JP6312473B2 - Loading device - Google Patents

Description

  The present invention relates to a loading device that automatically loads and unloads a workpiece.

  The grinder is a surface grinder (Patent Document 1) that grinds the surface of a workpiece (workpiece), and two grindstones that face each other and rotate. There are types such as a double-sided surface grinder that can be ground. When machining the width surface with high efficiency, a double-sided surface grinder is preferable, but it is difficult to stabilize the machining accuracy and requires skill for adjustment. There is also a problem that a machining error on both sides tends to occur.

  Furthermore, there is a conventional grinding apparatus that supports a backing plate that comes into contact with a workpiece and a workpiece that is supported by two shoes (Patent Document 2).

JP 2010-284776 JP 2005-205509 A

  In the case of fixing by pressing against the backing plate, foreign matter such as chips and abrasive grains may be caught between the backing plate and the workpiece. As described above, when foreign matter is caught, the parallelism of the work surface of the workpiece with respect to the grindstone deteriorates, and high-precision grinding cannot be performed.

  By the way, by magnetizing the rotatable backing plate, the workpiece is pulled in, the outer diameter of the workpiece is held by the shoe, and the shoe is positioned so that the backing plate and the center axis of the workpiece are offset. By doing so, a relative motion occurs between the backing plate and the workpiece width surface, and foreign matters such as chips interposed between the backing plate and the workpiece width surface can be eliminated.

  However, in the configuration of the fixed shoe and the electromagnetic backing plate, when the workpiece is set at the machining point, the work time for moving the loader backward after moving the workpiece to the machining point by the loader becomes longer. Furthermore, a space for arranging the fixed shoe around the processing point is required.

  In view of the above-described problems, the present invention provides a loading device that can use a surface grinding machine in which machining accuracy is easily stabilized, can improve workability, and can be made compact as a device. provide.

The loading device of the present invention is provided with loader means for supplying a workpiece at the workpiece supply position, grinding the workpiece at the workpiece grinding position, and discharging the workpiece after the grinding processing at the workpiece discharge position to the outside. An apparatus comprising a grinding means having a surface grinder at a workpiece grinding position, wherein the loader means includes a plurality of workpiece holding mechanisms arranged at a predetermined pitch along a circumferential direction, and each workpiece holding mechanism. , And a workpiece holding mechanism, each of which has a workpiece holding mechanism positioned at the same timing. Surface grinding of the grinding means The board is a spindle that is driven to rotate, and a chuck machine that is provided on this spindle and supports the workpiece And a grindstone shaft that is driven to rotate, and a grindstone that is rotated by the rotation of the grindstone shaft. The processing surface of the workpiece is ground with the grindstone, and the chuck mechanism is composed of an electromagnetic backing plate, which enables relative movement between the backing plate and the workpiece .

  According to the loading device of the present invention, if a workpiece is supplied at the workpiece supply position, the workpiece can be ground at the workpiece grinding position, and the ground workpiece can be discharged from the workpiece discharge position. Since the work holding mechanism is located at each position at the same timing, the work at each position can be performed at the same timing.

  In addition, the work holding mechanism that holds the work can be sequentially transferred to the work supply position, work grinding position, and work discharge position by the loader means, and processing (grinding) with excellent workability can be performed. it can.

An existing grinder can be used as the surface grinder. Further, the chuck mechanism is constituted by an electromagnetic backing plate and enables relative movement between the backing plate and the workpiece. Therefore, the backing plate is positioned so that the central axis of the workpiece is offset from the backing plate. Relative movement can be generated between the workpiece and the workpiece width surface, and foreign matter such as chips interposed between the backing plate and the workpiece width surface can be eliminated.

Another loading device of the present invention includes loader means for supplying a workpiece at a workpiece supply position, grinding the workpiece at the workpiece grinding position, and discharging the workpiece after grinding at the workpiece discharge position to the outside. And a load holding device provided with a grinding means having a surface grinder at a workpiece grinding position, wherein the loader means includes a plurality of workpiece holding mechanisms arranged at a predetermined pitch along the circumferential direction, and each workpiece. The holding mechanism includes a transfer mechanism that sequentially transfers the workpiece supply position, the workpiece grinding position, and the workpiece discharge position, and the workpiece holding mechanism is positioned at the same timing at each position. Is a fixed-side workpiece locking body and a swing-side workpiece that moves toward and away from the fixed-side workpiece locking body. And when the workpiece holding mechanism is being transported by the transport mechanism, the swinging-side workpiece latching body is brought close to the fixed-side workpiece latching body and fixed. The workpiece is supported by the cooperation of the side workpiece locking body and the rocking side workpiece locking body, and at the workpiece grinding position, the rocking side workpiece locking body is separated from the fixed side workpiece locking body. It is.

  By comprising in this way, a workpiece | work can be stably conveyed to each position. Further, at the workpiece grinding position, the swing side workpiece locking body can be separated from the fixed side workpiece locking body, and the workpiece holding mechanism does not hinder the grinding operation to the workpiece.

  The fixed-side workpiece locking body is provided on the workpiece fitting portion of the locking body main body having a workpiece fitting portion in which a part of the workpiece is fitted, and engages and supports the workpiece. With a shoe. The swing-side workpiece locking body includes an arm-shaped locking body main body that swings about a base end portion, and a work engagement support portion is provided on the distal end side of the locking body main body. It is preferable to arrange a dresser on the main shaft side of the grinding means.

  In the present invention, after the workpiece is set at the grinding site, the step of retracting the transfer loader can be omitted, and the cycle time of the work can be shortened.

  Since an existing grinder is used, the cost of the apparatus can be reduced. Further, by configuring the chuck mechanism with an electromagnetic backing plate, it is possible to eliminate foreign matters such as chips by generating a relative motion between the backing plate and the workpiece (workpiece) width surface. Thereby, deterioration (deterioration) of parallelism can be prevented, and high-precision grinding can be performed.

  If the workpiece holding mechanism has a fixed-side workpiece locking body and a sliding-side workpiece locking body, the workpiece can be stably conveyed to each position, and the work at each position can be reliably and sequentially performed at each position. Can be done. In addition, during workpiece grinding, the workpiece holding mechanism does not interfere with the grinding operation on the workpiece, and the workpiece is given stable rotation through the shoe on the fixed workpiece and the chuck mechanism, resulting in high machining accuracy. Can be obtained.

  The fixed-side workpiece locking body of the workpiece holding mechanism has a shoe for supporting the workpiece, and it is not necessary to provide the shoe on another member, which can contribute to downsizing of the apparatus. The swing-side workpiece locking body includes an arm-shaped locking body main body that swings around the base end portion, and the opening / closing operation of the workpiece holding mechanism is stabilized. In the case where the dresser is arranged, clogging of the grindstone of the grinding means can be effectively prevented.

It is a simplified top view of the loading device of the present invention. 1A and 1B show a workpiece holding mechanism of the loading apparatus shown in FIG. 1, wherein FIG. 1A is a simplified view of a workpiece holding state, and FIG. 1B is a simplified view of a workpiece non-holding state. It is a principal part expanded sectional view of a grinding means. The grinding | polishing means is shown, (a) is a principal part expanded sectional view of the state which does not have a grinding residue, (b) is a principal part expanded sectional view of a state which has a grinding residue.

  Hereinafter, embodiments of the present invention will be described with reference to FIGS. In the loading apparatus according to the present invention, the workpiece W is supplied at the workpiece supply position P1, the workpiece W is ground at the workpiece grinding position P2, and the workpiece W that has been ground at the workpiece discharge position P3 is discharged to the outside. Loader means 1 is provided. And the grinding means 3 which has the surface grinder 2 (refer FIG. 3) in the workpiece | work grinding position P2 is arrange | positioned. The workpiece W is, for example, an inner ring 4 of a tapered roller bearing as shown in FIGS. For this reason, this work W is provided with flanges 4a and 4b on the small diameter side and the large diameter side.

  The loader means 1 includes a transport mechanism 9 having a rotary table 5 that rotates about an axis, and a work holding mechanism 6 that is disposed on the rotary table 5 at a predetermined pitch (120 ° pitch in this case) along the circumferential direction. Is provided.

  The workpiece holding mechanism 6 includes a fixed-side workpiece locking body 7 and a swinging-side workpiece locking body 8 that approaches and separates from the fixed-side workpiece locking body 7. The locking body main body 18 and a pair of shoes 12 and 12 attached to the main body 18 are provided. The locking body 18 includes an arm portion 10 fixed to the rotary table 5 and a support piece 11 supported and fixed to the arm portion 10, and shoes 12 and 12 are attached to the support piece 11.

  The support piece 11 is provided with a concave portion as a fitting portion 13 in which the work W is fitted, and the fitting portion 13 has a gap dimension that increases sequentially from the inside toward the outside of the opening. A pair of inclined surfaces 14 and 14 are formed. The shoes 12, 12 are attached to the inclined surfaces 14, 14. The shoes 12 and 12 are engaged with the flange 4a of the workpiece W as shown in FIGS.

  Further, the swing side workpiece locking body 8 includes a locking body main body 19 pivotally connected to the rotary table 5. The locking body 19 includes a swing arm 16 whose base end is pivotally connected to the rotary table 5 via a pivot shaft 15, and a locking piece 17 attached to the swing arm 16. The locking piece 17 of the locking body main body 19 is provided with a workpiece engagement support portion 17a that is locked to the flange portion 4a of the workpiece W.

As shown in FIG. 1, the swing-side workpiece locking body 8 is swingable in the directions of arrows A and B with respect to the pivot shaft 15, and when swinging in the direction of arrow B, it is shown in FIG. As shown in FIG. 2B, when the support portion 17a is locked to the flange portion 4a of the workpiece W and swings in the direction of the arrow A, the workpiece W is separated from the workpiece W. The locking of the support portion 17a with the flange portion 4a of the workpiece W is released. A swing drive mechanism (not shown) is used for swinging the swing side workpiece locking body 8. As the swing driving mechanism, a known reciprocating mechanism such as a cylinder mechanism or a ball nut mechanism can be used.

  As shown in FIG. 3, the grinding means 3 includes a main shaft 20 that is rotationally driven. A workpiece W is held on the main shaft 20 via a chuck mechanism 23, and the held workpiece W is ground by a grindstone 26. . The main shaft 20 has a rotating disk 22, and this rotating disk 22 is rotationally driven around its axis by a drive mechanism (not shown). The drive mechanism can be composed of a drive motor and a power transmission mechanism (chain mechanism, belt mechanism, gear mechanism) that transmits the rotational driving force of the motor to the rotating disk 22.

  In this case, the chuck mechanism 23 includes an electromagnetic backing plate 32. That is, by rotating together with the rotating disk 22 and passing a current through an electromagnetic coil (not shown), an electromagnetic force is generated and the work W can be attracted and held on the upper surface thereof.

Furthermore, the rotary disk 22 dresser through the support leg member 24 (dress tool) 25 is attached, dresses tool 25 for working to regain sharpness (dressing) sharpening the surface of the grindstone 26 Is.

  A grindstone 26 is attached to the lower surface 28 a of the grindstone head 28 of the grindstone shaft 27. The grindstone head 28 is formed of a disk-like body with a concave 29 on the lower surface. For this reason, the lower surface 28 a is provided with a ring portion 30 on the outer peripheral side, and the disc-shaped grindstone 26 is provided on the ring portion 30. Is attached. The grindstone head 28 of the grindstone shaft 27 is driven to rotate about its axis via a drive mechanism. The drive mechanism can be composed of a drive motor and a power transmission mechanism (chain mechanism, belt mechanism, gear mechanism) that transmits the rotational driving force of the motor to the grindstone shaft.

  Further, as these driving means, reciprocation along the axis of the grindstone head 28 of the grindstone shaft 27 and reciprocation along the direction orthogonal to the axis of the grindstone head 28 of the grindstone shaft 27 are possible. Can be configured by an XY table or the like.

  The grindstone is roughly composed of three combinations of abrasive grains, a binder, and pores. Abrasive grains include diamond, WA (white alumina), A (brown alumina), GC (green silicon carbide), and CBN (cubic boron nitride). The dressing tool 25 can be a diamond dresser or the like.

  By the way, this apparatus is controlled by control means (not shown). The control means can control the rotation drive of the rotary table 5, control of the swinging operation of the swing side workpiece locking body 8, control of the grinding means 3, and the like. This control means can be constituted by a microcomputer in which a ROM (Read Only Memory), a RAM (Random Access Memory), etc. are connected to each other via a bus with a CPU (Central Processing Unit) as a center. A storage device is connected to the control means, and the storage device includes an HDD (Hard Disc Drive), a DVD (Digital Versatile Disk) drive, a CD-R (Compact Disc-Recordable) drive, an EEPROM (Electronically Erasable and Programmable). Read Only Memory). The ROM stores programs executed by the CPU and data.

  Next, a grinding process using the apparatus configured as described above will be described. First, the workpiece holding mechanism 6 is made to correspond to the position of one workpiece supply position P1. At this time, different workpiece holding mechanisms 6 correspond to the other positions, that is, the workpiece grinding position P2 and the workpiece discharge position P3.

  When the work holding mechanism 6 is supplied (conveyed) to the position of the work supply position P1, the swing side work locking body 8 swings in the direction of arrow A, and the open state as shown in FIG. The workpiece W is supplied to the workpiece holding mechanism 6. Thereafter, the swinging-side workpiece locking body 8 swings in the direction of arrow B, and as shown in FIG. With the support portion 17a of the swing side workpiece locking body 8, the flange portion 4a of the workpiece W is locked. In this case, the shoes 12, 12 and the support portion 17a are disposed at a 120 ° pitch along the circumferential direction as shown in FIG.

  In this state, the rotary table 5 is rotated by 120 °, and the workpiece holding mechanism 6 that has been at the workpiece supply position P1 is conveyed to the next workpiece grinding position P2. At the workpiece grinding position P2, the swing side workpiece locking body 8 swings in the direction of arrow A, and is in an open state as shown in FIG.

  At this position, as shown in FIG. 3, the workpiece W is attracted to the backing plate. At this time, the workpiece W can be supported by the shoes 12 and 12 of the fixed-side workpiece locking body 7. In this state, the main shaft 20 and the grindstone shaft 27 are rotated, and the grindstone shaft 27 is moved in the axial direction of the main shaft 20 or in a direction orthogonal thereto, whereby the grinding surface (in this case, the inner ring small-diameter side end surface) Wa. Will be grinding.

  When the grinding process is thus completed at the workpiece grinding position P2, the swinging-side workpiece locking body 8 swings in the direction of arrow B and enters a closed state. That is, the locked state shown in FIG. 2A is obtained, and from this state, the rotary table 5 is rotated by 120 °, and the workpiece holding mechanism 6 holding the ground workpiece W is moved to the workpiece discharge position. Transport to P3.

  If the workpiece holding mechanism 6 holding the ground workpiece W is conveyed to the workpiece discharge position P3, the ground workpiece W is discharged to the outside at the workpiece discharge position P3. Then, the workpiece holding mechanism 6 from which the workpiece W has been discharged is conveyed again to the workpiece supply position P1. Thereafter, similarly, the next workpiece W is supplied to the workpiece holding mechanism 6 supplied to the workpiece supply position P1.

  In this case, the workpiece holding mechanism 6 is positioned at the same timing at each of the positions P1, P2, and P3. For this reason, each process can be performed simultaneously at positions P1, P2, and P3. That is, when the workpiece W is supplied to the workpiece holding mechanism 6 at the workpiece supply position P1 and the workpiece holding mechanism 6 moves to the next workpiece grinding position P2, the workpiece W is moved to the workpiece supply position P1 at the workpiece discharge position P3. The work holding mechanism 6 that has discharged the material moves. When the workpiece holding mechanism 6 holding the workpiece W ground at the workpiece grinding position P2 moves to the workpiece discharging position P3, the workpiece holding mechanism holding the workpiece W at the workpiece supply position P1 is moved to the workpiece grinding position P2. 6 moves. When the workpiece holding mechanism 6 that has discharged the workpiece W at the workpiece discharge position P3 moves to the workpiece supply position P1, the workpiece holding mechanism that holds the workpiece W ground at the workpiece grinding position P2 at the workpiece discharge position P3. 6 moves.

  Incidentally, in the grinding process at the workpiece grinding position P2, normally, the grinding surface (lower surface) of the grindstone 26 is parallel to the processing surface Wa of the workpiece W, as shown in FIG. However, as shown in FIG. 4B, a foreign matter R such as a grinding residue may be caught between the workpiece W and the backing plate 32. In such a case, the processing surface Wa of the workpiece W is inclined with respect to the grinding surface of the grindstone 26, and the processing surface Wa of the workpiece W cannot be accurately ground.

  For this reason, in this apparatus, the backing plate 32 is an electromagnetic type. In this way, by using the electromagnetic backing plate 32 and positioning so that the central axis of the electromagnetic backing plate and the workpiece W are offset, relative motion can be generated between the backing plate and the workpiece width surface. . Due to this relative motion, foreign matter R such as grinding residue that is caught between the workpiece W and the backing plate 32 can be eliminated.

  In addition, the grindstone 26 is pressed against the dressing tool 25 rotating around the axis of the main shaft 20 in a state where the workpiece W is not located at the grinding position P2. As a result, it is possible to perform an operation (dressing) for sharpening the surface of the grindstone 26 to restore sharpness.

  According to the loading device of the present invention, if the workpiece W is supplied at the workpiece supply position P1, the workpiece can be ground at the workpiece grinding position P2, and the ground workpiece W is discharged from the workpiece discharge position P3. be able to. Since the work holding mechanism is positioned at the same timing at each position P1, P2, P3, the work at each position P1, P2, P3 can be performed at the same timing.

  That is, a process that is conventionally required (a process in which the transfer loader is retracted after setting the workpiece W at the grinding site) can be omitted, and the cycle time of the work can be shortened.

  As the surface grinder 2 of the grinding means 3, an existing one can be used, and the cost of the apparatus can be reduced. Further, by forming the chuck mechanism 23 with an electromagnetic backing plate 32, a relative motion is generated between the backing plate 32 and the workpiece (workpiece W) width surface, thereby eliminating foreign matter R such as chips. The parallelism can be prevented from being deteriorated (deteriorated), and high-precision grinding can be performed.

  Since the workpiece holding mechanism 6 includes the fixed-side workpiece locking body 7 and the sliding-side workpiece locking body 8, the workpiece W can be stably conveyed to the positions P1, P2, and P3. . The operations at the positions P1, P2, and P3 can be sequentially performed reliably at the positions P1, P2, and P3. Moreover, at the workpiece grinding position P2, the swinging-side workpiece locking body 7 can be separated from the fixed-side workpiece locking body 8, and the workpiece holding mechanism 6 does not hinder the grinding operation on the workpiece W. For this reason, the workpiece | work W is given the stable rotation via shoes 12 and 12 and the chuck mechanism 23 of the stationary-side workpiece | work latching body 7, and can obtain high processing precision.

The fixed-side workpiece locking body 7 of the workpiece holding mechanism 6 has shoes 12 and 12 for supporting the workpiece W, and it is not necessary to provide the shoes 12 and 12 on other members, contributing to the compactness of the apparatus. it can. Since the swing-side workpiece locking body 8 includes an arm-shaped locking body main body 19 that swings about the base end portion, the opening and closing operation of the workpiece holding mechanism 6 is stabilized. In the case where the dresser 25 is disposed, clogging of the grindstone 26 of the grinding means 3 can be effectively avoided.

  As described above, the embodiment of the present invention has been described. However, the present invention is not limited to the above-described embodiment, and various modifications are possible. The workpiece W may be an outer ring other than a conical bearing and an inner ring of a bearing. The inner ring and the outer ring of other bearings may be used. Furthermore, it is not limited to a bearing, and may be other various machine parts. That is, the present invention can be applied to various members that can be ground with a surface grinder. In the above embodiment, the workpiece holding mechanism is conveyed in the clockwise direction, but may be conveyed in the counterclockwise direction.

DESCRIPTION OF SYMBOLS 1 Loader means 2 Surface grinder 3 Grinding means 6 Work holding mechanism 7 Fixed side work latching body 8 Oscillating side work latching body 9 Transport mechanism 12 Shoe 13 Fitting part 17a Work engagement support part 18 Locking body main body 19 Locking body 20 Main shaft 23 Chuck mechanism 25 Dresser (dressing tool)
26 Grinding wheel 26a Grinding surface 32 Backing plate P1 Work supply position P2 Work grinding position P3 Work discharging position W Work Wa Machining surface (grinding surface)

Claims (5)

A loading device provided with a loader means for supplying a workpiece at a workpiece supply position, grinding the workpiece at a workpiece grinding position, and discharging the workpiece after grinding at a workpiece discharge position to the outside,
Grinding means having a surface grinder is disposed at the workpiece grinding position,
The loader means includes a plurality of workpiece holding mechanisms arranged at a predetermined pitch along the circumferential direction, and a conveyance mechanism that sequentially conveys each workpiece holding mechanism to a workpiece supply position, a workpiece grinding position, and a workpiece discharge position. In each position, the workpiece holding mechanism is positioned at the same timing, and the surface grinding machine of the grinding means includes a main shaft that is rotationally driven and a chuck that is provided on the main shaft and supports the workpiece A mechanism, a grindstone shaft that is driven to rotate, and a grindstone that is rotated by the rotation of the grindstone shaft. The work surface of the workpiece being worked is ground with the grindstone, and the chuck mechanism is composed of an electromagnetic backing plate. Loading device being characterized in that to allow the relative movement. A loading device provided with a loader means for supplying a workpiece at a workpiece supply position, grinding the workpiece at a workpiece grinding position, and discharging the workpiece after grinding at a workpiece discharge position to the outside,
Grinding means having a surface grinder is disposed at the workpiece grinding position,
The loader means includes a plurality of workpiece holding mechanisms arranged at a predetermined pitch along the circumferential direction, and a conveyance mechanism that sequentially conveys each workpiece holding mechanism to a workpiece supply position, a workpiece grinding position, and a workpiece discharge position. In each position, the workpiece holding mechanism is positioned at the same timing, and the workpiece holding mechanism approaches and separates from the fixed-side workpiece locking body and the fixed-side workpiece locking body. A swing-side workpiece locking body, and when the workpiece holding mechanism is being transported by the transport mechanism, the swing-side workpiece locking body is in a state of approaching the fixed-side workpiece locking body. The workpiece is supported by the cooperation of the fixed-side workpiece locking body and the rocking-side workpiece locking body. At the workpiece grinding position, the rocking-side workpiece locking body is separated from the fixed-side workpiece locking body. Features and to Carlo over loading device that away from. The fixed-side workpiece locking body is provided on the workpiece fitting portion of the locking body main body having a workpiece fitting portion in which a part of the workpiece is fitted, and engages and supports the workpiece. The loading device according to claim 2, further comprising a shoe . The rocking-side work locking body includes an arm-shaped locking body main body that swings around a base end portion, and a work engagement support portion is provided on the distal end side of the locking body main body. The loading device according to claim 2 , wherein: The loading device according to claim 1 or 2 , wherein a dresser is disposed on the main shaft side of the grinding means .

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