WO2010137880A2 - 다단기어변속장치 - Google Patents
다단기어변속장치 Download PDFInfo
- Publication number
- WO2010137880A2 WO2010137880A2 PCT/KR2010/003344 KR2010003344W WO2010137880A2 WO 2010137880 A2 WO2010137880 A2 WO 2010137880A2 KR 2010003344 W KR2010003344 W KR 2010003344W WO 2010137880 A2 WO2010137880 A2 WO 2010137880A2
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- WIPO (PCT)
- Prior art keywords
- gear
- stage
- clutch
- transmission
- pole
- Prior art date
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H3/00—Toothed gearings for conveying rotary motion with variable gear ratio or for reversing rotary motion
- F16H3/44—Toothed gearings for conveying rotary motion with variable gear ratio or for reversing rotary motion using gears having orbital motion
- F16H3/62—Gearings having three or more central gears
- F16H3/66—Gearings having three or more central gears composed of a number of gear trains without drive passing from one train to another
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
- B62M—RIDER PROPULSION OF WHEELED VEHICLES OR SLEDGES; POWERED PROPULSION OF SLEDGES OR SINGLE-TRACK CYCLES; TRANSMISSIONS SPECIALLY ADAPTED FOR SUCH VEHICLES
- B62M11/00—Transmissions characterised by the use of interengaging toothed wheels or frictionally-engaging wheels
- B62M11/04—Transmissions characterised by the use of interengaging toothed wheels or frictionally-engaging wheels of changeable ratio
- B62M11/14—Transmissions characterised by the use of interengaging toothed wheels or frictionally-engaging wheels of changeable ratio with planetary gears
- B62M11/18—Transmissions characterised by the use of interengaging toothed wheels or frictionally-engaging wheels of changeable ratio with planetary gears with a plurality of planetary gear units
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H3/00—Toothed gearings for conveying rotary motion with variable gear ratio or for reversing rotary motion
- F16H3/44—Toothed gearings for conveying rotary motion with variable gear ratio or for reversing rotary motion using gears having orbital motion
- F16H3/62—Gearings having three or more central gears
- F16H3/66—Gearings having three or more central gears composed of a number of gear trains without drive passing from one train to another
- F16H3/663—Gearings having three or more central gears composed of a number of gear trains without drive passing from one train to another with conveying rotary motion between axially spaced orbital gears, e.g. RAVIGNEAUX
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H2200/00—Transmissions for multiple ratios
- F16H2200/20—Transmissions using gears with orbital motion
- F16H2200/2002—Transmissions using gears with orbital motion characterised by the number of sets of orbital gears
- F16H2200/2015—Transmissions using gears with orbital motion characterised by the number of sets of orbital gears with five sets of orbital gears
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H2200/00—Transmissions for multiple ratios
- F16H2200/20—Transmissions using gears with orbital motion
- F16H2200/203—Transmissions using gears with orbital motion characterised by the engaging friction means not of the freewheel type, e.g. friction clutches or brakes
- F16H2200/2064—Transmissions using gears with orbital motion characterised by the engaging friction means not of the freewheel type, e.g. friction clutches or brakes using at least one positive clutch, e.g. dog clutch
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H2200/00—Transmissions for multiple ratios
- F16H2200/20—Transmissions using gears with orbital motion
- F16H2200/2094—Transmissions using gears with orbital motion using positive clutches, e.g. dog clutches
Definitions
- the present invention relates to a multi-stage planetary gear transmission.
- Multi-stage gear transmission is known in many embodiments that are applied in real life or industrial sites.
- a bicycle it is most common to stack a plurality of sprockets and install them on the rear wheel hub and the crank, respectively, to be coupled with a chain, and to select a gear stage through a derailleur.
- Such a transmission device can realize a speed ratio of 27 steps.
- the speed ratio is not overlapped or shifted at a constant rate when shifting from each step to the next step.
- a planetary gear hub that installs planetary gears in the hub and controls rotation of the sun gear to shift or separate the sun gear from the central axis.
- the solar gear of the hub transmission is coupled to the central axis
- the ratchet pawl is formed on the inner surface of the sun gear
- the coupling groove to which the pole is coupled is formed on the central axis
- the pole is coupled to the coupling groove by the shift shaft.
- a transmission having an eight speed transmission ratio is known to be configured to control separation. This form has a problem in that the shape of the shifting shaft and the peripheral parts for shifting is complicated and the number thereof is difficult to manufacture, and the speed ratio between shifting stages is not constant.
- the ratchet pawl is mounted on the outer circumferential surface of the central shaft
- the shift shaft having a cam surface is mounted on the hollow of the central shaft
- the engaging groove to which the pole is coupled is formed on the inner circumferential surface of the sun gear so that the pole can stand along the cam surface
- Another object of the present invention is to provide a multi-stage gear transmission in which shifting is possible without shifting or bypassing power for shifting while driving or stopping, and each stage of the transmission is switched to the next stage at the same speed ratio.
- the multi-stage gear transmission of the present invention includes a central axis which is not rotated on a frame, an input member which is coaxially rotatably mounted on the central axis, and coupled to the input member to the hub.
- a planetary gear assembly mounted and rotatably aligned coaxially with said central axis, said planetary gear assembly having at least two sets of planetary gears having a sun gear, a ring gear, a satellite carrier, and a satellite gear; At least one or more of an axial clutch that engages in selectively engaging and disengaging the sun gear with at least one of the peripheral members, and at least one of a rotational clutch that engages in selectively engaging and disengaging the sun gear with the central axis.
- a clutch assembly disposed corresponding to each of the sun gears;
- a shift shaft having a hollow portion and a plurality of radial through holes, the shift shaft surrounding the central axis and rotating to select a rotational position to engage in operation of the clutch assembly;
- the multi-stage gear shifting apparatus of the present invention relates to a shift control portion of a planetary gear shifting gear that controls a clutch that rotates around a central axis and rotates in a axial direction with a pole.
- the peripheral member means a multistage gear transmission which is a ring gear in a same planetary gear or a satellite carrier or a satellite gear or a sun gear in an adjacent planetary gear.
- the present invention can effectively configure a variety of gear stages, and provides a transmission having a small structure and a small weight.
- FIG. 1 is a cross-sectional view of a hub transmission configured to be installed on a bicycle rear wheel as an example of a multi-stage gear transmission according to the present invention.
- FIG. 2 is a simplified symbol diagram of a transmission according to FIG. 1;
- FIG. 3 is a simplified symbol diagram of a transmission configured to be installed around a bicycle crank as an example of a multi-stage gear transmission according to the present invention.
- Figure 4 is an exploded perspective view of the transmission according to Figure 1
- FIG. 5 is an exploded perspective view of the input planetary gear pair of FIG.
- FIG. 6 is an exploded perspective view of the output planetary gear pair of FIG.
- FIG. 7 is an exploded perspective view of the central axis and the shift shaft of FIG. 4;
- FIG. 8 is an exploded perspective view of the output two-stage planetary gear of FIG.
- FIG. 9 is a side view of planetary gear 5 of FIG.
- FIG. 10 shows a pole operation of the transmission according to FIG. 1.
- axial direction is used herein to denote a direction or position along an axis parallel to the central axis of the transmission.
- radius and radius direction are used to denote directions or positions extending at right angles to the central axis of the transmission.
- pole spring 64a and pole spring 64b are collectively referred to as a single reference (eg, control piston 582). Will be.
- the present embodiment describes a transmission 0 for use in a bicycle
- the transmission of the present invention can be applied to any device that converts and outputs an input speed.
- the central shaft 6 of the multi-stage gear transmission of the present invention has a stepped jaw 6e at both ends so that it can be installed so as not to rotate on a frame (not shown), and hollow It is a shaft having a through hole 6f.
- Two direct coupling clutch guide grooves 6a formed along the main surface are formed on the central main surface of the central shaft, and concave cam surfaces 6b for the direct coupling clutch are formed in the axial direction toward the other groove on the side of each groove.
- the concave groove of the cam surface is a concave groove that is programmed in advance for the direct clutches 21 and 31 to be operated, and is set at an appropriate interval when the speed change stage is determined.
- the cam groove is programmed at an interval of 40 degrees for the 9 speed shift.
- each pole groove 6c On both main surfaces of the central shaft 6, two concave pole grooves 6c for receiving the ratchet poles 15, 25, 35, and 45 are formed in the axial direction at regular intervals, respectively, and each pole groove 6c is provided.
- the pole spring groove 6g which accommodates the pole springs 64a, 64b, 64c, and 64d which exerts an elastic force so that the poles 15, 25, 35, 45 can stand up by rotation is formed.
- a two-way clutch guide groove 6d for the two-stage clutch 5 is formed in the form as shown in FIG.
- the first rotation (6d1) rotates from 0 ° to 320 ° in axial position, moving axially from 320 ° to 360 °, and the second rotation (6d2) axially from 360 ° to 680 ° A recessed guide groove that holds it in place.
- the shift shaft 7 is a tubular member which can be wrapped and rotated around the central axis 6, and has a plurality of pole actuation holes 7b and 2 engaged in the operation of the ratchet pawls 15, 25, 35, and 45 on its main surface.
- the transmission shaft 7 is formed with a guide groove for guiding the single clutch guide pin 58c and the direct clutch guide pin 58b in the rotational direction, and a transmission wire connected to externally control the rotation of the transmission shaft. It consists of the transmission shaft 7a which has the groove
- the shift shaft 7 is fixed so as not to swing in the axial direction on the central shaft 6 by the side wall 6h of the central shaft 6 and the snap ring 65 fixed to the central shaft and the bearing 8a in the axial direction.
- the jaw for supporting is formed.
- the pole actuating hole 8b of the shifting shaft is a radially penetrated hole that provides space to allow the pole to rise, and once the speed is set, the pawls 15, 25, 35 and 45 are spaced at an appropriate interval to operate. It is pre-programmed, here at 40 ° intervals for 9 speeds.
- the guide pin guide grooves 7c and 7d are through holes formed long in the axial direction.
- the rotational sidewall 7e of the pawl actuation hole 7b is involved in the pawls 15, 25, 35, 45 entering the respective pawl grooves 6c, with the shift shaft 7 rotating and the pawl 15,
- the poles (15, 25, 35, 45) in cooperation with the pole cam (25a, 25b) so as not to receive the rotational resistance received from the poles (15, 25, 35, 45) It inclines so that it may enter smoothly into the groove 6c.
- the pawls 15, 25, 35, 45 have a support point on the central axis 6 between the central axis 6 and the shifting shaft 7 and the sun gears 15, 25, 35 by control of the shifting shaft 7. It is a rotating member which is oriented toward 45 or immersed in the pole groove 6c of the central axis. On both shoulders of the poles are formed projections that support the poles and prevent the poles from deviating from their position.
- the pole guide cams 25a, 25b for guiding the poles 15, 25, 35, 45 into the pole groove 6c by the rotation of the transmission shaft 7 are poles 15, 25, 35, 45.
- the pawls 15, 25, 35, 45 are provided with a force to be generated by the springs 64a, 64b, 64c, 64d winding the poles, and the through hole 7b of the shift shaft has the poles 15, 25, 35, 45) occurs towards the sun gear (11, 21, 31, 41).
- the poles 15, 25, 35 and 45 are installed so that the directions occurring in the same planetary gear pair are opposite to each other in order to prevent the sun gears 11, 21, 31 and 41 from rotating.
- the input pole 15 of the input planetary gear pairs 1 and 2 is disposed to prevent the clockwise rotation of the sun gear 11 and the output pole 25. Is arranged to prevent rotation of the sun gear 21 in the counterclockwise direction.
- the output side planetary gear pairs 3 and 4 are also arranged such that the input side pole 35 prevents rotation of the sun gear 31 in the clockwise direction, and the output side pole 45 rotates in the counterclockwise direction of the sun gear 41. It is arranged to stop.
- the direct clutch guide rings 26 and 36 support the sun gears 21 and 31 in the axial direction surrounding the shift shaft 7 and press toward the guide rings 26 and 36, and the direct clutch guide pins 58a and 58b. In combination with the guide pin (58a, 58b) is installed to be able to swing in the axial direction.
- a bearing 63 is installed between the direct clutch guide rings 26 and 36 and the sun gears 21 and 31 to reduce friction generated when the sun gears 21 and 31 rotate.
- the direct clutch guide pins 58a and 58b are engaged with the direct clutch guide rings 26 and 36 and pass through a through hole 7c formed in the axial direction of the transmission shaft 7 to form a cam surface of the direct clutch guide groove formed on the central axis. Take 6b) and rotate with the shift shaft (7) and swing in the axial direction.
- the two-stage clutch guide ring 57 is installed to surround the shift shaft 7 and engage with the two-stage clutch guide pin 58c so as to swing in the axial direction along the guide pin 58c.
- the two-stage clutch guide pin 58c engages with the two-stage clutch guide ring 57 and passes through the two-stage clutch guide pin guide groove 7d, which is a through hole formed in the axial direction of the shift shaft 7, to the central shaft 6
- the two-speed clutch 55 and the two-stage direct clutch 56 are disposed on both sides of the two-stage clutch guide ring 57.
- the two-stage transmission clutch 55 is in contact with the two-stage clutch guide ring 57 under the pressing force of the spring 61 ° and is fixed to the central shaft 6 so as not to rotate, and thus the shaft along the two-stage clutch guide ring 57 is fixed.
- the jaw which is inclined so as to swing in the direction and prevents rotation in the clockwise direction is formed on the side toward the two-stage straight clutch 56.
- the two-stage direct clutch 56 is in contact with the two-stage clutch guide ring 57 under the pressing force of the spring 61c and is coupled to the two-stage clutch sun gear 51 so as not to rotate relative to the two-stage clutch guide ring 57.
- a sloping jaw is formed on the side toward the two-speed clutch 55 so as to oscillate in the axial direction and prevent rotation in the counterclockwise direction.
- the sun gears 11 and 41 are inclined grooves to provide grooves of the ratchet pawls 15 and 45 on the inner circumferential surface, and side walls are formed on one side of the gear. This side wall is positioned between the carriers 13 and 43 and the satellite gears 1242 to prevent the sun gears 11 and 41 from moving in the axial direction.
- Each of the sun gears 11, 41 is disposed at an axial position that engages the mating poles 15, 45, respectively, and the sun gear 11 has an internal inclination arranged to prevent clockwise rotation.
- the internal gear 41 is arranged to prevent rotation of the sun gear 41 in the counterclockwise direction.
- the sun gears 21 and 31 are formed with inclined grooves to provide grooves of the ratchet pawls 25 and 35 on the inner circumferential surface, and on one side of the sun gears 21 and 31 for preventing rotation in one direction.
- An inclined end is formed.
- Each of the sun gears 21 and 31 is disposed at an axial position that engages the mating poles 25 and 35, respectively, and the sun gear 21 is arranged with an internal inclination to prevent counterclockwise rotation.
- the inclined end of the side surface is arranged to protrude toward the sun gear 31 to prevent counterclockwise rotation, and the sun gear 31 is arranged to have an internal inclination so as to prevent counterclockwise rotation.
- the photographic stage is arranged to protrude toward the sun gear 21 to prevent clockwise rotation.
- the sun gears 21 and 31 are pressed by the springs 61a and 61b to surround and contact the direct clutch guide rings 26 and 36, and are simplified as the direct clutch clutch guide rings 26 and 36 swing in the axial direction. It is axially swinged to engage or separate from the direct clutch ring 38.
- the direct clutch ring 38 is rotatably coupled to the carrier 33 of the planetary gear between the two sun gears 31 and 21, and is coupled to the side projections of the sun gears 21 and 31 to form the sun gears 21 and 31.
- An axially inclined end for preventing rotation of the rod) is formed in both directions.
- On the side in contact with the sun gear 21 is formed an axially inclined end for preventing counterclockwise rotation of the sun gear 21, the clockwise direction of the sun gear 31 on the side in contact with the sun gear 31.
- An axially inclined end for preventing rotation is formed.
- the direct coupling clutch guide cam surface 6b When the direct coupling clutch guide cam surface 6b is flat and the direct coupling is separated, the position of the direct coupling clutch guide ring 26 pressurizes the sun gear 21 so that the sun gear 21 does not engage with the direct clutch ring 38. In the position where the direct clutch guide cam surface 7b is smoothly entered, the direct clutch guide ring 26 is advanced like the sun gear 21 by the pressing force of the spring 61a, and as a result, the direct clutch ring ( 38) and the sun gear 21 is combined.
- the direct coupling clutch guide cam surface 6b When the direct coupling clutch guide cam surface 6b is flat and the direct coupling is separated, the position of the direct coupling clutch guide ring 36 pressurizes the sun gear 31 so that the sun gear 31 does not engage with the direct clutch ring 38. In the position where the direct clutch guide cam surface 7b is smoothly entered, the direct clutch guide ring 36 moves forward like the sun gear 31 by the pressing force of the spring 61b, and as a result, the direct clutch ring ( 38) and the sun gear 31 is combined.
- the planetary gear assembly can make various stages such as 3 stages, 6 stages, 9 stages, 12 stages, 18 stages, etc. based on one planetary gear pair.
- a planetary gearbox providing 18 gear stages can be provided.
- Planetary gear pairs (1-2, 3-4) are composed of two planetary gears (1, 2 or 3, 4).
- One planetary gear acts as the input side of the planetary gear pair and the other planetary gear is planetary gear pair. It acts as the output side of.
- the sun gear of the planetary gear pair is used as a shift control element, and the carrier integrally coupled with the ring gear acts as the input side and the output side of the planetary gear pair.
- the input carrier 13 of the input planetary gear pair 1-2 has a through hole with a jaw for supporting and accommodating the sun gear 11, and a groove for accommodating three satellite gears 12. And three axial through holes for supporting the satellite gear shaft 29, each of which has a screw for engaging the sprocket on the outer circumferential surface protruding from one side of the carrier 13, and the bearing on the inner circumferential surface.
- a cylindrical member having a through hole is formed. Grooves for receiving the thrust bearings 27 are formed on the opposite side.
- the satellite gear 12 is fixed to the carrier 13 by a satellite gear shaft 29 fixed to three through-holes of the carrier by a snap ring 39, and installed to rotate like the carrier 13, and the sun gear 11 ),
- the side wall of the sun gear is supported by the support jaw of the carrier and is engaged with the satellite gear 12 to be fixed axially to the carrier to rotate.
- the output carrier 23 of the input planetary gear pair has a through-hole for accommodating the sun gear 21, and an axial through-hole for supporting three satellite gears 22 and a groove for the satellite gear shaft 29. Three holes are formed, respectively, and protruded projections are formed on one side to engage with the input carrier 33 of the output planetary gear pair 3-4. Grooves for receiving the thrust bearings 27 are formed on the opposite side.
- the satellite gear 22 is fixed to the carrier 23 by the satellite gear shaft 29 fixed to the three through holes of the carrier by the snap ring 39, and is installed to rotate like the carrier 23, and the sun gear 21 ) Is supported in the axial direction by a spring 61a in which the side wall of the sun gear is supported by the thrust bearing 27 and rotates in engagement with the satellite gear 22.
- the output side ring gear 24 extends radially and is rotatably coupled to the input carrier 13, and the input side ring gear 14 extends in the axial direction to surround the output side ring gear 24 and turn around the output carrier 23.
- the output carrier adapter 23a which is extended in the cross section), is rotatably coupled to the protrusions of the unevenness.
- the thrust bearing 27 is installed between the input carrier 13 and the output carrier 23 to maintain a gap therebetween and support a spring pressurized to the sun gear 21.
- the input carrier 33 of the output side oil gear pair 3-4 which is rotatably coupled with the input planetary gear pair 1-2, has a through hole for accommodating the sun gear 31, and has three satellite gears ( 32 and three axial through-holes for supporting the satellite gear shaft 29 are formed on each side, and the output carrier 23 and the direct clutch of the input planetary gear pair 1-2 are provided on one side. Protruding protrusions are formed to engage the ring 38. On the opposite side, a groove is formed for receiving the thrust bearing 37.
- the satellite gear 32 is fixed to the carrier 33 by a satellite gear shaft 29 fixed to three through-holes of the carrier by a snap ring 39, and installed to rotate like the carrier 33, and the sun gear 31 ) Is axially supported by a spring 61b in which the side wall of the sun gear is supported by the thrust bearing 37 and rotates in engagement with the satellite gear 32.
- the output carrier 43 of the output side oil gear pair 3-4 has a through hole with a jaw for supporting and accommodating the sun gear 41, and a groove and satellite gear for accommodating three satellite gears 42.
- Three axial through holes for supporting the shaft 29 are formed, respectively, and one side of the carrier 43 is provided with a protruding protrusion for engaging with the two-stage clutch sun gear 51.
- a groove is formed for receiving the thrust bearing 37.
- the satellite gear 42 is fixed to the carrier by a satellite gear shaft 29 fixed to three through-holes of the carrier 43 by the snap ring 39, and installed to rotate like the carrier 43, and the sun gear 41. ),
- the side wall of the sun gear is supported by the support jaw of the carrier 43 and is engaged with the satellite gear 42 to be fixed in the axial direction to the carrier 43 to rotate.
- the input side ring gear 34 extends radially and is rotatably coupled to the output carrier 43, and the output side ring gear 44 extends in the axial direction to surround the input side ring gear 34 and turn around the input carrier 33.
- the input carrier adapter 33a which is extended in step 1), is rotatably coupled to the protrusions of the unevenness.
- the thrust bearing 37 is installed between the input carrier 33 and the output carrier 43 to maintain a gap therebetween and support a spring pressurized to the sun gear 31.
- the two-speed planetary gear 5 may use one of the sun gear 51 and the carrier 53 as a fixed element, and the input element may use a sun gear, a carrier, a ring ear, and the output element may be a ring gear.
- Carriers may be used.
- a sun gear as a fixed element, it can be configured by selecting one of deceleration and direct connection, and acceleration and direct connection.
- deceleration and direct transmission are possible. In case of deceleration, double satellite gear is used.
- the carrier 53 is used as a fixed element to configure deceleration and direct shift, and the carrier 53 operates with both clutches.
- the carrier 53 surrounds the two-stage clutch guide ring 57 between the two-speed clutch 55 and the two-stage direct clutch 56 and has a groove for accommodating the satellite gear 52 and the satellite gear 52.
- an inclined jaw is formed on the side wall of the carrier 53 to prevent counterclockwise rotation of the carrier by engaging the two-speed clutch 55.
- the side wall facing 4) has a jaw that is inclined to rotate in combination with the two-stage direct clutch 56 in combination with the clockwise rotation of the two-stage direct clutch 56.
- the carrier 53 is fixed and held in the axial position by the thrust bearing 59 and the two-stage clutch sun gear 51 supported from the housing 10.
- the satellite gear 52 is fixed to the carrier 53 by the satellite gear shaft 29 and meshes with the two-stage clutch sun gear 51 and the ring gear 54 to rotate like the carrier.
- the two-stage clutch sun gear 51 is rotatably coupled with the output carrier 43 of the output side oil gear pair 3-4 to support the side wall of the carrier 53, and surrounds the two-stage direct clutch 56. Relatively rotate so that they cannot be rotated together.
- the two-stage clutch 55 and the two-stage direct clutch 56 move together in the axial direction.
- the two-stage clutch guide pin (58c) is in the first rotation guide groove (6d1)
- the two-stage direct clutch 56 is advanced toward the carrier 53, the two-stage clutch (56).
- the carrier 53 is integrated with the sun gear 51 to operate integrally, so that the carrier 53 is directly connected, and when the two-stage clutch guide pin 58c is in the two-turn guide groove 6d2, two-speed The clutch 55 is advanced toward the carrier 53 and engaged with the two-speed clutch 55 so that the carrier 53 is fixed to the central shaft 6 and shifted.
- the ring gear 54 is coupled to the housing 10 which is the hub of the transmission so as not to rotate relatively, so that the housing 10 rotates when the rotational force of the satellite gear 52 is transmitted.
- the housing 10 includes a housing surrounding the planetary gear assembly, having a flange coupled to the ring gear 54 and a flange for transmitting power to the wheels, and a lid sealing the housing so as to isolate the planetary gear assembly from the outside and to shield the material from the hazard. 10a).
- the housing 10 is supported by a bearing 18a fixed to the central shaft 6 with a fixing nut 17a, and the lid 10a is fixed to the input carrier 13 by a sprocket 9 to rotate. Supported by 8c, the housing 10 and the lid 10a rotate together.
- a transmission configured to be installed around a bicycle crank.
- the housing 10 'of the transmission is installed close to the crank and not rotated with respect to the frame.
- the rotational force of the crank is transmitted to the input side 9 'of the transmission via the chain or belt 60.
- the fifth planetary gear is configured such that the sun gear 51 'acts as both clutches using the sun gear 51' as a fixed element and is directly accelerated and shifted using a single satellite gear.
- power is transmitted to the rear wheels through the sprockets or the belt 61.
- the planetary gear assembly was constructed by using the four planetary gears as shown in Table 1.
- the shift shafts formed through holes in the main surface as shown in the clutch numbers 15, 25, 35 and 45 of Table 2, and each stage was arranged at intervals of 40 degrees, and each stage was opened at 50 degrees width. The overlap is shared, so there is no problem with the operation of the poll.
- the central shaft forms an axial cam groove on the main surface of the central shaft as shown in the clutch numbers 26 and 36 in Table 2, and each end is arranged at an interval of 40 degrees.
- the clutch numbers 15, 25, and 26 in Table 2 are used as a pair, and the output planetary gear pairs are configured as a pair of 36, 35, and 45, and the speed increase of each stage is 13.3% It increased relatively uniformly at 13.8% at 29% and at 29% at both ends, and the speed of change was 356%.
- Example 1 Based on Example 1, a transmission having a uniform shift width was designed. In the configuration of Table 1 and Table 2, except for the two gears with large shifting widths, two-speed planetary gears are added to the gears as shown in Table 3. Configured.
- each stage is composed of 7 stages in one rotation, the interval of each stage is arranged at 51.4 °, and when the two stage clutch reduction ratio is set to 0.413, the speed increase of each stage is relatively uniform from 13.3% to 13.8%, and the speed of change is wide at 519% Achieve a speed change zone.
- the 18-speed gearbox is designed as shown in Table 7 based on the 9-speed gearbox as shown in Tables 5 and 6.
- the shift increase increases relatively uniformly from 11.4% to 12.3% except for both ends, and the shift width is 538 A wide shift range is achieved in%. In addition, including both ends, the shift width was 841% to achieve a wide shift range. In this embodiment, it should be noted that the nine stages and the ten stages which are actually operated are reversed.
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Abstract
Description
기어 번호 | 잇 수 | |
태양기어 | 11, 21 | 27 |
31, 41 | 36 | |
유성기어 | 12, 22 | 30 |
32, 42 | 21 | |
내치기어 | 14, 24 | 93 |
34, 44 | 78 |
변속단 | 클러치 번호(변속비) | 입출력변속비 | 변속비증가율(%) | |||||
15(1.290) | 25(0.775) | 26(1.000) | 36(1.000) | 35(1.463) | 45(0.684) | |||
1단 | X | X | 1.887 | |||||
2단 | X | X | 1.463 | 29.1 | ||||
3단 | X | X | 1.290 | 13.3 | ||||
4단 | X | X | 1.134 | 13.8 | ||||
5단 | X | X | 1.000 | 13.4 | ||||
6단 | X | X | 0.882 | 13.4 | ||||
7단 | X | X | 0.775 | 13.8 | ||||
8단 | X | X | 0.684 | 13.4 | ||||
9단 | X | X | 0.530 | 29.0 |
기어 번호 | 잇 수 | |
태양기어 | 11, 21, 51 | 27 |
31, 41 | 36 | |
유성기어 | 12, 22 | 30 |
32, 42 | 21 | |
52a, 52b | 18 | |
내치기어 | 14, 24 | 93 |
34, 44 | 78 | |
54 | 66 |
변속단 | 클러치 번호(변속비) | 입출력변속비 | 변속비증가율(%) | |||||||
15(1.290) | 25(0.775) | 26(1.000) | 36(1.000) | 35(1.463) | 45(0.684) | 55(0.413) | 56(1.00) | |||
1단 | X | X | X | 1.463 | ||||||
2단 | X | X | X | 1.290 | 13.3 | |||||
3단 | X | X | X | 1.134 | 13.8 | |||||
4단 | X | X | X | 1.000 | 13.4 | |||||
5단 | X | X | X | 0.882 | 13.4 | |||||
6단 | X | X | X | 0.775 | 13.8 | |||||
7단 | X | X | X | 0.684 | 13.4 | |||||
8단 | X | X | X | 0.604 | 13.3 | |||||
9단 | X | X | X | 0.532 | 13.3 | |||||
10단 | X | X | X | 0.468 | 13.8 | |||||
11단 | X | X | X | 0.413 | 13.4 | |||||
12단 | X | X | X | 0.364 | 13.4 | |||||
13단 | X | X | X | 0.320 | 13.8 | |||||
14단 | X | X | X | 0.282 | 13.4 |
기어 번호 | 잇 수 | 비 고 | |
태양기어 | 11, 21 | 24 | |
31, 41 | |||
51 | 30 | 9단 제외 | |
유성기어 | 12, 22 | 36 | |
32, 42, 52a, 52b | 18 | 52a, 52b는 9단에서 제외 | |
내치기어 | 14, 24 | 96 | |
34, 44 | 60 | ||
54 | 81 | 9단 제외 |
변속단 | 클러치 번호(변속비) | 입출력변속비 | 변속비증가율(%) | |||||
15(1.25) | 25(0.8) | 26(1.00) | 36(1.00) | 35(1.4) | 45(0.714) | |||
1단 | X | X | 1.750 | |||||
2단 | X | X | 1.400 | 25.0 | ||||
3단 | X | X | 1.250 | 12.0 | ||||
4단 | X | X | 1.120 | 11.6 | ||||
5단 | X | X | 1.000 | 12.0 | ||||
6단 | X | X | 0.893 | 12.0 | ||||
7단 | X | X | 0.800 | 11.6 | ||||
8단 | X | X | 0.714 | 12.0 | ||||
9단 | X | X | 0.571 | 25.0 |
변속단 | 클러치 번호(변속비) | 입출력변속비 | 변속비증가율(%) | |||||||
15(1.25) | 25(0.8) | 26(1.00) | 36(1.00) | 35(1.4) | 45(0.714 | 55(0.363) | 56(1.0) | |||
1단 | X | X | X | 1.750 | ||||||
2단 | X | X | X | 1.400 | 25.0 | |||||
3단 | X | X | X | 1.250 | 12.0 | |||||
4단 | X | X | X | 1.120 | 11.6 | |||||
5단 | X | X | X | 1.000 | 12.0 | |||||
6단 | X | X | X | 0.893 | 12.0 | |||||
7단 | X | X | X | 0.800 | 11.6 | |||||
8단 | X | X | X | 0.714 | 12.0 | |||||
9단 | X | X | X | 0.636 | 12.3 | |||||
10단 | X | X | X | 0.571 | 11.4 | |||||
11단 | X | X | X | 0.509 | 12.2 | |||||
12단 | X | X | X | 0.455 | 11.9 | |||||
13단 | X | X | X | 0.407 | 11.8 | |||||
14단 | X | X | X | 0.364 | 11.8 | |||||
15단 | X | X | X | 0.325 | 12.0 | |||||
16단 | X | X | X | 0.291 | 11.7 | |||||
17단 | X | X | X | 0.260 | 11.9 | |||||
18단 | X | X | X | 0.208 | 25.0 |
Claims (29)
- 프레임에 회전하지 않게 설치된 중심축과; 상기 중심축에 회전 가능하게 동축상에 장착된 입력부재와; 상기 입력부재와 결합하여 상기 중심축에 회전 가능하게 동축상에 정렬되고, 태양기어와 링기어와 캐리어와 위성기어를 갖는 유성기어를 적어도 2 조 이상 갖는 유성기어 조립체와; 상기 태양기어가 주변부재 중 적어도 어느 하나와 선택적으로 결합하고 분리되는 것에 관여하는 축방향 클러치와, 상기 태양기어가 상기 중심축과 선택적으로 결합하고 분리되는 것에 관여하는 회전방향 클러치 중 적어도 하나 이상을 상기 각각의 태양기어에 대응하여 배치하는 클러치 조립체와; 중공부와 다수의 반경방향 관통구멍을 갖고, 상기 중심축을 감싸고 회전하여 회전방향 위치를 선택하는 것으로서 상기 클러치 조립체의 작동에 관여하는 변속축과; 상기 유성기어 조립체를 상기 중심축에 회전 가능하게 동축상에 장착된 허브;를 포함하고, 상기 변속축의 회전방향 위치에 따라 상기 입력부재와 상기 다단기어 변속장치의 출력부재 사이에 두 개 이상의 기어비를 제공하는 다단기어변속장치
- 제 1항에 있어서, 상기 유성기어 조립체는 다수의 오목한 결합면을 가져 중심축과 선택적으로 연결될 수 있는 복수의 태양기어를 갖는 유성기어가 상호 간에 축 방향으로 서로 거리를 두고 배치되며, 상기 중심축의 홈에 지지가 되어 상기 태양기어에 대응되는 복수의 폴과 복수의 변속축 관통구멍은 상기 각각의 태양기어에 대응하는 축 방향의 공간에 배치되는 다단기어변속장치
- 제 1항에 있어서, 상기 축방향 클러치는 축방향 결합 돌기를 갖는 상기 태양기어와 상기 태양기어의 돌기에 대응하는 결합 돌기를 갖는 주변부재 중 적어도 하나는 상기 변속축과 중심축의 회전방향 위치에 따라 축 방향으로 이동 가능하게 구성되어, 상기 태양기어와 상기 주변부재가 상호결합 또는 분리될 수 있는 다단기어변속장치
- 제 3항에 있어서, 상기 태양기어 또는 상기 주변부재가 축방향으로 이동 가능하게 구성하기 위해, 상기 중심축에 원주방향으로 파인 홈에 축방향으로 파인 캠면을 갖는 안내홈과, 상기 변속축의 축방향으로 파인 관통구멍을 따라 회전하며 상기 캠면을 따라 축방향으로 이동하는 안내핀과, 상기 변속축을 감싸고 상기 안내핀을 수용하여 상기 안내핀을 따라 이동하며 상기 태양기어 또는 상기 주변부재를 클러치가 분리되는 방향으로 지지하는 안내링과, 클러치가 결합하는 방향으로 가압하는 스프링을 갖는 다단기어변속장치
- 제 4항에 있어서, 상기 축방향 클러치를 두 개 이상 가진 다단기어변속장치
- 제 4항에 있어서, 상기 축방향으로 파인 캠면은 안내핀과 대응하고, 변속축을 회전시킴으로써 안내링의 도움을 받아 선택될 수 있는 모든 기어비율이 미리 선택 가능한 연속된 순서로 선택될 수 있는 방식으로 중심축의 원주상에 미리 선택된 프로그램에 따라 축방향 캠이 배열되는 다단기어변속장치
- 제 1항에 있어서, 상기 회전방향 클러치는 상기 태양기어가 상기 변속축과 접하는 내주면에 오목한 다수의 결합면과, 상기 중심축에 지지가 되어 상기 결합면과 선택적으로 결합할 수 있거나 분리될 수 있는 폴과, 상기 폴을 제어하는 데 관여하는 다수의 반경방향 관통구멍을 갖는 상기 변속축으로 구성된 다단기어변속장치
- 제 7항에 있어서, 중심축은 원주방향으로 확장되고 폴를 받아드리도록 고안된 폴 홈(guide slit)을 적어도 하나 이상 가지며 아울러 중심축을 가로지르며 횡단하게 안배한 폴지지홈이 있어 폴은 변속축과 폴 홈 내에 위치하고 폴지지홈을 중심으로 회전할 수 있게 장착되어 있으며, 변속축의 관통구멍이 열렸을 때 폴이 태양기어의 결합면과 결합하는 다단기어변속장치
- 제 1항에 있어서, 중심축과 주변부재 사이에서 둘 중 하나와 결합하기 위해 양쪽 방향으로 축방향 결합 돌기를 갖는 양방향 부재와, 상기 양방향 부재의 돌기에 대향하는 결합 돌기를 갖고 중심축에 회전 불가능하게 결합하여 축방향으로 이동 가능한 2단변속클러치와, 상기 양방향 부재의 돌기에 대향하는 결합 돌기를 갖고 축방향으로 이동 가능한 2단직결클러치로 구성되고, 상기 2단변속클러치와 상기 2단직결클러치는 상기 변속축과 상기 중심축이 이루는 회전방향 위치에 따라 축 방향으로 이동 가능하게 구성되어, 양방향 부재가 2단변속클러치과 2단직결클러치 중 어느 하나와 결합하는 2단 클러치를 더 포함하는 다단기어변속장치
- 제 9항에 있어서, 상기 2단 클러치는 상기 2단변속클러치와 2단직결클러치가 축방향으로 이동 가능하게 구성하기 위해, 상기 중심축에 원주방향으로 2 회전하여 파인 홈을 갖는 안내홈과, 상기 변속축의 축방향으로 파인 관통구멍을 따라 회전하며 상기 안내홈을 따라 축방향으로 이동하는 안내핀과, 상기 2단변속클러치와 2단직결클러치 사이에서 둘의 간격을 유지하며 상기 변속축을 감싸고 상기 안내핀을 수용하여 상기 안내핀을 따라 이동하는 안내링과, 상기 2단변속클러치와 2단직결클러치가 양방향 부재와 결합하는 방향으로 가압하는 두 개의 스프링을 가져, 변속축의 1회전 안내홈에서 상기 양방향 부재와 2단직결클러치가 결합하고, 변속축의 2회전 안내홈에서 양방향 부재와 2단변속클러치가 결합하는 다단기어변속장치
- 제 9항에 있어서, 상기 양방향 부재는 상기 태양기어 또는 위성 캐리어 중 어느 하나인 다단기어변속장치
- 제 3항 또는 제 9항에 있어서, 상기 결합돌기는 한쪽이 경사진 톱니 배열을 하고 있고 축 방향으로 스프링에 의해 압축응력을 받고 있어 한쪽 방향의 회전에 결합하여 같이 회전하고, 반대쪽 방향의 회전에 경사진 톱니가 미끄러져 분리되는 톱니 배열을 갖는 다단기어변속장치
- 제 1항에 있어서, 상기 다단기어변속장치는 9단 변속기로 고안되었으며 9단의 기어비는 변속축의 1회전에 의해 선택할 수 있는 다단기어변속장치
- 제 13항에 있어서, 상기 9단 변속기는 4조의 유성기어와 2개의 축방향 클러치와 4개의 회전방향 클러치로 구성된 것인 다단기어변속장치
- 제 1항에 있어서, 상기 다단기어변속장치는 18단 변속기로 고안되었으며 18단의 기어비는 중심축의 2회전 안내홈과 변속축의 2회전에 의해 선택할 수 있는 다단기어변속장치
- 제 15항에 있어서, 상기 18단 변속기는 5조의 유성기어와 2개의 축방향 클러치와 4개의 회전방향 클러치와 한개의 2단 클러치로 구성된 것인 다단기어변속장치
- 제 2항에 있어서, 상기 중심축은 상기 폴을 지지하고 회전할 수 있게 축방향으로 형성된 폴지지홈과 상기 폴을 중심축 내에 몰입시킬 수 있도록 형성된 폴 홈과 상기 폴이 태양기어의 결합면을 향해 일어서기 위해 압축응력을 주는 스프링을 수용하기 위한 스프링 홈을 갖고, 원주방향으로 파인 홈에 축방향으로 파인 캠면을 갖는 안내홈이 형성된 것인 다단기어변속장치
- 제 17항에 있어서, 상기 중심축은 원주방향으로 2 회전하여 파인 2 회전 안내홈이 더 형성된 것인 다단기어변속장치
- 제 17항에 있어서, 상기 중심축은 회전축을 수용하는 축방향 관통 구멍을 가져 상기 회전축과 입력부재가 같이 회전할 수 있게 지지하는 것인 다단기어변속장치
- 제 1항에 있어서, 상기 변속축은 주면에 형성된 관통구멍이 폴과 대응하고, 변속축을 회전시킴으로써 폴(74)과 관통구멍이 만나 태양기어가 고정함으로써 선택될 수 있는 모든 기어비율이 미리 선택 가능한 연속된 순서로 선택될 수 있는 방식으로 변속축의 원주상에 미리 선택된 프로그램에 따라 관통구멍이 배열되는 다단기어변속장치
- 제 2항에 있어서, 상기 변속축은 상기 폴이 상기 태양기어와 결합하는 방향으로 회전을 허용하는 폴 관통구멍와 상기 축방향 클러치를 작동시키는 직결클러치 안내핀을 안내하기 위해 축방향으로 형성된 직결클러치 안내핀 안내홈이 주면에 형성된 것인 다단기어변속장치
- 제 21항에 있어서, 상기 폴 관통구멍의 회전방향 측벽 일부는 폴이 태양기어의 결합면과 결합되어 있는 상태를 제거하기 위해 즉 분리시키기 위해 고안된 것인 다단기어변속장치
- 제 21항에 있어서, 상기 2단 클러치를 작동시키는 2회전 안내핀을 안내하기 위해 축방향으로 형성된 2회전 안내핀 관통구멍이 주면에 더 형성된 것인 다단기어변속장치
- 제 2항에 있어서, 상기 태양기어는 환상의 부품이며 변속축 위에 회전 가능하게 장착되고 그 내주면에 상기 폴과 결합하기 위해 다수의 오목한 결합면이 제공되고, 폴의 범위에서 결합면에서 라켓이 분리되는 것을 안전하게 확보해 주는 다단기어변속장치
- 제 24항에 있어서, 상기 태양기어는 측면에 한쪽이 경사진 톱니 배열을 하고 있고 축 방향으로 스프링에 의해 압축응력을 받고 있어 한쪽 방향의 회전에 결합하여 같이 회전하고, 반대쪽 방향의 회전에 톱니가 미끄러져 분리되는 톱니 배열을 갖는 축방향 결합돌기를 더 갖는 것인 다단기어변속장치
- 제 7항에 있어서, 상기 폴의 양쪽 어깨에는 폴을 지지하고 폴이 자기의 위치에서 이탈하지 않도록 돌기가 형성되어 있으며, 상기 폴이 태양기어의 결합면을 향해 일어서기 위해 압축응력을 주는 스프링을 수용하기 위한 스프링 홈을 갖는 것인 다단기어변속장치
- 제 7항에 있어서, 상기 폴은 상기 태양기어의 결합면과 결합한 폴결합면을 향하여 회전하는 변속축 관통구멍의 측벽에 의해 폴이 상기 폴 홈에 몰입되도록 안내하는 몰입캠면을 더 갖는 것인 다단기어변속장치
- 제 27항에 있어서, 상기 폴의 몰입캠면은 폴이 완전히 일어났을 때에 캠면의 최저점이 변속축의 내주면을 지나치지 않는 볼록한 곡면이고, 변속축의 측벽과 변속축의 법선이 이루는 각이 45°이상을 이루는 것인 다단기어변속장치
- 제 7항에 있어서, 상기 폴이 상기 태양기어의 결합면과 결합하는 방향으로 회전하기 위한 압축응력을 제공하는 스프링 부재를 갖는 다단기어변속장치
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2010800316377A CN102483138A (zh) | 2009-05-26 | 2010-05-26 | 多级变速装置 |
JP2012512971A JP2012528285A (ja) | 2009-05-26 | 2010-05-26 | 多段ギア変速装置 |
US13/322,560 US20120172171A1 (en) | 2009-05-26 | 2010-05-26 | Multistage transmission |
DE112010001835T DE112010001835T5 (de) | 2009-05-26 | 2010-05-26 | Mehrstufiges Getriebe |
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
KR10-2009-0046150 | 2009-05-26 | ||
KR20090046150 | 2009-05-26 | ||
KR10-2009-0063882 | 2009-07-14 | ||
KR20090063882 | 2009-07-14 |
Publications (2)
Publication Number | Publication Date |
---|---|
WO2010137880A2 true WO2010137880A2 (ko) | 2010-12-02 |
WO2010137880A3 WO2010137880A3 (ko) | 2011-03-31 |
Family
ID=43223248
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/KR2010/003344 WO2010137880A2 (ko) | 2009-05-26 | 2010-05-26 | 다단기어변속장치 |
Country Status (6)
Country | Link |
---|---|
US (1) | US20120172171A1 (ko) |
JP (1) | JP2012528285A (ko) |
KR (1) | KR101202179B1 (ko) |
CN (1) | CN102483138A (ko) |
DE (1) | DE112010001835T5 (ko) |
WO (1) | WO2010137880A2 (ko) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102261440A (zh) * | 2011-08-01 | 2011-11-30 | 魏波 | 无级变速器 |
Families Citing this family (8)
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ES2543452T3 (es) * | 2012-11-13 | 2015-08-19 | Ims Gear Gmbh | Engranaje planetario con varias etapas de engranaje |
KR101498923B1 (ko) * | 2013-05-02 | 2015-03-12 | (주)일지테크 | 다단기어 변속장치 |
US9879761B2 (en) * | 2014-10-30 | 2018-01-30 | Deere & Company | Powershift transmission with twenty-seven forward modes |
EP3439947B1 (en) * | 2016-04-05 | 2019-09-18 | JustRide | Hub gear |
DE102016225145A1 (de) * | 2016-12-15 | 2018-06-21 | Zf Friedrichshafen Ag | Getriebe für ein Fahrrad |
DE102016225169A1 (de) * | 2016-12-15 | 2018-06-21 | Zf Friedrichshafen Ag | Getriebe für ein Fahrrad |
CN109899565B (zh) | 2017-12-11 | 2021-02-02 | 浙江三花汽车零部件有限公司 | 一种电动阀 |
CN110033692B (zh) * | 2019-04-28 | 2021-03-30 | 重庆理工大学 | 一种行星齿轮机构运动教学装置 |
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- 2010-05-26 WO PCT/KR2010/003344 patent/WO2010137880A2/ko active Application Filing
- 2010-05-26 JP JP2012512971A patent/JP2012528285A/ja active Pending
- 2010-05-26 KR KR1020100049373A patent/KR101202179B1/ko not_active IP Right Cessation
- 2010-05-26 CN CN2010800316377A patent/CN102483138A/zh active Pending
- 2010-05-26 DE DE112010001835T patent/DE112010001835T5/de not_active Ceased
- 2010-05-26 US US13/322,560 patent/US20120172171A1/en not_active Abandoned
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Also Published As
Publication number | Publication date |
---|---|
KR101202179B1 (ko) | 2012-11-16 |
KR20100127734A (ko) | 2010-12-06 |
US20120172171A1 (en) | 2012-07-05 |
DE112010001835T5 (de) | 2012-06-06 |
CN102483138A (zh) | 2012-05-30 |
WO2010137880A3 (ko) | 2011-03-31 |
JP2012528285A (ja) | 2012-11-12 |
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