KR20210125705A - Bed connection structure of machine tools - Google Patents

Abstract

A machine tool bed is extended and combined to be separated into a reference bed and an assembly bed in an X-axis direction. A connection part of the reference bed and the assembly bed comprises: a horizontal guide surface step adjustment means adjusting a Z-axis direction step of a horizontal guide surface of the assembly bed and the reference bed; a vertical guide surface step adjustment means adjusting an Y-axis direction step of a vertical guide surface of the assembly bed and the reference bed; an X, Y plane straightness adjustment means adjusting the X, Y plane straightness of the assembly bed and the reference bed; and a Z, X plane straightness adjustment means adjusting the Z, X plane straightness of the assembly bed and the reference bed. According to the present invention, the connection part of such long beds can be accurately adjusted in straightness for a short time through the straightness adjustment means and assembled, and, as a result, the precision of a machine tool can be improved, and, moreover, a bed of a long and large machine tool can be manufactured to be separable, which can lead to a reduction in manufacturing costs.

Description

Bed connection structure of machine tools

The present invention relates to a bed connection structure of a large machine tool, and more particularly, to a structure in which a long bed is divided and manufactured and then connected to each other and assembled.

A large door-shaped machining center or other large machine tools have a very long bed structure. In order to manufacture such a long bed, not only a machine tool having a larger bed length than the bed to be manufactured is required, but also large-scale casting facilities and post-processing facilities such as painting must be provided for the casting of the bed. All facilities and roads are needed to move and transport one bed.

Therefore, since it is very difficult to manufacture the bed of a large machine tool as a single structure, it is manufactured in a manner of combining it after manufacturing it as a separate structure.

However, after manufacturing the bed in two or more separate types, moving to the installation site, reprocessing the connecting part to match the straightness of the connecting part in the process of assembling it, or lifting a heavy structure and assembling it with precision The process takes a lot of time and effort.

As a related prior art, Patent Document 1 (Korean Patent Publication No. 10-2014-80758) is introduced. Patent Document 1 discloses a method of combining a pallet table bed (second bed) and a column bed (first bed) by providing a pair of guide blocks and a pair of spacers from both sides of the first bed in the direction of the coupling surface. It is a structure that adjusts the height of the first bed and the second bed. This structure consists of a pallet table bed and a column bed. When combined, it is possible to only adjust the position in one direction, and it is impossible to complexly adjust the position in two or more directions.

KR 1020140080758 A

The present invention is to overcome the problems of the prior art as described above, and is manufactured by dividing a bed of a large machine tool with a long length into two or more, and when assembling the bed, the longitudinal straightness of the bed connected when assembling it is easy and fast An object of the present invention is to provide a bed structure that can be easily adjusted.

In the bed connection structure of the machine tool of the present invention for achieving the object of the present invention, a pair of left and right guideways having straightness in the X-axis direction are formed on the upper part, and both sides in the X-axis direction are directed downward toward the ground. In a machine tool having a bed comprising a bridge portion connected to each other to form an extended support, the upper ends of the both support portions,

The bed is composed of an assembly bed that is detachably extended and coupled to the reference bed and one end of the reference bed in the X-axis direction through a connection part in surface contact with each other,

The connecting portion includes a horizontal guide surface step adjustment means for adjusting the Z-axis direction step difference of the horizontal guide surfaces of the reference bed and the assembly bed;

The connecting portion includes a vertical guide surface step adjustment means for adjusting the Y-axis direction step difference of the vertical guide surfaces of the reference bed and the assembly bed;

The connecting portion includes X, Y plane straightness adjusting means for adjusting the X and Y plane straightness of the reference bed and the assembled bed;

The connecting portion includes a Z, X plane straightness adjusting means for adjusting the Z and X plane straightness of the reference bed and the assembled bed.

The horizontal guide surface step adjustment means is installed in the vertical direction on one side between the end surfaces of both support parts of the reference bed and the assembly bed in surface contact with each other to adjust the vertical direction (Z axis) height of the horizontal guide surfaces of the reference bed and the assembly bed. is composed of a pair of vertical wedges.

The vertical wedge is a block whose upper surface is simultaneously inserted between the end faces of the reference bed and the assembly bed, and one side of the lower surface is inserted only into the reference bed, and the lower surface is supported by the assembly bed and the upper surface is inclined, and the block It is composed of a gib (gib) supported on the inclined surface formed to face the lower side of the side.

The vertical guide surface step adjustment means is installed in the horizontal direction (Y-axis) on one side between the bridge portion of the reference bed and the assembly bed in surface contact with each other, so that the horizontal direction (Y-axis) step difference between the vertical guide surfaces of the reference bed and the assembly bed It consists of one horizontal wedge that adjusts the

The horizontal wedge has one side of a block that is simultaneously inserted between the end faces of the reference bed and the assembly bed and the other side is inserted only into the reference bed, one side is supported on the assembly bed and the other side is inclined, and the other side of the block It is composed of a gib (gib) supported on the inclined surface formed opposite to one side of the side.

The X, Y plane straightness adjusting means is a pair of fastening for fastening the reference bed and the assembly bed in the longitudinal (X-axis) direction of the bed on one side of the cross-section of both support parts of the reference bed and the assembly bed in surface contact with each other. A bolt is installed, but a shim for adjusting the gap is inserted between the reference bed and the assembled bed.

The Z, X plane straightness adjusting means includes a plurality of adjusting bolts to fasten the reference bed and the assembly bed in the length (X-axis) direction of the bed on one side of the bridge portion and both the support portions of the reference bed and the assembly bed in surface contact with each other. However, the adjustment bolt is a pair of fastening bolts fastening bolts for fastening the reference bed and the assembled bed in the length (X-axis) direction of the bed to one side of the cross-section of both support parts of the reference bed and the assembly bed. Install one each on the lower side of the support part, and install at least one on the upper side of both supports and the bridge part.

The installation positions of the adjusting bolts installed on the upper and lower sides of the both support parts are installed so that the distance from the adjusting bolts installed on the lower side to the fastening bolts is farther than the distance from the adjusting bolts installed on the upper side to the fastening bolts.

The distance from the adjusting bolt installed on the lower side of the support to the fastening bolt and the distance from the adjusting bolt installed on the upper side to the fastening bolt are installed in a ratio of 3 to 1.

The adjustment bolt is formed with a round portion having a predetermined radius of curvature (R) at its front end in contact with the reference bed, and the other end is formed as a protrusion protruding to the outside and fastened to the assembly bed; It has a small diameter, and is composed of a through bolt that passes through the gap bolt and is fastened to the reference bed.

The present invention improves the precision of the machine tool by being able to accurately and easily adjust the straightness of the guideway guide surface of the connection part of the bed in a short time when connecting the beds of a large machine tool with a long length divided into two or more.

In addition, the present invention can solve the inconvenience of work by quickly and easily performing the bed connection work at the assembly site, and reduce the cost due to the saving of assembly time.

In addition, the present invention can reduce the manufacturing cost because it is possible to manufacture a detachable bed of a large machine tool with a long length.

1 is a perspective view of a door-shaped machining center employing a separate bed of the present invention as an embodiment of the present invention.
2 is a plan view of a machine tool bed in which the reference bed and the assembly bed are connected as an embodiment of the present invention.
Figure 3 is an embodiment of the present invention, a side view of a machine tool bed connecting the reference bed and the assembly bed.
FIG. 4 is a cross-sectional view taken along line AA of FIG. 3 , and is a view showing the configuration of the connection part between the reference bed and the assembled bed.
5 is a side view of a connection part between the reference bed and the assembled bed.
6 is a cross-sectional view of a fastening bolt for adjusting the X, Y plane straightness.
7 is a cross-sectional view of the adjustment bolt for adjusting the Z, X plane straightness.
8 is a side view of the bed, a conceptual diagram for adjusting the Z-axis direction step of the horizontal guide surface of the assembled bed by adjusting the horizontal wedge.
9 is a conceptual diagram for adjusting the Y-axis direction step of the vertical guide surface of the assembled bed by adjusting the vertical wedge as a plan view of the bed.
10 is a conceptual view of adjusting the straightness of the reference bed and the assembled bed on the X and Y planes by adjusting the fastening bolts as a plan view of the bed.
11 is a conceptual view of adjusting the straightness of the reference bed and the assembled bed on the Z and X planes by adjusting the adjusting bolts as a side view of the bed.

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view of a door-shaped machining center employing a separate bed of the present invention as an embodiment of the present invention.

As shown in FIG. 1 , a pair of left and right guideways 25 having straightness in the X-axis direction are formed on the upper portion of the bed 20 constituting the bottom surface. A table 10 that reciprocates in the X-axis direction is installed on an upper portion of the guideway 25 by a transfer motor 12 installed on one side of the work piece.

Meanwhile, a spindle 11 is installed on the table 10 to process the workpiece mounted on the table 10 while moving in the Z-axis (up and down) direction and the Y-axis (left and right) directions.

2 and 3 are a plan view and a side view of a machine tool bed in which a reference bed and an assembly bed are connected as an embodiment of the present invention.

The bed 20 of the present invention is an assembly bed 22 that is detachably extended and coupled to the reference bed 21 in the X-axis direction and the connection part 30 in surface contact with one end of the reference bed 21. make up

4 is a cross-sectional view taken along line A-A of FIG. 3, and is a view showing the configuration of a connection part between the reference bed and the assembled bed. 5 to 7 are a side view and a cross-sectional view showing a detailed configuration of the connection part 30 .

In addition, as disclosed in 4, the bed 20 has both sides in the X-axis direction to form support portions 23 extending downwardly toward the ground, and the upper ends of the support portions 23 on both sides are connected to each other by a bridge portion ( 24) consists of

In addition, the connection part 30 of the reference bed 21 and the assembly bed 22 is the straightness of the horizontal guide surface 26 and the vertical guide surface 27 of the guideways on both sides of the reference bed 21 and the assembly bed 22 . In order to match the horizontal guide surface 26 step adjustment means for adjusting the Z-axis direction step difference of the horizontal guide surface 26 of the reference bed 21 and the assembly bed 22, the reference bed 21 and the assembly bed 22 The vertical guide surface 27 step adjustment means for adjusting the Y-axis direction step difference of the vertical guide surface 27 of A straightness adjusting means and Z, X plane straightness adjusting means for adjusting the Z, X plane straightness of the reference bed 21 and the assembled bed 22 are provided.

On the other hand, the horizontal guide surface 26 step adjustment means for adjusting the Z-axis direction step difference of the horizontal guide surface 26 of the reference bed 21 and the assembly bed 22 is the reference bed 21 and the assembly bed in surface contact with each other. As long as the vertical direction (Z axis) height of the horizontal guide surface 26 of the reference bed 21 and the assembly bed 22 is adjusted in the vertical direction on one side between the end surfaces of the support parts 23 on both sides of the 22 Consists of a pair of vertical wedges (31).

As shown in FIG. 5, the vertical wedge 31 is a block in which the upper surface is simultaneously inserted between the end surfaces of the reference bed 21 and the assembly bed 22, and one side of the lower surface is inserted only in the reference bed 21 (33), and the lower surface is supported by the assembly bed 22 and the upper surface is inclined and is composed of a gib (34) supported on the inclined surface formed opposite to the lower part of one side of the block (33). .

The vertical guide surface 27 step adjustment means for adjusting the Y-axis direction step difference of the vertical guide surface 27 of the reference bed 21 and the assembly bed 22 is the reference bed 21 and the assembly bed 22 in surface contact with each other. ) installed in the horizontal direction (Y-axis) on one side between the bridge parts 24 to adjust the horizontal direction (Y-axis) step of the vertical guide surface 27 of the reference bed 21 and the assembly bed 22 It is composed of two horizontal wedges (32).

The horizontal wedge 32 has a block 33 that is simultaneously inserted between the end surfaces of the reference bed 21 and the assembly bed 22 on one side and the other side is inserted only into the reference bed 21, and one side is the It is supported on the assembly bed 22 and the other side is inclined, and it is composed of a gib (gib) 34 supported on the inclined surface formed opposite to the other side of the block 33 on one side. That is, the horizontal wedge 32 has the same shape as the vertical wedge 31 of FIG. 5 and differs only in that the installation direction is the Y-axis direction.

The X, Y plane straightness adjusting means for adjusting the X, Y plane straightness of the reference bed 21 and the assembled bed 22 is, as shown in FIG. 6, the reference bed 21 and the reference bed 21 in surface contact with each other A pair of fastening bolts 50 to fasten the reference bed 21 and the assembly bed 22 in the longitudinal (X-axis) direction of the bed 20 on one side of the cross section of both support parts 23 of the assembly bed 22 However, between the reference bed 21 and the assembly bed 22, a shim 51 for adjusting the spacing is inserted.

On the other hand, the Z, X plane straightness adjusting means for adjusting the Z, X plane straightness of the reference bed 21 and the assembly bed 22 is the reference bed 21 and the assembly bed 22 in surface contact with each other. It consists of a plurality of adjustment bolts 60 so as to fasten the reference bed 21 and the assembly bed 22 in the longitudinal (X-axis) direction of the bed 20 on one side of the both support portions 23 and the bridge portion 24. .

The adjustment bolts 60 are installed one by one on the lower side of both support parts 23 based on the fastening bolt 50, and at least two or more are installed on the upper side of both support parts 23 and the bridge part 24 do. In this example, six were installed.

On the other hand, the installation position of the adjusting bolt 60 installed on the upper and lower support parts 23 of the fastening bolt 50 is the distance from the adjusting bolt 60 installed on the lower side to the fastening bolt 50 is installed on the upper side It is installed farther than the distance from the adjusting bolt 60 to the fastening bolt 50. In this embodiment, they are installed at a distance ratio of 3 to 1.

This is to more precisely adjust the upper side where the guideway 25 is installed rather than the lower side of the support 23 and to fix it more firmly.

On the other hand, the adjustment bolt 60 is formed as a round portion 62 having a predetermined radius of curvature (R) at the front end in contact with the reference bed 21, and the other end is a protruding portion ( 63) and has a gap bolt 61 that is fastened to the assembly bed 22, and has a diameter smaller than the inner diameter of the gap bolt 61, and passes through the gap bolt 61 to the reference bed 21 It is composed of a through bolt (64) fastened to the.

The adjustment bolt 60 configured in this way is formed by first fastening the gap bolt 61 to the assembly bed 22, and then fastening the through bolt 64 through the gap bolt 61, thereby forming the gap bolt 61. The clearance of the assembly bed 22 with respect to the reference bed 21 is fastened so that fine adjustment of the assembly bed 22 is possible by the round part 62 of the front end.

Hereinafter, a process for adjusting the straightness of the reference bed 21 and the assembly bed 22 will be described based on the structure of the embodiment described above.

First, a step adjustment operation of the horizontal guide surface 26 for adjusting the step difference in the Z-axis direction of the horizontal guide surface 26 of the reference bed 21 and the assembly bed 22 will be described with reference to FIGS. 4, 5 and 8 .

In order to adjust the step difference in the Z-axis direction of the horizontal guide surface 26 of the reference bed 21 and the assembly bed 22, one side between the end surfaces of the support parts 23 of the reference bed 21 and the assembly bed 22 in the vertical direction. The gib gib 34 of the vertical wedge 31 installed as That is, as the gib gib 34 of the vertical wedge 31 moves in the Y-axis direction, the inclined surface of the gib 34 and the inclined surface of the block 33 move relative to each other, so that the support part 23 of the assembly bed 22 is The height of the horizontal guide surface 26 formed on the upper surface of the assembly bed 22 by ascending or descending in the Z-axis direction is adjusted to be equal to the height of the horizontal guide surface 26 of the reference bed 21 .

At this time, by independently adjusting the vertical wedges 31 installed on both sides of the support 23, the Z-axis direction height of the horizontal guide surfaces 26 of both assembly beds 22 is adjusted to the horizontal guide surface 26 of the reference bed 21 and They can be adjusted to be the same height.

On the other hand, as shown in FIG. 8, by moving the gib 34 of the vertical wedge 31 in the Y-axis direction to adjust the height of the connection part 30 of the assembly bed 22 in the Z-axis direction, the assembly bed 22 The height of the tip in the Z-axis direction is also changed. At this time, in order to adjust the height of the assembly bed 22 with the ground, a bolt for height adjustment (not shown) installed at the lower end of the assembly bed 22 is attached to the vertical wedge 31. By adjusting the same amount by the amount that the assembly bed 22 of the connection part 30 moves in the Z-axis direction, the Z-axis height of the horizontal guide surface 26 of the front end of the assembly bed 22 is set as the reference bed of the connection part 30. It makes it possible to keep the same as the Z-axis height of the horizontal guide surface 26 of (21).

Next, a step adjustment operation of the vertical guide surface 27 for adjusting the step in the Y-axis direction of the vertical guide surface 27 of the reference bed 21 and the assembly bed 22 will be described with reference to FIGS. 4 and 9 .

The Y-axis direction step adjustment of the vertical guide surface 27 of the reference bed 21 and the assembly bed 22 is performed in the horizontal direction (Y-axis) between the reference bed 21 and the bridge portion 24 of the assembly bed 22 . ) and adjust the horizontal wedge 32 installed by moving forward or backward in the Z-axis direction.

That is, as the gib 34 of the horizontal wedge 32 moves in the Z-axis direction, the inclined surface of the gib 34 and the inclined surface of the block 33 move relative to each other, so that the bridge part 24 of the assembly bed 22 is As it moves in the Y-axis direction, the vertical guide surface 27 formed on the upper surface of the assembly bed 22 is adjusted to be flush with the vertical guide surface 27 of the reference bed 21 .

At this time, since both vertical guide surfaces 27 of the assembly bed 22 are formed at equal intervals, they are simultaneously adjusted by the movement of the bridge part 24 .

Next, an operation of adjusting the straightness of the X and Y planes of the reference bed 21 and the assembly bed 22 will be described with reference to FIGS. 4, 6 and 10 .

In order to adjust the straightness of the X and Y planes of the reference bed 21 and the assembly bed 22, the reference bed 21 and the assembly bed 22 are inserted in the X-axis direction between the support portions 23 on both sides. The thickness of the shim 51 is adjusted (polished) and inserted, and the fastening bolt 50 fastened to the reference bed 21 through the assembly bed 22 is tightened to adjust.

Adjustment of the X, Y plane straightness is, as shown in FIG. 10, the fastening bolt 50 and the shim 51 are installed on both sides of the support part 23, one by one, so the adjustment of the straightness is required. Alternatively, it can be adjusted by grinding and inserting the shims 51 on both sides to the required thickness, respectively, and then tightening the fastening bolts 50 .

Next, an operation of adjusting the Z and X plane straightness of the reference bed 21 and the assembly bed 22 will be described with reference to FIGS. 4, 7 and 11 .

Adjustment of the Z and X plane straightness of the reference bed 21 and the assembly bed 22 is performed by adjusting bolts 60 installed one at a time on the lower side of both supports 23 based on the fastening bolts 50 and Adjust by tightening the six adjusting bolts 60 installed on the upper side of both support parts 23 and the bridge part 24 .

The distance between the adjusting bolt 60 and the fastening bolt 50 installed on the lower side of the support 23 is 3 to 1 than the distance between the adjusting bolt 60 and the fastening bolt 50 installed on the upper side of the support 23. By installing the adjusting bolts 60 at wider intervals in a distance ratio, the upper side where the guideway 25 is installed rather than the lower side of the support part 23 is more precisely adjusted and more firmly fixed at the same time.

In addition, as shown in FIG. 7 , the adjustment bolt 60 is formed by first fastening the gap bolt 61 to the assembly bed 22 and then fastening the through bolt 64, so that the clearance and the tip of the gap bolt 61 are fastened. Fine adjustment of the assembly bed 22 with respect to the reference bed 21 is fastened by the round part 62 of the.

On the other hand, as shown in FIG. 11 , as the adjustment bolts 60 located at the upper and lower parts of the support part 23 are adjusted, the height of the front end of the assembly bed 22 is changed in the Z-axis direction. In this case, the front end of the assembly bed 22 is adjusted. By simultaneously adjusting the height adjustment bolt (not shown) installed in the lower part to adjust the height between the assembly bed 22 and the ground, the front end of the assembly bed 22 is moved in the Z-axis direction by the adjustment bolt 60 . Assists with movement and allows you to maintain it after movement. Accordingly, the horizontal guide surface 26 at the front end of the assembly bed 22 maintains straightness with the horizontal guide surface 26 of the reference bed 21 .

On the other hand, the above embodiment exemplifies a structure in which the bed 20 is divided into two parts, the reference bed and the assembled bed 22, and connected, but the length of the bed 20 is longer or divided into shorter lengths as necessary. If you need to, you can extend another assembly bed 22 by configuring the connection part 30 as described above on the opposite side of the reference bed 21 or the front end of the existing assembly bed 22.

As described above, the present invention, when connecting the bed 20 of a large machine tool with a long length divided into two or more, the straightness of the guide surface of the connecting portion 30 of the bed 20 and the guideway 25 is fast It can be precisely and easily adjusted on time, improving the precision of the machine tool.

In addition, the present invention can solve the inconvenience of work by quickly and easily performing the bed 20 connection work at the assembly site, and reduce the cost due to the saving of assembly time.

In addition, the present invention can reduce the manufacturing cost since the bed 20 of a large machine tool having a long length can be detachably manufactured.

10 tables
11 spindle
12 Feed motor
20 beds
21 standard bed
22 assembly bed
23 support
24 bridge
25 guideway
26 horizontal guide plane
27 vertical guide plane
30 connections
31 vertical wedge
32 horizontal wedge
33 blocks
34 Gibs
50 fastening bolt
51 shim
60 adjusting bolt
61 clearance bolt
62 rounds
63 overhang
64 through bolt

Claims (10)

A pair of left and right guideways having straightness in the X-axis direction are formed on the upper part, and support parts with both sides extending downward toward the ground in the X-axis direction are formed, and the upper ends of the support parts are connected to each other. In a machine tool having a
The bed is composed of an assembly bed that is detachably extended and coupled to the reference bed and one end of the reference bed in the X-axis direction through a connection part in surface contact with each other,
The connecting portion includes a horizontal guide surface step adjustment means for adjusting the Z-axis direction step difference of the horizontal guide surfaces of the reference bed and the assembly bed;
The connecting portion includes a vertical guide surface step adjustment means for adjusting the Y-axis direction step difference of the vertical guide surfaces of the reference bed and the assembly bed;
The connection portion includes X, Y plane straightness adjusting means for adjusting the X, Y plane straightness of the reference bed and the assembled bed;
The connection portion is a bed connection structure of a machine tool, characterized in that provided with a Z, X plane straightness adjusting means for adjusting the Z, X plane straightness of the reference bed and the assembly bed. According to claim 1, wherein the horizontal guide surface step adjustment means is installed in the vertical direction on one side between the end surfaces of both support parts of the reference bed and the assembly bed in surface contact with each other in the vertical direction (Z) of the horizontal guide surfaces of the reference bed and the assembly bed. Shaft) A bed connection structure of a machine tool, characterized in that it consists of a pair of vertical wedges by adjusting the height. The block according to claim 2, wherein the vertical wedge has an upper surface that is simultaneously inserted between the end surfaces of the reference bed and the assembly bed, and one side of the lower surface is inserted only into the reference bed, and the lower surface is supported by the assembly bed and the upper surface A bed connection structure of a machine tool, characterized in that it comprises a gib (gib) supported on the inclined surface formed opposite to the lower one side of the block forming a slope. According to claim 1, wherein the vertical guide surface step adjustment means is installed in the horizontal direction (Y-axis) on one side between the bridge portion of the reference bed and the assembly bed in surface contact with each other, the horizontal of the vertical guide surface of the reference bed and the assembly bed. A bed connection structure of a machine tool, characterized in that it consists of a single horizontal wedge that adjusts the direction (Y-axis) step. The block according to claim 4, wherein one side of the horizontal wedge is simultaneously inserted between the end faces of the reference bed and the assembly bed and the other side is inserted only into the reference bed, and one side is supported by the assembly bed and the other side is inclined. A bed connection structure of a machine tool, characterized in that it comprises a gib (gib) supported on the inclined surface formed opposite to one side of the other side of the block. According to claim 1, wherein the X, Y plane straightness adjusting means, the reference bed and the assembled bed in the longitudinal (X-axis) direction of the bed on one side of the cross-section of both support parts of the reference bed and the assembly bed in surface contact with each other. A pair of fastening bolts to be fastened are installed, and a shim for adjusting a gap is inserted between the reference bed and the assembly bed. According to claim 1, wherein the Z, X plane straightness adjusting means is the reference bed and the assembled bed in the longitudinal (X-axis) direction of the bed on one side of both support parts and bridge parts of the reference bed and the assembly bed in surface contact with each other. A pair of fastening bolts for fastening the reference bed and the assembly bed in the length (X-axis) direction of the bed on one side of the cross-section of both support parts of the reference bed and the assembly bed A bed connection structure of a machine tool, characterized in that one is installed on the lower side of both supports, and at least one is installed on the upper side of both supports and the bridge part. 8. The method of claim 7, wherein the installation position of the adjustment bolts installed on the upper and lower sides of the both support parts is installed at a distance from the adjustment bolt installed on the lower side to the fastening bolt is farther than the distance from the adjusting bolt installed on the upper side to the fastening bolt A bed connection structure of a machine tool, characterized in that one. The machine tool according to claim 8, wherein the distance from the adjusting bolt installed on the lower side of the support to the fastening bolt and the distance from the adjusting bolt installed on the upper side to the fastening bolt are installed in a ratio of 3 to 1. bed connection structure. [Claim 8] The method of claim 7, wherein the adjustment bolt is formed as a round portion having a predetermined radius of curvature (R) at its front end in contact with the reference bed, and the other end is formed as a protruding portion protruding to the outside and fastened to the assembly bed; The bed connection structure of a machine tool, characterized in that it has a smaller diameter than the inner diameter of the gap bolt, and is composed of a through bolt that passes through the gap bolt and is fastened to the reference bed.

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