JP2008161947A - Main spindle device and machining center furnished with it - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a main spindle device capable of exchanging a main spindle in an extremely short period of time, short in downtime in maintenance and high in productivity and a machining center furnished with it. <P>SOLUTION: Wiring 41, 42 extended from a main spindle 30 and wired on the side of a supporting arm through a bracket 21 are provided on the main spindle device 20, and a joint part 74 provided at a position separated by prescribed length from an extended part of the wiring 41, 42 is stored in the bracket 21. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a spindle device and a multi-tasking machine tool including the same, and more particularly to a main spindle device attached to a main spindle head of a portal machining center and a multi-tasking machine tool including the same.

  Conventionally, as a multi-tasking machine tool that performs machining such as cutting and drilling by three-dimensional relative movement between a large workpiece and a tool, for example, a table to which a workpiece is attached is reciprocated linearly, and a spindle having a tool is set to X A portal machining center that controls in the direction of the axis, Y axis, and Z axis is used.

  In the portal machining center, a saddle is attached to a cross rail supported by two columns, a spindle head is attached to an end of a ram that moves in the Z-axis direction with respect to the saddle, and two spindle heads The main shaft is pivotally attached to the support arm via a bracket.

A motor built-in type is used for this type of spindle, and a power line for driving the motor and a signal line such as a sensor are connected by providing a relay connector (for example, , See Patent Document 1).
JP 2006-129611 A (FIG. 1)

  By the way, in the machine tool described in Patent Document 1, the attachment is attached to the turning index shaft of the spindle head, and the relay connector is provided at the connection portion between the attachment and the turning index shaft. For this reason, for example, when the main shaft is removed from the attachment for maintenance, it is necessary to disassemble the attachment and the turning index shaft in order to disconnect the power line and the signal line by the relay connector, which requires time for maintenance. During maintenance, it is necessary to stop the machine, which increases the downtime and decreases productivity.

  The present invention has been made in view of the above-described problems, and an object of the present invention is to provide a spindle device and a multi-tasking machine tool that can exchange a spindle in a very short time, have a short downtime during maintenance, and have high productivity. There is to do.

The above object of the present invention can be achieved by the following constitution.
(1) a bracket that is pivotably attached to the support arm and has a cylindrical portion that is substantially perpendicular to the pivot axis;
A spindle that is removably attached to the cylindrical portion of the bracket, and a tool can be attached to one end side;
Wiring extending from the main shaft and routed to the support arm via the bracket;
A spindle device comprising:
The spindle device according to claim 1, wherein a joint component provided at a position away from the extending portion of the wiring by a predetermined length is accommodated in the bracket.
(2) The bracket includes a bracket body having the tube portion and a groove portion that houses the joint component, and a cover that is attached to the bracket body so as to cover an opening of the groove portion. The spindle device according to (1).
(3) A multi-task machine tool comprising the spindle device according to (1) or (2).

  According to the present invention, the wiring extending from the main shaft and routed to the support arm side via the bracket is provided, and the bracket is provided at a position away from the extending portion of the wiring by a predetermined length. Since the joint part is accommodated, when the main shaft is removed from the bracket, the wiring can be separated by the joint part while the bracket is attached to the support arm. Also, when assembling the spindle to the bracket, the wiring can be connected with joint parts while the bracket is attached to the support arm, so that the spindle can be replaced in a very short time, and the downtime during maintenance is short. Productivity will be high.

  Also, since the joint part is housed in the groove of the bracket body covered by the cover, the joint part can be easily pulled out from the bracket together with the main shaft when the main shaft is removed from the bracket. Interference with other components can be prevented.

  DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a spindle machine and a portal machining center as a combined machining machine tool according to the present invention will be described in detail based on the drawings.

  As shown in FIG. 1, in the portal machining center 1, a table 3 is supported on a bed 2 so as to be movable in the X-axis direction, and a pair of columns 4 are erected on both sides of the bed 2. A cross rail 5 is installed on the upper end of the column 4, and a saddle 6 is provided on the cross rail 5 so as to be movable in the Y-axis direction. The saddle 6 also supports a ram 7 that can be raised and lowered in the Z-axis direction. The spindle device 20 of the present invention can be rotationally indexed around the Y-axis and the Z-axis at the lower end of the ram 7. A spindle head 8 to be held is mounted.

  As shown in FIGS. 2 and 3, the spindle head 8 is provided with a pair of support arms 9 so as to sandwich the bracket 21 of the spindle device 20, and both sides of the bracket 21 are provided inside the support arm 9. A pair of revolving shafts 10 fixed to each other are rotatably accommodated via a plurality of bearings 11. In addition, a motor 12 is disposed on one of the turning shafts 10, whereby the spindle device 20 is attached to the pair of support arms 9 so as to be rotatable about the Y axis (the turning axis A). Note that the turning drive of the spindle device 20 may be such that the turning shaft 10 is gear driven instead of arranging the motor 12 around the turning shaft 10.

  As shown in FIG. 4, the bracket 21 of the spindle device 20 has a cylindrical portion 22 in which the turning shaft 10 is fixed to both side surfaces in the Y-axis direction and penetrates in the X-axis direction (substantially perpendicular to the turning axis). A main body 23, a pair of flat plate covers 24 fixed to both side surfaces of the bracket main body 23 in the Z-axis direction, and a rear lid 25 fixed to the rear end surface of the bracket main body 23 are provided. And the main axis | shaft 30 to which the tool W is attached to the front-end | tip side which is one end side is attached to the cylinder part 22 of this bracket main body 23 so that insertion or removal is possible. In FIG. 4, reference numeral 23 a is a bolt hole for attaching the turning shaft 10.

  Further, in the main shaft 30, the rotating part 31 including the tool W is rotatably supported with respect to the housing 32 via a bearing (not shown) by driving a built-in motor (not shown). The spindle 30 can be a known motor built-in type. The main shaft 30 is fixed to the bracket 21 by bolting a flange portion 32 a provided on the housing 32 to the front end surface of the bracket body 23. For this reason, the main shaft 30 is pulled out from the bracket 21 to the tip side by removing the plurality of bolts 33.

  The rear end portion of the housing 32 which is the other end side of the main shaft 30 is formed with a small diameter, and a power line 41 which is a wiring for transmitting power to the stator of the motor and a signal which is a wiring of a sensor provided on the main shaft 30. The line 42 extends rearward so as not to interfere with the cylindrical portion 22 of the bracket body 23. In the present embodiment, an encoder that detects the rotational speed of the rotating unit 31, a position detection sensor that detects the position of the clamping piston, and a tool detection sensor that detects the presence or absence of a tool are provided as sensors.

Power lines 41 are led out to the rear lid 25 from the housing 32 is routed in the first space S ₁ formed in the bracket body 23, while each signal line 42 of the rear cover 25 is bracket body 23 is routed in a second space S ₂ formed at a position substantially symmetrical to the first space S ₁ with respect to the central axis B of the cylindrical portion 22.

The first and second spaces S ₁ and S ₂ are formed in substantially the same shape as each other. As shown in FIGS. 4 and 5, the bracket body 23 includes the pivot axis A and the cylindrical portion 22 of the bracket body 23. The groove portion 70 formed on both side surfaces perpendicular to the central axis B (in the Z-axis direction), the opening hole 71 penetrating from the rear end surface of the bracket body 23 to the groove portion 70, and the pivot shaft 10 from the bottom surface of the groove portion 70 An inclined hole 72 that is open to each mounting surface to be attached and partially opened to the inner peripheral surface of the cylindrical portion 22 is formed. Further, a ring groove 73 in which an O-ring (not shown) is mounted is formed around the groove portion 70, and the side opening of the groove portion 70 is sealed by fixing the pair of flat plate covers 24 to the bracket body 23. The

Further, the power line 41 and the signal line 42 that are routed in the first and second spaces S ₁ and S ₂ thus formed and led out from the respective mounting surfaces are formed in the pair of turning shafts 10, respectively. The cylindrical surface 10a is taken out and guided to the spindle head side (see FIG. 3). Further, as shown in FIG. 4, the power line 41 and the signal line 42 are connected midway by joint parts 74 such as crimp terminals and connectors, respectively. The joint component 74 is provided at a position away from the extended portion of the wirings 41 and 42 extending from the outer surface of the housing 32 by a predetermined length, and the joint component 74 is accommodated in the groove portion 70. Moreover, the opening hole 71 of the bracket main body 23 is formed in a size that allows the wires 41 and 42 and the joint component 74 to pass sufficiently.

  For this reason, when removing the main shaft 30 from the bracket 21, the wires 41 and 42 are separated by removing the flat plate cover 24 and detaching the joint parts 74 accommodated in the groove 70. As the main shaft 30 is pulled out from the bracket 21, the divided main shaft-side wires 41 and 42 and the joint component 74 pass through the opening hole 71 and are taken out from the bracket 21. Accordingly, the wires 41 and 42 are separated by attaching and detaching the joint component 74, and the wires 41 and 42 can be attached and detached while the bracket body 23 is connected to the support arm 9.

Incidentally, as shown in FIG. 5 (b), the phase and the phase of the first space S ₁ of the openings 71 in which the power line 41 is taken out are located close, and the phase of the signal line 42 is taken out and the phase of the second space S ₂ of the opening hole 71 are also located close as possible to each other. For this reason, it is prevented that these electric wires 41 and 42 interfere in the back cover 25, and can handle an electric wire more easily.

  Therefore, according to the spindle device 20 of the present embodiment, the wirings 41 and 42 that extend from the spindle 30 and are routed to the support arm side via the bracket 21 are provided, and the wirings 41 and 42 are provided in the bracket 21. Since the joint part 74 provided at a position separated from the extending portion by a predetermined length is accommodated, when removing the main shaft 30 from the bracket 21, the wires 41 and 42 attach the bracket body 23 to the support arm 9. It can be cut off by the joint component 74 while remaining in the state. Even when the main shaft 30 is assembled to the bracket 21, the wires 41 and 42 can be connected by the joint component 74 while the bracket body 23 is attached to the support arm 9, and the bracket body 23 can be connected to the support arm 9. The spindle 30 can be replaced in a very short time without being removed.

  Further, since the joint component 74 is accommodated in the groove portion 70 of the bracket body 23 covered with the flat plate cover 24, when the main shaft 30 is removed from the bracket 21, the joint component 74 is easily pulled out from the bracket 21 together with the main shaft 30. In addition, the joint part 74 can be prevented from interfering with other parts in the bracket 21.

In addition, this invention is not limited to each embodiment mentioned above, A deformation | transformation, improvement, etc. are possible suitably.
In the present embodiment, the joint component 74 is accommodated in the groove portion 70, and the main shaft 30 is removed from the bracket 21 after the flat cover 24 is removed and the joint component 74 is detached, but the joint component 74 removes the main shaft 30. You may accommodate in the position (for example, in the back cover 25) which pulls out from the bracket 21 while pulling out from the bracket 21.
In the present embodiment, the spindle device 20 is pivotally supported by the pair of support arms 9 of the spindle head 8, but may be configured to be cantilevered by a single support arm.

1 is a schematic view of a portal machining center to which a spindle device of the present invention is applied. It is a principal part perspective view which shows the spindle head of FIG. It is a front view which shows a spindle head. It is a disassembled perspective view of a main shaft device. (A) is a top view of a bracket main body, (b) is the back view, (c) is sectional drawing along the VV line of (b).

Explanation of symbols

1 Portal machining center (multi-task machine tool)
20 Spindle Device 21 Bracket 22 Tube 23 Bracket Main Body 24 Flat Plate Cover 25 Rear Cover 30 Spindle 41 Power Line (Wiring)
42 Signal lines (wiring)
70 groove portion 71 opening hole 72 inclined hole 74 joint part S ₁ first space S ₂ second space

Claims (3)

A bracket that is pivotally attached to the support arm and has a cylindrical portion that is substantially perpendicular to the pivot axis;
A spindle that is removably attached to the cylindrical portion of the bracket, and a tool can be attached to one end side;
Wiring extending from the main shaft and routed to the support arm via the bracket;
A spindle device comprising:
The spindle device according to claim 1, wherein a joint component provided at a position away from the extending portion of the wiring by a predetermined length is accommodated in the bracket.   The bracket includes a bracket main body having the cylindrical portion and a groove portion that accommodates the joint component, and a cover that is attached to the bracket main body so as to cover an opening of the groove portion. Spindle device described in 1.   A multi-task machine tool comprising the spindle device according to claim 1.

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