KR20180113398A - Machine tool - Google Patents

Abstract

The present invention provides a machine tool which comprises: a fixing unit in which at least two coupling grooves are formed on one side surface; a fixed unit in which a coupling hole corresponding to the coupling grooves is formed to be fixated to the fixing unit; and at least two adjustment units penetrating through the coupling hole to be coupled to the coupling grooves, and adjusting a distance between opposite sides of the fixed unit and the fixing unit.

Description

Machine tool {MACHINE TOOL}

The present invention relates to a machine tool having an improved axial alignment structure.

A machine tool is a machine that is used for machining metal or nonmetal materials (hereinafter referred to as "base material") into shapes and dimensions by using various cutting or non-cutting machining methods, or for adding more precise machining.

In such a machine tool, the main shaft to which the base material is disposed or the tool base on which the tool is disposed can be moved to machine the base material in various ways.

Here, the movement of the main shaft or the tool carrier may be realized as a straight line, a rotation, or both.

1 is a partial perspective view of a conventional tool rest.

1, the tool rest 10 includes a head body 11 disposed in the machine tool so as to be linearly movable, and a spindle 12 rotatably disposed on one side of the head body 11 can do.

That is, since the head body 11 can perform linear motion and the spindle 12 can rotate, it is necessary to accurately align the axes to fasten the spindle 12 to the head body 11 do.

The axis of rotation of the spindle 12 and the axis of movement of the head body 11 are shifted from each other so that the parallelism, the perpendicularity, the concentricity, the symmetry and the like do not match, and the spindle 12 is arranged at a desired position Vibration and noise may occur when the spindle 12 is rotated.

Such a problem may cause the durability of the machine tool to be lowered and the quality of the workpiece to be lowered.

Therefore, in the conventional machine tool, the liner 13 is used at the fastening portion for axial alignment between the stationary portion such as the head body 11 and the rotatable fixed portion such as the spindle 12. [

The process of fastening the fixing part and the fixing part with the liner 13 is as follows.

Once the liner 13 is inserted between the fixing portion and the fixing portion, the fixing portion and the fixing portion are engaged.

After that, it is measured whether the alignment of the fixed portion and the fixed portion is good, such as parallelism and perpendicularity.

If the axis alignment is not successful, the liner 13 is taken out and polished, inserted again between the fixing part and the fixing part and fastened, and the alignment is re-measured. In this case, the liner 13 can be divided into a plurality of portions between the fixed portion and the fixed portion, and only the liner 13 at the portion where the axial alignment is misaligned can be polished.

In other words, in the prior art, a separate accessory such as a liner 13 is required for axial alignment between the fixing part and the restraining part, and a separate measuring device and polishing device for the liner 13 are required for axis alignment. There is a problem that it takes a lot of time.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a machine tool in which axial alignment between a fixed portion and a fixed portion is easy.

In order to achieve the above object, the present invention provides a fixing device comprising: a fixing part having at least two fastening grooves formed on one side; A secured portion formed with a fastening hole corresponding to the fastening groove and fastened to the fastening portion; And at least two adjusting units that are coupled to the coupling grooves through the coupling holes to adjust an interval between opposing surfaces of the fixed unit and the fixed unit.

The fixed part may be a spindle to which the tool or the base material is clamped, or a table on which the base material is rotated.

Further, the adjustment unit may include an adjustment bolt part disposed inside the fastening hole so that one side thereof contacts with the fixing part, and includes a through hole; And a fixing bolt including a body that is threadably coupled to the coupling groove through the through hole and a head that fixes the adjusting bolt portion.

The adjusting bolt may include: a first adjusting bolt disposed in contact with the head; A second adjusting bolt threadably coupled to the fastening hole and being engaged with the fixing portion; And a pin connecting the first adjusting bolt and the second adjusting bolt, wherein the first adjusting bolt and the second adjusting bolt can rotate at the same angle with respect to the center of the fastening hole.

The first adjusting bolt is formed with a first through hole 321 in which the head 311 can be received and a second through hole 322 in which a part of the body 312 is placed. .

A hexagonal groove, a straight groove or a cross groove may be formed on the exposed surface of the head.

At least two adjustment grooves may be formed on the exposed surface of the first adjustment bolt.

Since the present invention can easily and easily align the shaft without the need for a separate component such as a liner by including the adjusting unit that can fix the fixing unit and the fixing unit and adjust the interval therebetween, it is possible to shorten the assembly time, Improvement and maintenance are easy.

1 is a partial perspective view of a conventional tool rest;
2 is a partial perspective view of a machine tool according to an embodiment of the present invention;
Fig. 3 is an enlarged view of the fastening portion of the fixing portion and the fixing portion in Fig. 2;
4 is a cross-sectional view showing that the fixed unit and the fixed unit are brought into contact with each other by the adjustment unit according to the embodiment of the present invention.
5 is a sectional view showing a state where the fixed unit and the fixed unit are separated from each other by the adjustment unit according to the embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Unless defined otherwise, all terms used herein are the same as the generic meanings of the terms understood by those of ordinary skill in the art, and where the terms used herein contradict the general meaning of the term, they shall be as defined herein.

It is to be understood, however, that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to be &

FIG. 2 is a partial perspective view of a machine tool according to an embodiment of the present invention, FIG. 3 is an enlarged view of a fastening portion of a fixing portion and a fixing portion in FIG. FIG. 5 is a sectional view showing that the fixing unit and the fixing unit are fastened and separated by the adjusting unit according to the embodiment of the present invention. FIG.

2 to 5, a machine tool according to an embodiment of the present invention may largely include a fixing unit 100, a defender unit 200, and an adjusting unit 300. [

Here, the fixing portion 100 may be a linear movable component, and may be, for example, a head body 11 (see Fig. 1) and a conveying belt, which can be disposed and moved on the bed 111. [

The fixer 200 may be a component rotatable in a horizontal direction with respect to the movement axis of the fixture 100. For example, the fixture 200 may be a spindle 340 to which a tool or a base metal is clamped, And may be a rotating table.

The present invention can provide a technical idea that effectively aligns the axis of the fixed part 100 with the axis of rotation of the fixed part 200. [

Here, the axis alignment may be a concept including a parallelism, a right angle, a concentricity, a symmetry, and the like with respect to the rotation axis of the fixed unit 100 and the movement axis of the fixed unit 100.

That is, at least two coupling grooves 110 may be formed in the fixing portion 100, and a coupling hole 210 corresponding to the coupling groove 110 may be formed in the fixing portion 200, Can be fastened to the fixing portion (100) by the adjustment unit (300).

That is, the coupling groove 110 and the coupling hole 210 may be formed to correspond to each other in the fixing portion 100 and the fixing portion 200, and the fixing portion 100 and the fixing portion 200 The coupling groove 110 and the coupling hole 210 may be formed at regular intervals.

The fastening hole 210 may include a first fastening hole 211 and a second fastening hole 212 having a smaller diameter than the first fastening hole 211. The fastening hole 110 May be formed to have a diameter smaller than that of the second fastening hole 212. That is, the first fastening holes 211, the second fastening holes 212, and the fastening grooves 110 may have a stepped section so that the diameter of the inner circumferential edge gradually decreases.

The inner circumferential edge of the second fastening hole 212 and the inner circumferential edge of the fastening groove 110 may be threaded, The coupling groove 110 may be threadedly coupled with a thread formed on the outer periphery of the body 312 of the fixing bolt 310 to be described later.

Specifically, the adjustment unit 300 is coupled to the coupling groove 110 through the coupling hole 210, and adjusts the distance between the opposing surfaces of the fixed portion 200 and the fixed portion 100 .

In consideration of the vibration and noise generated by the rotation of the fixed part 200, such axial alignment is arranged such that the fixed part 200 is rotatable in a direction parallel to the moving axis of the fixed part 100 But is not limited thereto.

The adjustment unit 300 may include a fixing bolt 310, adjusting bolt portions 320 and 330, and a pin 340.

The fixing bolt 310 is for fixing the adjusting unit 300 to the fixing unit 100 through the fixing unit 200. The fixing bolt 310 is used to fix the adjusting bolt 320 and 330 And a body 312 extending from the head 311 and penetrating through the through holes 321 and 322 to be described later and threadably coupled to the coupling groove 110. A hexagonal groove, a straight groove or a cross groove may be formed on the exposed surface 313 of the head 311 to allow the user to rotate the fixing bolt 310.

The adjustment bolts 320 and 330 may be disposed on one side of the fixing hole 210 so as to be aligned with the fixing part 100 and include through holes 321 and 322.

The first adjusting bolt 320 may be disposed in contact with the head 311 and may be rotated by rotating the second adjusting bolt 330 to be described later so that the distance between the fixing portion 100 and the fixed portion 200 For example.

The first adjustment bolt 320 is disposed in the first fastening hole 211 and includes a first through hole 321 in which the head 311 is positioned and a second through hole 321 in which a part of the body 312 is placed. Hole 322 and at least one first pin groove 323 may be formed on a side surface of the second through hole 322. [

At least two adjustment grooves 324 may be formed on the exposed surface 313 of the first adjustment bolt 320 to allow the user to rotate the first adjustment bolt 320.

The second adjusting bolt 330 may be threadedly coupled to the fastening holes 211 and 212, specifically, the second fastening hole 212, and may be disposed to be in contact with the fastening portion 100.

The second adjusting bolt 330 includes a third through hole 331 in which a part of the body 312 is positioned and a second pin groove 332 at a position corresponding to the first pin groove 323. [ .

The second adjusting bolt 330 is rotated by the first adjusting bolt 320 and the pin 340 to be described later and pushes the fixing portion 100 thereby to fix the fixing portion 100 and the fixing portion 200, So that the distance between the front end and the rear end can be adjusted.

One end and the other end of the pin 340 are positioned in the first pin groove 323 and the second pin groove 332 to connect the first adjusting bolt 320 and the second adjusting bolt 330, The first adjusting bolt 320 and the second adjusting bolt 330 transmit the rotational force of the first adjusting bolt 320 to the second adjusting bolt 330 so that the center of the connecting holes 211 and 212 It can be rotated at the same angle as the reference.

The pin 340 may protrude from the side of the first adjusting bolt 320 or the side of the second adjusting bolt 330 and may be integrally formed.

A process of achieving axial alignment between the fixed part 100 and the defective part 200 of the machine tool according to the embodiment of the present invention will be described below.

Referring to FIGS. 4 and 5, once the fixing bolt 310 is finally rotated in one direction when the axial alignment is completed, a pressing force is applied to the fixing unit 200 in the direction of the fixing unit 100, (200) and the fixing part (100).

Therefore, in order to align the shaft, the fixing bolt 310 is rotated in the other direction to release the pressing force between the fixing portion 100 and the fixing portion 200.

Thereafter, when the user rotates the first adjusting bolt 320 in one direction, the second adjusting bolt 330 is also rotated by the pin 340, and the second fixing bolt 330 of the fixing part 200 Is moved in the direction of the fixed portion (100) by the engagement with the screw thread formed in the fixing portion (212).

The movement of the second adjustment bolt 330 in the direction of the fixed portion 100 results in a spacing between the fixed portion 100 and the fixed portion 100. When the fixed portion 100 is moved a desired distance, The bolt 310 is rotated in the other direction so that the fixed portion 200 and the fixed portion 100 are firmly fixed.

Therefore, since at least two of the adjustment units 300 are disposed in the fixed unit 100 through the fixed unit 200, the respective adjustment units 300 are adjusted so that the fixed units 100 It is possible to effectively perform the axial alignment of the defective part 200.

That is, since the machine tool including the adjustment unit 300 according to the embodiment of the present invention can easily and easily align the fixed portion 100 and the fixed portion 200 without a separate component such as a liner , The assembly time is shortened, the processing quality is improved, the durability is improved, and the maintenance is easy.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims. Range and its equivalent range.

100: fixing part 111: bed
110: fastening groove 200:
210: fastening hole 211: first fastening hole
212: second fastening hole 300: adjusting unit
310: Fixing bolt 311: Head
312: body 313: exposed surface
320: first adjustment bolt 321: first through hole
322: second through hole 323: first pin groove
324: adjusting groove 330: second adjusting bolt
331: third through hole 332: second pin groove
340: pin

Claims (7)

At least two fastening grooves formed on one side surface;
A secured portion formed with a fastening hole corresponding to the fastening groove and fastened to the fastening portion; And
And at least two adjustment units which are coupled to the coupling grooves through the coupling holes to adjust an interval between opposing surfaces of the fixed portion and the fixed portion.
The method according to claim 1,
Wherein the fixed part is a spindle to which a tool or a base material is clamped, or a table on which a base material is rotated and rotated.
The method according to claim 1,
The adjustment unit includes:
An adjustment bolt portion disposed inside the fastening hole so that one side of the adjustment bolt is aligned with the fastening portion, and includes a through hole; And
And a fixing bolt including a body passing through the through hole and threadably coupled to the coupling groove, and a head fixing the adjustment bolt.
The method of claim 3,
The adjustment bolt portion
A first adjusting bolt disposed in contact with the head;
A second adjusting bolt threadably coupled to the fastening hole and being engaged with the fixing portion; And
And a pin connecting the first adjusting bolt and the second adjusting bolt,
Wherein the first adjusting bolt and the second adjusting bolt rotate at the same angle with respect to the center of the fastening hole.
5. The method of claim 4,
The first adjusting bolt includes a first through hole 321 in which the head 311 is received and a second through hole 322 in which a part of the body 312 is placed, machine.
The method of claim 3,
Wherein a hexagonal groove, a flat groove or a cross groove is formed on the exposed surface of the head.
5. The method of claim 4,
Wherein at least two adjusting grooves are formed on the exposed surface of the first adjusting bolt.

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