This application claims the benefit of priority to Japanese Patent Application No. 2019-126289, filed on Jul. 5, 2019 and Japanese Patent Application No. 2019-143283, filed on Aug. 2, 2019, the entire contents of which are hereby incorporated by reference.
The present invention relates to a cleaning apparatus and a cleaning method.
A conventional cleaning apparatus includes a quill, a center post fixed to the quill, a turret head pivotally disposed on the center post, a tool support member disposed on the turret head, a cleaning tool rotatably disposed on the tool support member, a spindle, and a joint device. (See, for example, Japanese Patent No. 5,432,943.
In addition, a proposed cleaning apparatus includes a 180 degree turning table, in which a workpiece is installed and clamped on a cleaning table arranged on the turning table (Sugino Machine Co., Ltd., Catalog “JCC series Jet Clean Center Series of General-purpose High-Efficiency Cleaning Systems”, Catalog No. Q2426N, pages 8 and 12).
When an axially extending workpiece such as a crankshaft is installed on the cleaning table and rotated together with the cleaning table, it is necessary to retract a nozzle when the cleaning table is rotated. In addition, it is difficult to bring an air blowing nozzle close to the workpiece.
An object of the present invention is to provide a cleaning apparatus and a cleaning method which clamps an axially extending workpiece on a center axis to clean an end portion and a shaft portion, and perform cleaning and drying in a short time.
A first aspect of the present invention provides a cleaning apparatus for cleaning a workpiece, the cleaning apparatus including:
a cleaning chamber having a first side wall, and a second side wall opposed to the first side wall, the cleaning chamber including
a turn table having two regions arranged in a 180 degree rotational symmetry, the turn table configured to arrange one of the two regions in the cleaning station and the other of the two regions in the drying station; and
a cleaning table arranged in each of the two regions, the cleaning table including a journal block;
wherein each of the cleaning station and the drying station includes a lifter having a lift table, the lifter is configured to move up and down between a cleaning position and a retracted position, the lift table moves up to support the cleaning table at the cleaning position, and the cleaning table is placed on the turn table to retract the lift table below the turn table at the retracted position,
the first clamping device includes
the second clamping device includes
A second aspect of the present invention provides a cleaning method of axially extending workpiece, the cleaning method including:
loading the workpiece on a cleaning table;
lowering a lifter to place the cleaning table on a turn table;
turning the turn table to convey the workpiece from a drying station to a cleaning static
moving the cleaning table by the lifter to align a center axis of the workpiece with a cleaning axis in the cleaning station;
clamping the workpiece by abutting a first clamp shaft extending from a first side wall of a cleaning chamber against a first end of the workpiece, and by abutting a second clamp shaft extending from a second side wall of the cleaning chamber opposed to the first side wall against a second end of the workpiece;
lowering the lifter to place the cleaning table on the turn table;
cleaning an outer circumferential surface of the workpiece while rotating the workpiece, the first clamp shaft, and the second clamp shaft together;
moving the cleaning table to a cleaning position by the lifter;
unclamping the workpiece by separating the first clamp shaft from the first end of the workpiece, and by separating the second clamp shaft from the second end of the workpiece;
lowering the lifter to place the cleaning table on the turn table;
turning the turn table to convey the workpiece from the cleaning station to the drying station;
moving the cleaning table to a drying position by the lifter to align the center axis of the workpiece with a drying axis in the drying station;
clamping the workpiece by abutting the first clamp shaft extending from the second side wall of the cleaning chamber against the first end of the workpiece, and by abutting the second clamp shaft extending from the first side wall of the cleaning chamber against the second end of the workpiece;
lowering the lifter to place the cleaning table on the turn table;
drying the outer circumferential surface of the workpiece while rotating the workpiece, the first clamp shaft, and the second clamp shaft together;
moving the cleaning table to the drying position by the lifter;
unclamping the workpiece by separating the first clamp shaft from the first end of the workpiece, and by separating the second clamp shaft from the second end of the workpiece; and
unloading the dried workpiece from the cleaning table.
The cleaning includes debarring by a high pressure jet.
The insertion portion and the receiving portion are, for example, a pair of couplings, a cylindrical pin and a cylindrical hole into which the cylindrical pin is inserted. Preferably, the tip of the cylindrical pin has a conical portion. Instead of the cylindrical pin, a diamond locating pin may be used. Preferably, two the insert portions and two the receiving portions are arranged on the cleaning table apart from each other.
By moving the guide groove along the guide, it is possible to suppress the position of the cleaning table in the horizontal direction from shifting when the cleaning table moves to the cleaning position or the drying position. The guide may be disposed from the lower end to a height in the middle of the distance of movement of the cleaning table. Since the guide groove is restricted to the guide, it is possible to suppress the cleaning table from falling off from the turn table when the turn table turns.
Instead of the guide groove, for example, a guide hole or a guide block may be used. If the guide block moves up and down on the guide so that the cleaning table can be raised accurately to the cleaning position, the insert portion and the receiving portion may be omitted.
The passage opening preferably opens outwardly as viewed from the turning axis.
The cleaning apparatus may include a guide arranged to extend in the vertical direction on the turn table, and a guide groove slightly larger than the horizontal cross-sectional shape of the guide arranged on the cleaning table.
The second insertion portion and the second receiving portion are positioning members, for example, a cylindrical pin and a cylindrical hole into which the cylindrical pin is inserted. Preferably, the tip of the cylindrical pin has a conical portion. The cylindrical hole may fit into the cylindrical pin. Instead of the cylindrical pin, a diamond locating pin may be used.
As the lifter moves up and down, the lift table passes through the passage opening of the turn table. As the lifter rises, the lift table passes through the turn table upwardly from below, and the cleaning table is placed on the lift table, and the lift table lifts up the cleaning table to the cleaning position or the drying position. When the lifter descends, the lift table is retracted below the turn table with the cleaning table placed on the turn table.
The lift cylinder is, for example, an air cylinder or an electric cylinder.
The first clamp driving device and the second clamp driving device are, for example, an air cylinder or an electric cylinder.
According to the cleaning apparatus and the cleaning method of the present invention, an axially extending workpiece is clamped on the center axis, and the end portion and the shaft portion is cleaned, and cleaning and drying is performed in a short time.
As shown in
The cleaning chamber 19 is, for example, box-shaped. The cleaning chamber 19 has a drying station 95 at the front and a cleaning station 97 at the rear. The nozzle 15 and the moving device 14 are arranged in the cleaning station 97.
The turn table 87 is arranged across the cleaning station 97 and the drying station 95. The turn table 87 includes two regions 87a, 87b and a movable wall 88. The movable wall 88 partitions the turn table 87 into two regions 87a, 87b. The turn table 87 turns about the turning axis 36 by 180 degrees. The turning axis 36 extends in the vertical direction (Z-axis direction) on the boundary between the cleaning station 97 and the drying station 95.
The regions 87a, 87b are arranged in a 180 degree rotational symmetry about the turning axis 36. At the turning end, the turn table 87 positions one of the two regions 87a, 87b at the cleaning station 97 and the other at the drying station 95.
The movable wall 88 is a flat plate and is fixed to the turn table 87 on a plane passing through the turning axis 36 and perpendicular to the turn table 87. When the turn table 87 is positioned, the movable wall 88 is connected to the partition wall 93. The movable wall 88 turns about the turning axis 36 together with the turn table 87.
The partition wall 93 is a flat plate and is disposed in the cleaning chamber 19. The partition wall 93 partitions the cleaning chamber 19 into the cleaning station 97 and the drying station 95. The partition wall 93 passes through the turning axis 36 and extends parallel to the XZ plane. The partition wall 93 has a conveyance port 96. When the turn table 87 turns, the turn table 87, the cleaning table 31, and the workpiece 3 pass through the conveyance port 96.
The intermediate shutter 94 opens and closes the conveyance port 96. For example, the intermediate shutter 94 is a sliding door that slides up and down. When the intermediate shutter 94 is lowered, the intermediate shutter 94 contacts the movable wall 88. When the intermediate shutter 94 comes into contact with the movable wall 88, the conveyance port 96 is closed.
A loading port (not shown) is located at the drying station 95. The loading port is disposed, for example, on the front surface or the upper surface of the cleaning apparatus 10. The loading shutter (not shown) opens and closes the loading port. The loading shutter is, for example, a slide door.
A pair of clamping devices 51, 151 and a lifter 71 are arranged both in the drying station 95 and the cleaning station 97. In the drying station 95, the clamping device 51 is arranged on the left side and the clamping device 151 is arranged on the right side. In the cleaning station 97, the clamping device 51 is arranged on the right side and the clamping device 151 is arranged on the left side. The lifter 71 is disposed below the cleaning chamber 19.
The clamping device 51 includes a clamp shaft 59. The clamping device 151 includes a clamp shaft 159. At the drying station 95, the clamp shafts 59 and 159 rotate about a drying axis 121. At the cleaning station 97, the clamp shafts 59 and 159 rotate about a cleaning axis 21. For example, the drying axis 121 has the same height as the cleaning axis 21. The moving device 14 moves the nozzle 15 relative to the workpiece 3.
The pump 18 is a liquid pump such as a piston pump, a gear pump, or a centrifugal pump. The pump 18 supplies cleaning liquid supplied from a cleaning liquid tank (not shown) to the nozzle 15 via the turret 13.
The moving device 14 freely moves the turret 13 and the nozzle 15 in the left-right direction (X-axis direction), the front-rear direction (Y-axis direction), and the vertical direction (Z-axis direction) with respect to the cleaning table 31.
The clamping devices 51, 151 clamp the workpiece 3 in the direction of the cleaning axis 21 and rotate about the cleaning axis 21 in the A-axis direction.
The turret 13 is provided on the moving device 14. The turret 13 has a nozzle rotation axis 16 extending in the Z-axis direction. The turret 13 may have a plurality of nozzles 15. The turret 13 rotates to select one nozzle 15. The turret 13 supplies the cleaning liquid to the selected nozzle 15. The moving device 14 or the turret 13 rotates the nozzle 15 about the nozzle rotation axis 16 in the C-axis direction. As the turret 13, for example, Japanese Patent Nos. 6147623 and 5432943 are known.
The nozzle 15 is provided in the turret 13. Preferably, the nozzle 15 rotates about the nozzle rotation axis 16 or is positioned in a rotational direction. The nozzle 15 is, for example, a lateral nozzle 153 or a flat spray nozzle 155. For example, as shown in
The air source 83 is, for example, a compressor or a blower. The air blowing device 85 includes an air blowing pipe 85a and a plurality of air blowing nozzles 85b. The air blowing pipe 85a is disposed, for example, below the front of the drying station 95. The air blowing pipe 85a extends in parallel with the cleaning axis 21. The plurality of air blowing nozzles 85b are arranged along the air blowing pipe 85a. The air blowing nozzle 85b extends from the air blowing pipe 85a toward the drying axis 121. The air blowing nozzle 85b is connected to the air source 83 via an air blowing pipe 85a.
The control device 25 controls the moving device 14, the clamping devices 51 and 151, the lifter 71, the turn table 87, the pump 18, and the air source 91.
As shown in
The center hole 3a is, for example, conical. The center holes 3a are arranged at both ends of the workpiece 3. The phasing hole 3b is, for example, a cylindrical hole arranged in the flange 3f away from the center axis 3k and extends along the center axis 3k. The phasing surface 3c is, for example, a plane arranged parallel to the center axis 3k. The center axis 3k is the rotational center of the workpiece 3.
Hereinafter, the region 87b, the cleaning table 31, the lifter 71, the clamping device 51, and the clamping device 151 will be described in a state that the region 87b is positioned at the cleaning station 97. The region 87a and the drying station 95 are substantially the same as the region 87b and the cleaning station 97.
The passage opening 89 is a rectangular cutout opened rearward. In other words, the turn table 87 includes a center plate 87c and a projecting portion 87d. The projecting portions 87d extend rearward from the left and right end portions of the center plate 87c.
The pair of guides 39 are respectively disposed at the center of the projecting portion 87d in the front-rear direction. The guide 39 is a so-called rough guide. The guide 39 extends in the vertical direction and is disposed on the turn table 87. The guide 39 has a thin prism shape, and has an inclined surface whose tip portion inclines outward.
The pair of round pins 47 are respectively disposed at the distal end of the upper surfaces of the projecting portion 87d. The round pin 47 includes a cylindrical portion 47a and a tapered portion 47b. The tapered portion 47b has a conical shape, and is disposed above the cylindrical portion 47a so as to be continuous with the cylindrical portion 47a.
The guide bush 52 may include a housing 53 and a bush 55. The housing 53 has, for example, a hollow cylindrical shape, and is disposed coaxially with the cleaning axis 21. The housing 53 is disposed, for example, through a side wall of the cleaning chamber 19.
The slide shaft 57 has, for example, a hollow cylindrical shape, and is arranged coaxially with the cleaning axis 21. The slide shaft 57 slides in the bush 55 and reciprocates in the left-right direction (X-axis direction). The slide shaft 57 includes a bearing 58 therein. The clamp shaft 59 is cylindrical and is supported by the bearing 58. The clamp shaft 59 is arranged coaxially with the cleaning axis 21. The center pin 61 and the phasing pin 60 are disposed on the distal end surface of the clamp shaft 59. Here, the distal end is an end on the side of the workpiece 3, and the basal end is an end on the side opposite to the workpiece 3. The center pin 61 has a conical shape and is disposed coaxially with the cleaning axis 21. The phasing pin 60 is disposed at a position away from the cleaning axis 21 and parallel to the cleaning axis 21. The center pin 61 and the phasing pin 60 are inserted into the center hole 3a and the phasing hole 3b of the workpiece 3, respectively. When inserted into the workpiece 3, the center pin 61 and the phasing pin 60 abut against the center hole 3a and the phasing hole 3b.
The connecting plate 62 is disposed at the basal end of the slide shaft 57.
The clamp cylinder 63 includes a rod 63a and a cylinder 63b. For example, the cylinder 63b is connected to the cleaning chamber 19, and the rod 63a is connected to the connecting plate 62. The clamp cylinder 63 is an electric cylinder, and is numerically controlled by the control device 25. When the clamp cylinder 63 contracts, the slide shaft 57 advances (advances to the left). When the clamp cylinder 63 extends, the slide shaft 57 retreats (advances to the right).
The motor 67 is disposed on the connecting plate 62. The motor 67 includes an output shaft 67a. The motor 67 is, for example, a servo motor.
The driving gear 66 is fixed to the output shaft 67a. The driven gear 65 is fixed to the clamp shaft 59 and meshes with the driving gear 66. The driving gear 66 and the driven gear 65 are, for example, spur gears and helical gears.
Preferably, the clamp cylinder 63, the connecting plate 62, the driven gear 65, the driving gear 66, and the motor 67 are disposed outside the cleaning chamber 19.
The cover 69 is a safety cover, and covers the guide bush 52, the slide shaft 57, the driving gear 66, the driven gear 65, the connecting plate 62, the clamp cylinder 63, and the motor 67.
The clamping device 151 includes a guide bush (second guide bush) 152, a slide shaft (second slide shaft) 157, a bearing 58, a connecting plate 62, and a clamp cylinder (second clamp drive device) 163. Preferably, the clamping device 151 includes a cover 69 and a center pin 61. The guide bush 152 has the same structure as the guide bush 52. The slide shaft 157 has the same structure as the slide shaft 57. The center pin 61 is disposed at the right end of the clamp shaft 159. The clamp cylinder 163 has the same structure as the clamp cylinder 63.
The lifter 71 includes a lift table 49, a lift guide 72, a stem 77, and a lift cylinder 81. The lifter 71 may include a cover 74 and a connecting plate 79.
The lift guide 72 has a housing 73 and a bush 75, and is disposed below the cleaning chamber 19. The housing 73 has a hollow cylindrical shape and extends in the vertical direction. The bush 75 is disposed inside the housing 73.
The stem 77 has, for example, a cylindrical shape. As shown in
The connecting plate 79 connects the lower end of the stern 77.
The lift cylinder 81 is disposed in the cleaning chamber 19. The lift cylinder 81. includes a cylinder 81b and a rod 81a. For example, the cylinder 81b is disposed on the bottom surface of the cleaning charriber 19. The distal end of the rod 81a is connected to the lift table 49. For example, the lift cylinder 81 is an electric cylinder, and is numerically controlled by the control device 25. When the lift cylinder 81 extends, the cleaning table 31 rises. When the lift cylinder 81 contracts, the cleaning table 31 lowers. The rod 81a may be connected to the connecting plate 79.
The cover 74 is a safety cover and covers the stem 77, the lift guide 72, the lift cylinder 81, and the connecting plate 79.
As shown in
The top plate 33 has a rectangular shape. When the lifter 71 is lowered, the top plate 33 is placed on the turn table 87.
The journal block 43 is a V-block and is disposed on the upper surface of the cleaning table 31. The journal block 43 has a V-surface 43a on its center.
The journal block 143 is substantially to the same as the journal block 43.
The phasing block 45 is arranged, for example, near the center of the journal block 43. The phasing block 45 has a phasing surface 45a. The phasing surface 45a is disposed, for example, in parallel with the XZ plane, toward the cleaning axis 21 so as to sandwich the cleaning axis 21. The phasing surface 45a abuts the phasing surface 3c of the workpiece 3.
The support base 35 is, for example, a cylinder. The support base 35 is disposed inside the passage opening 89 in plan view, and extends below the top plate 33. The lower surface of the support base 35 is a contact surface 35a. When the lifter 71 rises, the contact surface 35a comes into contact with the lift table 49.
The guide grooves 37 are arranged at the left and right ends of the top plate 33. The guide groove 37 is rectangular in plan view and extends in the vertical direction. The guide groove 37, at a position matching the guide 39, is disposed to have a gap between the guide groove and the guide 39. When the lifter 71 moves up and down, the, guide groove 37 is guided by the guide 39.
The cylindrical hole 41 is disposed on the lower surface of the cleaning table 31. Preferably, the cylindrical holes 41 are disposed at the left and right end portions, respectively. When the lifter 71 rises, the round pin 42 is inserted into the cylindrical hole 41. At this time, the cylindrical hole 41 and the cylindrical portion 42a are fitted to each other.
As shown in
Next, the cleaning method will be described with reference to
As shown in
Next, in step S2, the intermediate shutter 94 is opened. As a result, the conveyance port 96 is opened.
Next, the turn table 87 is turned. In step S3, with the workpiece 3 before cleaning and the cleaning table 31 being carried on, the region 87a in the drying station 95 moves to the cleaning station 97. With the workpiece 3 after cleaning and the cleaning table 31 being carried on, the region 87b in the cleaning station 97 moves to the drying station.
Next, in step S4, the intermediate shutter 94 is closed. This separates the cleaning station 97 from the drying station 95.
Next, a cleaning process in the cleaning station 97 will be described.
As shown in
The pump 18 supplies the cleaning liquid to the nozzle 15. The nozzle 15 ejects the cleaning liquid. As shown in
As shown in
The clamp cylinder 163 advances the slide shaft 157. The clamp shaft 159 abuts against the second end 3n of the workpiece 3. The clamp cylinder 163 presses the clamp shaft 159 against the second end 3n. The control device 25 controls the displacement of the clamp shaft 159 based on the position of the second end 3n. In this manner, the workpiece 3 is clamped to the clamp shafts 59 and 159 in step S13.
As shown in
As shown in
The lifter 71 raises the cleaning table 31 to the cleaning position in step S16.
The clamp cylinders 63, 163 retract the slide shafts 57, 157, respectively. The clamp shafts 59, 159 are spaced apart from the workpiece 3. In step S17, the workpiece 3 is unclamped and placed on the cleaning table 31.
Next, the procedure of drying, unloading, and loading in the drying station 95 will be described.
In step S11, the lifter 71 raises the cleaning table 31 to the drying position. The center axis 3k is aligned with the drying axis 121.
Next, in step S13, the clamping devices 51, 151 clamp the workpiece 3. In step S14, the lifter 71 is lowered, and the cleaning table 31 is placed on the turn table 87. The lifter 71 further lowers to the retracted position.
Next, in step S25, the workpiece is air blown. As shown in
In step S16, the lifter 71 raises the cleaning table 31 to the drying position.
In step S17, the clamping devices 51, 151 unclamp the workpiece. The workpiece 3 is placed on the cleaning table 31.
In step S28, the loading shutter is opened.
The workpiece 3 in the drying station 95 is unloaded by a conveyance device (not shown) or by an operator. Next, the control device 25 controls the height of the cleaning table 31 based on the diameter of the journal of the workpiece 3.
The workpiece 3 is loaded into the cleaning table 31 by the conveyance device (not shown) or the operator.
Finally, in step S30, the loading shutter is closed.
Steps S1 and S2 may be performed simultaneously. Step S4, step S11 at the cleaning station 97 and step S11 at the drying station 95 may be performed simultaneously. Step S16 and step S28 in the drying station 95 may be performed simultaneously. Steps S11, S13, S14, S25, S16, S17, and S28 to S29 in the drying station 95 are performed in parallel with steps S11 to S17 in the cleaning station 97.
According to the present embodiment, the workpiece 3 is clamped to the clamp shafts 59, 159 about the cleaning axis 21. The clamp shafts 59, 159 and the workpiece 3 rotate together. When cleaning or air blowing is performed, the cleaning table 31 is placed on the turn table 87 and is retracted downward. Therefore, the cleaning table 31 does not interfere with the cleaning or air blowing the shaft portion 3h. At the time of unclamping, since the end 3g is exposed, the nozzles 15 can clean the end 3g.
Since the lift cylinder 81 is a numerically controlled electric cylinder, the center axis 3k of the workpiece 3 having different diameters of the journals 3d, 3e can be aligned with the cleaning axis 21 or the drying axis 121. Since the clamp cylinders 63, 163 are numerically controlled electric cylinders, the clamp shafts 59, 159 can abut against the workpiece 3 having different lengths to clamp the workpiece 3 at a predetermined position.
Since the round pin 42 is disposed on the lift table 49 and the cylindrical hole 41 is disposed on the cleaning table 31, the lift table 49 can mount the cleaning table 31 at an accurate position.
Since the guide 39 guides the guide groove 37, it is possible to suppress the shift of the cleaning table 31 when the cleaning table 31 is moved up and down.
Since the round pin 47 is disposed on the turn table 87 and the cylindrical hole 48 is disposed on the cleaning table 31, the turn table 87 can mount the cleaning table 31 at an accurate position. Further, when the turn table 87 turns, the positional deviation of the cleaning table 31 can be suppressed.
Since the end 3g is cleaned while the workpiece 3 is installed on the cleaning table 31, and the workpiece 3 is clamped after the end 3g is cleaned, it is possible to suppress the clamp shafts 59, 159 from becoming dirty.
The workpiece 3 is cleaned while being sandwiched and supported by the clamp shafts 59, 159 through the cleaning axis 21. Since the cleaning table 31 is separated from the workpiece 3 when cleaning the shaft portion 3h, the nozzles 15 can easily approach the workpiece 3 and efficiently clean the workpiece 3. Since the workpiece 3 and the cleaning table 31 are separated from each other in the clamped state, and the workpiece 3 is rotated in a state in which the center axis 3k of the workpiece 3 and the cleaning axis 21 are aligned with each other, the inertia, can be reduced. It is substantially the same when drying.
Since the cleaning table 31 is separated from the workpiece 3 when the workpiece 3 is air blown, the air blowing nozzle 85b can approach the workpiece 3. Since the air blowing nozzle 85b and the workpiece 3 can approach each other, the blowing effect is enhanced.
The cleaning chamber 19 includes a cleaning station 97 and a drying station 95, and the turn table 87 turns to convey one workpiece 3 to the cleaning station 97 and another workpiece 3 to the drying station 95. While one workpiece 3 is cleaned in the cleaning station, another workpiece 3 which has been cleaned is air blown, the dried workpiece 3 is unloaded, and the workpiece 3 before cleaning is loaded. Therefore, the cycle time can be shortened.
The present invention is not limited to the embodiments described above, and various modifications can be made without departing from the gist of the present invention, and all technical matters included in the technical idea described in the claims are the subject matter of the present invention. While the foregoing embodiments illustrate preferred examples, those skilled in the art will appreciate that various alternatives, modifications, variations, or improvements may be made in light of the teachings disclosed herein and are within the scope of the appended claims.
3 Workpiece
10 Cleaning apparatus
15 Nozzle (Cleaning nozzle)
21 Cleaning axis
31 Table (Cleaning table)
33 Top plate
49 Lift table
51 Clamping device (First clamping device)
57 Slide shaft (First slide shaft)
59 Clamp shaft (First clamp shaft)
63 Clamp cylinder (First clamp drive)
67 Motor
87 Turn table
151 Clamping device (Second clamping device)
157 Slide shaft (Second slide shaft)
159 Clamp shaft (Second clamp shaft)
163 Clamp cylinder (Second clamp drive)
71 Lifter
Number | Date | Country | Kind |
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JP2019-126289 | Jul 2019 | JP | national |
JP2019-143283 | Aug 2019 | JP | national |
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Number | Date | Country |
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Number | Date | Country | |
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20210001379 A1 | Jan 2021 | US |