the rear end of the spindle and the bar feeder to enable more stable rotation support of the finger chuck of the bar feeder.

According to the present invention, as the processing of the round bar material progresses, the length of the round bar material is shortened, so that when the finger chuck of the bar feeder enters the inside of the anti-vibration port, the guide roller of the anti-vibration port retracts in the radial direction to support the rotation of the outer diameter of the finger chuck. Vibration of the material can be suppressed.

In addition, the present invention can extend the processing range of the round bar material by advancing into the dustproof hole in the state where the finger chuck gripping the round bar material, it is possible to reduce the waste of material by minimizing the length of the remaining material.

In addition, the present invention does not need to reduce the rotational speed of the spindle in order to suppress the vibration can increase the machining productivity, and improve the machining accuracy.

In addition, the present invention can be varied in the radial direction of the guide roller of the anti-vibration port can widen the diameter range of the round bar material that can be rotated.

1 is a cross-sectional view of a bar feeder and a machine tool spindle including a general dustproof device according to the prior art.
2 is a perspective view of an embodiment of the present invention, in which a vibration isolator is mounted on one side of a spindle of a machine tool.
3 is an internal structural view showing the arrangement of the guide roller of the vibration isolator as an embodiment of the present invention.
4 is a perspective view of the guide roller of the dustproof port as an embodiment of the present invention.
Figure 5 is an embodiment of the present invention, is a perspective view of the interior of the vibration isolator equipped with a guide roller.
6 is a perspective view of a dustproof port as an embodiment of the present invention.
7 is a cross-sectional view of an embodiment of the present invention, in which the dustproof mechanism rotates and supports the round bar material supplied from the bar feeder.
8 is a cross-sectional view in which the finger chuck of the bar feeder enters the dustproof opening and is rotatably supported by the guide roller.

The machine tool dustproof device 10 according to the present invention will be described with reference to FIGS. 2 to 8.

First, referring to Figure 2, the dustproof opening 10 of the present invention is mounted on the rear end of the spindle 30 of the machine tool. For convenience, the dustproof opening 10 of the present invention may be installed between the rear end of the spindle 30 and the bar feeder 40, and in some cases, may be attached to one side of the bar feeder 40. .

Preferably, as in the embodiment of the present invention, by installing the anti-vibration opening 10 at the rear end of the spindle 30, between the tip of the spindle 30 and the bar feeder 40 when the spindle 30 is based on the tip of the spindle 30. To be installed in the middle point of the round bar material (50) to prevent sagging down due to the weight.

3 to 6, the dustproof opening 10 of the present invention is provided with three guide rollers 11 in the case 20. The guide roller 11 is rotatably supported at one end by the roller support 14. The roller support 14 is elastically supported by a spring 13 so as to be movable in the longitudinal direction of the roller support 14 from the case 20.

In addition, the rotation centers of the three guide rollers 11 are disposed to be located on the concentric circles of the same rotation radius from the center of the through-hole 22 formed in the center of the case 20. In addition, the three roller support 14 is installed so that the imaginary line connecting the center of rotation of the guide roller 11 installed at the tip to form a triangle, to support the round bar material 50 three points.

On the other hand, the guide roller 11 is elastically supported by the roller support 14 in the radial direction of the guide roller 11 so as to support the outer diameter of the finger chuck 41 of the bar feeder 40.

On the other hand, the guide roller 11 forms a tapered portion 12 in which the material is inclined to one side edge portion of the rotation surface in the entry direction.

In addition, the roller support 14 has a guide block 15 for supporting both ends of the rotary shaft 16 of the guide roller (11).

On the other hand, the through hole 22 is formed in the central front and rear surfaces of the case 20 so that the round bar material 50 can pass therethrough. In addition, the front and rear surfaces of the case 20, the guide groove 21 is formed in the same direction as the roller support 14 to guide the guide block 15.

7 and 8, the operation process for the dustproof device 10 of the embodiment of the present invention.

Referring first to Figure 7, the dustproof opening 10 of the present invention is installed between the spindle 30 and the bar feeder 40, it is fixed to one side of the spindle (30). The operator clamps the round bar material 50 through the bar feeder 40 and passes through the through hole 22 and the guide roller 11 of the dustproof port 10 for the machining operation.

At this time, the guide roller 11 of the anti-vibration port 10 is moved within the allowable range in the axial direction of the roller support 14 according to the diameter size of the round bar material (50). The movement of the guide roller 11 is made in the state of elastically supporting the round bar material 50 in the rotation center direction by the elasticity of the spring 13 installed at the rear end of the roller support 14. At this time, the roller support 14 is the shaft of the roller support 14 while the guide block 15 for supporting the rotating shaft 16 of the guide roller 11 is guided in the guide groove 21 formed in the case 20 Will be moved in the direction.

On the other hand, whenever the machining operation of the round bar material 50 at the tip of the spindle 30 is repeated, the bar feeder 40 with the finger chuck 41 holding the round bar material 50 together with the round bar material 50. It is pushed toward the spindle 30 by a predetermined length. At this time, the anti-vibration opening 10 allows the forward movement of the round bar material 50 in the direction of the spindle 30 by the elasticity of the spring 13 installed at the rear end of the roller support 14.

On the other hand, referring to Figure 8, if the processing operation of the round bar material 50 is repeatedly carried out the finger chuck 41 of the bar feeder 40 holding the round bar material 50 is a guide roller of the dustproof opening 10 (11) is approached. At this time, the finger chuck 41 of the bar feeder 40 has a larger diameter than the round bar material 50 because the shape surrounding the round bar material 50 in the circumferential direction.

As such, when the machining operation of the round bar material 50 continues on the spindle 30, the finger chuck 41 holding the round bar material 50 continuously guides the roller within the stroke distance of the bar feeder 40. 11) It will enter inside. When the finger chuck 41 holding the round bar material 50 enters the guide roller 11 as described above, the outer diameter portion of the tip of the finger chuck 41 is inclined to the guide roller 11. Press to push the guide roller 11 back by the diameter of the finger chuck (41). At this time, the guide roller 11 is pushed back while receiving elasticity by the spring 13 installed at the rear end of the roller support 14. In this state, the guide roller 11 is in a state of supporting rotation of the outer diameter of the anchoring chuck entered into the guide roller 11 together with the round bar material 50.

On the other hand, when the guide roller 11 withdraws in this way, the guide block 15 of the roller support 14 is guided in the axial direction of the roller support 14 in the guide groove 21 formed in the case 20. Guide the roller 11 to move in a constant direction.

On the other hand, as another embodiment of the present invention, it is possible to assume a dustproof sphere having four or more guide rollers (11). Thus, when four or more guide rollers 11 are installed, the direction of the roller support 14 attached to each guide roller 11 is directed toward the center of the through-hole 22 through which the round bar material 50 passes. Install it. Similarly, the case 20 may be provided with a guide groove 21 for guiding the guide block 15 of the roller support 14 in the same direction as the roller support 14. Other components that are not described above will be omitted since those skilled in the art will have no problem in implementing the above-described embodiments.

As described above, according to the present invention, as the processing of the round bar material 50 proceeds, the length of the round bar material 50 becomes short, so that the finger chuck 41 of the bar feeder 40 enters the dustproof hole 10. The guide roller 11 of (10) is variable in the radial direction so as to support the outer diameter of the finger chuck 41 can suppress the noise and vibration of the round bar material (50).

In addition, the present invention can extend the processing range of the round bar material 50 by advancing into the dustproof opening 10 in the state where the finger chuck 41 gripping the round bar material 50, minimizing the length of the remaining material This can reduce waste of material.

In addition, the present invention does not need to reduce the rotational speed of the spindle 30 in order to suppress the vibration can increase the processing productivity and improve the processing accuracy.

In addition, the present invention can widen the diameter range of the round bar material 50 that can be rotatably supported by the guide roller 11 of the anti-vibration opening 10 is changed in the radial direction.

10 dust isolation
11 Guide Roller
12 taper
13 springs
14 roller support
15 Guide Block
16 axis of rotation
20 cases
21 Guide groove
22 through hole
30 spindles
40 bar feeder
41 Finger Chuck
50 round material

Claims (6)

At least three guide rollers provided in the case;
A roller support for supporting the guide roller elastically and rotatably by inserting a spring between the case;
The guide roller forms a tapered portion inclined at one corner portion of the rotating surface;
The roller support has a guide block for supporting both ends of the rotating shaft of the guide roller;
Dustproofing device of the machine tool, characterized in that the front and rear surfaces of the case is formed with a guide hole for guiding the through-hole through which the round bar material and the roller support. The dustproof device of claim 1, wherein the guide roller is disposed such that the center of rotation is located on a concentric circle having the same rotation radius from the center of the through hole. The dustproof device of claim 1, wherein the roller support is disposed at a position where an imaginary line connecting the rotation center of the guide roller installed at the tip forms a triangle. The dustproof device of claim 1, wherein the guide roller is elastically supported by the roller support in the radial direction of the guide roller so as to support the outer diameter of the finger chuck of the bar feeder. The dustproof device of claim 1, wherein the case is fixed to a rear end of the spindle of the machine tool. The dustproof device of claim 1, wherein the case is fixed to the tip of the bar feeder.

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