KR102454459B1 - High rigidity bed device with anti-sag function of vertical machining center - Google Patents

Abstract

The present invention relates to a high-rigidity turntable type bed apparatus having a sagging prevention function of a large vertical machining center. In order to increase rigidity against a cutting force in the direction perpendicular to a load, the high-rigidity turntable type bed apparatus having the sagging prevention function of the large vertical machining center of the present invention comprises: a lower part support (10); a center support piece (30); a groove type of a chip collection space unit (17); a horizontal type of a movement base (70); an elevation member (89); and a rotation member (80).

Description

High rigidity turntable type bed device with anti-sag function of vertical machining center

The present invention relates to a high-rigidity turntable type bed apparatus having a function of preventing sagging of a large vertical machining center, and more particularly, deflection and bending due to the weight of the upper structure when a saddle and a main shaft are transported for workpiece processing in a vertical machining center. A large vertical machining center that improves machining precision by preventing It relates to a high-rigidity turntable-type bed device having an anti-sag function.

In general, machining centers are NC machine tools that automatically process workpieces that require various operations such as milling, boring, drilling, and thread cutting. It refers to a machine tool that has a function of positioning it to fit the

Such a vertical machining center includes a bed, a saddle installed on the top of the bed, a table installed on the saddle on which a workpiece is placed, a column vertically mounted on the rear of the bed, and the column It is composed of a mounted spindle and a power transmission means and control means for driving and operating the spindle, while an automatic tool changer (ATC) and an arm for tool transfer are mounted.

And when the tool needs to be exchanged while the workpiece is being processed in the order of operation, the automatic tool changer places the tool to be used in advance at the tool change position, and moves the positioned tool while the tool transfer arm is clamped to the spindle. By attaching it, subsequent processing is possible.

Registered Patent No. 10-2175181

Accordingly, the present invention has been devised to eliminate the above problems, and by preventing sagging and bending due to the weight of the upper structure when the saddle and the main shaft are transferred for machining the workpiece in a vertical machining center, the processing precision is increased, and the chip and a high-rigidity turntable-type bed device having a function of preventing the deflection of a large vertical machining center that prevents thermal displacement of the upper structure by smoothly discharging coolant and increases rigidity against the cutting force in the direction perpendicular to the load. It was completed as a technical task with a focus on it.

The present invention for achieving the above technical problem, in configuring a high rigidity bed device having a function of preventing sagging of a vertical machining center, a lower support 10 fixed to the ground; On both sides of the lower support 10, the supporting wing pieces 11 and 19 protruding vertically upward to the ground are symmetrically provided, and a pair of guides are provided on the upper surface 12 of each of the supporting wing pieces 11 and 19. The rail 21 is provided and the center support piece 30 is formed lower than the height of the support wing pieces 11 and 19 between the pair of support wing pieces 11 and 19; A pair of guide rails 32 is provided on the upper surface of the central support piece 30, and is formed between the central support piece 30 and a pair of support wing pieces 11 and 19 facing each other as side pieces. Chip collection space 17 in the form of a groove; The chip collection space 17 is formed to have a narrower width at the lower end than the upper end, and the chip collecting box 90 is provided on the lower end side, and the chip collecting box 90 is the length of the lower support 10 . It is detachable through the openings formed on the front and rear sides in the direction, and is coupled to the guide rail 21 of the support wing pieces 11 and 19 and the guide rail 32 of the central support piece 30 so as to be slidably coupled to each other. moving base 70; Both end sides 70a and 70b of the movable base 70 are coupled to the guide rails 21 of the support wing pieces 11 and 19, and the intermediate side 70c of the movable base 70 is the movable base. (70) on the guide rail 32 of the center support piece 30 which is formed to have a thickness that is further extended vertically downward than the both end sides 70a and 70b and is formed lower than the height of the support wing pieces 11 and 19. By being coupled, the movable base 70 having the middle side 70c thicker than the both end sides 70a and 70b is stably seated and maintained for balance maintenance, and is provided on the movable base 70 and is provided at the top of the plurality of Elevating member 89 operated by the cylinder and cylinder rod 87 to elevate; A rotating member 80 provided on the upper portion of the lifting member 89 and rotated by a speed reduction motor, and the central support piece 30 includes an upper body 30a and a lower body (30a) spaced up and down 30b), and a detachable support 31 is provided between the upper body 30a and the lower body 30b to selectively adjust the height of the support 31 to adjust the vertical height of the central support piece 30 By enabling it, it provides a high rigidity bed device having a function of preventing sagging of a vertical machining center, characterized in that it is configured to correspond to the thickness of the middle portion side (70c) of the movable base (70).

At this time, the support wing pieces 11 and 19 between the respective pair of guide rails 21 are supported on the upper surface 12 of the support wing pieces 11 and 19 to support the load of the bottom of the rim of the movable base 70 . It is characterized in that the bottom elastic support piece 25 which is formed to protrude on the upper surface 12 of the is provided.

In addition, to prevent frictional balance between the upper surface of the bottom elastic support piece 25 and the lower surface of the moving base 70, a balance maintaining pad 73 is further provided on the lower surface of the moving base 70 characterized.

In addition, a plurality of balls 95 are provided on the inner surface of the chip collecting space 17 that is in close contact with the outer surface of the chip collecting box 90 , and each of the balls 95 is the chip collecting space 17 . ) is inserted into the groove 7 formed on the inner surface to be freely rotatable, and provided with a plurality of rollers 98 rotated by a horizontal axis 95 at the bottom of the chip collection space 17 , , characterized in that the chip collection box (90) is configured to slide by the balls (95) and the rollers (98).

And, on the groove portion 70 for accommodating the ball 95, an elastic adhesive pad 41 that is in close contact with the receiving side of the ball 95 is provided, and an elastic spring ( 45) radially, so that stable mobility is ensured by the elasticity of the ball 95 when the chip collection box 90 slides.

According to the present invention as described above, when the saddle and the main shaft are transported for machining the workpiece in the vertical machining center, sagging and bending are not caused by the weight of the upper structure, thereby increasing the machining precision and smoothing the discharge of chips and cutting oil to the upper structure. In addition to preventing thermal displacement of

1 is a perspective view of a high-rigidity turntable-type bed device having a function of preventing sagging of a large vertical machining center according to the present invention;
2 is an enlarged perspective view of part “A” of FIG. 1
3 is an exemplary side view according to the present invention;
4 is an enlarged perspective view of part “B” of FIG. 3
5 to 8 are exemplary views of a modified embodiment according to the present invention

Hereinafter, specific details for carrying out the present invention will be described in more detail with reference to the accompanying drawings.

The present invention improves machining precision by preventing sagging and bending due to the weight of the upper structure when the saddle and the main shaft are transported for machining a workpiece in a vertical machining center, and the thermal displacement of the upper structure is improved by discharging chips and cutting oil smoothly. It relates to a high-rigidity turntable-type bed device having a function of preventing sagging of a large vertical machining center to prevent sagging and to increase rigidity against a cutting force in a direction perpendicular to a load. Support 10, support blade pieces 11 and 19, central support piece 30, chip collection space 17, chip collection box 90, moving base 70, elevating member 89 and rotating member ( 80) is included.

First, the lower support 10 fixed to the ground as shown in FIG. 1 is provided for the implementation of the present invention.

As a detailed configuration of the lower support 10, both sides of the lower support 10 are symmetrically provided with support wing pieces 11 and 19 protruding vertically upward to the ground, and each of the support wing pieces 11 and 19. A pair of guide rails 21 are provided on the upper surface 12 .

In addition, a center support piece 30 formed lower than the height of the support wing pieces 11 and 19 is provided between the pair of support wing pieces 11 and 19 . At this time, configuring the height of the central support piece 30 lower than the height of the support wing pieces 11 and 19 is to increase the thickness on the center side to maintain the balance of the moving base 70 as in FIG. Advantageously, in the present invention, in consideration of the structure of the movable base 70 , the height of the central support piece 30 is implemented lower than the height of the support wing pieces 11 and 19 , and on the upper surface of the central support piece 30 . A pair of guide rails 32 were provided.

As a more specific embodiment thereof, as shown in FIG. 8, the central support piece 30 is divided into an upper body 30a and a lower body 30b that are vertically spaced apart, and the upper body 30a and the lower body 30b. It is possible to respond to the thickness of the middle part side (70c) of the movable base (70) by providing a detachable support (31) between the supporters (31) and selectively adjusting the height of the support (31) to adjust the vertical height of the central support piece (30). It can be configured as

And, as shown in FIG. 4, the support wing pieces 11 and 19 between the respective pair of guide rails 21 are supported on the upper surfaces 12 of the support wing pieces to support the load of the bottom portion of the rim of the movable base 70. A bottom elastic support piece 25 protrudingly formed on the upper surface 12 of the (11, 19) is provided.

At this time, a concave portion 26 is formed on the lower side of the bottom elastic support piece 25 , and a return spring 27 is provided in the concave portion 26 , and is lowered by the load of the movable base 70 . It is preferable to configure to maintain the return elastic force of the bottom elastic support piece (25).

In addition, to prevent frictional balance between the upper surface of the bottom elastic support piece 25 and the lower surface of the moving base 70, a balance maintaining pad 73 is further provided on the lower surface of the moving base 70 desirable.

At this time, although not shown, a seating groove is formed on the lower surface side of the balance maintaining pad 73 facing the upper surface of the bottom elastic support piece 25, and the bottom elastic support piece 25 is inserted and seated in the seating groove. By doing so, it is possible to further increase the mutual adhesion stability, and if a plurality of elastic springs are provided on the upper side of the balance maintaining pad 73 , the return provided on the lower side of the bottom elastic support piece 25 . While operating together with the spring 27, it is possible to maximize the stability of close contact with each other.

On the other hand, a groove-shaped chip collection space 17 is provided between the center support piece 30 and a pair of support blade pieces 11 and 19 facing each other as the side pieces.

As shown in FIG. 5 , the chip collection space 17 is formed to be narrower at the lower end than the upper end, and a chip collecting box 90 is provided on the lower end side, and the chip collecting box 90 is a lower support. (10) to be detachable through the opening formed on the front and rear sides of the longitudinal direction.

As a specific embodiment of the chip collection box 90, as shown in FIG. 5, a plurality of balls 95 are provided on the inner surface of the chip collection space 17 that is in close contact with the outer surface of the chip collection box 90. and each of the balls 95 is inserted into the groove 7 formed on the inner surface of the chip collection space 17 so as to be freely rotatable, and is provided with a horizontal axis at the bottom of the chip collection space 17 . It is preferable to include a plurality of rollers 98 rotated by (95), so that the chip collection box (90) slides by the balls (95) and rollers (98).

At this time, in more detail, as shown in FIG. 6 , an elastic adhesive pad 41 is provided on the groove portion 70 for accommodating the ball 95 while enclosing the receiving side of the ball 95 and is in close contact with the elastic adhesive pad. By providing a plurality of elastic springs 45 radially to the rear side of (41), it is preferable to ensure stable mobility by the elasticity of the ball (95) during sliding movement of the chip collection box (90).

On the other hand, as shown in FIGS. 5 and 7 so as to be slidably movable on the guide rails 21 of the support wing pieces 11 and 19 and the guide rails 32 of the central support pieces 30, a horizontal moving base 70. is provided in combination.

As described above, the movable base 70 is formed to be thicker on the center side than the edge side in order to maintain the balance of the movable base 70 , and with this structure, it is slidably moved on the lower support 10 .

To this end, both end sides 70a and 70b of the moving base 70 are coupled to the guide rails 21 of the support wing pieces 11 and 19, and the middle side 70c of the moving base 70 is Guide rails 32 of the central support pieces 30 formed to have a thickness that is further extended vertically downward than the opposite ends 70a and 70b of the movable base 70 and are formed lower than the heights of the support wing pieces 11 and 19. ) is configured so that the movable base 70, which is formed thicker than the both ends 70a and 70b, is stably seated on the movable base 70 for balance maintenance.

In addition, an elevating member 89 is provided on the upper portion of the movable base 70, wherein the elevating member 89 is elevated by a plurality of cylinders and cylinder rods 87 as shown in FIG. 7(c). It is implemented to operate, and as necessary, the workpiece can be moved up and down to the tool side, which can be adjusted according to the physical condition of the operator. do.

In addition, a rotating member 80 is provided on the upper portion of the lifting member 89. At this time, the rotating member 80 is rotated by a speed reduction motor, which, if necessary, moves the workpiece to the tool side or the operator side. It can be rotated toward to increase work efficiency.

According to the high rigidity bed apparatus having the function of preventing sagging of the vertical machining center of the present invention as described above, sagging and bending due to the weight of the upper structure during transport of the saddle and the main shaft for machining the workpiece in the vertical machining center is not generated. It is possible to increase the processing precision and to prevent thermal displacement of the upper structure by smoothly discharging chips and coolant, and to increase the rigidity against the cutting force in the direction perpendicular to the load.

Although the present invention described above has been described with reference to an embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments are possible by those skilled in the art. should be made clear. Accordingly, the true technical protection scope of the present invention should be construed by the appended claims, and all technical ideas within the equivalent scope should be construed as being included in the scope of the present invention.

10: lower support 11,19: support wing piece
17: chip collection space 21, 32: guide rail
30: central part 70: mobile base
80: rotating member 89: lifting member
90: chip collection box

Claims (5)

In configuring a high rigidity bed device having a function of preventing sagging of a vertical machining center,
The lower support 10 fixed to the ground; On both sides of the lower support 10, the supporting wing pieces 11 and 19 protruding vertically upward to the ground are symmetrically provided, and a pair of guides are provided on the upper surface 12 of each of the supporting wing pieces 11 and 19. A rail 21 is provided,
a central support piece 30 provided to be formed lower than the height of the support wing pieces 11 and 19 between the pair of support wing pieces 11 and 19; A pair of guide rails 32 are provided on the upper surface of the central support piece 30,
a chip collecting space 17 in the form of a groove formed between the central support piece 30 and a pair of support blade pieces 11 and 19 facing each other as side pieces; The chip collection space 17 is formed to have a narrower width at the lower end than the upper end, and the chip collecting box 90 is provided on the lower end side, and the chip collecting box 90 is the length of the lower support 10 . It is detachable through the opening formed on the front and rear sides of the direction,
a horizontal movable base 70 coupled to the guide rail 21 of the support wing pieces 11 and 19 and the guide rail 32 of the central support piece 30 to be slidably movable; Both end sides 70a and 70b of the movable base 70 are coupled to the guide rails 21 of the support wing pieces 11 and 19, and the intermediate side 70c of the movable base 70 is the movable base. (70) on the guide rail 32 of the center support piece 30 which is formed to have a thickness that is further extended vertically downward than the both end sides 70a and 70b and is formed lower than the height of the support wing pieces 11 and 19. By being coupled, the movable base 70, which has a thicker middle side 70c than the both end sides 70a and 70b, is stably seated and maintained for balance maintenance,
a lifting member (89) provided on the movable base (70) and operated by a plurality of cylinders and cylinder rods (87);
A rotating member (80) provided on the upper portion of the elevating member (89) and rotated by a reduction motor;
The central support piece 30 is divided into an upper body 30a and a lower body 30b that are vertically spaced apart, and a detachable support 31 is provided between the upper body 30a and the lower body 30b. Vertical machining center, characterized in that it is configured to correspond to the thickness of the middle side (70c) of the movable base (70) by selectively adjusting the height of the support (31) to adjust the vertical height of the central support piece (30) High rigidity bed device with anti-sag function.
The method of claim 1,
The upper portions of the support wing pieces 11 and 19 to support the load of the bottom portion of the rim of the movable base 70 on the upper surface 12 of the support wing pieces 11 and 19 between the pair of guide rails 21, respectively. A high rigidity bed device having a function of preventing sagging of a vertical machining center, characterized in that the bottom elastic support piece 25 protruding on the surface 12 is provided.
3. The method of claim 2,
A balance maintenance pad 73 is further provided on the lower surface of the moving base 70 to prevent frictional balance between the upper surface of the bottom elastic support piece 25 and the lower surface of the moving base 70 A high-rigidity bed device with a function to prevent sagging of a vertical machining center.
4. The method of claim 3,
A plurality of balls 95 are provided on the inner surface of the chip collecting space 17 that is in close contact with the outer surface of the chip collecting box 90 , and each of the balls 95 is formed of the chip collecting space 17 . A plurality of rollers 98 which are inserted into the groove 7 formed on the inner surface to be freely rotatable and rotate by a horizontal axis 95 are provided at the bottom of the chip collection space 17, A high-stiffness bed device having a function of preventing sagging of a vertical machining center, characterized in that the chip collection box (90) is configured to slide by the balls (95) and rollers (98).
5. The method of claim 4,
An elastic adhesive pad 41 is provided on the groove portion 70 for accommodating the ball 95 while enclosing the receiving side of the ball 95, and an elastic spring 45 toward the rear side of the elastic adhesive pad 41 is provided. A high rigidity bed device having a function of preventing sagging of a vertical machining center, characterized in that by providing a plurality of radially, stable mobility is secured by the elasticity of the ball 95 during sliding movement of the chip collection box 90 . .

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