Patent Grant
8708623
The present invention relates to an angle tool holder disposed on an attachment unit for five-face machining provided on a vertical machining center to enable five-face machining of workpieces.
Patent documents 1 and 2 disclose angle tool holders attached in a detachable manner to a spindle of a machine tool so as to rotate tools around an axis line orthogonal to the axis line of a spindle.
The art disclosed in patent document 1 restricts the rotation of an angle tool holder using a hydraulic piston. Further, patent document 2 discloses a mechanism for driving a slide member disposed on an angle tool holder through use of pressure of a through coolant so as to disengage the slide member from a positioning block.
The clamp mechanisms disclosed in patent documents 1 and 2 both have low rigidity and have little ability to endure heavy machining performed by the angle tool.
The object of the present invention is to provide an angle tool holder for five-face machining capable of being adopted in a vertical machining center so as to realize heavy five-face machining.
An attachment unit for five-face machining attached to a spindle head of a vertical machining center to which the present invention is applied comprises a ring-shaped cylinder member fit to an outer circumference of a spindle housing supporting a spindle and protruded from a lower end of a spindle head of a vertical machining center and thereby fixed to the spindle head, a clamp unit directly connected to a ring-shaped piston disposed within the ring-shaped cylinder member and moved vertically, and four collet chucks disposed at even angular intervals on a circumference on a lower side of the clamp unit.
The angle tool holder according to the present invention comprises a shank inserted to the spindle of the vertical machining center, a housing supporting the shank and an angle tool in a rotatable manner, and having in the interior thereof a transmission mechanism for converting a drive force of the shank to an orthogonal direction and transmitting the same to the angle tool, an arm connected to the housing, and three pull stud bolts disposed on the arm and held via three collet chucks out of the four collet chucks on the attachment unit for five-face machining.
The attachment unit for five-face machining to which the present invention is applied can be disposed additionally to a vertical machining center to thereby enhance the machining ability of the machining center easily through use of the present angle tool holder. Further, the angle tool holder according to the present invention has high rigidity and can be applied to heavy machining.
The vertical machining center referred to as a whole by reference number 1 has a table 20 moving in the direction of axis X on a base 10.
A double column 30 is erected on the base 10, and a saddle 40 supported on a guide rail disposed on a front side of the double column 30 moves in the direction of axis Y.
A spindle head 50 is disposed on the front side of the saddle 40, by which a spindle 70 is moved in the direction of axis Z.
A bracket 410 is attached to the base 10, and a tool magazine 400 is disposed thereon. The tool magazine 400 stores various tools T1, and an ATC arm 420 supplies necessary tools to the spindle 70 in an exchangeable manner.
The attachment unit 100 for five-face machining is fixed to an outer circumference portion of a cylindrical spindle housing supporting the spindle 70. An angle tool holder 200 is attached to the spindle head 50 using the attachment unit 100 for five-face machining.
A cylindrical spindle housing 60 is projected downward from the lower end of the spindle head 50, which supports the spindle 70 in a rotatable manner.
The attachment unit 100 for five-face machining has a bore portion inserted to an outer circumference of the spindle housing 60, and the upper portion thereof is fixed via bolts or the like to the lower end portion 52 of the spindle head 50.
The attachment unit 100 for five-face machining has a ring-shaped cylinder member 110 fit to the spindle housing 60 and fixed to the lower end of the spindle head 50, and a clamp unit 130 is directly connected to a ring-shaped piston 120 disposed within the ring-shaped cylinder member 110 and which is moved up and down.
Four collet chucks 140 are disposed on a circumference on a lower side of the clamp unit 130.
A generally used angle tool holder 200 comprises a shank 210 inserted to a tapered hole of the spindle 70 and an angle cutter 220 driven by the rotating force of the shank 210. Power transmission mechanisms and bearings are disposed within the housing 240. An arm 250 is equipped with a pull stud bolt 270.
When the pull stud bolt 270 is clamped by the collet chuck 140 on the clamp unit 130 in the manner described in detail later, the rotation of the angle tool holder 200 is restricted and cutting resistance is received by the collet chuck. When the pull stud bolt 270 is unclamped, the arm 250 revolves with the shank 210 and is allocated at a position corresponding to the four collet chucks 140.
a) is a front view and
In this state, the angle cutter 220 is ready for processing.
a) and 11(b) illustrate a state in which the angle tool holder 200 is allocated to one of the four collet chucks 140 of the attachment unit 100 for five-face machining. In this state, the clamp unit 130 of the attachment unit 100 for five-face machining is at a pulled up position.
a) and 12(b) illustrate a state in which the clamp unit 130 of the attachment unit 100 for five-face machining is lowered with respect to the angle tool holder 200 having been allocated, so as to clamp the pull stud bolt 270 by the collet chuck 140.
The attachment unit 100 for five-face machining has a ring-shaped cylinder member 110, wherein the ring-shaped cylinder member 110 is fixed via bolts 112 to the spindle head side. A hydraulic chamber 114 is disposed within the ring-shaped cylinder member 110, and a ring-shaped piston 120 is slidably disposed therein. Hydraulic ports 116a and 116b for driving the piston 120 is communicated with the hydraulic chamber 114.
The lower end of the piston 120 is connected to a ring-shaped clamp unit 130. Collet chucks 140 are disposed at four positions on the outer circumference of the clamp unit 130.
Each collet chuck 140 has a hydraulic chamber 152 formed within a body 150, and a piston 142 is slidably inserted within the hydraulic chamber 152.
The piston 142 opens and closes claws 144. Ports 154a and 154b are formed to communicate with the hydraulic chamber 152.
The angle tool holder 200 has a shank 210, which is inserted to and held by a shank hole formed on the spindle side. A notch is formed on the outer circumference of a shaft 212 formed integrally with the shank 210, to which an inner end portion 262 of a lever 260 is engaged. An arm 250 is connected to a housing 240, and the pull stud bolt 270 attached to the arm 250 passes through the lever 260 and is opposed to the side having the collet chucks 140.
During this operation, the piston 142 is biased toward the upper direction and the claws 144 are closed.
The piston 142 of the collet chuck 140 opposed to the pull stud bolt 270 is biased downward via hydraulic pressure so as to open the claws 144.
The collet chuck 140 receives the pull stud bolt 270 on the arm 250.
The inner end 262 of the lever 260 is disengaged with the notch on the shaft 212.
In this state, the arm 250 on the angle tool holder 200 is gripped securely via the clamp unit 130 of the attachment unit 100 for five-face machining.
The shaft 212 integrated with the shank 210 drives the angle cutter 220 via the power transmitted from the spindle side, and subjects a workpiece to machining.
The lever 260 is separated from the shaft 212, according to which the occurrence of interference is prevented.
A shaft 280 is inserted to a hole 254 with a bottom of the arm 250 and fixed thereto via bolts 282. The pull stud bolt 270 is erected on the upper end of the shaft 280 through use of a screw portion 272.
The lever 260 has a bore portion 264 fit to the outer circumference of the shaft 280, through which the lever is slidably supported on the shaft 280. A hole is formed near an inner end portion 262 of the lever 260, which is inserted to a projection 252 formed on the arm 250.
The lever 260 is biased away from the arm 250 via a spring 266, and the end portion 262 of the lever 260 is engaged with the notch on the shaft 212 to perform allocation.
As described above, the attachment unit for five-face machining can be attached to the vertical machining center in a supplemental manner so as to easily enhance the machining ability of the machining center.
Furthermore, the three collet chucks out of the four collet chucks not related to gripping the angle tool holder maintain their claws in a closed state.
Since the attachment unit 100 for five-face machining is disposed on the spindle, it is exposed to a harsh environment during machining in which cutting fluids are sprayed on the attachment unit 100.
Therefore, it is preferable to provide a device for preventing intrusion of particles through the openings of the three collet chucks 140 not used at that time.
The angle tool holder denoted as a whole by reference number 500 has a shank 510 inserted to the spindle, wherein the drive shaft of the rotation of the shank 510 is varied in the orthogonal direction via a gear transmission mechanism or the like disposed within a housing 540, by which an angle cutter 520 is driven.
An arm 550 connected to the housing 540 is equipped with three pull stud bolts 570. The three pull stud bolts 570 are arranged at 90-degree angular intervals, and the three pull stud bolts are simultaneously clamped by three of the four collet chucks disposed on the attachment unit for five-face machining. A lever 560 used for allocating the angle tool holder 500 is disposed on the arm 550 where the pull stud bolt 570 is arranged at the center. The structure and the function of the lever 560 are the same as those described earlier.
This angle tool holder 500 can be automatically exchanged from the magazine to the spindle via the ATC arm 420, similar to the angle tool holder 200 mentioned earlier.
The attachment unit 100 for five-face machining includes four collet chucks 140 disposed on the circumference. Since the angle tool holder 500 according to the present invention has three pull stud bolts 570 disposed on the arm 550, it can be clamped at various angular positions varied by 90 degrees.
a) shows a state in which the angle tool holder 500 is attached to the spindle 70 and the axis line of the angle cutter corresponds to the direction of arrow A.
The angle tool holder 500 is attached in the direction shown in FIG. 2() so as to process a side wall WB of the workpiece W1.
Since the angle tool holder 500 is supported on the attachment unit 100 for five-face machining via the three pull stud bolts 570 clamped by the three collet chucks 140, the angle tool holder has high rigidity and can perform heavy machining on the side wall WB of the workpiece W1.
An angle tool holder 600 has three pull studbolts 670 disposed on an arm 650, which are clamped via three of the four collet chucks 140 disposed on the attachment unit 100 for five-face machining.
The angle tool holder 600 is equipped with an angle tool 620 having a long projection so that the cutting edge position of the angle tool 620 is protruded from the center axis line of the spindle 70.
The present angle tool holder has the following advantages, since the angle tool holder is held via three of the four collet chucks disposed on the attachment unit for five-face machining.
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/JP2009/067173 | 10/1/2009 | WO | 00 | 11/10/2010 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2011/039886 | 4/7/2011 | WO | A |
| Number | Name | Date | Kind |
|---|---|---|---|
| 3757637 | Eich et al. | Sep 1973 | A |
| 3930301 | Wagner | Jan 1976 | A |
| 4384811 | Eckstein et al. | May 1983 | A |
| 5211515 | Hirabayashi | May 1993 | A |
| 6450074 | Yong-Chang | Sep 2002 | B1 |
| 20070071566 | Young et al. | Mar 2007 | A1 |
| 20080199270 | Yoshikawa et al. | Aug 2008 | A1 |
| Number | Date | Country |
|---|---|---|
| 61-033832 | Feb 1986 | JP |
| 63-744 | Jan 1988 | JP |
| 1-114258 | Aug 1989 | JP |
| 3-4339 | Jan 1991 | JP |
| 07-308839 | Nov 1995 | JP |
| 10-328913 | Dec 1998 | JP |
| 2008-284643 | Nov 2008 | JP |
| Entry |
|---|
| International Search Report and Written Opinion for corresponding International Application No. PCT/JP2009/067173 mailed Dec. 8, 2009 (with partial English translation). |
| Number | Date | Country | |
|---|---|---|---|
| 20110268520 A1 | Nov 2011 | US |
