This application is based upon and claims the benefit of priority from Japanese Patent Application No. 2013-157888, filed on Jul. 30, 2013, the entire contents of which are incorporated herein by reference.
The present disclosure relates to a workpiece holding jig for vibratory barreling and a vibratory barreling method.
Patent Literature 1 discloses a vibratory barreling device which polishes a surface of a workpiece as a polishing target at a predetermined surface roughness or removes burr or oxide coating therefrom. The vibratory barreling device includes a barreling tank which has a U-shaped cross-section and a driving unit which drives the barreling tank so as to shake the barreling tank. In order to polish the workpiece by using the vibratory barreling device, the workpiece, polishing media, and a polishing solution are inserted into the barreling tank, and the barreling tank is shaken along a circular-arc path by the driving unit. Accordingly, the workpiece and the polishing media move relative to each other so that the workpiece is polished.
Patent Literature 1: JP 2000-280162 A
When the workpiece collides with the barreling tank during the polishing operation, an impact force is applied to the workpiece. At this time, there is a concern that the workpiece may be deformed or the surface of the workpiece may be scratched. Particularly, in recent years, there has been a demand for polishing a large workpiece by using the vibratory barreling device. When the large workpiece collides with the barreling tank, a large impact force is applied to the workpiece due to the weight thereof. As a result, there is a concern that a defect may occur in the workpiece.
Here, the present disclosure relates to a workpiece holding jig for vibratory barreling and a vibratory barreling method capable of suppressing any defect by protecting a workpiece when the workpiece is polished by a vibratory barreling device.
A workpiece holding jig for vibratory barreling according to one aspect of the present disclosure is configured to hold a flat workpiece when the workpiece is polished by a vibratory barreling device using polishing media, the workpiece holding jig for vibratory barreling including: disk-shaped first and second guard members each having an outer shape larger than the workpiece and disposed so as to face each other; and a holding member holding the workpiece inside a housing space so that the entire workpiece is located inside the columnar housing space surrounded by the first guard member, the second guard member and an annular imaginary curved surface extending connecting the peripheral edges of the first and second guard members, wherein each of the first and second guard members is provided with a first window portion communicating with the housing space, and wherein the imaginary curved surface and the first window portion are configured to allow the polishing media to pass between the inside and outside of the housing space.
In the workpiece holding jig according to the aspect of the present disclosure, the holding member holds the workpiece inside the housing space so that the entire workpiece is located inside the housing space surrounded by the disk-shaped first and second guard members each having an outer shape larger than the workpiece and the annular imaginary curved surface extending to connect the peripheral edges of the first and second guard members to each other. Therefore, the workpiece remains inside the housing space while not protruding from the workpiece holding jig. Thus, it is possible to prevent the collision between the workpiece and the barreling tank even when the workpiece holding jig is disposed in the barreling tank of the vibratory barreling device and the barreling tank is shaken by the vibratory barreling device. As a result, it is possible to suppress any defect by protecting the workpiece when the workpiece is polished by the vibratory barreling device. Further, in the workpiece holding jig according to this aspect of the present disclosure, the disk-shaped first and second guard members each having an outer shape larger than the workpiece are disposed so as to face each other. Therefore, the workpiece holding jig has a columnar outer shape. Thus, when the workpiece holding jig is disposed inside the barreling tank while the workpiece holding jig stands alone inside the barreling tank so that the peripheral edges of the first and second guard members contact the bottom wall of the barreling tank, the workpiece holding jig rolls while standing alone inside the barreling tank. Here, each of the first and second guard members is provided with the first window portion communicating with the housing space. The imaginary curved surface and the first window portion are configured to allow the polishing media to pass between the inside and outside of the housing space. Therefore, it is possible to cause the polishing media to easily flow inside the workpiece holding jig while effectively rolling the workpiece holding jig. As a result, it is possible to extremely efficiently polish the workpiece.
The holding member may hold the workpiece so that the main surface of the workpiece faces each of the first and second guard members, and the first window portion may be formed at a position facing a polishing target area for polishing by the polishing media in the main surface of the workpiece. In this case, the polishing media pass through the first window portion and are mainly guided to the polishing target area of the workpiece. Thus, it is possible to efficiently polish the polishing target area of the workpiece.
The workpiece holding jig for vibratory barreling may further include a covering member covering a non-polishing target area not polished by the polishing media in the workpiece. In this case, since the workpiece holding jig is provided with the covering member, there is no need to directly attach the covering member to the workpiece at a position as the non-polishing area of the workpiece. Thus, it is possible to set a desired non-polishing area just by holding the workpiece in the workpiece holding jig.
A gap between the peripheral edge of the workpiece and the imaginary curved surface may be set to be larger than the outer shape of the polishing media. In this case, the flow of the polishing media is not easily disturbed in the vicinity of the peripheral edge of the workpiece. Thus, it is possible to efficiently polish even the peripheral edge of the workpiece.
The workpiece holding jig for vibratory barreling may further include a connection member extending between the peripheral edges of the first and second guard members and connecting the first and second guard members to each other, wherein the connection member is provided with a second window portion communicating with the housing space, and wherein the second window portion is configured to allow the polishing media to pass between the inside and outside of the housing space. In this case, the first and second guard members are integrated with each other by the connection member. Therefore, it is possible to improve the strength of the workpiece holding jig. Further, since the connection member is provided with the second window portion, the second window portion is configured to allow the polishing media to pass between the inside and outside of the housing space. Therefore, it is possible to cause the polishing media to easily flow inside the workpiece holding jig. As a result, it is possible to extremely efficiently polish the workpiece.
A vibratory barreling method according to another aspect of the present disclosure includes: holding the workpiece in the holding member of the workpiece holding jig; disposing the workpiece holding jig inside a barreling tank while the workpiece holding jig stands alone inside the barreling tank so that the peripheral edges of the first and second guard members contact the bottom wall of the barreling tank of the vibratory barreling device; and causing the vibratory barreling device to shake the barreling tank so that the polishing media flow between the inside and outside of the housing space through the imaginary curved surface and the first window portion while the workpiece holding jig rolls inside the barreling tank in a state where the workpiece holding jig stands alone inside the barreling tank.
In the vibratory barreling method according to another aspect of the present disclosure, the holding member holds the workpiece so that the entire workpiece is located inside the housing space surrounded by the disk-shaped first and second guard members each having an outer shape larger than the workpiece and the annular imaginary curved surface extending to connect the peripheral edges of the first and second guard members to each other. Therefore, the workpiece remains inside the housing space while not protruding from the workpiece holding jig. Thus, it is possible to prevent the collision between the workpiece and the barreling tank even when the vibratory barreling device shakes the barreling tank while the workpiece is disposed inside the barreling tank so that the imaginary curved surface contacts the bottom wall of the barreling tank of the vibratory barreling device. As a result, it is possible to suppress any defect by protecting the workpiece when the workpiece is polished by the vibratory barreling device. Further, in the vibratory barreling method according to another aspect of the present disclosure, the disk-shaped first and second guard members each having an outer shape larger than the workpiece are disposed so as to face each other. Therefore, the workpiece holding jig has a columnar outer shape. Thus, when the workpiece holding jig is disposed inside the barreling tank while the workpiece holding jig stands alone inside the barreling tank so that the peripheral edges of the first and second guard members contact the bottom wall of the barreling tank, the workpiece holding jig rolls while standing alone inside the barreling tank. Further, in the vibratory barreling method according to another aspect of the present disclosure, the polishing media flow between the inside and outside of the housing space through the imaginary curved surface and the first window portion. Therefore, it is possible to cause the polishing media to easily flow inside the workpiece holding jig while effectively rolling the workpiece holding jig. As a result, it is possible to extremely efficiently polish the workpiece.
According to the workpiece holding jig for vibratory barreling and the vibratory barreling method of the present disclosure, it is possible to suppress any defect by protecting the workpiece when the workpiece is polished by the vibratory barreling device.
(A) of
(A) of
(A) of
(A) of
Embodiments of the invention will be described with reference to the drawings. However, each embodiments below is merely an example that describes the invention, and does not limit the invention by the content below. In the description, the same reference sign will be given to the same component or the component having the same function, and the repetitive description thereof will not be presented.
A workpiece holding jig 1 illustrated in
The workpiece holding jig 1 includes guard members 10 and 11, a holding member 12, a covering member 13, and an attachment member 14. The guard member 10 (the first guard member) is a disk-shaped member having an outer diameter shape larger than the workpiece W. The guard member 10 includes a circular center portion 10a, an annular peripheral edge 10b, and a plurality of linear connection portions 10c. The center portion 10a, the peripheral edge 10b, and the connection portions 10c are integrally formed.
The outer diameter of the center portion 10a is smaller than the inner diameter of the peripheral edge 10b. The peripheral edge 10b is located so as to surround the center portion 10a. The connection portion 10c connects the center portion 10a and the peripheral edge 10b to each other. Each connection portion 10c extends radially from the center of the center portion 10a in the radial direction.
A space which is surrounded by the center portion 10a, the peripheral edge 10b, and the connection portions 10c is a window portion 10w (a first window portion) which penetrates the guard member 10. In this embodiment, eight connection portions 10c are located at the substantially same interval in the circumferential direction of the guard member 10. Therefore, in this embodiment, the guard member 10 is provided with eight window portions 10w. In this embodiment, each window portions 10w is formed at a position corresponding to the polishing target area of the workpiece W which is held by the workpiece holding jig 1. Further, in (B) of
The guard member 11 (the second guard member) is a disk-shaped member having an outer diameter shape larger than the workpiece W. The guard member 11 has the substantially same size as the guard member 10. The guard member 11 includes a circular center portion 11a, an annular peripheral edge 11b, and a plurality of linear connection portions 11c. The center portion 11a, the peripheral edge 11b, and the connection portions 11c are integrally formed.
The outer diameter of the center portion 11a is smaller than the inner diameter of the peripheral edge 11b. The peripheral edge 11b is located so as to surround the center portion 11a. The connection portion 11c connects the center portion 11a and the peripheral edge 11b to each other. Each connection portion 11c radially extends from the center of the center portion 11a in the radial direction.
A space which is surrounded by the center portion 11a, the peripheral edge 11b, and the connection portions 11c is a window portion 11w (a first window portion) which penetrates the guard member 11. In this embodiment, eight connection portions 11c are located at the substantially same interval in the circumferential direction of the guard member 11. Therefore, in this embodiment, the guard member 11 is provided with eight window portions 11w.
The guard member 10 and the guard member 11 are disposed so as to face each other. A columnar housing space V is formed between the guard member 10 and the guard member 11. An annular imaginary curved surface S is formed between the outer peripheral edge of the guard member 10 (the peripheral edge 10b) and the outer peripheral edge of the guard member 11 (the peripheral edge 11b) so as to connect these outer peripheral edges. In other words, the housing space V is a space which is surrounded by the guard members 10 and 11 and the imaginary curved surface S, and is an inner space of the workpiece holding jig 1. The workpiece holding jig 1 is formed in a flat columnar shape. The workpiece holding jig 1 may stand alone while the outer peripheral edges of the guard members 10 and 11 contact a floor surface or the like (the imaginary curved surface S faces the floor surface or the like).
The holding member 12 includes a holding portion 12a and an attachment plate 12b. The holding portion 12a is disposed in a space between the guard members 10 and 11, that is, a space inside the housing space V. The holding portion 12a clamps the inner peripheral edge of the workpiece W while being inserted into the through hole formed in the center portion of the workpiece W. Accordingly, the workpiece W is attached to the holding portion 12a (the holding member 12). The attachment plate 12b is disposed at each of the outer surfaces of the center portions 10a and 11a. When the center portions 10a and ha interposed between the holding portion 12a and the attachment plate 12b are fastened by a fastening member such as a bolt, the holding member 12 is fixed to the guard members 10 and 11.
Since the outer diameter shapes of the guard members 10 and 11 are larger than that of the workpiece W, the entire workpiece W attached to the holding portion 12a remains inside the housing space V while not protruding from the housing space V. In a state where the workpiece W is attached to the holding portion 12a, the center of gravity of the workpiece W may substantially match (completely match or be near) the center of gravity of the workpiece holding jig 1. In this case, the workpiece holding jig 1 which holds the workpiece W easily rolls on the floor surface or the like. In a state where the workpiece W is attached to the holding portion 12a, the main surface of the workpiece W faces each of the guard members 10 and 11.
The covering member 13 is formed in an annular shape. The covering member 13 is attached between the guard members 10 and 11 by the attachment member 14 while being sandwiched by the attachment member 14 from both sides in a facing direction of the guard members 10 and 11. Therefore, the guard members 10 and 11 are connected to each other through the covering member 13 and the attachment member 14. The covering member 13 surrounds the workpiece W while being attached to the guard members 10 and 11. At this time, the inner peripheral surface of the covering member 13 contacts the outer peripheral surface Wa of the workpiece W. Therefore, the outer peripheral surface Wa of the workpiece W is covered by the covering member 13 and is prevented from contacting with polishing media M to be described later. Thus, in this embodiment, the outer peripheral surface Wa of the workpiece W becomes a non-polishing area which is not polished by the polishing media M. The width of the covering member 13 may be larger than the thickness of the workpiece W and may be larger than the thickness of the workpiece W by, for example, 5/4 times.
Subsequently, a configuration of the vibratory barreling device 2 for polishing the workpiece W will be described with reference to
The barreling tank 20 is formed by an outer wall having a U-shape as illustrated in (B) of
As illustrated in (A) of
The barreling tank 20 is placed on a pedestal 22 provided on the floor surface through a spring 21. Two bearings 23 are provided at the center of the bottom portion of the barreling tank 20 and are arranged in a predetermined direction. A rotation shaft 25 is inserted through such bearings 23. Therefore, the rotation shaft 25 is rotatably supported by the bearings 23. A counter weight 24 is fixed to the rotation shaft 25. The end of the rotation shaft 25 is fixed to a shaft of a motor 27 through a coupler 26.
A polishing solution supply device 28 is provided above the barreling tank 20 and supplies a predetermined amount of a polishing solution to the barreling tank 20. The bottom portion of the barreling tank 20 is provided with a draining port communicating with a draining pipe 29. A polishing solution including chips (polishing chip) is discharged from the draining port to the outside of the barreling tank 20 through the draining pipe 29.
Subsequently, a method of polishing the workpiece W held by the workpiece holding jig 1 by the use of the vibratory barreling device 2 will be described. First, the workpiece W is held by the workpiece holding jig 1. Next, each workpiece holding jig 1 is disposed at each room of the barreling tank 20 so that the imaginary curved surface S of the workpiece holding jig 1 contacts the bottom wall of the barreling tank 20. Next, a predetermined amount of the polishing media M is supplied to each room and the polishing solution is supplied from the polishing solution supply device 28 to each room. Next, the motor 27 is operated. When the motor 27 is operated, the counter weight 24 rotates through the rotation shaft 25, and the barreling tank 20 is shaken while drawing a substantially circular path in accordance with the rotation of the counter weight 24.
As illustrated in (B) of
As another flow state, the polishing media M may flow into the housing space V from the imaginary curved surface S and may flow to the outside of the housing space V from the imaginary curved surface S after the polishing media have been used to polish the workpiece W. As another flow state, the polishing media M may flow into the housing space V from the window portions 10w and 11w of the guard members 10 and 11 and may flow to the outside of the housing space V from the imaginary curved surface S after the polishing media have been used to polish the workpiece W. As another flow state, the polishing media M may enter the housing space V from the window portions 10w and 11w of the guard members 10 and 11 and may flow to the outside of the housing space V from the window portions 10w and 11w of the guard members 10 and 11 after the polishing media have been used to polish the workpiece W.
When the workpiece W is completely polished in this way, the workpiece holding jig 1 is taken out from the barreling tank 20 and the workpiece W is separated from the workpiece holding jig 1. Subsequently, the workpiece W may be cleaned by flowing water. In a case where another workpiece W is polished, the above-described process is repeated while a new workpiece holding jig 1 holding the workpiece W which is not polished yet is disposed in the barreling tank 20. In a case where the workpiece holding jig 1 holding the polished workpiece W is replaced by a new workpiece holding jig 1, the driving of the motor 27 may be stopped or continued.
In a case where the polishing solution is used for the vibratory barreling, chips (polishing chips) remain in the polishing solution in accordance with the progress of the polishing operation, and hence the polishing efficiency may be degraded. In such a case, a flow-through system in which the polishing solution may be continuously or intermittently supplied from the polishing solution supply device 28 to the barreling tank 20 while the workpiece W is polished and the polishing operation may be performed while an extra polishing solution is discharged from the draining pipe 29 along with chips may be employed. In this case, it is possible to suppress excessive chips from remaining in the barreling tank 20 and to suppress the contamination inside the barreling tank 20. Therefore, it is possible to shorten the cleaning time for the barreling tank 20.
In the above-described embodiment, the holding member 12 holds the workpiece W inside the housing space V so that the entire workpiece W is located inside the housing space V surrounded by the disk-shaped guard members 10 and 11 each having an outer shape formed larger than the workpiece W and the annular imaginary curved surface S extending to connect the outer peripheral edges of the guard members 10 and 11 to each other. Therefore, the workpiece W remains inside the housing space V while not protruding from the workpiece holding jig 1. Thus, even when the workpiece holding jig 1 is disposed in the barreling tank 20 of the vibratory barreling device 2 and the barreling tank 20 is shaken by the vibratory barreling device 2, it is possible to prevent the collision between the workpiece W and the barreling tank 20. As a result, it is possible to suppress any defect by protecting the workpiece W when the workpiece W is polished by the vibratory barreling device 2.
In this embodiment, the guard members 10 and 11 each having an outer shape as a disk shape larger than the workpiece W are disposed so as to face each other. Therefore, the workpiece holding jig 1 has a columnar outer shape. Thus, when the workpiece holding jig 1 is disposed inside the barreling tank 20 while the workpiece holding jig 1 stands alone inside the barreling tank 20 so that the outer peripheral edges of the guard members 10 and 11 contact the bottom wall of the barreling tank 20, the workpiece holding jig 1 rolls while standing alone inside the barreling tank 20. Here, the guard members 10 and 11 are respectively provided with the window portions 10w and 11w communicating with the housing space V, and the imaginary curved surface S and the window portions 10w and 11w are configured to allow the polishing media M to pass between the inside and outside of the housing space V. Therefore, it is possible to cause the polishing media M to easily flow inside the workpiece holding jig 1 while causing the workpiece holding jig 1 to effectively roll. As a result, it is possible to polish the workpiece W with extremely high efficiency. In addition, since the workpiece W is polished while the workpiece holding jig 1 stands alone, it is possible to polish both surfaces of the workpiece W in a substantially uniform state.
Particularly, when the vibratory barreling is performed by using the above-described workpiece holding jig 1, it is possible to suppress any defect in the workpiece W and to polish both surfaces of the workpiece W in a substantially uniform state even when the workpiece W is large. As the large workpiece W, for example, a bearing holder, a gear, a vehicle wheel (e.g. a railway wheel), a pulley, or a blisk may be exemplified.
In this embodiment, the window portions 10w and 11w are formed at the positions facing a polishing target area for polishing by the polishing media M in the main surface of the workpiece W in the guard members 10 and 11. Therefore, the polishing media M pass through the window portions 10w and 11w, and are mainly guided to the polishing target area of the workpiece W. Thus, it is possible to efficiently polish the polishing target area of the workpiece W.
In this embodiment, the covering member 13 covers a non-polishing target area which is not polished by the polishing media M in the workpiece W. Therefore, there is no need to directly attach the covering member to the workpiece W at a position as the non-polishing area of the workpiece W. Thus, it is possible to set a desired non-polishing area just by holding the workpiece W in the workpiece holding jig 1.
In this embodiment, since the outer peripheral surface Wa of the workpiece W is covered by the covering member 13, the polishing media M hardly collide with the outer peripheral surface Wa of the workpiece W. Therefore, the shape of the outer peripheral surface Wa of the workpiece W hardly changes. Thus, it is possible to prevent a defect such as a dent or excessive polishing (edge dropping) in the vicinity of the peripheral edge of the workpiece W. In addition, when the vicinity of the peripheral edge of the workpiece W is excessively polished, the chamfered amount of the peripheral edge of the workpiece W becomes larger than a desired amount.
While the embodiment of the invention has been described in detail, the invention is not limited to the above-described embodiment. For example, in a case where the large workpiece W is polished by vibratory barreling, the polishing media M may be supplied to the barreling tank 20 so as to bury the entire workpiece W by the polishing media.
Meanwhile, when the workpiece holding jig 1 may stand alone while the imaginary curved surface S contacts the floor surface or the like as in the embodiment, there is no need to hold the workpiece holding jig 1 by the polishing media M or the like in order to cause the workpiece holding jig 1 to stand alone. In this case, the amount of the polishing media M may be decreased compared to the amount of the polishing media used in the general vibratory barreling. For example, the polishing media M may be supplied to the barreling tank 20 to a depth (about ⅓ to ½ of the diameter of the workpiece holding jig 1) of about ⅓ of the barreling tank 20.
The diameters of the guard members 10 and 11 may be 80% or less of the width of the barreling tank 20 so that the guard members sufficiently roll inside the barreling tank 20. A gap between the barreling tank 20 and the workpiece holding jig 1 may be set to, for example, 20 mm or more so that the polishing media M are not bitten between the barreling tank 20 and the workpiece holding jig 1.
The separation gap between the guard members 10 and 11 (the height of the imaginary curved surface S) or the dimensions of the window portions 10w and 11w may be set to three times or more the dimension of the polishing media M so that the polishing media M sufficiently flow between the inside and outside of the workpiece holding jig 1. In a state where the workpiece W is held by the workpiece holding jig 1, a gap between the workpiece W and each of the inner wall of the guard member 10 and the inner wall of the guard member 11 may be set to three times or more the dimension of the polishing media M so that the polishing media M sufficiently flow between the inside and outside of the workpiece holding jig 1. The width of the workpiece holding jig 1 (the height of the imaginary curved surface S) may be set to ¼ or more of the diameters of the guard members 10 and 11 so that the workpiece holding jig 1 stably stands alone.
The workpiece holding jig 1 may not include the covering member 13 in order to polish the outer peripheral surface Wa of the workpiece W. At this time, the distance between the imaginary curved surface S and the outer peripheral surface Wa may be set to two times or more the dimension of the polishing media M. The flow of the polishing media M in the vicinity of the outer peripheral edge of the workpiece W is not easily disturbed. Thus, it is possible to efficiently polish even the outer peripheral edge of the workpiece W.
As illustrated in (A) of
In this case, the guard members 10 and 11 are integrated with each other by the connection member 15. Therefore, the strength of the workpiece holding jig 1 may be improved. Further, since the connection member 15 is provided with the window portion 15w, the window portion 15w is configured to allow the polishing media M to pass between the inside and outside of the housing space V. Therefore, the polishing media M may easily flow inside the workpiece holding jig 1. As a result, the workpiece W may be polished extremely efficiently.
The number, the shape, the dimension or the like of each of the window portions 10w, 11w, and 15w may be voluntarily set as long as the polishing media M may be guided by the window portions 10w, 11w, and 15w so that the polishing media M collide with the polishing target area of the workpiece W. For example, as illustrated in (B) of
The covering member 13 may be provided so as to cover not only the outer peripheral surface Wa of the workpiece W but also the non-polishing target area which is not polished by the polishing media M in the workpiece W. The number, the shape, the dimension or the like of the non-polishing target area may be voluntarily set. For example, the covering member 13 which covers the center portion may be employed in a case where only the peripheral edge of the workpiece W is polished instead of the center portion of the workpiece W.
As illustrated in
The shape of the workpiece W is not particularly limited as long as the workpiece is flat. For example, the workpiece may be formed in a flat plate shape, an annular shape, or a frame shape other than the disk shape. The shape of the holding member 12 or the position of holding the workpiece W by the holding member 12 may be appropriately changed in accordance with the shape of the workpiece W and the polishing target area or the like.
The installation position of the covering member 13 is not particularly limited. For example, the covering member 13 may be attached to the holding member 12.
Hereinafter, examples of a vibratory barreling method according to the invention will be described, but the invention is not limited to these examples. As the workpiece holding jig 1, a workpiece holding jig having a shape substantially similar to
As the workpiece W, a disk-shaped member having a diameter of about 800 mm and a thickness of about 40 mm was prepared. The workpiece W was formed of titanium. As the polishing media M, sintered media (manufactured by SINTOKOGIO, LTD.) which are cut into a triangular prism having an edge of about 10 mm and a length of about 7 mm respectively were prepared.
As the vibratory barreling device 2, a device obtained by modifying VF-1423 W manufactured by SINTOKOGIO, LTD. was prepared. The dimension of the barreling tank 20 was set so that the width was about 800 mm, the length was about 1000 mm, and the height was about 800 mm. The center portion of the barreling tank 20 was provided with the partition plate 20a. Then, the above-described polishing media M were supplied to the barreling tank 20 so as to fill ⅓ of the volume. As the polishing solution, a solution obtained by adding a compound (GLM-4 manufactured by SINTOKOGIO, LTD.) of 0.5% to tap water was prepared. The polishing solution was supplied at about 400 ml per minute.
(1) Evaluation of Outer Peripheral Surface Wa of Workpiece W
The workpiece W was polished for six hours by the vibratory barreling device 2, and ten points were voluntarily selected at the front and rear surfaces of the outer peripheral surface Wa of the workpiece W so as to observe the ten points by a non-contact three-dimensional shape measuring device (TDS-2100 CG manufactured by Technomu Co., Ltd). Further, the diameter of the workpiece W was measured at the voluntary ten points by a ling-size caliper, and was compared with the diameter of the workpiece W which was not polished. As a result, a change in shape such as distortion or dent was not found in any point of the outer peripheral surface Wa of the workpiece W. As a result, it was found that the outer peripheral surface Wa of the workpiece W was not polished by the covering member 13.
(2) Evaluation of Polishing Progress and Unevenness of Polishing
Three points were voluntarily selected in the front and rear surfaces to be polished in the non-polished workpiece W, and the surface roughness Ra (HS (Japanese Industrial Standards) B6001:1994) thereof was measured by a surface roughness measurement device (SURFCOM 130A manufactured by TOKYO SEIMITSU CO., LTD.). Further, the surface roughness Ra of the polished workpiece W was measured in this way. The polishing progress and the unevenness of the polishing were evaluated by the comparison of these measurement values. The average value of the surface roughness Ra of the non-polished workpiece W was about 1.49 μm at the front surface and was about 1.52 μm at the rear surface. Further, the average value of the surface roughness Ra of the polished workpiece W was about 0.23 μm at the front surface and was about 0.21 μm at the rear surface. Accordingly, it was found that both surfaces were satisfactorily polished. Further, in the polished workpiece W, the unevenness for the average value of the surface roughness Ra was within ±10% at both the front and rear surfaces. As a result, it was found that both surfaces were polished with little unevenness of the polishing.
(3) Evaluation of Modification
In the polished workpiece W, ten points were voluntarily selected in the front and rear surfaces as the polished positions, and the shapes thereof were measured by the above-described non-contact three-dimensional shape measurement device. As a result, any deformation caused by the polishing was not found in any measurement position.
As described above, the following facts were found when the vibratory barreling was performed on the flat workpiece W by using the workpiece holding jig 1 of the embodiment. That is, (a) the polishing position may be voluntarily set, (b) the workpiece may be uniformly polished with little unevenness of the polishing, and (c) the workpiece W may be polished without any deformation of the workpiece W.
1: workpiece holding jig
2: vibratory barreling device
10, 11: guard member
10
w, 11w: window portion
12: holding member
13: covering member
14: attachment member
20: barreling tank
M: polishing media
S: imaginary curved surface
V: housing space
W: workpiece
Number | Date | Country | Kind |
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2013-157888 | Jul 2013 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2014/066336 | 6/19/2014 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2015/015940 | 2/5/2015 | WO | A |
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Entry |
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International Preliminary Report on Patentability dated Feb. 11, 2016 for PCT/JP2014/066336. |
Number | Date | Country | |
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20160151878 A1 | Jun 2016 | US |