KR102308660B1 - Machine tool - Google Patents

Abstract

The present invention, a fixing part having at least two fastening grooves formed on one side thereof; a fixed part having a fastening hole corresponding to the fastening groove and fastened to the fixed part; and at least two or more adjusting units that pass through the fastening hole and are fastened to the fastening groove, the at least two adjusting units capable of adjusting the distance between the fixed part and the opposing surfaces of the fixed part.

Description

machine tool {MACHINE TOOL}

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

A machine tool refers to a machine used for the purpose of processing metal or non-metal material (hereinafter referred to as the base material) into shape and dimensions using an appropriate tool by various cutting processing methods or non-cutting processing methods, or for adding more precise processing.

In such a machine tool, in order to process the base material from various angles, the headstock on which the base material is disposed or the tool rest on which the tool is disposed may be moved.

Here, the movement of the headstock or the tool rest may be implemented in a straight line, may be implemented by rotation, or both may be implemented.

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

Referring to FIG. 1 , the tool rest 10 includes a head body 11 disposed in a machine tool to enable linear movement, 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 a linear motion and the spindle 12 can perform a rotational motion, in order to fasten the spindle 12 to the head body 11, it is necessary to accurately align the axis. do.

If the axis alignment is not accurate, the axis of rotation of the spindle 12 and the axis of movement of the head body 11 are misaligned, so that parallelism, perpendicularity, concentricity, symmetry, etc. do not match. Place the spindle 12 at a desired position. This cannot be done, and vibration and noise may occur when the spindle 12 rotates.

This problem may cause a decrease in durability of the machine tool and a decrease in processing quality.

Therefore, the conventional machine tool uses a liner 13 at the fastening portion for axial alignment of a fixed part capable of linear movement such as the head body 11 and a rotationally movable fixed portion such as the spindle 12 .

The process of fastening the fixing part and the to-be-fixed part using the liner 13 is as follows.

First, the liner 13 is inserted between the fixed part and the fixed part to fasten the fixed part and the to-be-fixed part.

After that, it is measured whether the axis alignment such as parallelism and perpendicularity between the fixed part and the fixed part is good.

If the axis alignment is not good, the liner 13 is removed and polished, and again inserted between the fixing part and the fixed part to be fastened, and re-measured whether the shaft alignment is well. In this case, the liner 13 may be divided into a plurality of pieces and disposed between the fixed part and the fixed part, and only the liner 13 in the area where the axis alignment is misaligned may be polished.

In other words, in the prior art, a separate accessory called the liner 13 is required for axial alignment of the fixed part and the fixed part, and separate measuring equipment and polishing equipment of the liner 13 are required for axial alignment, and assembly of the machine tool There is a problem that takes a lot of time.

The present invention has been devised to solve the above problems, and an object of the present invention is to provide a machine tool that facilitates axial alignment of a fixed part and a fixed part.

In order to achieve the above object, the present invention provides a fixing part having at least two fastening grooves formed on one side thereof; a fixed part having a fastening hole corresponding to the fastening groove and fastened to the fixed part; and at least two or more adjusting units that pass through the fastening hole and are fastened to the fastening groove, the at least two adjusting units capable of adjusting the distance between the fixed part and the opposing surfaces of the fixed part.

In addition, the fixed part may be a spindle on which a tool or a base material is clamped, or a table on which a base material is placed and rotated.

In addition, the adjustment unit is disposed so that one side abuts the fixing portion inside the fastening hole, the adjustment bolt portion including a through hole; and a fixing bolt penetrating the through-hole and including a head for fixing the body and the adjusting bolt part screwed to the fastening groove.

In addition, the adjustment bolt portion is a first adjustment bolt disposed in contact with the head; a second adjustment bolt screwed to the fastening hole and abutting the fixing part; and a pin connecting the first adjusting bolt and the second adjusting bolt to each other, wherein the first adjusting bolt and the second adjusting bolt may rotate at the same angle with respect to the center of the fastening hole.

In addition, the first adjustment bolt is formed with a first through hole 321 in which the head 311 capable of accommodating the head is placed and a second through hole 322 in which a part of the body 312 is placed. can be

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

In addition, at least two adjustment grooves may be formed on the exposed surface of the first adjustment bolt.

The present invention includes an adjustment unit capable of adjusting the mutual distance between the fixed part and the fixed part, and can easily and easily align the shaft without separate parts such as a liner, thereby shortening assembly time, improving processing quality, and durability. It has the effect of being easy to improve and maintain.

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;
3 is an enlarged view of the fastening portion of the fixed part and the fixed part in FIG. 2 .
4 is a cross-sectional view showing that the fixed part and the fixed part are contacted and fastened by the adjustment unit according to the embodiment of the present invention.
5 is a cross-sectional view showing that the fixed part and the fixed part are spaced apart and fastened 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 otherwise specified, all terms herein have the same general meaning as understood by those skilled in the art, and if a term used in this specification conflicts with the general meaning of the term, the definition used herein shall govern.

However, the invention to be described below is only for explaining the embodiments of the present invention, not for limiting the scope of the present invention, and the same reference numbers used throughout the specification indicate the same components.

Figure 2 is a partial perspective view of a machine tool according to an embodiment of the present invention, Figure 3 is an enlarged view of the fastening portion of the fixed part and the fixed part in Figure 2, Figure 4 is a control unit according to the embodiment of the present invention. It is a cross-sectional view showing that the government and the fixed part are in contact with each other, and FIG. 5 is a cross-sectional view showing that the fixed part and the fixed part are spaced apart and fastened by the adjustment unit according to an embodiment of the present invention.

2 to 5 , the machine tool according to the embodiment of the present invention may largely include a fixed part 100 , a fixed part 200 , and an adjustment unit 300 .

Here, the fixing part 100 may be a component capable of linear movement, for example, it may be a head body 11 (see FIG. 1) that can be moved and disposed on the bed 111, and a transfer table.

The fixed part 200 may be a component capable of rotational movement in a horizontal direction with respect to the axis of movement of the fixed part 100 , for example, a spindle 340 to which a tool or a base material is clamped, or a base material is placed therein. It may be a rotating table.

The present invention can provide a technical idea that can effectively align the axis of movement of the fixed part 100 and the axis of rotation of the fixed part 200 .

Here, the axis alignment may be a concept including parallelism, perpendicularity, concentricity, symmetry, etc. with respect to the moving axis of the fixed part 100 and the rotational axis of the fixed part 200 .

That is, the fixing part 100 may be provided with at least two fastening grooves 110 , and the fixed part 200 may have a fastening hole 210 corresponding to the fastening groove 110 , which will be described later. It may be fastened to the fixing part 100 by the adjustment unit 300 .

That is, the fastening groove 110 and the fastening hole 210 may be formed to correspond to each other in positions of the fixed part 100 and the fixed part 200, respectively, and the fixed part 100 and the fixed part 200, respectively. ), the fastening groove 110 and the fastening hole 210 may be formed at equal intervals, respectively, for effective spacing adjustment.

Here, the fastening hole 210 may include a first fastening hole 211 and a second fastening hole 212 formed with a smaller diameter than the first fastening hole 211 , and the fastening groove 110 . ) may be formed with a smaller diameter than the second fastening hole 212 . That is, the first fastening hole 211 , the second fastening hole 212 , and the fastening groove 110 may have a stepped cut surface such that the diameter of the inner periphery is sequentially decreased.

In addition, the inner periphery of the second fastening hole 212 and the inner periphery of the fastening groove 110 may be each threaded, and the inner periphery of the second fastening hole 212 is a second adjustment bolt to be described later. The screw thread formed on the outer periphery of the 330 and the screw thread are coupled, and the fastening groove 110 may be threadedly coupled to the screw thread formed on the outer periphery of the body 312 of the fixing bolt 310 to be described later.

Specifically, the adjustment unit 300 passes through the fastening hole 210 and is fastened to the fastening groove 110 , and adjusts the distance between the opposite surfaces of the fixed part 200 and the fixed part 100 . can

Considering the generation of vibration and noise caused by the rotation of the fixed part 200 , this axial alignment is to be arranged such that the fixed part 200 can rotate in a horizontal direction with respect to the moving axis of the fixed part 100 . However, the present invention is not limited thereto.

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

The fixing bolt 310 is for fixing the adjustment unit 300 to the fixing part 100 through the fixed part 200, and the fixing bolt 310 is the adjustment bolt parts 320 and 330. ) and a body 312 extending from the head 311 and threadedly coupled to the fastening groove 110 through through-holes 321 and 322 to be described later. Here, in order for a user to rotate the fixing bolt 310 , a hexagonal groove, a straight groove, or a cross groove may be formed on the exposed surface 313 of the head 311 .

The adjustment bolt parts 320 and 330 are disposed so that one side abuts the fixing part 100 inside the fastening hole 210 , and may include through holes 321 and 322 .

Specifically, the first adjustment bolt 320 may be disposed in contact with the head 311 , and a second adjustment bolt 330 to be described later is co-rotated between the fixed part 100 and the fixed part 200 . to adjust the spacing of

In addition, the first adjustment bolt 320 is disposed in the first fastening hole 211, the first through hole 321 in which the head 311 is placed, and the first through hole 321 in which a part of the body 312 is placed. Two through-holes 322 and at least one first pin groove 323 may be formed on a side surface where the second through-holes 322 are formed.

Here, at least two adjustment grooves 324 may be formed on the exposed surface 313 of the first adjustment bolt 320 in order for a user to rotate the first adjustment bolt 320 .

The second adjustment bolt 330 may be threadedly coupled to the fastening holes 211 and 212 , specifically, the second fastening hole 212 , and may be disposed to abut against the fixing part 100 .

Specifically, the second adjustment bolt 330 has a third through hole 331 in which a part of the body 312 is placed, and a second pin groove 332 at a position corresponding to the first pin groove 323 . can be formed.

The second adjustment bolt 330 is co-rotated by the first adjustment bolt 320 and a pin 340 to be described later to push the fixing portion 100, thereby the fixing part 100 and the fixed part 200. The separation distance can be adjusted.

The pin 340 has one end and the other end seated in the first pin groove 323 and the second pin groove 332 in order to connect the first adjustment bolt 320 and the second adjustment bolt 330 to each other. By transmitting the rotational force of the first adjusting bolt 320 to the second adjusting bolt 330, the first adjusting bolt 320 and the second adjusting bolt 330 are aligned with the center of the fastening holes 211 and 212. It can be rotated at the same angle as the reference.

On the other hand, unlike shown, the pin 340 may be formed as an integral body by protruding from the side surface of the first adjustment bolt 320 or the side surface of the second adjustment bolt 330 .

A process in which the axis alignment between the fixed part 100 and the fixed part 200 of the machine tool according to the embodiment of the present invention is implemented will be described as follows.

4 and 5 , once the fixing bolt 310 is finally rotated in one direction when the axis alignment is completed, a pressing force is provided to the fixed part 200 in the fixing part 100 direction to the fixed part. (200) and the fixing part (100) is to be firmly fixed.

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 part 100 and the fixed part 200 .

After that, when the user rotates the first adjustment bolt 320 in one direction, the second adjustment bolt 330 also rotates at the same time by the pin 340 , and the second fastening hole of the fixed part 200 . It is moved in the direction of the fixing part 100 by the coupling with the screw thread formed in (212).

This movement of the second adjustment bolt 330 in the direction of the fixing part 100 results in the fixed part 200 being spaced apart from the fixing part 100, and when the second adjustment bolt 330 is moved by a desired distance, the fixing By rotating the bolt 310 in the other direction, the fixed part 200 and the fixed part 100 are firmly fixed.

Therefore, at least two or more of the adjusting units 300 pass through the fixed part 200 and are disposed in the fixed part 100, so each adjusting unit 300 is adjusted to the fixed part 100 and The axis alignment of the fixed part 200 can be effectively performed.

In short, since the machine tool including the adjustment unit 300 according to the embodiment of the present invention can easily and easily align the axis of the fixed part 100 and the fixed part 200 without a separate part such as a liner. , assembling time is shortened, processing quality is improved, durability is improved, and maintenance is easy.

Above, those skilled in the art from the above description will know that various changes and modifications are possible without departing from the technical spirit of the present invention. It should be determined by the scope and its equivalent scope.

100: fixed part 111: bed
110: fastening groove 200: defendant part
210: fastening hole 211: first fastening hole
212: second fastening hole 300: adjustment 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: adjustment groove 330: second adjustment bolt
331: third through hole 332: second pin groove
340: pin

Claims (7)

a fixing part having at least two fastening grooves formed on one side thereof;
a fixed part having a fastening hole corresponding to the fastening groove and fastened to the fixed part; and
At least two or more adjusting units that pass through the fastening hole and are fastened to the fastening groove, capable of adjusting the distance between the fixed part and the opposing surfaces of the fixed part;
The adjustment unit is
an adjustment bolt part having one side facing the fixing part inside the fastening hole and including a through hole; and
and a head for fixing a body screwed to the fastening groove through the through hole and fixing the adjusting bolt,
The adjusting bolt part
a first adjustment bolt disposed in contact with the head;
a second adjustment bolt screwed to the fastening hole and abutting the fixing part; and
a pin connecting the first adjusting bolt and the second adjusting bolt;
The first adjustment bolt and the second adjustment bolt are machine tool, characterized in that rotated at the same angle based on the center of the fastening hole.
According to claim 1,
The fixed part is a spindle to which a tool or a base material is clamped, or a machine tool in which a base material is placed and rotated.
delete delete According to claim 1,
The first adjustment bolt is a machine tool in which a first through-hole in which the head capable of accommodating the head is placed and a second through-hole in which a part of the body is placed.
According to claim 1,
A machine tool in which a hexagonal groove, a straight groove or a cross groove is formed on the exposed surface of the head.
According to claim 1,
A machine tool having at least two adjustment grooves formed on the exposed surface of the first adjustment bolt.

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