JP2020069550A - Work-piece processing system and work-piece processing method - Google Patents

Abstract

To provide a work-piece processing system provided with an exchanger that performs exchange of a processing tool, a nozzle and a work-piece, between a processing machine and a stocker.SOLUTION: The work-piece processing system is provided with: a processing machine 3 in which a processing tool 27 for performing processing of a work-piece W made of metal can be attachably and detachably exchanged; a stocker 5 storing various types of processing tools 27, nozzles 29 provided corresponding to the various types of processing tools 27 as well as a plurality of work-pieces W; and an exchange device 7 that performs attachment, detachment and exchange of the processing tools 27, the nozzles 29 as well as the work-pieces W, between the processing machine 3 and the stocker 5. In the exchange device 7, a tool holding part 63 for holding the processing tools 27 and a nozzle holding part 75 for holding the nozzles 29 are provided in parallel at a tip side of an exchange arm. The tool holding part 63 is configured to be also used as the work holding part for holding the work-pieces W.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a processing machine in which a processing tool for processing a metal workpiece is detachably replaceable, various processing tools, a nozzle corresponding to the various processing tools, and a stocker that stores a plurality of workpieces, and the processing machine. The present invention relates to a work machining system including a machining tool, a nozzle, and an exchange device for attaching and detaching a work to and from a stocker.

  More specifically, it is possible to simultaneously perform attachment / detachment and replacement of the machining tool and the nozzle to improve the efficiency of the exchanging operation. Further, in the exchanging device, a tool holding portion for holding the machining tool and a workpiece for holding the workpiece. The present invention relates to a work machining system that can be used in common with a holding unit to simplify the configuration.

  Conventionally, in, for example, a grinding machine as an example of a machining machine, a grinding stone as a machining tool and a nozzle for a coolant are simultaneously replaced by an automatic tool changing machine (for example, Patent Document 1). 1). Further, in the processing machine, the work is also exchanged by the work exchange device (for example, refer to Patent Document 2).

JP-A-3-19741 JP 62-255012 A

  In Patent Document 1, the exchange arm in the automatic tool changer is provided with a first grip portion for gripping the tool holder, and a second grip portion for gripping the flange portion of the nozzle at a position closer to the tip end than the first grip portion. There is described a configuration in which a grip portion is provided in series and a tool and a nozzle are automatically and simultaneously replaced by a replacement arm.

  In Patent Document 2, various hands such as a work hand, a tool hand, and a jig hand can be replaced with respect to the one-hand manipulator, and the work, the tool, the jig, and the like can be automatically replaced. Have been described.

  Therefore, by applying the invention described in Patent Document 2 to the invention described in Patent Document 1, it is possible to automatically replace the tool, the nozzle, and the work. However, in the invention described in Patent Document 1, in a grinding device, a grinding wheel as a tool and a nozzle for a coolant are gripped by a first grip portion and a second grip portion that are provided in series with an automatic tool changing arm. It is a structure to exchange. The invention described in Patent Document 2 is intended for a hobbing machine that processes gears, and has a configuration in which various hands are exchanged with respect to a one-hand manipulator to exchange workpieces, tools, jigs, and the like.

  That is, the invention described in Patent Document 1 and the invention described in Patent Document 2 differ in the form of the target work, the processing machine, and the processing apparatus. The invention described in Patent Document 2 has a configuration in which various hands are exchanged according to the object to be exchanged. Therefore, it is difficult to apply the invention described in Patent Document 1 to the invention described in Patent Document 1. Even if it can be applied, there is a problem in improving efficiency because it is configured to exchange various hands.

The present invention has been made in view of the above-mentioned problems, and is provided for a processing machine in which a processing tool for processing a metal workpiece is detachably replaceable, various processing tools, and various processing tools. And a stocker that stores a plurality of workpieces, and between the processing machine and the stocker, a workpiece machining system including a machining tool, a nozzle, and an exchange device that attaches and detaches the workpiece,
The exchanging device includes a tool holding part for holding a machining tool and a nozzle holding part for holding a nozzle in parallel on the tip side of an exchange arm, and the tool holding part also serves as a work holding part for holding a work. It is a configuration that does.

Further, a work processing method by the work processing system,
(A) A step of grinding the upper surface of the work, which is supported by the turning table and indexed and positioned to the upper side, by a flat grinding wheel provided in the processing machine,
(B) a step of grinding a vertical plane of the work supported by a turning table with a cup type grinding wheel,
(C) replacing the flat grinding wheel with a cup grinding wheel or the cup grinding wheel with a flat grinding wheel,
Each step of is equipped.

  According to the present invention, the working tool and the nozzle for the coolant corresponding to the working tool can be simultaneously replaced. Further, the work can be exchanged by the tool holding unit that holds the tool. Therefore, the processing tool, the nozzle, and the work can be replaced quickly. Further, it is possible to simplify the exchanging device for exchanging tools and workpieces.

It is a perspective explanatory view showing the work processing system concerning the embodiment of the present invention notionally and roughly. It is a front explanatory view of the said workpiece processing system. It is a plane explanatory view of the said workpiece processing system. It is a back surface explanatory view of the stocker in the said workpiece processing system. It is a perspective view showing a state where a processing tool and a nozzle are held by an exchange hand unit. It is a plane section explanatory view showing composition of a tool holding part. It is sectional explanatory drawing which shows the state which attached the grindstone as a processing tool with respect to the spindle with which the tool holder head was equipped. It is sectional explanatory drawing which shows the state which stored the working tool in the tool pot with which the stocker was equipped. It is sectional explanatory drawing which shows the state which accommodated the nozzle in the nozzle pot with which the stocker was equipped. It is a perspective explanatory view at the time of taking out the work stored in the stocker by the tool holding member with which the exchange hand was equipped. It is isometric view explanatory drawing at the time of taking out a work from the work pot with which the stocker was equipped. It is a section explanatory view showing the state where the work was stored in the work pot. It is sectional explanatory drawing which shows the state which accommodated the work in the work pot. It is a section explanatory view showing that a work pot is provided with a detection sensor. It is explanatory drawing of the operation | movement which exchanges a processing tool and a nozzle by the exchange apparatus between the tool holder head and stocker in a processing machine. It is explanatory drawing of the operation | movement which exchanges a workpiece | work by the exchange apparatus between the turning device and stocker in a processing machine. It is explanatory drawing at the time of exchanging a grinding wheel and grinding 5 surfaces of a workpiece | work. It is explanatory drawing in the case of rotating a workpiece | work around a Z-axis, and grinding 5 surfaces of a workpiece | work.

  Referring to FIG. 1, a work processing system 1 according to an embodiment of the present invention includes a processing machine 3 for processing a metal work W, a stocker 5 provided near the processing machine 3, and a processing machine 3. Between the stocker and the stocker 5, there is provided an exchanging device 7 for detaching and exchanging the machining tool, for example.

  In the present embodiment, the processing machine 3 is exemplified by a grinder (grinding device). A grinder, which is an example of the processing machine 3, includes a bed 9. A saddle 11 that is movable in the Z-axis direction, which is the front-rear direction, is provided on the bed 9. The movement and positioning of the saddle 11 in the Z-axis direction is performed by a servo motor SM1 controlled and driven by a control device (not shown) such as a computer. The configuration for moving and positioning the saddle 11 in the front-rear direction using, for example, a ball screw mechanism is a well-known configuration. Therefore, description of the structure for moving the saddle 11 in the front-rear direction will be omitted.

  A table 13 is provided on the saddle 11 so as to be movable in the X-axis direction which is the left-right direction. The movement of the table 13 in the left-right direction is performed by driving the servo motor SM2 provided in the saddle 11.

  A turning device (turning table) 15 is provided on the table 13. The revolving device 15 is provided with a revolving shaft 17 capable of revolving horizontally. A work W to be machined is detachably and replaceably mounted on the swivel shaft 17. The structure for attaching and detaching the work W to and from the turning shaft 17 will be described later. Further, the table 13 is provided with a dresser (not shown) such as a diamond dresser for performing dressing (dressing) of the grinding wheel 27 as a working tool, as in a general grinder.

  As can be understood from the above configuration, the turning device 15 can turn the mounted work W horizontally to index and position it at a desired rotation position. Further, the revolving device 15 is moved back and forth integrally with the saddle 11 and is reciprocated in the left-right direction integrally with the table 13.

  A column 19 is provided upright on the rear side of the bed 9 of the processing machine 3 in the Z-axis direction. A vertical slider 21 is vertically movable on the front surface of the column 19 (the surface facing the table 13). The vertical slider 21 is driven by a vertical movement motor 23 provided in the column 19.

  The vertical slider 21 is provided with a grindstone head (tool holder head) 25 that protrudes forward (toward the table 13 side). The tool holder head 25 is provided with a spindle (not shown in FIG. 1) horizontally and rotatably. A grinding wheel 27, which is an example of a machining tool, is detachably attached to the spindle. Further, the tool holder head 25 is detachably and replaceably provided with a coolant supply nozzle 29 for supplying a grinding fluid corresponding to each of the processing tools (grinding wheel) 27. That is, the tool holder head 25 is provided with the nozzle socket 29B into which the nozzle coupler 29A provided at the base of the nozzle 29 can be inserted and removed.

  The nozzle 29 is provided as a pair with the processing tool 27. When the work tool 27 is attached / detached, the nozzle 29 is also attached / detached at the same time.

  The stocker 5 is provided laterally in the X-axis direction near the processing machine 3. More specifically, a box-shaped base frame 31 is provided at a lateral position close to the processing machine 3 in the X-axis direction. The stocker 5 is provided on the upper rear side of the base frame 31 in the Z-axis direction. The stocker 5 is configured to have an L shape or a C shape when seen in a plan view. Further, the exchanging device 7 for exchanging the machining tool 27, the nozzle 29, etc. is provided between the machining machine 3 and the stocker 5.

  The stocker 5 has a rear shelf frame 33A located on the rear side of the exchanging device 7 in the Z-axis direction and a side shelf frame 33B located on the opposite side of the processing machine 3 with the exchanging device 7 in between. It has an L shape. The rear shelf frame 33A and the side shelf frames 33B are configured as a plurality of shelf frames. A plurality of machining tools 27 that are attached to and detached from the machining machine 3 and nozzles 29 corresponding to the machining tools 27 are detachably stored in the shelf frames 33A and 33B of the stocker 5. Further, a plurality of works W to be attached to and detached from the turning device 15 are stored in the shelf frames 33A and 33B of the stocker 5.

  The exchanging device 7 for detaching and exchanging the machining tool 27 and the like between the machining machine 3 and the stocker 5 is composed of an industrial robot. Industrial robots of this kind are of known construction. Therefore, the configuration of the exchange device 7 will be briefly described.

  The exchanging device 7 includes a pedestal 35 fixed to the base frame 31. A cylindrical cover member is vertically provided on the pedestal 35. In addition, a swivel base 37 is provided in the cover member so as to be rotatable in the direction of arrow A about the vertical axis. The swivel base 37 is provided with a first arm 39 that is rotatable (swingable) in the direction of arrow B around a horizontal axis. A second arm 41 that is rotatable in the direction of arrow C around the horizontal axis is provided at the tip of the first arm 39.

  The second arm 41 is provided with a third arm 43 that is rotatable about an axis in a direction orthogonal to the rotation axis of the second arm 41, that is, in the arrow D direction. Then, a tip end portion of the third arm 43 is provided with a fourth arm 45 rotatable about an axis in a direction orthogonal to the longitudinal direction of the third arm 43, that is, in the arrow E direction. The fourth arm 45 is rotatably provided in the arrow F direction around the longitudinal axis of the fourth arm 45. The fourth arm 45 is provided with an exchange hand unit 47 (see FIG. 4) for attaching and detaching the machining tool 27 and the like.

  As shown in FIG. 5, the exchange hand unit 47 is provided with an attachment base 49 that is detachably attached to the tip end portion of the fourth arm 45 of the exchange device 7 (the attachment base 49 with respect to the fourth arm 45). (The structure for detachably attaching is not shown). The mounting base 49 is provided with a pair of guide rods 53 having upper and lower ends fixed to upper and lower brackets 51. An elevating block 55 is vertically guided and supported by the guide rod 53. The elevating block 55 is constantly urged in one direction (downward in FIG. 5) by a coil spring 57 mounted on the guide rod 53.

  As shown in FIG. 5, the elevating block 55 is provided with a tool holding member 61 capable of holding a disc-shaped tool pallet 59 provided on the processing tool 27. The tool holding member 61 includes a U-shaped tool holding portion 63 that engages and holds the tool pallet 59. More specifically, the tool holding portion 63 has a fixed finger 65 on the tool holding member 61 and a movable finger 67 facing the fixed finger 65 to form the tool holding portion 63 in a U shape. ..

  The fixed finger 65 is formed with a V-shaped guide portion 65G that is engageable with a peripheral groove 59G having a V-shaped cross section formed on the peripheral surface of the tool pallet 59. As shown in FIG. 6, the movable finger 67 is rotatably held by the tool holding member 61 via a hinge pin 69. Further, a triangular engaging block 71 which can be engaged with the circumferential groove 59G of the tool pallet 59 is integrally provided at the tip of the movable finger 67. Then, in order to urge the engagement block 71 toward the tool pallet 59 side, the base end side of the movable finger 67 is pressed and urged by a coil spring 73 provided in the tool holding member 61.

  With the above-described configuration, the tool pallet 59 is sandwiched between the fixed finger 65 and the movable finger 67 by inserting the tool pallet 59 into the tool holding portion 63 from the tip side against the biasing force of the coil spring 73. .. That is, the processing tool 27 is held by the tool holding member 61. Then, the processing tool 27 is removed from the tool holding member 61 by removing the tool pallet 59 from the tool holding portion 63 toward the tip side against the biasing force of the coil spring 73. That is, the processing tool 27 is attached to and detached from the tool holding portion 63 provided on the tool holding member 61.

  As shown in FIG. 5, the elevating block 55 is provided with a nozzle holding member 75 in parallel adjacent to the tool holding member 61. The nozzle holding member 75 has a function of simultaneously holding the nozzle coupler 29A provided at the base end portion of the nozzle 29 when the tool holding member 61 holds the tool pallet 59.

  More specifically, a pair of fingers 75A and 75B capable of holding the nozzle coupler 29A are provided at the tip end portion of the nozzle holding member 75 as a nozzle holding portion. The fingers 75A and 75B are capable of sandwiching (holding) the nozzle coupler 29A by slightly opening and closing by elastic deformation.

  By the way, the tool holding member 61 and the nozzle holding member 75 hold the tool pallet 59 and the nozzle coupler 29A at the same time. Therefore, the positional relationship between the tool holding portion 63 of the tool holding member 61 and the portion (nozzle holding portion) where the nozzle holding member 75 holds the nozzle coupler 29A is determined by the machining tool attached to the tool holder head 25 of the machining machine 3. The positional relationship between the nozzle 27 and the nozzle 29 is equal.

  Therefore, the tool holding member 61 and the nozzle holding member 75 are moved in a direction orthogonal to the straight line connecting the axis of the machining tool 27 attached to the tool holder head 25 and the axis of the nozzle coupler 29A to perform the attaching / detaching operation. As a result, the processing tool 27 and the nozzle 29 can be simultaneously attached to and detached from the tool holding member 61 and the nozzle holding member 75 from the tip side.

  As is already understood, the positional relationship between the machining tool 27 and the nozzle 29, which are stored in the stocker 5 as a pair, is also different from that of the machining tool 27 and the nozzle 29 that are detachably attached to the tool holder head 25. It holds a positional relationship equal to the positional relationship of.

  By the way, a configuration in which the machining tool 27 is attached to and detached from the tool holder head 25 will be described.

  As shown in FIG. 7, a cylindrical bearing housing 79 is provided in the head housing 77 of the tool holder head 25. A spindle 83 is horizontally and rotatably provided in the bearing housing 79 via a plurality of bearings 81. A motor 87 having a hollow rotary shaft 85 is provided in the bearing housing 79. Then, a part of the spindle 83 is fitted and integrated with the hollow rotary shaft 85. Therefore, when the motor 87 is driven, the spindle 83 is rotated integrally with the hollow rotary shaft 85.

  A labyrinth seal mechanism 89 is provided on the tip end surface of the bearing housing 79 to prevent the penetration of grinding fluid or the like into the bearing 81. A fine adjustment mechanism 91 for finely adjusting the bearing housing 79 is provided at the tip of the bearing housing 79. That is, the screw support member 93 is integrally provided on the tip surface of the head housing 77. Further, fine adjustment screws 95 capable of pressing the outer peripheral surface of the tip end of the bearing housing 79 inward are provided at a plurality of positions of the screw support member 93.

  Therefore, by finely adjusting each fine adjustment screw 95, it is possible to slightly incline the axis of the bearing housing 79, for example, in units of micrometers. In other words, the horizontalness and the inclination of the shaft center of the bearing housing 79 can be finely adjusted.

  A taper hole 99 is formed at the tip of the spindle 83 so that the taper shaft 97 of the tool pallet 59 provided in the machining tool 27 can be inserted and fixed.

  By the way, the tool pallet 59 is provided with a hollow mounting shaft 59S which is capable of penetrating the central portion of the grinding wheel serving as the processing tool 27. A fixing tool 101 such as a nut that can press and fix the machining tool 27 to the mounting surface 59F of the tool pallet 59 is screwed onto the mounting shaft 59S. The tapered shaft 97 is provided on the opposite side of the mounting shaft 59S (opposite surface of the mounting surface 59F).

  The taper shaft 97 has a hollow hole 97H, and an inner peripheral surface of the hole 97H is provided with a locking recess 105 that is locked by the chuck 103 provided on the spindle 83. The chuck 103 has a function of fixing the taper shaft 97 by performing an operation (opening operation) opposite to that of a general collet chuck.

  That is, the chuck 103 includes a plurality of chuck claws that are elastically deformable in the radial outward direction. The outward projection 103P provided at the tip of each chuck claw serves to lock the locking recess 105. In order to enlarge or reduce the diameter of the chuck claws in the chuck 103, a taper member 107 is provided in the chuck 103 so as to be movable in the axial direction.

  In order to move the taper member 107 in the axial direction, a draw bar 109 having the taper member 107 at its tip is provided at the axial center of the spindle 83 so as to be movable in the left-right direction in FIG. .. The draw bar 109 is operated leftward in FIG. 7 by the operation of a fluid pressure mechanism (not shown). The draw bar 109 is always urged to the right in FIG. 7 by an elastic member 111 such as a spring elastically mounted in the spindle 83.

  With the above configuration, when the draw bar 109 is moved leftward in FIG. 7, the taper member 107 is moved so as to project from the chuck 103. Therefore, the diameter of the chuck 103 is reduced, and the taper shaft 97 of the tool pallet 59 provided in the machining tool 27 can be removed from the taper hole 99 of the spindle 83.

  As can be understood from the above description, the processing tool 27 can be attached to and detached from the spindle 83 provided in the tool holder head 25 of the processing machine 3. At this time, the tool holding member 61 of the exchanging device 7 can hold the machining tool 27 to perform attachment / detachment exchange. By the way, the nozzle 29 forming a pair with the processing tool 27 is simultaneously detached and replaced by the nozzle holding member 75.

  In order to attach and detach the processing tool 27 and the nozzle 29 at the same time, the pair of the processing tool 27 and the nozzle 29 are adjacent to each other on the shelf member 113 of the shelf frame 33A of the stocker 5, as shown in FIG. It is arranged. As shown in FIG. 8, a tool pot 115 is provided at a portion of the shelf member 113 that supports the processing tool 27.

  The upper surface of the tool pot 115 is provided with an annular support surface 115F that supports the tool pallet 59 fixed to the machining tool 27. Further, a central portion of the tool pot 115 is provided with a taper hole-shaped storage recess 115T into which the taper shaft 97 of the machining tool 27 can be fitted. A pin-shaped positioning projection member 115P that engages with the hole 97H of the taper shaft 97 and positions is provided at the center of the bottom surface of the storage recess 115T. The tool pot 115 is provided with a tool detection sensor 117 such as a proximity sensor for detecting whether or not the machining tool 27 is present.

  Therefore, the machining tool 27 held in the tool pot 115 is positioned so that its axis coincides with the axis of the tool pot 115. Then, whether or not the processing tool 27 is present in the tool pot 115 is detected by the tool detection sensor 117.

  As shown in FIG. 9, a nozzle pot 119 is provided at the portion of the shelf member 113 that detachably supports the nozzle 29 that is integrally replaced with the processing tool 27. The nozzle pot 119 is provided with a support surface 119F that supports the nozzle coupler 29A provided at the base of the nozzle 29. The nozzle pot 119 is provided with a positioning hole 119H for positioning the positioning pipe 121 included in the nozzle coupler 29A.

  The nozzle pot 119 is provided with a rotation prevention pin 123 that engages with the cutout portion 29C formed in the nozzle coupler 29A and prevents rotation of the nozzle coupler 29A. Further, the nozzle pot 119 is provided with a nozzle detection sensor 125 such as a proximity sensor which detects the positioning pipe 121 to detect the presence or absence of the nozzle 29.

  With the above configuration, the directionality of the nozzles 29 stored in the nozzle pot 119 is always kept constant. The presence or absence of the nozzle 29 is detected by the nozzle detection sensor 125.

  As already understood, the tool holding member 61 in the exchanging device 7 relatively inserts and holds the tool pallet 59 from the tip side, and at the same time, the nozzle holding member 75 relatively inserts and holds the nozzle coupler 29A from the tip side. .. Then, at the same time as removing the tool pallet 59 from the tool pot 115 so as to pull it out and at the same time removing the nozzle coupler 29A from the nozzle pot 119, the processing tool 27 and the nozzle 29 can be removed from the stocker 5 at the same time. On the contrary, the processing tool 27 and the nozzle 29 can be stored in the stocker 5 at the same time.

  By the way, as described above, when the processing tool 27 and the nozzle 29 are stored in the tool pot 115 and the nozzle pot 119 of the stocker 5, or as described later, the processing tool 27 and the nozzle 29 are attached to the processing machine 3. In such a case, for example, when the processing tool 27 or the nozzle 29 is not smoothly mounted and a load is generated, the coil spring 57 provided in the replacement hand unit 47 is compressed. Therefore, it is possible to prevent the replacement hand unit 47 and the like from being damaged by the occurrence of a large load.

  As is already understood, the exchanging device 7 can simultaneously remove the processing tool 27 and the nozzle 29 from the stocker 5 and store the processing tool 27 in the stocker 5.

  Next, a configuration for attaching and detaching the work W between the stocker 5 and the turning device 15 will be described. The stocker 5 is provided with a plurality of work pots 127 (see FIG. 10) for storing the works W. The distance between the work pots 127 is set to be larger than the distance between the tool holding member 61 and the nozzle holding member 75 provided in the exchange hand unit 47. Therefore, when the work W is removed by the tool holding member 61 provided in the exchange hand unit 47, the nozzle holding member 75 does not interfere with another work pot 127.

  As can be understood from the above description, the tool holding member 61 also serves as the work holding member 61 that holds the work W.

  In order to hold the work W by the tool holding member 61 in the exchanging device 7, a work pallet 129 (see FIG. 11) corresponding to the above-mentioned tool pallet 59 is provided on the lower surface of the work W, for example, an adhesive or a plurality of fixings. It is detachably attached via an appropriate fixing means (not shown) such as a screw. Further, at the center of the lower surface of the work pallet 129, there is provided a positioning shaft 135 which can be fitted into the positioning hole 133 (see FIG. 12) provided in the work pot 127.

  On the lower surface of the work pallet 129, there is provided a positioning hole 129H that is engageable with the positioning pin 127P provided on the work pot 127. Further, a peripheral groove 129G having a V-shaped cross section is formed on the outer peripheral surface of the work pallet 129, and a part of the outer peripheral surface is horizontally arranged at the innermost portion of the tool holding portion 63 of the tool holding member 61. A positioning pin 139 (see FIG. 13) that can be inserted into the provided pin hole 137 is horizontally projected.

  Therefore, the directionality of the work pot 127 and the work pallet 129 is always kept constant. Then, when the work pallet 129 is held by the tool holding member 61 in the exchanging device 7, the positioning pin 139 is inserted into the pin hole 137. Therefore, the directionality of the work W and the directionality of the tool holding member 61 are always held in the same direction.

  The work pot 127 is provided with a detection sensor 141 (see FIG. 14) that detects the positioning shaft 135. Therefore, the presence or absence of the work W is detected by the detection sensor 141.

  The revolving device 15 is provided with the revolving shaft 17 vertically and indexably at an appropriate angle. The turning shaft 17 can be indexed and positioned at a desired rotation angle by rotating an appropriate transmission mechanism (not shown) provided in the turning device by a servo motor. The swivel shaft 17 is a hollow shaft to which the positioning shaft 135 provided on the work pallet 129 can be attached and detached. In order to integrally fix the positioning shaft 135, an appropriate chuck (not shown) such as a collet chuck or a scroll chuck is provided.

  Therefore, the work W can be attached to and detached from the turning shaft 17 provided in the turning device 15.

  In order to mount the processing tool 27 and the nozzle 29 on the tool holder head 25 of the processing machine 3 with the above-described configuration, as shown in FIGS. The stored machining tool 27 and nozzle 29 are removed at the same time. At this time, the table 13 is moved to the front side in the Z-axis direction, and the turning device 15 is moved to one side in the X-axis direction. That is, the machining tool 27 to be replaced, the nozzle 29, and the workpiece W are positioned so as not to interfere with each other.

  Next, as shown in FIG. 15C, the processing tool 27 and the nozzle 29 taken out are moved to a position corresponding to the tool holder head 25 so as to be attached to the tool holder head 25. Then, as shown in FIG. 15D, the processing tool 27 and the nozzle 29 are attached to the tool holder head 25.

  Next, a case where the work W is mounted on the turning device 15 will be described.

  When the work W is mounted on the swivel device 15, the table 13 is moved in the X-axis direction to position the swivel device 15 at a position corresponding to the exchanging device 7, as shown in FIG. To do. In the exchange device 7, the work W is taken out from the stocker 5. Then, as shown in FIG. 16B, the work W is moved to the turning device 15 side. After mounting the work W as shown in FIG. 16 (C), the exchanging device 7 is separated from the work W mounted on the turning device 15 as shown in FIG. 16 (D).

  As can be understood from the above description, with respect to the tool holder head 25 provided in the processing machine 3, the machining tool 27 and the nozzle 29 stored in the stocker 5 are controlled by the exchange device 7 by the control device. It can be automatically attached and detached underneath. Further, the work W stored in the stocker 5 can be automatically attached to and detached from the turning device 15 provided in the processing machine 3.

  As already understood, the grinding wheel as the processing tool 27 can be attached to and removed from the grinder as an example of the processing machine 3. Therefore, as schematically shown in FIG. 17A, the flat grinding wheel 27A is used as the processing tool 27, and the upper surfaces UF1, UF2, UF3 of the work W can be ground.

  Further, as shown in FIG. 17B, the side surfaces SF1 and SF2 of the work W can be ground by attaching / detaching to / from the cup-shaped grinding wheel 27B as the processing tool 27. Further, the work W can be turned 180 ° to grind the side surfaces SF3 and SF4. At this time, if the bearing housing 79 is tilted very slightly in the Y-axis direction (vertical direction) and the X-axis direction (horizontal direction) by the fine adjustment screw 95, the grinding surface of the grinding wheel 27B becomes a surface with respect to the work W. You can suppress hitting.

  That is, it is possible to prevent the generation of a twill pattern on the ground surface of the work W, and it is possible to finish the work W into a beautiful surface texture without a twill pattern. In other words, the grinding wheel 27B can grind the side surface of the work W with higher accuracy. Next, the work W is rotated 90 ° to index and position the end faces EF1 and EF2 of the work W at the grinding position, and the grinding wheels 27B grind the end faces EF1 and EF2.

  By the way, by using the cup-shaped grinding wheel 27B as a processing tool, it is possible to effectively inject the coolant between the work W and the grinding wheel 27B. Therefore, grinding burn can be prevented. Further, the processing rigidity can be maintained even during the side surface grinding process, and the grinding process can be improved.

  As can be understood from the above description, since the grinding wheels 27A and 27B as the processing tools 27 can be exchanged for the grinding surface of the work W and the grinding can be performed, the grinding of the five surfaces of the work W is performed. Can be done. At this time, the grinding wheel 27B can be tilted slightly to suppress the contact of the grinding surface and perform grinding.

  By the way, the flat grinding wheel 27A and the cup-shaped grinding wheel 27B are detachable and replaceable. Therefore, which of the grinding process using the flat grinding wheel 27A and the grinding process using the cup-shaped grinding wheel 27B is performed first is arbitrary.

  As will be understood, the cup-shaped grinding wheel 27B and the flat-shaped grinding wheel 27A can be attached to and detached from the spindle 83 of the tool holder head 25 of the processing machine 3 for grinding. Then, as described above, when the cup-shaped grinding wheel 27B is used, the spindle 83 is slightly tilted, for example, in units of micrometers, so that grinding can be performed in a state in which the surface contact of the grinding wheel 27B is prevented. It can be carried out.

  At this time, the spindle 83 may be slightly inclined in advance. In this case, when the flat grinding wheel 27A is used instead of the cup-shaped grinding wheel 27B, it is necessary to dress the grinding wheel 27A. That is, the peripheral surface of the flat grinding wheel 27A is formed in a slightly inclined taper shape. In other words, the outer peripheral surface of the grinding wheel 27A is formed into a tapered surface corresponding to a slight inclination of the spindle 83 so that the lowermost edge portion of the outer peripheral surface of the grinding wheel 27A contacts the horizontal surface.

  As already understood, even if the grinding wheel is detachably attached to the cup-shaped grinding wheel 27B or the flat-shaped grinding wheel 27A, high-precision grinding can be easily performed.

  As can be understood from the above description, in the present embodiment, the exchanging hand unit 47 included in the exchanging device 7 allows the exchanging and exchanging of the machining tool 27 and the nozzle 29 with respect to the tool holder head 25 of the machining machine 3, and the swiveling. The work W can be attached / detached to / from the device 15. That is, the tool holding member 61 for exchanging the processing tool 27 can also be used as a work holding portion for exchanging the work W. Therefore, the exchange device 7 can be simplified.

  By the way, in the above description, the case where the grinding machine is used as the processing machine 3 and the grinding wheel is replaced as the processing tool 27 has been described. However, the processing machine 3 may be, for example, a milling machine, and the milling machine may be replaced as a processing tool.

  The present invention is not limited to the embodiment described above, but can be implemented in other forms by making appropriate changes.

  That is, in the above-described embodiment, the case has been described in which the turning shaft 17 of the turning device 15 is turned around the vertical Y-axis. However, it is also possible to make the turning shaft 17 horizontal and rotate around the axis of the X axis or around the axis of the Z axis, for example.

  As described above, in order to rotate the workpiece W about the axis of the Z axis for grinding, for example, the upper surface supported by the turning table 15 (not shown in FIG. 18) and indexed and positioned on the upper side. The UF is ground by the flat grinding wheel 27A. Then, the vertical plane VF of the work W supported by the turning table 15 is ground by the cup-shaped grinding wheel S27B.

  In this case, it is arbitrary whether to grind the upper surface UF where the workpiece W is indexed and positioned by the flat grinding wheel 27A or grind the vertical plane VF first by the cup grinding wheel 27B. That is, the flat grinding wheel 27A and the cup grinding wheel 27B may be exchanged.

  That is, even in the case of the structure in which the work W is rotated around the axis of the Z axis, the grinding of the five surfaces of the work can be easily performed by exchanging the flat grinding wheel 27A and the cup grinding wheel 27B. Is something you can do.

1 Work processing system 3 Processing machine 5 Stocker 7 Exchange device 15 Turning table (turning device)
25 Grindstone Head (Tool Holder Head)
27 Processing tools (grinding wheel)
29 Nozzle 33A Rear Shelf Frame 33B Side Shelf Frame 47 Exchange Hand Unit 59 Tool Pallet 61 Tool Holding Member 63 Tool Holding Part 65 Fixed Finger 67 Movable Finger 75 Nozzle Holding Member 79 Bearing Housing 83 Spindle 85 Hollow Rotating Shaft 91 Fine Adjustment Mechanism 95 Fine adjustment screw 103 Chuck 109 Drawbar 113 Shelf member 115 Tool pot 119 Nozzle pot 123 Anti-rotation pin 127 Workpot 129 Work pallet 133 Positioning hole 135 Positioning shaft 139 Positioning pin

Claims (8)

A processing machine capable of detaching and replacing a processing tool for processing a metal work, various processing tools, a nozzle provided for each processing tool and a stocker storing a plurality of works, and the processing machine A work machining system including a machining tool, a nozzle, and an exchange device for detaching and exchanging a work with the stocker,
The exchanging device includes a tool holding part for holding a machining tool and a nozzle holding part for holding a nozzle in parallel on the tip side of an exchange arm, and the tool holding part also serves as a work holding part for holding a work. Is configured to
Work processing system characterized by that.   The work machining system according to claim 1, wherein the exchanging device is arranged between the machining machine and a stocker, and the stocker is provided on two sides of a rear side of the exchanging device and an opposite side of the machining machine. A work processing system characterized in that it is surrounded by.   The work machining system according to claim 1 or 2, wherein the machining machine includes a slide table that can reciprocate in the left-right direction with respect to the machining tool, and the slide table supports the workpiece and is rotatable. Work processing system characterized by having a turning table.   The work machining system according to claim 3, wherein the slide table is provided with a dresser for dressing a grinding wheel as the machining tool, and a spindle provided in the machining machine is slightly inclined in a vertical direction. Work processing system characterized by.   The work processing system according to any one of claims 1 to 4, wherein the work is preliminarily attached to a disc-shaped pallet table held by a tool holding portion of the exchanging device. .. A work processing method using the work processing system according to claim 3, 4, or 5,
(A) A step of grinding the upper surface of the work, which is supported by the turning table and indexed and positioned to the upper side, by a flat grinding wheel provided in the processing machine,
(B) a step of grinding a vertical plane of the work supported by a turning table with a cup type grinding wheel,
(C) replacing the flat grinding wheel with a cup grinding wheel or the cup grinding wheel with a flat grinding wheel,
A method for processing a work, characterized in that each of the steps is provided.   7. The work machining method according to claim 6, wherein during grinding with a cup-shaped grinding wheel, the workpiece is ground with the rotary shaft of the grinding wheel slightly inclined with respect to the grinding surface of the work. Processing method. In the method for machining a work according to claim 6 or 7, when the flat grinding wheel is used instead of the cup grinding wheel, the lowermost edge of the outer peripheral surface of the flat grinding wheel is horizontal. In addition, a work processing method characterized by performing dressing in a slight taper shape.

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