JP2018108611A - Positioning method and positioning structure for machine tool - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a position adjustment method and a position adjustment structure for a machine tool capable of appropriately performing position adjustment even when the distance between adjacent machine tools is short.
SOLUTION: A bed 2A, 2B, 2C of a machine tool 1A, 1B, 1C is supported by a leveling block 4 to which a remote operation rod 18 is fastened and a remote control rod 18 can be remotely operated. By operating the remote control rod 18, the level adjustment is performed by moving the bed 2A, 2B, 2C around the center of the machine tool 1A, 1B, 1C up and down.
[Selection] Figure 1

Description

  The present invention relates to a position adjusting method and a position adjusting structure for a machine tool, and more particularly to a position adjusting method and a position adjusting structure for a machine tool suitable for constructing a production line with a plurality of machine tools.

  The bed of a machine tool is generally supported on a floor surface by a support body or a jack whose level can be adjusted for the purpose of obtaining machining accuracy required for the workpiece or accurately conveying the workpiece. In level adjustment, a leveling block as shown in Patent Document 1 may be used.

  Further, when a production line is constructed with a plurality of machine tools, there is a demand to make adjacent machine tools as close as possible in order to reduce the installation space. As a method of bringing adjacent machine tools close together, a floor plate or sliding paper is sandwiched between the floor surface and the support to reduce the friction coefficient, or the bed is directly placed on a carrier such as a chill roller. In this state, the machine tool is moved to a predetermined position by pushing it manually or pulling it with a winch using a wire. Further, for fine adjustment and readjustment after installation, as shown in FIG. 7, the die (73) fixed to the floor is removed from the bed (71) supported on the floor by the jack (72). In some cases, the lateral push bolt (74) may be moved by pushing the side of the bed (71).

  In addition, in order to reduce the line length in the production line, there is a great demand for a machine tool having a reduced machine tool width at the expense of the longitudinal length. In that case, since the machine tool longitudinal length is relatively large, it is necessary to adjust the level at the front and back center of the bed. The machine tool needs to be separated to some extent. Alternatively, the bed is sufficiently rigid so that level adjustment at the center of the front and rear of the bed is unnecessary.

  Also, when transporting workpieces between machine tools on the production line, the machine tool in the previous process and the machine tool in the subsequent process are connected by a transport device, etc., so the relative position of each machine tool (height, front / rear / left / right, Parallel etc.).

JP-A-11-108291

  When adjusting the relative position while installing a new machine tool close to a machine tool that has already been installed, the above-described method has the following problems.

  Since it is preferable that the distance between the adjacent machine tools is close, as shown in FIG. 6, it is desirable that the distance between the adjacent beds (71) be narrow, but in this case, the bed (71) near the front and rear center Since an operator cannot approach between the bed (71), level adjustment at the corresponding location cannot be performed from the left and right directions of the bed (71). On the other hand, increasing the rigidity of the bed (71) in order to eliminate the need for level adjustment increases the thickness and weight of the bed (71), which is disadvantageous in terms of cost and design flexibility.

  Similarly, if the distance between adjacent machine tools is close, the die (73) and bolt (74) shown in FIG. However, since the die (73) cannot be installed between the machine tools, fine adjustment in the left-right direction becomes impossible.

  An object of the present invention is to provide a machine tool position adjustment method and a position adjustment structure capable of appropriately performing position adjustment even when the distance between adjacent machine tools is short.

The invention according to claim 1
A position adjustment method for a machine tool in which a machine tool is installed close to a base body to adjust the relative position, and a remote control rod is fastened around the center of the front and back of the machine tool for remote operation. It is a position adjustment method for a machine tool, characterized in that it is supported by a possible leveling block and the level is adjusted by moving up and down near the center of the machine tool before and after the bed by operating a remote control rod.

  The base body used as a reference is usually a machine tool that is already installed, but is not limited thereto, and may be a device different from the machine tool, or may be a building wall or the like. .

  According to the position adjustment method for a machine tool according to the first aspect, even when the distance between adjacent machine tools is short, level adjustment in the vicinity of the front and rear center of the machine tool is possible from the front and rear direction.

  A support block via a collar is fastened between the bed lower surface and the leveling block by a bolt, and a spherical washer is preferably disposed on the upper surface of the leveling block. The support block has a machined plane on the bottom surface, the top has a spherical shape by machining, and the collar has a spherical shape by machining at the portion that contacts the top of the support block and contacts the bed bottom surface. It is preferable that the part to be made into a cone shape by machining. The contact portion with the collar on the lower surface of the bed may have a conical recess formed by a method such as casting that does not depend on machining. In this way, since the vertical inclination is corrected, it is possible to adjust the level with high accuracy.

The invention according to claim 2
A leveling block is attached to the surface of the base facing the machine tool so as to be perpendicular to the floor surface, and the left and right relative positions of the machine tool are adjusted by operating the leveling block from either the front or back direction. The position adjustment method for a machine tool according to claim 1.

  The leveling block is equipped with a main body, left slope block, right slope block, and adjustment screw, and is held so that the slope block, etc. that are configured even if attached vertically to the wall surface will not be disassembled. It is attached perpendicularly to either surface, and its adjustment screw is operated from the front-rear direction. Then, the mounting surface is a plane parallel to the longitudinal guide surface of the machine tool by machining, and the opposite side surface of the machine tool bed is also machined by the longitudinal guide surface of the machine tool. The plane is parallel to the plane.

  According to the position adjustment method of the machine tool according to claim 2, when the moving machine tool is moved toward the reference side, rough positioning in the left-right direction can be performed by pressing against the leveling block receiving surface, By raising or lowering the gradient block by operating the adjusting screw, the distance between the machine tools can be increased and the left-right distance between the machine tools can be changed. Therefore, even when the distance between adjacent machine tools is short, the left-right relative position can be adjusted from the front-rear direction.

The invention according to claim 3
Side dies with side push bolts are installed on the floor near the base on the front and rear sides of the machine tool, and corner dies with side push bolts are installed on the front and rear sides of the machine tool. It is installed on a floor surface far from the base so as to face each corner, and the front / rear / left / right positions are adjusted by pressing either the front / rear surfaces of the bed or the left / right surfaces with a lateral push bolt. The machine tool position adjustment method according to Item 2.

  The die is firmly fastened to the floor surface, and screw holes are machined in the vertical part of the die, and the lateral push bolts passed through the screw holes are pressed from the side against the bed side except between the machine tools on the moving side. It is done.

  According to the position adjustment method for a machine tool of claim 3, the side surface of the bed on the moving side is moved from the front, rear, left, and right directions by tightening the lateral push bolt and by raising the leveling block between the machine tools of claim 2. Push and adjust the front / rear / left / right position. Furthermore, by fixing the bolt with a nut, a predetermined position can be maintained, and after adjusting the front / rear / left / right position, the position of the machine tool after adjustment can be prevented by maintaining the bolt position. Thus, even when the distance between adjacent machine tools is short, the front-rear relative position and the left-right relative position can be adjusted from the front-rear direction.

The invention according to claim 4
A screw hole is provided in either one of the front and back surfaces of the base and the machine tool, respectively, and a plate provided with a mounting hole corresponding to the screw hole is disposed so as to straddle the base and the machine tool. The plate is fixed to the base with a bolt, the machine tool is brought into contact with the plate to adjust the front / rear position of the machine tool, and the mounting hole of the plate is aligned with the screw hole of the machine tool. The height adjustment method according to any one of claims 1 to 3, wherein the height is adjusted.

  The plate is straight and has sufficient rigidity, and the plate is provided with mounting holes for the base body and the machine tool. The mounting surface of the plate is a plane parallel to the horizontal guide surface of the machine tool by machining, and the bed side surface of the opposite machine tool is also machined by the horizontal guide surface of the machine tool. The plane is parallel to the plane.

  According to the position adjustment method for a machine tool of claim 4, when moving the machine tool on the moving side against the reference side, rough positioning in the front-rear direction can be performed by pressing against the plate. When the level of the machine is adjusted, the heights of the machine tools can be confirmed at the positions of the mounting holes of the plate and the screw holes of the moving bed. Thus, even when the distance between adjacent machine tools is short, the front-rear relative position and the vertical relative position can be adjusted from the front-rear direction.

The invention according to claim 5
2. The position adjustment method for a machine tool according to claim 1, wherein the level adjustment is performed using the support bolt and the foundation block without using the leveling block at least at one place.

  In the leveling block used in claim 1, a support block via a collar is bolted between the lower surface of the bed and the leveling block, and a spherical washer is arranged on the upper surface of the leveling block. In some cases, a spherical washer is not required and the same collar and fastening bolt are used. And the level adjustment by a support bolt is performed in the same location as a leveling block.

  According to the machine tool position adjustment method of claim 5, even when the distance between adjacent machine tools is short, level adjustment in the vicinity of the center of the bed between the machine tools is possible from the front-rear direction. The level can be adjusted at the same place on the same bed as the level adjustment by a normal support bolt.

The invention according to claim 6
A machine tool position adjustment method for adjusting a relative position by installing a machine tool close to a reference base body, the surface of the base body facing the machine tool being perpendicular to the floor surface The leveling block is attached as described above, and the leveling block is operated from either the front or back direction to adjust the left-right relative position of the machine tool.

  The invention according to claim 2 may be combined with claim 1, but may be combined with claim 1 and may be the invention according to claim 6. According to the machine tool position adjustment method of claim 6, as in the case of claim 2, even when the distance between adjacent machine tools is short, the left and right relative positions can be adjusted from the front-rear direction.

The invention according to claim 7 provides:
A machine tool position adjusting method for adjusting a relative position by installing a machine tool close to a base body as a reference, wherein a side die to which a lateral push bolt is attached is connected to a front side and a rear side of the machine tool. Are installed on the floor surface close to the base on the side, and the corner dies attached with the lateral push bolts are respectively installed on the floor surface far from the base so as to face the front and rear corners of the machine tool. A machine tool position adjustment method comprising adjusting a front / rear / left / right position by pressing either one of a front / rear surface and / or a left / right surface with a push bolt.

  The invention according to claim 3 may be combined with claims 1 and 2, but may be combined with claims 1 and 2 and may be the invention according to claim 7. According to the position adjustment method for a machine tool of claim 7, as in the case of claim 3, even when the distance between adjacent machine tools is short, the adjustment of the front-rear relative position and the left-right relative position is performed from the front-rear direction. It becomes possible.

The invention according to claim 8 provides:
A machine tool position adjustment method for adjusting a relative position by installing a machine tool close to a reference base body, wherein screw holes are respectively provided on either the base body or the front and rear surfaces of the machine tool. A plate provided with a mounting hole corresponding to the screw hole is arranged so as to straddle the base and the machine tool, the plate is fixed to the base with a bolt, and the machine tool is brought into contact with the plate Thus, the machine tool position adjustment method is characterized in that the height of the machine tool is adjusted by adjusting the longitudinal position of the machine tool and aligning the mounting holes of the plate with the screw holes of the machine tool.

  The invention according to claim 4 may be combined with any of claims 1, 2, and 3, but may be combined with claims 1, 2, and 3, and may be the invention according to claim 8. According to the machine tool position adjustment method of claim 8, as in the case of claim 4, even when the distance between adjacent machine tools is short, the adjustment of the front-rear relative position and the vertical relative position is performed from the front-rear direction. It becomes possible.

The invention according to claim 9 is:
A machine tool position adjustment structure that adjusts the relative position by installing the machine tool close to the base substrate, and a leveling block that supports the center of the machine tool before and after the bed, and is fastened to the leveling block And a remote control bar capable of remote control from the front and rear direction, and the level near the center of the machine tool before and after the bed is adjusted by operating the remote control bar. It is a position adjustment structure.

  According to the machine tool position adjustment structure of the ninth aspect, even when the distance between adjacent machine tools is short, level adjustment in the vicinity of the center of the machine tool in the front-rear direction is possible from the front-rear direction.

  A support block via a collar is fastened between the bed lower surface and the leveling block by a bolt, and a spherical washer is preferably disposed on the upper surface of the leveling block. The support block has a machined plane on the bottom surface, the top has a spherical shape by machining, and the collar has a spherical shape by machining at the portion that contacts the top of the support block and contacts the bed bottom surface. It is preferable that the part to be made into a cone shape by machining. The contact portion with the collar on the lower surface of the bed may have a conical recess formed by a method such as casting that does not depend on machining. In this way, since the vertical inclination is corrected, it is possible to adjust the level with high accuracy.

The invention according to claim 10 is:
A leveling block is attached to the surface of the base facing the machine tool so as to be perpendicular to the floor surface, and by operating the leveling block from either the front or back direction, the left and right relative positions of the machine tool. The machine tool position adjustment structure according to claim 9, wherein the adjustment is performed.

  The leveling block is equipped with a main body, left slope block, right slope block, and adjustment screw, and is held so that the slope block, etc. that are configured even if attached vertically to the wall surface will not be disassembled. It is attached perpendicularly to either surface, and its adjustment screw is operated from the front-rear direction. Then, the mounting surface is a plane parallel to the longitudinal guide surface of the machine tool by machining, and the opposite side surface of the machine tool bed is also machined by the longitudinal guide surface of the machine tool. The plane is parallel to the plane.

  According to the machine tool position adjustment structure of claim 10, when the moving machine tool is brought closer to the reference side, the horizontal positioning can be performed by pressing against the leveling block receiving surface. By raising or lowering the gradient block by operating the adjusting screw, the distance between the machine tools can be increased and the left-right distance between the machine tools can be changed. Therefore, even when the distance between adjacent machine tools is short, the left-right relative position can be adjusted from the front-rear direction.

The invention according to claim 11 is:
Side dies to which side push bolts are attached are respectively installed on the floor surface near the base on the front side and rear side of the machine tool, and corner dies to which side push bolts are attached are machine tools. It is installed on the floor surface far from the base so as to face the front and rear corners of the bed, and the front / rear and left / right positions can be adjusted by pressing either the front / rear side of the bed or the left / right side with a lateral push bolt. The position adjustment structure for a machine tool according to claim 10.

  The die is firmly fastened to the floor surface, and screw holes are machined on the side surfaces of the die, and the lateral push bolts passed through the screw holes are pressed from the side to the side of the bed except between the machine tools on the moving side. .

  According to the machine tool position adjustment structure of claim 11, the side surface of the bed on the moving side can be moved from the front, rear, left, and right directions by tightening the lateral push bolt and by raising the leveling block between the machine tools of claim 2. Push and adjust the front / rear / left / right position. Furthermore, by fixing the bolt with a nut, a predetermined position can be maintained, and after adjusting the front / rear / left / right position, the position of the machine tool after adjustment can be prevented by maintaining the bolt position. Thus, even when the distance between adjacent machine tools is short, the front-rear relative position and the left-right relative position can be adjusted from the front-rear direction.

The invention according to claim 12
Screw holes are provided on either the front surface or the front and back surfaces of the base and the machine tool, respectively, and a plate provided with mounting holes corresponding to the screw holes is disposed so as to straddle the base and the machine tool. The machine tool is fixed to the base with bolts, the front and rear positions of the machine tool are adjusted by bringing the machine tool into contact with the plate, and the mounting hole of the plate is aligned with the screw hole of the machine tool. The machine tool position adjustment structure according to any one of claims 9 to 11, wherein the height of the machine tool is adjusted.

  The plate is straight and has sufficient rigidity, and the plate is provided with mounting holes for the base body and the machine tool. The mounting surface of the plate is a plane parallel to the horizontal guide surface of the machine tool by machining, and the bed side surface of the opposite machine tool is also machined by the horizontal guide surface of the machine tool. The plane is parallel to the plane.

  According to the position adjustment structure for a machine tool according to claim 12, when moving the machine tool on the moving side against the reference side, rough positioning in the front-rear direction can be performed by pressing against the plate. When the level of the machine is adjusted, the heights of the machine tools can be confirmed at the positions of the mounting holes of the plate and the screw holes of the moving bed. Thus, even when the distance between adjacent machine tools is short, the front-rear relative position and the vertical relative position can be adjusted from the front-rear direction.

The invention according to claim 13 is:
At least in one place, a support bolt and a foundation block are arranged in place of the leveling block, and the level near the center of the machine tool before and after the bed is adjusted by operating the support bolt. 9 is a position adjustment structure of 9 machine tools.

  In the leveling block used in claim 9, a support block through a collar is bolted between the lower surface of the bed and the leveling block, and a spherical washer is disposed on the upper surface of the leveling block. In some cases, a spherical washer is not required and the same collar and fastening bolt are used. And the level adjustment by a support bolt is performed in the same location as a leveling block.

  According to the machine tool position adjustment structure of claim 13, even when the distance between adjacent machine tools is short, level adjustment in the vicinity of the center of the bed between the machine tools is possible from the front-rear direction. The level can be adjusted at the same place on the same bed as the level adjustment by a normal support bolt.

The invention according to claim 14 is:
A machine tool position adjusting structure for adjusting a relative position by installing a machine tool close to a reference base body, the surface of the base body facing the machine tool being perpendicular to the floor surface A leveling block is attached as described above, and the machine tool position adjusting structure is characterized in that the horizontal position of the machine tool is adjusted by operating the leveling block from either the front or rear direction.

  The invention according to claim 10 may be combined with claim 9, but may not be combined with claim 9 and may be the invention according to claim 14. According to the position adjustment structure for a machine tool according to claim 14, as in the case of claim 10, even when the distance between adjacent machine tools is short, the left and right relative positions can be adjusted from the front-rear direction.

The invention according to claim 15 is:
A machine tool position adjustment structure in which a machine tool is installed close to a base body to adjust a relative position, and a side die to which a lateral push bolt is attached is arranged on the front side and the rear side of the machine tool. Are installed on the floor surface that is located on the floor surface near the base body on the side, and on the floor surface far from the base body so that the corner die to which the lateral push bolts are attached is opposed to the front and rear corner portions of the machine tool. The machine tool position adjustment structure is characterized in that the front / rear / left / right positions are adjusted by pressing either the front / rear surfaces of the bed or the left / right surfaces with a lateral push bolt.

  The invention according to claim 11 may be combined with claims 9 and 10, but may be combined with claims 9 and 10 and may be the invention according to claim 15. According to the position adjustment method for a machine tool of claim 15, as in the case of claim 11, even when the distance between adjacent machine tools is short, the adjustment of the front-rear relative position and the left-right relative position can be performed from the front-rear direction. It becomes possible.

The invention according to claim 16 provides:
A machine tool position adjusting structure for adjusting a relative position by installing a machine tool close to a reference base body, each having a screw hole on either the base body or each of the front and rear surfaces of the machine tool. A plate provided with mounting holes corresponding to screw holes is arranged so as to straddle the base and the machine tool, and is fixed to the base with bolts. By adjusting the position of the machine tool, the position of the machine tool is adjusted, and the height of the machine tool is adjusted by aligning the mounting hole of the plate with the screw hole of the machine tool. is there.

  The invention according to claim 12 may be combined with any of claims 9, 10 and 11, but may be combined with claims 9, 10 and 11 and may be the invention according to claim 16. According to the machine tool position adjustment method of claim 16, as in the case of claim 12, even when the distance between adjacent machine tools is short, the adjustment of the front-rear relative position and the upper-lower relative position is performed from the front-rear direction. It becomes possible.

  According to the position adjustment method and the position adjustment structure of the machine tool of the present invention, as described above, even when the distance between adjacent machine tools is short, the position adjustment between the machine tools can be performed. This is possible from the front-rear direction.

FIG. 1 is a plan view showing an embodiment of a position adjusting method and a position adjusting structure for a machine tool according to the present invention. FIG. 2 is a front view of FIG. FIG. 3 is a vertical sectional view of the leveling block for adjusting the vertical position. FIG. 4 is a vertical sectional view showing a state in which the leveling block for adjusting the vertical position in FIG. 3 is replaced with a support bolt and a foundation block. FIG. 5 is a vertical sectional view of the leveling block for adjusting the left-right position. FIG. 6 is a front view showing an example of a position adjustment method and position adjustment structure of a conventional machine tool. FIG. 7 is a view showing an example in which machine tools are installed close to each other, in which (a) is a bottom view and (b) is a front view.

  Hereinafter, an embodiment of a position adjustment method and a position adjustment structure for a machine tool according to the present invention will be described with reference to FIGS.

  1 and 2 show a machine tool to which a position adjusting method and structure according to the present invention are applied. This is a simulation of a production line with a number of machine tools. In FIGS. 1 and 2, there are three machine tools (left machine tool (1A), middle machine tool (1B) and right machine tool). (1C)) is shown.

  In the following explanation, after installing the central machine tool (1B) on the left machine tool (1A), the right machine tool (1C) is installed on the central machine tool (1B). The relative position adjustment for the two units will be described. The same applies to the case where the number of machine tools on the production line is three or four because the relative position adjustment is a relationship between the two corresponding machine tools. Also, when adjusting the relative position, either one is fixed as a reference, and the other side is moved relative to it. Hereinafter, the reference side machine tool (center machine tool) (1B) is referred to as a master, and the moving side machine tool (right machine tool) (1C) is referred to as a slave. Further, for the sake of explanation, the coordinate system is set such that the left-right direction is X, the front-rear direction is Y, and the up-down direction is Z.

  1 and 2, each machine tool (1A) (1B) (1C) has an adjustable bed (2A) (2B) (2C), and each bed (2A) (2B) ( Jacks (3) are respectively arranged at the four corners of the lower surface of 2C). And, in the central part of the Y direction (front-rear direction) of the left and right edges of the lower surface of each bed (2A) (2B) (2C), the leveling block (4) for vertical position adjustment which is the first position adjustment structure, respectively Has been placed. In addition, in the central part in the Z direction (vertical direction) of the X direction side surface (right surface) of the master side (left and center) beds (2A) and (2B), The left and right position adjusting leveling blocks (5) having the above-described position adjusting structure are respectively arranged. Further, between the master side bed (2B) and the slave side bed (2C), the position adjustment plate (6), which is the third position adjustment structure, spans both sides in the Y direction ( It is arranged at the upper end of the front surface and is attached by means of mounting bolts (7). In addition, the side die (9) and the corner portion to which the lateral push bolt (8) as the fourth position adjustment structure is attached to the front end and rear end of the left and right edges of the bed (2C) on the slave side Each die (10) is arranged.

  As shown in FIG. 3, the vertical position adjusting leveling block (4) is arranged on the main body (11), the lower gradient block (12) arranged on the main body (11), and the lower gradient block (12). And an adjustment screw (14) screwed into a screw hole provided on the inner periphery of the lower gradient block (12).

  The upper surface of the main body (11) is an inclined surface, and the lower surface of the lower gradient block (12) is an inclined surface corresponding to the inclined surface of the upper surface of the main body (11). The upper surface of the lower gradient block (12) is also an inclined surface, and the lower surface of the upper gradient block (13) is an inclined surface corresponding to the inclined surface of the upper surface of the lower gradient block (12).

  The upper gradient block (13) is supported by the main body (11) so that it cannot move in the horizontal direction, and moves in the vertical direction as the lower gradient block (12) moves in the horizontal direction. A spherical recess (13a) is provided on the upper surface of the upper gradient block (13), and a spherical washer (15) is disposed in the recess (13a).

  The upper surface of the spherical washer (15) is a horizontal surface, and a support block (16) is arranged on the upper surface of the spherical washer (15), and the beds (2A) (2B) are arranged via an annular collar (17). ) (2C) is supported. The spherical washer (15) disposed in the spherical recess (13a) has an inclination correction function, whereby the inclination of the support block (16) is corrected.

  The adjustment screw (14) is supported so that it can rotate with respect to the main body (11) but cannot move linearly. Therefore, by rotating the adjustment screw (14), the lower gradient block (12) moves linearly in the axial direction of the adjustment screw (14), and accordingly, the upper gradient block (13) moves up and down.

  The adjusting screw (14) has a head (14a) with a hexagonal hole, and the head (14a) has a hexagonal columnar tip (18a) of a remote control rod (18) that enables remote operation. ) Is inserted. The remote control bar (18) extends obliquely rearward from the position of the leveling block (4) for adjusting the vertical position, and the operation side end (the part indicated by the solid line in FIG. 1) is the bed (2A). (2B) It is the length that protrudes backward from (2C), and the adjustment screw (14) can be rotated by rotating the operation side end of the remote control rod (18). The leveling block (4) for adjusting the vertical position can be remotely operated.

  The bed (2A) (2B) (2C) has a rectangular recess (19) on the bottom surface when viewed from the front, and the bottom of the recess (19) houses the upper part of the collar (17). A downward conical recess (19a) is formed.

  The support block (16) supported by the spherical washer (15) is arranged in the recess (19) on the lower surface of the bed (2A) (2B) (2C), and the collar (17) It is arranged between the bottom of 19) and the support block (16).

  A vertical screw hole (20) is formed in the support block (16). The fastening block (21) is screwed into the screw hole (20) from above, so that the support block (16) is fixed to the beds (2A), (2B), and (2C) via the collar (17).

  The support block (16) has a flat bottom surface, and the top (16a) of the support block (16) has a spherical shape.

  In the collar (17), a spherical shape is formed in the portion that contacts the top (16a) of the support block (16), and the conical recess (19a) of the bed (2A) (2B) (2C). A conical shape that spreads downward is formed at the contact portion.

  About the contact part of the bed (2A) (2B) (2C) and the collar (17), the concave part (19a) on the bed (2A) (2B) (2C) side is conical by a method that does not depend on machining such as casting. In addition, the outer shape of the collar (17) is formed by machining a conical shape to be inserted into the recess (19a), and both are brought into contact by taper.

  On the other hand, for the contact part of the support block (16) and the collar (17), the support block (16) is formed into a spherical shape by machining, and the collar (17) is also formed into a spherical shape by machining. Both are contacted by a spherical surface. The bolt holes of the beds (2A), (2B), and (2C) are also formed by a method that does not depend on machining such as casting. The bolt mounting seats of the beds (2A) (2B) (2C) are also not machined. Further, regarding the contact portion between the support block (16) and the vertical position adjusting leveling block (4), the lower surface of the support block (16) forms a flat surface by machining.

  In parts not machined, the flatness may not be good, so there is a possibility of misalignment at the mating surface.However, by using the collar (17), the axis of the fastening bolt (21) is temporarily misaligned. In addition, since the contact surface of the support block (16) is a spherical surface, the support block (16) can be brought into close contact and can be firmly fastened. In addition, the vertical position adjustment leveling block (4) has a built-in spherical washer (15), so it supports the lower surface of the support block (16) even if the fastening bolt (21) is misaligned. Can be moved up and down to adjust the level appropriately.

  According to the leveling block for adjusting the vertical position (4) above, there is no space for the operator to rotate the adjustment screw (14) from the left and right surfaces of the bed (2A) (2B) (2C). However, the adjustment screw (14) can be rotated by rotating the remote control rod (18) remotely (in the example shown in FIG. 1, from the back of the bed (2A) (2B) (2C)). It is possible to adjust the vertical position of the central part of the bed (2A) (2B) (2C).

  Thus, even when the distance between adjacent machine tools (1A) (1B) (1C) is short, the bed (2A) (2B) (2C) between each machine tool (1A) (1B) (1C) Level adjustment near the front and rear center is possible from the front and rear direction.

  Also, by adopting this structure, when there is no adjacent machine tool nearby and the central part in the Y direction of the bed can be accessed directly from the left and right, the leveling block for adjusting the vertical position with the above-mentioned remote control bar (4) The level adjustment by a normal support bolt can be carried out at the same place on the same bed without using the.

  For example, when there is a space on the right side of the right bed (2C) in FIGS. 1 and 2, the support block (16) and the leveling block (4) shown in FIG. ) And the foundation block (32), the level may be adjusted by the support bolt (31).

  The top portion (31a) of the support bolt (31) is formed into a spherical shape by machining, similar to the top portion (16a) of the support block (16), and the fastening bolt (21) is placed on the upper portion of the support bolt (31). A screw hole (33) corresponding to is formed.

  As shown in FIG. 5, the leveling block (5) for adjusting the left / right position is arranged on the right side of the main body (41) and the main body (41) attached to the bed (2A) (2B) side surface (right side) in the X direction The left gradient block (42), the left gradient block (42), the right gradient block (43) arranged on the right, and the screw hole (42a) provided on the inner periphery of the left gradient block (42) are screwed together. And an adjusting screw (44).

  The leveling block for left / right position adjustment (5) should not be disassembled even if it is mounted vertically on the wall surface, even if the leveling block for adjusting left / right position adjustment block (5) (42) (43) is disassembled. Is formed.

  The right surface of the main body (41) is an inclined surface, and the left surface of the left gradient block (42) is an inclined surface corresponding to the inclined surface of the right surface of the main body (41). The right surface of the left gradient block (42) is also an inclined surface, and the left surface of the right gradient block (43) is an inclined surface corresponding to the inclined surface of the right gradient block (42).

  The right gradient block (43) is supported by the main body (41) so as not to move in the vertical direction, and moves in the left-right direction as the left gradient block (42) moves in the vertical direction.

  The adjustment screw (44) is supported so that it can rotate with respect to the main body (41) but cannot move linearly. Therefore, by rotating the adjustment screw (44), the left gradient block (42) moves linearly in the axial direction of the adjustment screw (44), and accordingly, the right gradient block (43) moves to the left and right.

  The adjustment screw (44) has a head with a hexagonal hole (44a), and the adjustment screw (44) can be rotated by inserting a wrench into the head (44a). The left / right distance of the leveling block (5) for adjusting the left / right position can be adjusted from the front / rear direction. Note that the head (44a) of the adjustment screw (44) may have an upward direction opposite to the direction shown in FIG. 5 when it can be easily operated from above.

  The left surface (master-side mounting surface) of the main body (41) is formed by machining so as to be a plane parallel to the Y-direction guide surface of the master-side machine tool (1B). The side surface of the bed (2C) of the opposing slave machine tool (1C) is also formed to be a plane parallel to the Y-direction guide surface of the machine tool (1C) by machining.

  When the machine tool (1C) on the slave side is brought closer to the master side, rough positioning in the left-right direction can be performed by pressing the left-right position adjusting leveling block (5) against the receiving surface. And by raising the left slope block (42) of the leveling block for left and right position adjustment (5), the right slope block (43) hits the left surface of the bed (2C) on the slave side and a pressing force is generated. The distance between the machine tools (1B) and (1C) can be increased by changing the distance between the machine tools (1B) and (1C).

  The position adjustment plate (6) forms a straight plane, has sufficient rigidity, and is attached to the side of the master side bed (2B) in the Y direction. The mounting surface on the master side of the position adjusting plate (6) is formed by machining to be a plane parallel to the guide surface in the X direction of the machine tool (1B). The front surface of the bed (2C) of the opposing machine tool (1C) on the slave side is also formed by machining so as to be a plane parallel to the guide surface in the X direction of the machine tool (1C). The position adjusting plate (6) is provided with mounting holes for the left and right beds (2B) and (2C) at the same positions as the mounting bolts indicated by reference numeral (7).

  During position adjustment, when the slave-side machine tool (1C) is brought closer to the master side, rough positioning in the front-rear direction can be performed by pressing against the position adjustment plate (6). When adjusting the level of the slave-side machine tool (1C), the mounting hole (position indicated by reference numeral (7)) of the position adjustment plate (6) and the screw hole of the slave-side bed (2C) ( The heights of the machine tools (1B) and (1C) can be confirmed from the degree of deviation from the position indicated by the reference numeral (7).

  The position adjusting plate (6) also has a mounting hole on the slave side so that it can be used even if the master and the slave are switched on the left and right.

  The side die (9) includes a flat plate-like vertical portion (9a) facing the front or rear surface of the bed and a flat plate-like horizontal portion (9b) fixed to the floor surface. The corner die (10) includes an L-shaped vertical portion (10a) facing the corner of the bed and an L-shaped horizontal portion (10b) fixed to the floor surface.

  The dies (9) and (10) are firmly fastened to the floor surface, and screw holes are formed in the vertical portions (9a) and (10a) thereof. Then, the side push bolt (8) passed through the screw hole of each vertical part (9a) (10a) is connected to the master side bed (2B) (left side), and the slave side bed (2C) each side ( By pressing and tightening against the front and rear surfaces and the right surface), a force is generated that presses the front and rear and right surfaces of the bed (2C) on the slave side. A force to press the right surface is generated between the master side bed (2B) and the leveling block (5) for adjusting the left / right position, so that the bed (2C) on the slave side is positioned from front / rear and left / right. The

  Next, a method for adjusting the relative position in the machine tool having the above-described first to fourth position adjustment structures will be described.

  First, the master machine tool (1B) is installed at a predetermined position (in the illustrated example, on the right side of the left machine tool (1A), and level adjustment is performed. Thereafter, the slave machine tool (1C If the master machine tool (1B) may move in the subsequent adjustment work, it is fixed so that it does not move with an anchor, etc. When there are three or four production lines, the slave machine tool (1C) becomes the master for the next machine tool, and thereafter the relative position adjustment is performed in order, and the same operation is repeated.

  Next, the slave machine tool (1C) is brought close to the master machine tool (1B) to perform rough positioning in the plane direction. When the slave machine tool (1C) is brought close to the master machine tool (1B) by pulling it with a crane, lift or wire, the master side bed (2B) position plate (6) attached to the Y side surface Press the slave side bed (2C) side surface in the Y direction and determine the position and parallelism in the Y direction to some extent. Subsequently, the bed on the slave side (2C) facing the receiving surface of the leveling block (5C) for adjusting the left and right position vertically attached to the side surface in the X direction on the master side bed (2B) is pressed in the X direction. Determine position and parallelism to some extent. At this time, the receiving surface of the leveling block for adjusting the left / right position (5) needs to be kept so as not to protrude from the side surface in the Y direction of the bed (2B) at a predetermined position of the slave machine tool (1C). At the time of coarse positioning where the slave machine tool (1C) is largely moved first, the horizontal position adjustment leveling block (5) is provided in the X direction, and the position plate (6) is provided in the Y direction. Since both have a reference surface to which the slave machine tool (1C) is applied, the operator can easily bring the slave machine tool (1C) closer to the master machine tool (1B).

  Subsequently, the jack (2) is adjusted so that the heights of the beds (2B) (2C) of the machine tools (1B) (1C) are matched. This means that the master side bed (2B) is attached to the position plate (6) attached to the side surface in the Y direction and the slave side mounting hole (position 7) and the slave side bed (2C) in the Y direction Confirm by aligning the screw holes on the side (position (7)). After that, the slave machine tool (1C) also adjusts the level. At this time, the level adjustment at the center in the Y direction of the bed (2C) is adjusted from the longitudinal direction of the machine tool (1C) by the leveling block (4) for vertical position adjustment with the remote control rod (18) described above. Work is possible.

  Finally, the relative position is finely adjusted. This consists of a leveling block (5) for adjusting the left / right position between the bed (2C) on the master side and the bed (2C) on the slave side mounted perpendicularly to the side surface in the X direction, and a side die fixed to the floor surface. (9) and a lateral push bolt (8) attached to the corner die (10). The leveling block (5) for adjusting the left / right position pushes the side of the bed (2C) on the slave side from four directions by tightening the side push bolt (8) when the left slope block (42) rises. Therefore, the relative position can be adjusted by a minute movement in the XY plane. Also, if these are left attached after the position adjustment, it also serves to prevent the slave machine tool (1C) from shifting.

  With the above-described position adjustment structure and position adjustment method, it is possible to adjust the relative position while installing the machine tool (1C) close to the adjacent machine tool (1B).

(1A) (1B) (1C): Machine tools
(2A) (2B) (2C): Bed
(4): Leveling block for vertical position adjustment
(5): Leveling block for left / right adjustment
(6): Position adjustment plate
(7): Mounting bolt
(8): Lateral push bolt
(9): Side die
(10): Corner die
(18): Remote control stick
(31): Support bolt
(32): Basic block

Claims (16)

A machine tool position adjustment method for adjusting a relative position by installing a machine tool close to a reference base body,
A leveling block with a remote control rod fastened around the center of the machine tool before and after the bed is supported, and by operating the remote control bar, the machine tool is moved up and down near the center of the bed before and after the level. A position adjustment method for a machine tool characterized by adjusting.   A leveling block is attached to the surface of the base facing the machine tool so as to be perpendicular to the floor surface, and the left and right relative positions of the machine tool are adjusted by operating the leveling block from either the front or back direction. The position adjustment method for a machine tool according to claim 1.   Side dies with side push bolts are installed on the floor near the base on the front and rear sides of the machine tool, and corner dies with side push bolts are installed on the front and rear sides of the machine tool. It is installed on a floor surface far from the base so as to face each corner, and the front / rear / left / right positions are adjusted by pressing either the front / rear surfaces of the bed or the left / right surfaces with a lateral push bolt. Item 2. The machine tool position adjustment method according to Item 2.   A screw hole is provided in either one of the front and back surfaces of the base and the machine tool, respectively, and a plate provided with a mounting hole corresponding to the screw hole is disposed so as to straddle the base and the machine tool. The plate is fixed to the base with a bolt, the machine tool is brought into contact with the plate to adjust the front / rear position of the machine tool, and the mounting hole of the plate is aligned with the screw hole of the machine tool. 4. The position adjusting method for a machine tool according to claim 1, wherein the height is adjusted.   2. The position adjustment method for a machine tool according to claim 1, wherein level adjustment is performed using a support bolt and a foundation block without using a leveling block in at least one place. A machine tool position adjustment method for adjusting a relative position by installing a machine tool close to a reference base body,
A leveling block is attached to the surface of the base facing the machine tool so as to be perpendicular to the floor surface, and the left and right relative positions of the machine tool are adjusted by operating the leveling block from either the front or back direction. A method for adjusting the position of a machine tool. A machine tool position adjustment method for adjusting a relative position by installing a machine tool close to a reference base body,
Side dies with side push bolts are installed on the floor near the base on the front and rear sides of the machine tool, and corner dies with side push bolts are installed on the front and rear sides of the machine tool. A machine that is installed on a floor surface far from the base so as to face the corner, and adjusts the front / rear / left / right positions by pressing either the front / rear surfaces of the bed or the left / right surfaces with lateral push bolts. How to adjust the machine position. A machine tool position adjustment method for adjusting a relative position by installing a machine tool close to a reference base body,
A screw hole is provided in either one of the front and back surfaces of the base and the machine tool, respectively, and a plate provided with a mounting hole corresponding to the screw hole is disposed so as to straddle the base and the machine tool. The plate is fixed to the base with a bolt, the machine tool is brought into contact with the plate to adjust the front / rear position of the machine tool, and the mounting hole of the plate is aligned with the screw hole of the machine tool. A method for adjusting a position of a machine tool, wherein the height is adjusted. A machine tool position adjustment structure for adjusting a relative position by installing a machine tool close to a reference base body,
The machine tool includes a leveling block that supports the vicinity of the center of the bed before and after the bed, and a remote control bar that is fastened to the leveling block and can be remotely operated from the front and back directions. The machine tool is operated by operating the remote control bar. The machine tool position adjustment structure, characterized in that the level near the center of the bed before and after is adjusted.   A leveling block is attached to the surface of the base facing the machine tool so as to be perpendicular to the floor surface, and by operating the leveling block from either the front or back direction, the left and right relative positions of the machine tool. The machine tool position adjusting structure according to claim 9, wherein:   Side dies to which side push bolts are attached are respectively installed on the floor surface near the base on the front side and rear side of the machine tool, and corner dies to which side push bolts are attached are machine tools. It is installed on the floor surface far from the base so as to face the front and rear corners of the bed, and the front / rear and left / right positions can be adjusted by pressing either the front / rear side of the bed or the left / right side with a lateral push bolt. The position adjustment structure of a machine tool according to claim 10.   Screw holes are provided on either the front surface or the front and back surfaces of the base and the machine tool, respectively, and a plate provided with mounting holes corresponding to the screw holes is disposed so as to straddle the base and the machine tool. The machine tool is fixed to the base with bolts, the front and rear positions of the machine tool are adjusted by bringing the machine tool into contact with the plate, and the mounting hole of the plate is aligned with the screw hole of the machine tool. The position adjustment structure for a machine tool according to any one of claims 9 to 11, wherein the height of the machine tool is adjusted.   At least in one place, a support bolt and a foundation block are arranged in place of the leveling block, and the level near the center of the machine tool before and after the bed is adjusted by operating the support bolt. 9 machine tool position adjustment structure. A machine tool position adjustment structure for adjusting a relative position by installing a machine tool close to a reference base body,
A leveling block is attached to the surface of the base facing the machine tool so as to be perpendicular to the floor surface, and by operating the leveling block from either the front or back direction, the left and right relative positions of the machine tool. The machine tool position adjustment structure characterized by the fact that is adjusted. A machine tool position adjustment structure for adjusting a relative position by installing a machine tool close to a reference base body,
Side dies to which side push bolts are attached are respectively installed on the floor surface near the base on the front side and rear side of the machine tool, and corner dies to which side push bolts are attached are machine tools. It is installed on the floor surface far from the base so as to face the front and rear corners of the bed, and the front / rear and left / right positions can be adjusted by pressing either the front / rear side of the bed or the left / right side with a lateral push bolt. The machine tool position adjustment structure. A machine tool position adjustment structure for adjusting a relative position by installing a machine tool close to a reference base body,
Screw holes are provided on either the front surface or the front and back surfaces of the base and the machine tool, respectively, and a plate provided with mounting holes corresponding to the screw holes is disposed so as to straddle the base and the machine tool. The machine tool is fixed to the base with bolts, the front and rear positions of the machine tool are adjusted by bringing the machine tool into contact with the plate, and the mounting hole of the plate is aligned with the screw hole of the machine tool. The machine tool position adjustment structure is characterized in that the height of the machine tool is adjusted.

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