WO2014098228A1 - 車両 - Google Patents
車両 Download PDFInfo
- Publication number
- WO2014098228A1 WO2014098228A1 PCT/JP2013/084285 JP2013084285W WO2014098228A1 WO 2014098228 A1 WO2014098228 A1 WO 2014098228A1 JP 2013084285 W JP2013084285 W JP 2013084285W WO 2014098228 A1 WO2014098228 A1 WO 2014098228A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- front wheel
- body frame
- vehicle
- frame
- cross member
- Prior art date
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
- B62K—CYCLES; CYCLE FRAMES; CYCLE STEERING DEVICES; RIDER-OPERATED TERMINAL CONTROLS SPECIALLY ADAPTED FOR CYCLES; CYCLE AXLE SUSPENSIONS; CYCLE SIDE-CARS, FORECARS, OR THE LIKE
- B62K5/00—Cycles with handlebars, equipped with three or more main road wheels
- B62K5/02—Tricycles
- B62K5/05—Tricycles characterised by a single rear wheel
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
- B62K—CYCLES; CYCLE FRAMES; CYCLE STEERING DEVICES; RIDER-OPERATED TERMINAL CONTROLS SPECIALLY ADAPTED FOR CYCLES; CYCLE AXLE SUSPENSIONS; CYCLE SIDE-CARS, FORECARS, OR THE LIKE
- B62K5/00—Cycles with handlebars, equipped with three or more main road wheels
- B62K5/02—Tricycles
- B62K5/027—Motorcycles with three wheels
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
- B62K—CYCLES; CYCLE FRAMES; CYCLE STEERING DEVICES; RIDER-OPERATED TERMINAL CONTROLS SPECIALLY ADAPTED FOR CYCLES; CYCLE AXLE SUSPENSIONS; CYCLE SIDE-CARS, FORECARS, OR THE LIKE
- B62K5/00—Cycles with handlebars, equipped with three or more main road wheels
- B62K5/02—Tricycles
- B62K5/06—Frames for tricycles
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
- B62K—CYCLES; CYCLE FRAMES; CYCLE STEERING DEVICES; RIDER-OPERATED TERMINAL CONTROLS SPECIALLY ADAPTED FOR CYCLES; CYCLE AXLE SUSPENSIONS; CYCLE SIDE-CARS, FORECARS, OR THE LIKE
- B62K5/00—Cycles with handlebars, equipped with three or more main road wheels
- B62K5/08—Cycles with handlebars, equipped with three or more main road wheels with steering devices acting on two or more wheels
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
- B62K—CYCLES; CYCLE FRAMES; CYCLE STEERING DEVICES; RIDER-OPERATED TERMINAL CONTROLS SPECIALLY ADAPTED FOR CYCLES; CYCLE AXLE SUSPENSIONS; CYCLE SIDE-CARS, FORECARS, OR THE LIKE
- B62K5/00—Cycles with handlebars, equipped with three or more main road wheels
- B62K5/10—Cycles with handlebars, equipped with three or more main road wheels with means for inwardly inclining the vehicle body on bends
Definitions
- the present invention relates to a vehicle provided with a leanable body frame and two front wheels.
- the vehicle described in Patent Document 1 includes a body frame that can tilt and two front wheels. Further, the vehicle includes a link mechanism that supports the two front wheels so as to be displaceable in the vertical direction of the body frame.
- the leanable vehicle body frame includes a link support portion that supports the link mechanism.
- the vehicle body frame includes an upper front and rear frame portion extending from the lower portion of the link support portion toward the rear in the front-rear direction of the vehicle body frame, and an upper and lower portion extending from the rear portion of the upper front and rear frame portion to the lower portion in the vertical direction of the vehicle body frame.
- a frame portion and a lower front and rear frame portion extending from the lower portion of the upper and lower frame portions toward the rear in the front-rear direction of the body frame are included.
- the link mechanism includes an upper cross member whose intermediate portion is rotatably supported by the link support portion, and a lower cross member disposed below the upper cross member and whose intermediate portion is rotatably supported by the link support portion. Yes.
- the link mechanism includes a right side member that is rotatably supported by the right end portions of the upper cross member and the lower cross member, and a left side member that is rotatably supported by the left end portions of the upper cross member and the lower cross member. Yes.
- the right side member supports the right front wheel via the right shock absorber.
- the left side member supports the left front wheel via a shock absorber.
- the upper cross member, the lower cross member, the right side member, and the left side member are disposed above the right front wheel and the left front wheel in the vertical direction of the vehicle body frame.
- the upper cross member and the lower cross member are inclined to the front-rear direction of the body frame, and are supported by the link support portion so that the front is rotatable about the upper intermediate axis and the lower intermediate axis positioned above the rear. .
- the upper cross member, the lower cross member, the right side member, and the left side member are disposed above the right front wheel and the left front wheel, not between the right front wheel and the left front wheel. . Therefore, the interval between the right front wheel and the left front wheel can be reduced. As a result, the size of the vehicle in the left-right direction can be reduced.
- the vehicle described in Patent Document 1 includes a link mechanism that supports two front wheels so that they can be displaced in the vertical direction of the body frame.
- the upper cross member and the lower cross member are inclined to the front-rear direction of the vehicle body frame, and are supported by the link support portion so that the front is rotatable about the upper intermediate axis and the lower intermediate axis positioned above the rear. . Therefore, when the link mechanism operates and the right front wheel or the left front wheel moves upward in the vertical direction of the body frame, it moves backward in the longitudinal direction of the body frame. Further, the right front wheel and the left front wheel rotate by steering while moving rearward. Therefore, the upper and lower frame portions of the body frame are provided at positions avoiding interference with the right front wheel and the left front wheel.
- An object of the present invention is to provide a vehicle having a tiltable body frame and two front wheels, which can reduce the size of the vehicle in the left-right direction and the front-rear direction.
- the upper cross member In a vehicle upright state, the upper cross member disposed above the right front wheel and the left front wheel, the upper cross member disposed below the vehicle body frame in the vertical direction, and disposed above the right front wheel and the left front wheel.
- a lower cross member, and an upper portion is rotatably supported by the right portion of the upper cross member, and a lower portion is rotatably supported by the right portion of the lower cross member, and is disposed above the right front wheel and the left front wheel.
- An upper front / rear frame portion extending rearward in the front / rear direction, an upper / lower frame portion extending downward in the vertical direction of the body frame from a rear portion of the upper front / rear frame portion, and a lower front / rear frame portion extending rearward from the lower portion of the upper / lower frame portion
- the vehicle body frame that can tilt in the left-right direction of the vehicle
- the steering wheel is provided at the upper part, is rotatably supported by the link support part, and the lower part is located in front of the body frame in the front-rear direction from the upper part, and a steering shaft
- the link support portion of the vehicle body frame has an acute angle formed by a virtual plane perpendicular to the rotation axis of the upper cross member and the lower cross member and the vertical direction of the vehicle body frame and the rotation axis of the steering shaft and the vehicle body frame.
- the upper cross member and the lower cross member are rotatably supported in a mode that is smaller than an acute angle formed in the vertical direction
- the upper and lower frame parts of the body frame are An upper end of the front edge is disposed in front of a virtual plane parallel to the rotation axis of the steering shaft and in contact with a rear portion of the right front wheel and the left front wheel in a vehicle upright state,
- the width in the left-right direction between the upper end and the lower end of the front edge is formed smaller than the interval between the right front wheel and the left front wheel
- An acute angle formed by an imaginary line passing through the upper end and the lower end and the vertical direction of the body frame is formed to be smaller than an acute angle formed by the rotation axis of the steering shaft and the vertical direction of the body frame.
- the link support portion of the vehicle body frame has an acute angle formed by a virtual plane perpendicular to the rotation axis of the upper cross member and the lower cross member and the vertical direction of the vehicle body frame and the rotation axis of the steering shaft and the vehicle body.
- the upper cross member and the lower cross member are rotatably supported in a manner that is smaller than an acute angle formed in the vertical direction of the frame. Therefore, even if the link mechanism operates and the right front wheel or the left front wheel moves upward, the amount of rearward movement can be reduced.
- the upper and lower frame portions of the vehicle body frame are moved forward.
- the upper edge of the rim is parallel to the rotation axis of the steering shaft and is placed in front of a virtual plane in contact with the rear part of the right front wheel and the left front wheel in the vehicle upright state, and the lateral width between the upper edge and the lower edge of the front edge is It is smaller than the distance between the left front wheels.
- the virtual line passing through the upper and lower ends of the upper and lower frame part And an acute angle formed by the vertical direction of the vehicle body frame is smaller than an acute angle formed by the rotation axis of the steering shaft and the vertical direction of the vehicle body frame.
- the acute angle formed by the movement trajectory of the rear end of the right front wheel and the left front wheel and the vertical direction of the vehicle body frame, and the acute angle formed by the front edge of the vertical frame portion and the vertical direction of the vehicle body frame, Is smaller than the acute angle formed by the axis of rotation of the steering shaft and the vertical direction of the body frame. Therefore, while avoiding interference between the vehicle body frame and the right front wheel and the left front wheel, the movement trajectory of the rear ends of the right front wheel and the left front wheel and the front edge of the upper and lower frame portions can be brought closer in the front-rear direction of the vehicle body frame. Therefore, the wheel base of the vehicle can be reduced, and the size of the vehicle in the front-rear direction can be reduced.
- the width in the left-right direction between the upper and lower ends of the upper and lower frame portions is reduced, the front edge of the upper and lower frame portions is suppressed while increasing the distance between the right front wheel and the left front wheel in order to arrange the upper and lower frame portions. Interference between the upper end of the wheel and the right front wheel and the left front wheel can be suppressed.
- the rear end of the right front wheel and the left front wheel can be moved while avoiding interference between the vehicle body frame and the right front wheel and the left front wheel by devising the link support portion and the upper and lower frame portions of the body frame.
- the trajectory and the front edge of the upper and lower frame parts are brought closer in the front-rear direction of the body frame. For this reason, in order to reduce the front-rear direction of the vehicle, the increase in the left-right direction of the vehicle is suppressed. Therefore, according to the configuration of (1), it is possible to reduce the size in the left-right direction and the front-rear direction of the vehicle including the leanable body frame and the two front wheels.
- the upper and lower frame portions of the vehicle body frame include an imaginary plane in which an acute angle formed by an imaginary line passing through the upper end and the lower end and a vertical direction of the vehicle body frame is perpendicular to the rotation axis of the upper cross member and the lower cross member; You may form in the aspect smaller than the acute angle made by the up-down direction of a vehicle body frame.
- the lower end of the front edge of the upper and lower frame parts can be brought close to the right front wheel and the left front wheel. Accordingly, the movement trajectory of the rear end of the right front wheel and the left front wheel and the front edge of the upper and lower frame portions can be made closer in the front-rear direction of the body frame while avoiding interference between the vehicle body frame and the right front wheel and the left front wheel. Therefore, the wheel base of the vehicle can be reduced, and the size of the vehicle in the front-rear direction can be reduced. Accordingly, it is possible to reduce the size in the left-right direction and the front-rear direction of the vehicle including the body frame that can lean and the two front wheels.
- a vehicle equipped with a leanable body frame and two front wheels The upper and lower frame portions of the vehicle body frame are positioned closer to a virtual plane in contact with the rear portions of the right front wheel and the left front wheel when the upper end is parallel to the rotation axis of the steering shaft and parallel to the rotation axis of the steering shaft. It may be arranged.
- the upper end of the front edge of the upper and lower frame portions is arranged so as not to be too close to the right front wheel and the left front wheel in the longitudinal direction of the body frame. Accordingly, the movement trajectory of the rear end of the right front wheel and the left front wheel and the front edge of the upper and lower frame portions can be made closer in the front-rear direction of the body frame while avoiding interference between the vehicle body frame and the right front wheel and the left front wheel. Therefore, the wheel base of the vehicle can be reduced, and the size of the vehicle in the front-rear direction can be reduced. Accordingly, it is possible to reduce the size in the left-right direction and the front-rear direction of the vehicle including the body frame that can lean and the two front wheels.
- a vehicle having a leanable body frame and two front wheels The right front wheel and the left front wheel may be supported such that the upper ends thereof are movable from the upper ends of the upper and lower frame portions of the body frame to the upper direction of the body frame.
- the movement trajectory of the rear end of the right front wheel and the left front wheel and the front edge of the upper and lower frame portions are more aligned in the front-rear direction of the vehicle body frame.
- the right front wheel and the left front wheel are configured such that their upper ends are movable from the upper ends of the upper and lower frame portions of the body frame to above the body frame in the vertical direction.
- the movement amount in the vertical direction of the right front wheel and the left front wheel is increased, the movement amount in the rear direction is also increased, and the vehicle front-rear direction is increased in size.
- the vertical movement amount of the right front wheel and the left front wheel can be increased. Accordingly, it is possible to increase the amount of movement of the right front wheel and the left front wheel in the vertical direction while suppressing an increase in size in the left-right direction and the front-rear direction of a vehicle including a body frame that can lean and two front wheels.
- a vehicle having a leanable body frame and two front wheels A telescopic right shock absorber provided between the right front wheel and the right side member; A telescopic left shock absorber provided between the left front wheel and the left side member;
- the right shock absorber and the left shock absorber are provided in such a manner that the acute angle formed between the expansion / contraction direction and the vertical direction of the body frame is smaller than the acute angle formed by the rotation axis of the steering shaft and the vertical direction of the body frame. May be.
- the acute angle formed between the expansion / contraction direction and the vertical direction of the body frame is the same as the acute angle formed between the rotation axis of the steering shaft and the vertical direction of the body frame. It is provided in a smaller mode.
- a shock absorber with a large amount of expansion and contraction is employed, the amount of movement of the right front wheel and the left front wheel to the rear also increases, and the longitudinal direction of the vehicle has increased in size.
- a shock absorber with a large amount of expansion and contraction should be adopted while avoiding interference between the body frame and the right front wheel and left front wheel.
- an acute angle formed between a virtual plane perpendicular to the rotation axis of the upper cross member and the lower cross member and the vertical direction of the body frame is defined by the expansion and contraction directions of the right shock absorber and the left shock absorber and the body frame. You may provide in the aspect smaller than the acute angle which an up-down direction makes.
- the link mechanism is configured such that the acute angle formed between the virtual plane perpendicular to the rotation axis of the upper cross member and the lower cross member and the vertical direction of the body frame and the expansion / contraction direction of the right shock absorber and the left shock absorber It is provided in an aspect that is smaller than an acute angle formed by the vertical direction of the frame. Therefore, it is possible to employ a shock absorber having a larger expansion / contraction amount while suppressing an increase in the size in the left-right direction and the front-rear direction of a vehicle having a leanable body frame and two front wheels, and the right front wheel and the left front wheel The amount of movement in the direction can be increased.
- a vehicle having a leanable body frame and two front wheels The upper and lower frame portions of the body frame may include a single cylindrical member disposed at the center of the right front wheel and the left front wheel in the left-right direction of the body frame constituting the front edge.
- the front edges of the upper and lower frame portions that have their front edges brought close to the movement trajectory of the rear ends of the right front wheel and the left front wheel while avoiding interference between the body frame and the right front wheel and the left front wheel are single. It comprises a cylindrical member. Since the front edge of the upper and lower frame parts near the rear end of the right front wheel and the left front wheel is composed of a single cylindrical member that can be compact while ensuring rigidity, avoiding interference between the body frame and the right front wheel and left front wheel Further, the movement trajectory of the rear end of the right front wheel and the left front wheel and the front edge of the upper and lower frame portions can be made closer in the front-rear direction of the body frame.
- the wheel base of the vehicle can be reduced, and the size of the vehicle in the front-rear direction can be reduced. Accordingly, it is possible to reduce the size in the left-right direction and the front-rear direction of the vehicle including the body frame that can lean and the two front wheels.
- a vehicle equipped with a leanable body frame and two front wheels The vehicle body frame has an acute angle formed by an imaginary line passing through the upper end and a rear end of the lower portion of the single cylindrical member constituting the front edge of the upper and lower frame portions and the vertical direction of the vehicle body frame. You may form in the aspect smaller than the acute angle which a rotating shaft and the said vehicle body frame make
- the rear end of the lower part of the upper and lower frame parts is arranged close to the right front wheel and the left front wheel. Accordingly, the movement trajectory of the rear end of the right front wheel and the left front wheel and the front edge of the upper and lower frame portions can be made closer in the front-rear direction of the body frame while avoiding interference between the vehicle body frame and the right front wheel and the left front wheel. Therefore, the wheel base of the vehicle can be reduced, and the size of the vehicle in the front-rear direction can be reduced. Accordingly, it is possible to reduce the size in the left-right direction and the front-rear direction of the vehicle including the body frame that can lean and the two front wheels.
- FIG. 1 is an overall side view of a vehicle according to an embodiment of the present invention.
- 1 is an overall front view of a vehicle with a vehicle body cover and a front fender removed.
- FIG. 2 is a partial side view of the vehicle with a vehicle body cover and a front fender removed.
- FIG. 2 is a partial plan view of the vehicle with a vehicle body cover removed. It is a perspective view of the front part of a body frame. It is A arrow directional view of FIG.
- FIG. 6 is a view taken in the direction of arrow B in FIG. 5. It is the schematic sectional drawing which cut the front part of vehicles in the horizontal direction. It is a figure explaining steering operation, and is a partial top view of a vehicle in the state where a body cover was removed.
- the arrow F in the figure indicates the front direction of the vehicle 1 in the front-rear direction when the vehicle is upright.
- the arrow R in the figure indicates the right direction in the left-right direction of the vehicle 1 when the vehicle is upright.
- An arrow U indicates an upward direction in the vertical direction of the vehicle 1 when the vehicle is upright.
- An arrow F in the figure is the same as the front direction of the vehicle body frame of the vehicle 1 in the front-rear direction.
- FIG. 1 is an overall side view of the vehicle 1.
- the front, rear, left, and right directions indicate the front, rear, left, and right directions as viewed from the occupant driving the vehicle 1.
- the vehicle 1 includes a right front wheel 31, a left front wheel 32, a link mechanism 5, a vehicle body frame 21, and a steering shaft 60.
- the right front wheel 31 and the left front wheel 32 are arranged on the left and right as viewed from the front of the vehicle 1 and can be steered by operating the handle 23.
- the link mechanism 5 includes an upper cross member 51, a lower cross member 52, a right side member 53, and a left side member 54.
- the upper cross member 51 is disposed above the right front wheel 31 and the left front wheel 32 in the upright state of the vehicle 1.
- the lower cross member 52 is disposed below the upper cross member 51 in the vertical direction of the vehicle body frame 21.
- the front end of the lower cross member 52 is disposed ahead of the front end of the upper cross member 51 in the front-rear direction of the body frame 21 in a side view of the vehicle 1 in an upright state.
- the lower cross member 52 is disposed above the right front wheel 31 and the left front wheel 32.
- the upper part of the right side member 53 is rotatably supported by the right part of the upper cross member 51.
- the lower part of the right side member 53 is rotatably supported by the right part of the lower cross member 52.
- the right side member 53 is disposed above the right front wheel 31 and the left front wheel 32 and supports the right front wheel 31.
- the upper part of the left side member 54 is rotatably supported by the left part of the upper cross member 51.
- the lower part of the left side member 54 is rotatably supported by the left part of the lower cross member 52.
- the left side member 54 is disposed above the right front wheel 31 and the left front wheel 32 and supports the left front wheel 32.
- the link mechanism 5 is disposed above the right front wheel 31 and the left front wheel 32.
- the body frame 21 can tilt in the left-right direction of the vehicle 1.
- the vehicle body frame 21 includes a link support portion 211, a connecting member 215 (an example of the upper and lower frame portions of the present invention), a down frame 212 (an example of the upper and lower frame portions of the present invention), and an under frame 214 (the lower front and rear frame portions of the present invention).
- the link support part 211 supports the middle part of the upper cross member 51 of the link mechanism 5 rotatably at the upper part, and supports the middle part of the lower cross member 52 rotatably at the lower part.
- the connecting member 215 extends rearward in the front-rear direction of the body frame 21 from the lower portion of the link support portion 211.
- the down frame 212 extends downward from the rear portion of the connecting member 215 in the vertical direction of the vehicle body frame 21.
- the under frame 214 extends rearward from the lower part of the down frame 212.
- the under frame 214 is located behind the right front wheel 31 and the left front wheel 32 in a side view of the vehicle 1 in an upright state. At least a part of the under frame 214 is positioned below the rotational axis WA of the right front wheel 31 and the left front wheel 32 in a side view of the vehicle 1 in an upright state.
- the steering shaft 60 is provided with a handle 23 at the top, and is rotatably supported by the link support portion 211.
- the lower part of the steering shaft 60 is positioned in front of the body frame 21 in the front-rear direction from the upper part.
- the link support portion 211 of the vehicle body frame 21 has an acute angle ⁇ VC formed by a virtual plane VPVC perpendicular to the rotation axis AUC of the upper cross member 51 and the rotation axis ALC of the lower cross member 52 and the vertical direction of the vehicle body frame 21.
- the upper cross member 51 and the lower cross member 52 are rotatably supported in a manner that is smaller than an acute angle ⁇ SA formed between the rotation axis SA and the body frame 21 in the vertical direction.
- an acute angle ⁇ VC formed by a virtual plane VPVC perpendicular to the rotation axis AUC of the upper cross member 51 and the rotation axis ALC of the lower cross member 52 and the vertical direction of the vehicle body frame 21 is the steering shaft. It is smaller than the acute angle ⁇ SA formed by 60 rotation axes SA and the vertical direction of the body frame 21.
- the down frame 212 of the vehicle body frame 21 has an upper end UEFE of the front edge FE parallel to the rotational axis SA of the steering shaft 60 and in front of a virtual plane VPTT that is in contact with the rear portions of the right front wheel 31 and the left front wheel 32 in the upright state of the vehicle 1. Be placed.
- the down frame 212 of the vehicle body frame 21 has a lower end LEFE of the front edge FE parallel to the rotational axis SA of the steering shaft 60 and behind the virtual plane VPTT that contacts the rear portions of the right front wheel 31 and the left front wheel 32 in the upright state of the vehicle 1. Be placed.
- a front edge FE of the down frame 212 of the body frame 21 is a line connecting the front ends of the down frame 212 in a side view of the vehicle 1 in an upright state.
- the down frame 212 of the vehicle body frame 21 is formed such that the width in the left-right direction between the upper end UEFE and the lower end LEFE of the front edge FE is smaller than the interval between the right front wheel 31 and the left front wheel 32.
- the upper end UEFE and the lower end LEFE of the front edge FE are disposed between the right front wheel 31 and the left front wheel 32 when viewed from the front in a vehicle upright state.
- the down frame 212 of the vehicle body frame 21 has an acute angle ⁇ LFUL formed by a virtual line VLFUL passing through the upper end UEFE and the lower end LEFE and the vertical direction of the vehicle body frame 21. It is formed so as to be smaller than the acute angle ⁇ SA formed by the direction.
- an acute angle ⁇ LFUL formed by an imaginary line VLFUL passing through the upper end UEFE and the lower end LEFE and the vertical direction of the vehicle body frame 21 is formed between the rotation axis SA of the steering shaft 60 and the vertical direction of the vehicle body frame 21. It is smaller than the acute angle ⁇ SA.
- the down frame 212 of the vehicle body frame 21 has an acute angle ⁇ LFUL formed by an imaginary line VLFUL passing through the upper end UEFE and the lower end LEFE and the vertical direction of the vehicle body frame 21 and the rotation axis AUC of the upper cross member 51 and the rotation axis ALC of the lower cross member 52. Is formed to be smaller than an acute angle ⁇ VC formed by a virtual plane VPVC perpendicular to the vertical direction of the body frame 21.
- an acute angle ⁇ LFUL formed by a virtual line VLFUL passing through the upper end UEFE and the lower end LEFE and the vertical direction of the body frame 21 is the rotation axis AUC of the upper cross member 51 and the rotation axis of the lower cross member 52. It is smaller than the acute angle ⁇ VC formed by the virtual plane VPVC perpendicular to the ALC and the vertical direction of the body frame 21.
- the down frame 212 of the vehicle body frame 21 is a virtual plane whose upper end UEFE is parallel to the rotation axis SA of the steering shaft 60 rather than the rotation axis SA of the steering shaft 60 and is in contact with the rear portions of the right front wheel 31 and the left front wheel 32 in the upright state of the vehicle 1.
- An imaginary plane VPTT that is parallel to the upper end UEFE and the rotation axis SA of the steering shaft 60 and contacts the rear portions of the right front wheel 31 and the left front wheel 32 in the upright state of the vehicle 1 in the front-rear direction of the vehicle body frame 21 in a side view when the vehicle 1 is upright. Is smaller than the distance between the rotation axis SA of the steering shaft 60 and the upper end UEFE.
- the upper end UEFE is parallel to the rotation axis SA of the steering shaft 60 and the rotation axis SA of the steering shaft 60 and the right front wheel 31 and the left in the upright state of the vehicle 1. It is located behind the middle of the virtual plane VPTT in contact with the rear part of the front wheel 32.
- the right front wheel 31 and the left front wheel 32 are supported such that their upper ends are movable from the upper end UEFE of the down frame 212 of the body frame 21 to the upper side in the vertical direction of the body frame 21.
- the upper end of the right front wheel 31 or the left front wheel 32 when the right front wheel 31 or the left front wheel 32 moves upward is positioned above the upper end UEFE of the down frame 212 in the vertical direction of the body frame 21.
- the vehicle 1 includes a telescopic right shock absorber 33 provided between the right front wheel 31 and the right side member 53, and a telescopic left shock absorber 35 provided between the left front wheel 32 and the left side member 54. .
- the acute angle ⁇ TA formed by the expansion / contraction direction TA and the vertical direction of the vehicle body frame 21 is the same as the acute angle ⁇ SA formed by the rotation axis SA of the steering shaft 60 and the vertical direction of the vehicle body frame 21. It is provided in a smaller mode.
- the acute angle ⁇ TA formed by the expansion / contraction direction TA of the right shock absorber 33 and the left shock absorber 35 and the vertical direction of the vehicle body frame 21 is the vertical axis of the rotation axis SA of the steering shaft 60 and the vehicle body frame 21. It should be less than or equal to the acute angle ⁇ SA formed by the direction.
- the acute angle ⁇ TA formed by the expansion / contraction direction TA of the right shock absorber 33 and the left shock absorber 35 and the vertical direction of the body frame 21 in a side view of the vehicle 1 in an upright state is the rotation axis SA of the steering shaft 60. This is the same as the acute angle ⁇ SA formed by the body frame 21 in the vertical direction.
- an acute angle ⁇ VC formed by a virtual plane VPVC perpendicular to the rotation axis AUC of the upper cross member 51 and the rotation axis ALC of the lower cross member 52 and the vertical direction of the vehicle body frame 21 has a right shock absorber 33 and a left shock absorber 35. It is provided in such a manner that it is smaller than an acute angle ⁇ TA formed by the expansion / contraction direction TA and the vertical direction of the body frame 21.
- a virtual plane VPVC perpendicular to the rotation axis AUC of the upper cross member 51 and the rotation axis ALC of the lower cross member 52 and the acute angle ⁇ VC formed in the vertical direction of the body frame 21 are the right shock absorber 33. Further, it is smaller than the acute angle ⁇ TA formed by the expansion / contraction direction TA of the left shock absorber 35 and the vertical direction of the body frame 21.
- the down frame 212 of the body frame 21 is a cylindrical member disposed in the center of the right front wheel 31 and the left front wheel 32 in the left-right direction of the body frame 21.
- the front edge of the tubular member is the front edge of the down frame 212.
- the vehicle body frame 21 has an acute angle ⁇ LFUR formed by an imaginary line VLFUR passing through the upper end UEFE and the lower rear end REF of a single cylindrical member constituting the front edge FE of the down frame 212 and the vertical direction of the vehicle body frame 21. It is formed so as to be smaller than an acute angle ⁇ SA formed by 60 rotation axes SA and the vertical direction of the body frame 21.
- an acute angle ⁇ LFUR formed by a virtual line VLFUR passing through the upper end UEFE of the front edge FE of the tubular member and the rear end REF of the lower portion of the tubular member and the vertical direction of the vehicle body frame 21 is the rotation axis SA of the steering shaft 60.
- an acute angle ⁇ SA formed in the vertical direction of the vehicle body frame 21 is formed in a mode smaller than that.
- an acute angle ⁇ LFUR formed by an imaginary line VLFUR passing through the upper end UEFE of the front edge FE of the tubular member and the rear end REF of the lower portion of the tubular member and the vertical direction of the body frame 21 is It is smaller than the acute angle ⁇ SA formed between the rotation axis SA of the shaft 60 and the vertical direction of the body frame 21.
- the link support portion 211 of the vehicle body frame 21 has an acute angle ⁇ VC formed by a virtual plane VPVC perpendicular to the rotation axis AUC of the upper cross member 51 and the rotation axis ALC of the lower cross member 52 and the vertical direction of the vehicle body frame 21.
- the upper cross member 51 and the lower cross member 52 are rotatably supported in a manner that is smaller than an acute angle ⁇ SA formed between the rotation axis SA and the vertical direction of the body frame 21. Therefore, even if the link mechanism 5 operates and the right front wheel 31 or the left front wheel 32 moves upward, the amount of backward movement can be reduced.
- the down frame 212 (upper and lower frame portions) of the body frame 21 is moved forward.
- the upper end UEFE of the edge FE is disposed in front of a virtual plane VPTT parallel to the rotation axis SA of the steering shaft 60 and in contact with the rear portions of the right front wheel 31 and the left front wheel 32 in the upright state of the vehicle 1, and the upper end UEFE and the lower end of the front edge FE
- the width in the left-right direction between LEFE is formed smaller than the distance between the right front wheel 31 and the left front wheel 32.
- the right and left direction between the upper end UEFE and the lower end LEFE of the down frame 212 (upper and lower frame portions) is reduced while the link mechanism 5 is activated and the right front wheel 31 or the left front wheel 32 moves upward. Therefore, even if the upper end UEFE of the front edge FE of the down frame 212 (upper and lower frame portion) is brought close to the right front wheel 31 and the left front wheel 32 in the front and rear direction of the body frame 21, the down frame 212 (upper and lower frame portion) Interference between the upper end UEFE of the front edge FE and the right front wheel 31 and the left front wheel 32 can be suppressed.
- an acute angle ⁇ LFUL formed by a virtual line passing through UEFE and the lower end LEFE and the vertical direction of the vehicle body frame 21 is formed to be smaller than an acute angle ⁇ SA formed by the rotation axis SA of the steering shaft 60 and the vertical direction of the vehicle body frame 21.
- the acute angle ⁇ LRT formed by the movement locus VLRT of the rear ends of the right front wheel 31 and the left front wheel 32 and the vertical direction of the body frame 21, the front edge FE of the down frame 212 (upper and lower frame portion), and the vertical direction of the body frame 21 are
- the acute angle ⁇ LFUL formed is smaller than the acute angle ⁇ SA formed between the rotation axis SA of the steering shaft 60 and the vertical direction of the body frame 21. Therefore, while avoiding interference between the vehicle body frame 21 and the right front wheel 31 and the left front wheel 32, the movement trajectory VLRT of the rear ends of the right front wheel 31 and the left front wheel 32 and the front edge FE of the down frame 212 (upper and lower frame portions) are used as the vehicle body frame.
- the wheel base of the vehicle 1 can be reduced, and the size of the vehicle 1 in the front-rear direction can be reduced. Furthermore, since the width in the left-right direction between the upper end UEFE and the lower end LEFE of the down frame 212 (upper and lower frame part) is reduced, the distance between the right front wheel 31 and the left front wheel 32 is increased in order to arrange the down frame 212 (upper and lower frame part). While suppressing the increase, interference between the upper end UEFE of the front edge FE of the down frame 212 (upper and lower frame portions) and the right front wheel 31 and the left front wheel 32 can be suppressed.
- the link support portion 211 and the down frame 212 (upper and lower frame portions) of the body frame 21 By devising the link support portion 211 and the down frame 212 (upper and lower frame portions) of the body frame 21, the rear of the right front wheel 31 and the left front wheel 32 can be avoided while avoiding interference between the body frame 21 and the right front wheel 31 and the left front wheel 32.
- the end movement locus VLRT and the front edge FE of the down frame 212 (upper and lower frame portions) are brought closer to each other in the front-rear direction of the body frame 21. Therefore, in order to make the front-back direction of the vehicle 1 small, it is suppressed that the left-right direction of the vehicle 1 becomes large. Therefore, according to the said structure, the magnitude
- the down frame 212 (upper and lower frame portions) of the vehicle body frame 21 has an acute angle ⁇ LFUL formed by a virtual line VLFUL passing through the upper end UEFE and the lower end LEFE and the vertical direction of the vehicle body frame 21 and the rotation axis AUC of the upper cross member 51 and the lower side.
- the lower end LEFE of the front edge FE of the down frame 212 (upper and lower frame portions) can be brought closer to the right front wheel 31 and the left front wheel 32.
- the movement locus VLRT of the rear ends of the right front wheel 31 and the left front wheel 32 and the front edge FE of the down frame 212 are The frame 21 can be closer in the front-rear direction. Therefore, the wheel base of the vehicle 1 can be reduced, and the size of the vehicle 1 in the front-rear direction can be reduced. Accordingly, it is possible to reduce the size of the vehicle 1 provided with the leanable vehicle body frame 21 and the two front wheels in the left-right direction and the front-rear direction.
- the down frame 212 (upper and lower frame portions) of the vehicle body frame 21 has an upper end UEFE parallel to the rotation axis SA of the steering shaft 60 from the rotation axis SA of the steering shaft 60 and the right front wheel 31 and the left in the upright state of the vehicle 1. You may arrange
- the upper end UEFE of the front edge FE of the down frame 212 (upper and lower frame portions) can be arranged so as not to be too close to the right front wheel 31 and the left front wheel 32 in the front-rear direction of the body frame 21.
- the movement locus VLRT of the rear ends of the right front wheel 31 and the left front wheel 32 and the front edge FE of the down frame 212 are The frame 21 can be closer in the front-rear direction. Therefore, the wheel base of the vehicle 1 can be reduced, and the size of the vehicle 1 in the front-rear direction can be reduced. Accordingly, it is possible to reduce the size of the vehicle 1 provided with the leanable vehicle body frame 21 and the two front wheels in the left-right direction and the front-rear direction.
- the movement locus VLRT of the rear ends of the right front wheel 31 and the left front wheel 32 and the front edge FE of the down frame 212 are used as the vehicle body frame.
- the front right wheel 31 and the left front wheel 32 have the upper end of the right front wheel 31 and the left front wheel 32 than the upper end UEFE of the down frame 212 (upper and lower frame portion) of the vehicle body frame 21. It may be configured to be movable to the upper side in the vertical direction.
- the movement amount in the vertical direction of the right front wheel 31 and the left front wheel 32 is increased, the movement amount in the rear direction is also increased, and the front-rear direction of the vehicle 1 is increased in size.
- the vertical movement amount of the right front wheel 31 and the left front wheel 32 can be increased. Accordingly, it is possible to increase the amount of movement of the right front wheel 31 and the left front wheel 32 in the up-down direction while suppressing an increase in the size in the left-right direction and the front-rear direction of the vehicle 1 including the body frame 21 that can lean and the two front wheels. .
- the acute angle ⁇ TA formed by the expansion / contraction direction TA and the vertical direction of the vehicle body frame 21 is the same as the acute angle ⁇ SA formed by the rotation axis SA of the steering shaft 60 and the vertical direction of the vehicle body frame 21. Or it may be provided in a mode smaller than that. Conventionally, when a shock absorber with a large amount of expansion and contraction is employed, the amount of rearward movement of the right front wheel 31 and the left front wheel 32 is increased, and the front-rear direction of the vehicle 1 is increased in size.
- the link mechanism 5 has an imaginary plane VPVC perpendicular to the rotation axis AUC of the upper cross member 51 and the rotation axis ALC of the lower cross member 52 and an acute angle ⁇ VC formed in the vertical direction of the vehicle body frame 21 so that the right shock absorber 33 and the left shock absorber. It may be provided in an aspect that is smaller than the acute angle ⁇ TA formed by the 35 expansion / contraction direction TA and the vertical direction of the body frame 21. In this case, a shock absorber having a larger expansion / contraction amount can be adopted while suppressing an increase in the size in the left-right direction and the front-rear direction of the vehicle 1 including the body frame 21 that can lean and the two front wheels. The amount of movement of the left front wheel 32 in the vertical direction can be increased.
- the down frame 212 (upper and lower frame portions) of the body frame 21 is a single cylindrical member disposed at the center of the right front wheel 31 and the left front wheel 32 in the left-right direction of the body frame 21 constituting the front edge FE. May be included.
- the front edge FE is formed of a single cylindrical member.
- the front edge FE of the down frame 212 (upper and lower frame part) close to the rear ends of the right front wheel 31 and the left front wheel 32 is configured by a single cylindrical member that can be compact while ensuring rigidity
- the movement trajectory VLRT of the rear ends of the right front wheel 31 and the left front wheel 32 and the front edge FE of the down frame 212 (upper and lower frame portions) are made closer to each other in the front-rear direction of the vehicle body frame 21 while avoiding interference with the left front wheel 31 and the left front wheel 32. Can do. Therefore, the wheel base of the vehicle 1 can be reduced, and the size of the vehicle 1 in the front-rear direction can be reduced. Accordingly, it is possible to reduce the size of the vehicle 1 provided with the leanable vehicle body frame 21 and the two front wheels in the left-right direction and the front-rear direction.
- the vehicle body frame 21 includes an imaginary line VLFUR passing through the upper end UEFE and the rear end REF of the lower portion of the single tubular member constituting the front edge FE of the down frame 212 (upper and lower frame portions) and the vertical direction of the vehicle body frame 21.
- the acute angle ⁇ LFUR formed between the two may be smaller than the acute angle ⁇ SA formed between the rotation axis SA of the steering shaft 60 and the vertical direction of the vehicle body frame 21.
- the rear end REF of the lower part of the down frame 212 (upper and lower frame part) is disposed close to the right front wheel 31 and the left front wheel 32.
- the movement locus VLRT of the rear ends of the right front wheel 31 and the left front wheel 32 and the front edge FE of the down frame 212 are
- the frame 21 can be closer in the front-rear direction. Therefore, the wheel base of the vehicle 1 can be reduced, and the size of the vehicle 1 in the front-rear direction can be reduced. Accordingly, it is possible to reduce the size of the vehicle 1 provided with the leanable vehicle body frame 21 and the two front wheels in the left-right direction and the front-rear direction.
- the vehicle 1 includes a vehicle body 2, a front wheel 3, a rear wheel 4, a steering mechanism 7, and a link mechanism 5.
- the vehicle main body 2 mainly includes a vehicle body frame 21, a vehicle body cover 22, a handle 23, a seat 24, and a power unit 25.
- the body frame 21 supports the power unit 25, the seat 24, and the like.
- the power unit 25 includes an engine, a mission device, and the like.
- the body frame 21 is indicated by a broken line.
- the vehicle body frame 21 includes a head pipe (an example of a link support part) 211, a connecting member 215 (an example of an upper front and rear frame part), a down frame (an example of an upper and lower frame part) 212, and an under frame (a lower front and rear frame part).
- An example) 214 and a rear frame 213 are included.
- the head pipe 211 is disposed at the front portion of the vehicle.
- the head pipe 211 is disposed slightly inclined rearward of the vehicle with respect to the vertical direction when the vehicle is viewed from the side. That is, the head pipe 211 is arranged along the direction of arrow H in FIG.
- a steering mechanism 7 and a link mechanism 5 are disposed around the head pipe 211.
- a steering shaft 60 is rotatably inserted into the head pipe 211.
- the steering shaft 60 extends substantially in the vertical direction.
- a handle 23 is attached to the upper portion of the steering shaft 60.
- the connecting member 215 extends rearward in the front-rear direction of the vehicle body frame 21 from the lower portion of the head pipe 211.
- the down frame 212 extends downward from the rear portion of the connecting member 215 in the vertical direction of the vehicle body frame 21.
- the under frame 214 extends rearward from the lower portion of the down frame 212.
- the rear frame 213 supports the seat 24, the tail lamp, and the like.
- the body frame 21 is covered with a body cover 22.
- the vehicle body cover 22 includes a front cover 221, a front fender (an example of a fender) 223, a rear fender 224, and a leg shield 225.
- the front cover 221 is located in front of the front end of the seat 24.
- the front cover 221 covers at least a part of the steering mechanism 7.
- the front cover 221 covers at least a part of the link mechanism 5.
- the front fender 223 is disposed below the front cover 221.
- the front fenders 223 are respectively disposed above the pair of left and right front wheels 3.
- the rear fender 224 is disposed above the rear wheel 4.
- the leg shield 225 is provided so as to cover the down frame 212.
- the front wheel 3 is located below the head pipe 211.
- the front wheel 3 is disposed below the front cover 221.
- the rear wheel 4 is disposed below the vehicle body cover 22.
- FIG. 2 is an overall front view of the vehicle 1 with the vehicle body cover 22 and the front fender 223 removed.
- FIG. 3 is a partial side view of the vehicle 1 with the vehicle body cover 22 and the front fender 223 removed.
- FIG. 4 is a partial plan view of the vehicle 1 with the vehicle body cover 22 removed.
- FIG. 5 is a perspective view of the front portion of the vehicle body frame. 6 is a view taken in the direction of arrow A in FIG.
- FIG. 7 is a view taken in the direction of arrow B in FIG.
- FIG. 8 is a schematic cross-sectional view of the front portion of the vehicle cut in the horizontal direction.
- the steering mechanism 7 includes the handle 23, the steering shaft 60, the operating force transmission mechanism 6, the right shock absorber 33, the first rotation prevention mechanism 34, the left shock absorber 35, and the second rotation prevention mechanism. 36, a pair of left and right front wheels 3, a first bracket 317, a second bracket 327, and the like.
- the front wheel 3 includes a right front wheel 31 and a left front wheel 32.
- the right front wheel 31 is disposed to the right of the head pipe 211 in the left-right direction of the body frame 21 when viewed from the front of the vehicle.
- a front fender 223 is disposed above the right front wheel 31.
- the left front wheel 32 is disposed to the left of the head pipe 211 in the left-right direction of the body frame 21 when viewed from the front of the vehicle.
- a front fender 223 is disposed above the left front wheel 32.
- the right shock absorber 33 includes a first outer cylinder 312.
- the right front wheel 31 is supported by the first outer cylinder 312.
- the right front wheel 31 is connected to the lower portion of the first outer cylinder 312.
- the first outer cylinder 312 has a first support shaft 314 at the bottom.
- the first support shaft 314 supports the right front wheel 31.
- the first outer cylinder 312 extends in the vertical direction of the body frame 21.
- the first rotation prevention mechanism 34 includes a first guide 313.
- a first guide 313 is disposed on the upper portion of the first outer cylinder 312.
- the first guide 313 is fixed to the upper part of the first outer cylinder 312.
- the right front wheel 31 is rotatable about the first central axis X.
- the right front wheel 31 can rotate around the first central axis X and change its direction.
- the left shock absorber 35 includes a second outer cylinder 322.
- the left front wheel 32 is supported by the second outer cylinder 322.
- the left front wheel 32 is connected to the lower part of the second outer cylinder 322.
- the second outer cylinder 322 has a second support shaft 324 at the bottom.
- the second support shaft 324 supports the left front wheel 32.
- the second outer cylinder 322 extends in the vertical direction of the body frame 21.
- the second rotation prevention mechanism 36 includes a second guide 323.
- a second guide 323 is disposed on the upper portion of the second outer cylinder 322.
- the second guide 323 is fixed to the upper part of the second outer cylinder 322.
- the left front wheel 32 rotates about the second central axis Y.
- the left front wheel 32 can rotate around the second central axis Y and change its direction.
- the right shock absorber 33 is a so-called telescopic shock absorber that attenuates vibration from the road surface.
- the right shock absorber 33 includes a first outer cylinder 312 and a first inner cylinder 316.
- the first inner cylinder 316 is disposed above the first outer cylinder 312. A part of the first inner cylinder 316 is inserted into the first outer cylinder 312.
- the first inner cylinder 316 is movable relative to the first outer cylinder 312 in the direction in which the first outer cylinder 312 extends.
- the upper part of the first inner cylinder 316 is fixed to the first bracket 317.
- the first rotation prevention mechanism 34 prevents the first outer cylinder 312 from rotating with respect to the first inner cylinder 316.
- the first rotation prevention mechanism 34 includes a first guide 313, a first rotation prevention rod 341, and a first bracket 317.
- the first guide 313 guides the moving direction of the first rotation prevention rod 341.
- the first guide 313 includes a first guide cylinder 313b.
- a first rotation preventing rod 341 is inserted into the first guide cylinder 313b.
- the first rotation prevention rod 341 can be moved relative to the first guide cylinder 313b.
- the first rotation preventing rod 341 prevents the right front wheel 31 from rotating relative to the first inner cylinder 316.
- the first rotation preventing rod 341 is disposed in parallel with the right shock absorber 33.
- the upper part of the first rotation prevention rod 341 is fixed to the first bracket 317.
- the first rotation prevention rod 341 cannot move relative to the first inner cylinder 316.
- the first bracket 317 fixes the first inner cylinder 316 and the
- the left shock absorber 35 is a so-called telescopic shock absorber that attenuates vibration from the road surface.
- the left shock absorber 35 is similar to the right shock absorber 33 and has a bilaterally symmetric configuration.
- the left shock absorber 35 includes a second outer cylinder 322 and a second inner cylinder 326. The upper part of the second inner cylinder 326 is fixed to the second bracket 327.
- the second rotation prevention mechanism 36 prevents the rotation of the second outer cylinder 322 relative to the second inner cylinder 326.
- the second anti-rotation mechanism 36 is similar to the first anti-rotation mechanism 34 and has a bilaterally symmetric configuration.
- the second rotation prevention mechanism 36 includes a second guide 323, a second guide cylinder 323 b, a second rotation prevention rod 361, and a second bracket 327.
- the second rotation prevention rod 361 is disposed in parallel with the left shock absorber 35 and prevents relative rotation of the left front wheel 32 with respect to the second inner cylinder 326.
- the right shock absorber 33 and the left shock absorber 35 expand and contract during acceleration / deceleration of the vehicle or when driving on rough roads.
- the operating force transmission mechanism 6 includes a steering shaft 60, a first transmission plate 61, a second transmission plate 62, a third transmission plate 63, a first joint 64, a second joint 65, a third joint 66, a tie rod 67, and a first bracket. 317 and a second bracket 327 are included.
- the operating force transmission mechanism 6 transmits the operating force of the handle 23 to the right front wheel 31 and the left front wheel 32 in accordance with the steering operation by the occupant.
- the operating force transmission mechanism 6 is disposed above the right front wheel 31 and the left front wheel 32.
- the first transmission plate 61 is connected to the steering shaft 60.
- the first transmission plate 61 is not rotatable relative to the steering shaft 60.
- the steering shaft 60 rotates with respect to the head pipe 211.
- the first transmission plate 61 rotates.
- the second transmission plate 62 is connected to the right side member 53.
- the second transmission plate 62 is rotatably connected to the right side member 53.
- the second transmission plate 62 is fixed to the first bracket 317.
- the second transmission plate 62 is located below the first bracket 317.
- the third transmission plate 63 is connected to the left side member 54.
- the third transmission plate 63 is rotatably connected to the left side member 54.
- the third transmission plate 63 is disposed symmetrically with the second transmission plate 62 with the first transmission plate 61 as the center in the front view.
- the third transmission plate 63 is fixed to the second bracket 327.
- the third transmission plate 63 is located below the second bracket 327.
- the tie rod 67 transmits the operating force transmitted from the steering shaft 60 to the first bracket 317 and the second bracket 327.
- the tie rod 67 extends in the left-right direction of the body frame 21.
- the width of the front part of the first transmission plate 61 (the dimension in the left-right direction of the vehicle body frame 21) is narrower than the width of the rear part of the first transmission plate 61.
- a first joint 64 is disposed at the front portion of the first transmission plate 61.
- the width of the front portion of the second transmission plate 62 is narrower than the width of the rear portion of the second transmission plate 62.
- a second joint 65 is disposed at the front portion of the second transmission plate 62.
- the second transmission plate 62 is disposed on the right side of the first transmission plate 61.
- the width of the front portion of the third transmission plate 63 is narrower than the width of the rear portion of the third transmission plate 63.
- a third joint 66 is disposed at the front portion of the third transmission plate 63.
- the third transmission plate 63 is disposed on the left side of the first transmission plate 61.
- the tie rod 67 includes a first front rod 641, a second front rod 651, and a third front rod 661.
- the first front rod 641 is supported by the first joint 64 so as to be rotatable relative to the first transmission plate 61.
- the first front rod 641 is provided in the middle of the tie rod 67 in the left-right direction of the body frame 21.
- the second front rod 651 is supported by the second joint 65 so as to be rotatable relative to the second transmission plate 62.
- the second front rod 651 is disposed on the right side of the first front rod 641.
- the third front rod 661 is supported by the third joint 66 so as to be rotatable relative to the third transmission plate 63.
- the third front rod 661 is disposed on the left side of the first front rod 641.
- the tie rod 67 includes a first ring 671, a second ring 672, and a third ring 673.
- a first front rod 641 is inserted into the first ring 671 to constitute a fourth joint.
- a second front rod 651 is inserted into the second ring 672 to constitute a fifth joint.
- a third front rod 661 is inserted into the third ring 673 to constitute a sixth joint.
- the link mechanism 5 is disposed below the handle 23.
- the link mechanism 5 is disposed above the right front wheel 31 and the left front wheel 32.
- the link mechanism 5 is supported by the head pipe 211.
- the upper cross member 51 is supported by the head pipe 211 of the vehicle body frame 21 by the support portion A.
- the upper cross member 51 is supported by the vehicle body frame 21 so as to be rotatable about the rotation axis (support portion A).
- the upper cross member 51 is supported by the head pipe 211 so as to be rotatable within a plane including the upper cross member 51 and the lower cross member 52.
- the upper cross member 51 is rotatable relative to the steering shaft 60 in the left-right direction. Even when the steering shaft 60 rotates with respect to the vehicle body frame 21 as the handle 23 rotates, the upper cross member 51 does not rotate with respect to the vehicle body frame 21.
- the upper cross member 51 includes a pair of plate-like members 512.
- the upper cross member 51 extends in the left-right direction of the body frame 21.
- the pair of plate-like members 512 sandwich the head pipe 211 in the front-rear direction of the vehicle body frame 21.
- the right portion of the upper cross member 51 is connected to the right side member 53 by the connection portion B.
- the upper cross member 51 is connected to the right side member 53 so as to be rotatable about the rotation axis (connection portion B).
- the left portion of the upper cross member 51 is connected to the left side member 54 by the connection portion C.
- the upper cross member 51 is attached to the left side member 54 so as to be rotatable relative to the rotation axis (connection portion C).
- the lower cross member 52 is supported by the head pipe 211 of the vehicle body frame 21 by the support portion D.
- the lower cross member 52 is supported by the vehicle body frame 21 so as to be rotatable about the rotation axis (support portion D).
- the lower cross member 52 is disposed below the upper cross member 51 in the vertical direction of the body frame 21.
- the lower cross member 52 has the same length as the upper cross member 51 in the left-right direction of the body frame 21.
- the lower cross member 52 is rotatable relative to the steering shaft 60 in the left-right direction. Even when the steering shaft 60 rotates with respect to the vehicle body frame 21 as the handle 23 rotates, the lower cross member 52 does not rotate with respect to the vehicle body frame 21.
- the lower cross member 52 includes a pair of plate-like members 522.
- the lower cross member 52 extends in the vehicle width direction.
- the pair of plate-like members 522 sandwich the head pipe 211 in the front-rear direction of the body frame 21.
- the right portion of the lower cross member 52 is connected to the right side member 53 by the connection portion E.
- the lower cross member 52 is connected to the right side member 53 so as to be rotatable about the rotation axis (connection portion E).
- the left portion of the lower cross member 52 is connected to the left side member 54 by a connecting portion F.
- the lower cross member 52 is connected to the left side member 54 so as to be rotatable about the rotation axis (connection portion F).
- the right side member 53 is disposed to the right of the head pipe 211 in the left-right direction of the body frame 21.
- the right side member 53 extends in the vertical direction of the body frame 21.
- the right side member 53 extends in the direction in which the head pipe 211 extends.
- the right side member 53 extends in the direction in which the steering shaft 60 extends.
- the right side member 53 is disposed above the right front wheel 31.
- the right side member 53 is connected to the first bracket 317 at the lower part.
- the right side member 53 is attached to the first bracket 317 so as to be rotatable about the first central axis X.
- the first bracket 317 rotates around the connection portion with the right side member 53 by rotating the handle 23.
- the right side member 53 does not rotate with respect to the vehicle body frame 21 when the first bracket 317 rotates.
- the right side member 53 is disposed to the right of the right shock absorber 33 in the left-right direction of the body frame 21.
- the right side member 53 is disposed above the right shock absorber 33 in the vertical direction of the vehicle body frame 21.
- the left side member 54 is disposed to the left of the head pipe 211 in the left-right direction of the body frame 21.
- the left side member 54 extends in the vertical direction of the body frame 21.
- the left side member 54 extends in the direction in which the head pipe 211 extends.
- the left side member 54 extends in the direction in which the steering shaft 60 extends.
- the left side member 54 is disposed above the left front wheel 32 in the vertical direction of the body frame 21.
- the left side member 54 is connected to the second bracket 327 at the lower part.
- the left side member 54 is attached to the second bracket 327 so as to be rotatable about the second central axis Y.
- the second bracket 327 rotates around the connection portion with the left side member 54 by rotating the handle 23.
- the left side member 54 does not rotate with respect to the vehicle body frame 21 when the second bracket 327 rotates.
- the left side member 54 is disposed to the left of the left shock absorber 35 in the left-right direction of the body frame 21.
- the left side member 54 is disposed above the left shock absorber 35 in the vertical direction of the body frame 21.
- the upper part of the head pipe 211 is sandwiched between a pair of plate-like members 512 in the front-rear direction of the body frame 21.
- the lower portion of the head pipe 211 is sandwiched between a pair of plate-like members 522.
- the rotation axis (support portion A) extends so as to intersect the steering shaft 60.
- the rotation axis (support portion D) extends so as to intersect with the steering shaft 60.
- the vehicle body frame 21 includes a head pipe (an example of a link support portion) 211, a down frame (an example of an upper and lower frame portion) 212, and an under frame (an example of a lower front and rear frame portion) 214. And a rear frame 213.
- the head pipe 211 supports the link mechanism 5.
- the upper part of the down frame 212 is connected to the rear part of the lower part of the head pipe 211 by a connecting member 215.
- the down frame 212 extends in the vertical direction of the body frame.
- the under frame 214 includes a center under frame 214a and two side under frames 214b disposed on the left and right sides of the center under frame 214a in the left-right direction of the body frame 21. That is, the under frame 214 is composed of three members.
- the central under frame 214a extends from the lower part of the down frame 212 to the rear of the vehicle body frame 21 in the front-rear direction.
- the side underframe 214b extends from the lower part of the down frame 212 to the left and right of the body frame 21, respectively, and further extends rearward in the front-rear direction of the body frame 21.
- the bending rigidity of the down frame 212 is greater than that of any of the center underframe 214a and the side underframe 214b constituting the underframe 214.
- the bending rigidity here means the bending rigidity of bending (so-called primary bending) when a force in a direction orthogonal to the axial direction is applied to each frame member when each frame member is viewed alone.
- the down frame 212 is thicker than both the center underframe 214a and the side underframe 214b, so that the bending rigidity is increased.
- the down frame 212 is substantially perpendicular to the under frame 214 when viewed from the left-right direction of the body frame 21.
- the center underframe 214a and the side underframe 214b constituting the underframe 214 are arranged in parallel with each other along the horizontal direction.
- a connecting member 228 extending in the left-right direction of the vehicle body frame 21 is provided between the center underframe 214a and the side underframe 214b at the rear of the lower portion of the down frame 212.
- the connecting member 228 connects the center underframe 214a and the side underframe 214b.
- the connecting member 228 is formed of, for example, a highly rigid metal plate, and connects the rear part of the lower part of the down frame 212 and the front part of the center under frame 214a and the side under frame 214b. As described above, the connecting member 228 reinforces the rigidity of the connecting portion between the down frame 212 and the under frame 214.
- a reinforcing pipe 214c is provided along the left-right direction of the vehicle body frame 21. Both ends of the reinforcing pipe 214c are connected to the side underframe 214b. The rear end of the center underframe 214a is connected to the reinforcing pipe 214c.
- a bracket 216 is provided on the upper portion of the under frame 214.
- the bracket 216 is provided along the width direction of the vehicle.
- the bracket 216 has a fixing portion 216a that protrudes downward.
- Each fixing portion 216a of the bracket 216 is fixed to the center underframe 214a and the side underframe 214b constituting the underframe 214.
- a footrest plate 217 is fixed to the bracket 216 (see FIG. 1).
- the footrest plate 217 is fixed to the bracket 216 and horizontally disposed above the underframe 214.
- An upper part of the footrest plate 217 is a footrest space S.
- the footrest space S penetrates the body frame 21 in the left-right direction behind the right front wheel 31 and the left front wheel 32 in the vehicle 1.
- the vehicle body cover 22 includes a front cover 221, a front fender 223, and a rear fender 224.
- the front fender 223 is supported by the first bracket 317 or the second bracket 327 constituting the steering mechanism 7.
- the first bracket 317 and the second bracket 327 are provided with a plurality of stud bolts 223a protruding downward.
- Each front fender 223 is fastened and fixed to the first bracket 317 and the second bracket 327 without relative rotation.
- the front cover 221 of the vehicle body cover 22 includes a front portion 221 a that is disposed in front of the link mechanism 5.
- the lower end of the front portion 221 a of the front cover 221 is provided above the upper ends of the right front wheel 31 and the left front wheel 32 in a side view of the vehicle 1.
- the front portion 221 a of the front cover 221 is provided behind the front ends of the right front wheel 31 and the left front wheel 32 in a side view of the vehicle 1.
- the leg shield 225 constituting a part of the vehicle body cover 22 is provided so as to cover the down frame 212.
- the leg shield 225 includes a front member 226 at the front of the vehicle and a rear member 227 at the rear of the vehicle. Two recesses 226a and 226b are formed in the front member 226 of the leg shield 225.
- the rear member 227 of the leg shield 225 is substantially flat.
- the recess 226 a of the front member 226 is disposed behind the front fender 223 that covers the right front wheel 31 and the right front wheel 31 when viewed from the front of the vehicle 1.
- the recess 226 b of the front member 226 is disposed behind the front fender 223 that covers the left front wheel 32 and the left front wheel 32 when viewed from the front of the vehicle 1.
- the front fender 223 that covers the right front wheel 31 and the right front wheel 31 is located on the right when the vehicle is standing upright (a position indicated by a solid line in FIG. 8) when decelerating or traveling on a rough road.
- the shock absorber 33 moves to the maximum contracted position (position indicated by a dotted line in FIG. 8) at which the shock absorber 33 contracts to the maximum.
- the range between the position at the maximum contraction when the right shock absorber 33 contracts to the maximum and the position at the maximum expansion when the right shock absorber 33 extends to the maximum is the movable range.
- the front fender 223 that covers the left front wheel 32 and the left front wheel 32 is movable in the same manner as the front fender 223 that covers the right front wheel 31 and the right front wheel 31 by the expansion and contraction of the left shock absorber 35.
- FIG. 9 is a diagram illustrating the steering operation, and is a partial plan view of the vehicle with the vehicle body cover removed.
- the operating force transmission mechanism 6 of the steering mechanism 7 operates to perform a steering operation.
- the first transmission plate 61 is rotated with the rotation of the steering shaft 60.
- the tie rod 67 moves to the right rear as the first transmission plate 61 rotates.
- the tie rod 67 is rotatably supported by the first transmission plate 61 via the first joint 64, the tie rod 67 moves to the right rear while maintaining the posture.
- the second transmission plate 62 and the third transmission plate 63 rotate in the direction of the arrow G around the right side member 53 and the left side member 54, respectively.
- FIG. 10 is a diagram for explaining the tilting operation, and is an overall front view of the vehicle with the vehicle body cover removed.
- FIG. 11 is a diagram for explaining the movement of wheels and the like during the tilting operation, and is a schematic cross-sectional view in which the front portion of the vehicle is cut in the horizontal direction.
- the link mechanism 5 operates.
- the head pipe 211 tilts to the left with respect to the vertical.
- the upper cross member 51 rotates with respect to the head pipe 211 about the support portion A
- the lower cross member 52 rotates with respect to the head pipe 211 about the support portion D.
- the upper cross member 51 moves to the left of the lower cross member 52, and the right side member 53 and the left side member 54 are inclined with respect to the vertical direction in parallel with the head pipe 211.
- the steering shaft 60 is tilted together with the head pipe 211.
- the right side member 53 and the left side member 54 to which the first bracket 317 and the second bracket 327 are fixed are tilted.
- the front fender 223 fixed to the first bracket 317 and the second bracket 327 moves in conjunction with each other and tilts in the front view with respect to the vertical direction.
- FIG. 11 shows the right front wheel 31 and the right front wheel 31 when the left side member 54 of the link mechanism 5 moves upward and the right side member 53 of the link mechanism 5 moves downward in the tilting operation of the link mechanism 5.
- the movable range of the front fender 223 to be covered and the movable range of the front fender 223 that covers the left front wheel 32 and the left front wheel 32 are shown.
- the front fender 223 covering the left front wheel 32 and the left front wheel 32 is also moved to the head. It moves rightward while moving upward along the pipe 211.
- this operation is viewed in a plan view, as shown by a broken line in FIG. 11, the front fender 223 covering the left front wheel 32 and the left front wheel 32 is moved along with the left side member 54 moving upward along the head pipe 211.
- the leg shield 225 moves so as to approach the front member 226 and the down frame 212 (note that the position of the left front wheel 32 when the vehicle is upright is indicated by a solid line in FIG. 11).
- the front fender 223 that covers the left front wheel 32 and the left front wheel 32 is disposed in the recess 226b.
- the front end portion of the down frame 212 is positioned forward of the left front wheel 32 and the rear end portion of the front fender 223 that covers the left front wheel 32.
- the right front wheel 31 and the front fender 223 that covers the right front wheel 31 have the right side member 53 downward along the head pipe 211 (along the arrow H direction in FIG. 3) as the link mechanism 5 operates. Move and move away from the front member 226 of the leg shield 225.
- FIG. 12 is a left side view of the front portion of the vehicle and illustrates the movable range W of the front wheel 3 and the front fender 223 that covers the front wheel.
- the front wheel 3 and the front fender 223 that covers the front wheel move within a certain range in accordance with at least one of the steering operation by the steering mechanism 7, the tilting operation by the link mechanism 5, and the expansion / contraction operation of the shock absorber.
- the symbol Wa indicates the closest position where the front fender 223 that covers the front wheel 3 and the front wheel is closest to the leg shield 225
- the symbol Wb indicates the furthest position where the front fender 223 that covers the front wheel 3 and the front wheel is farthest from the leg shield 225. Show.
- the down frame 212 is connected to the head pipe 211 and extends rearward and downward from the connection portion. Further, as viewed from the left-right direction of the vehicle body frame 21, a part of the down frame 212 is arranged so as to overlap with a movable range of the two front wheels 3 and a movable range of the front fender 223 that covers a part of the two front wheels 3. Yes. With such a configuration, the down frame 212 is arranged at a position close to the two front wheels 3 and has a posture close to vertical.
- the longitudinal force transmitted through the link mechanism 5 is supported by the body frame 21.
- the body frame 21 is required to have high rigidity.
- the above-described down frame 212 of the present embodiment has a bending rigidity larger than both the center underframe 214a and the side underframe 214b constituting the underframe 214, and therefore, an upper frame is provided as in the conventional configuration.
- the foot frame S that penetrates to the left and right behind the right front wheel 31 and the left front wheel 32 by making the down frame 212 substantially perpendicular to the under frame 214 when viewed from the left-right direction of the body frame 21. Can be secured more widely. Therefore, it is possible to improve the difficulty of riding and getting off.
- a flat footrest plate 217 can be installed above the underframe 214 by arranging the central underframe 214a and the side underframe 214b constituting the underframe 214 in parallel with each other along the horizontal direction. It is possible to get on the footrest plate 217 with good footing when getting on.
- the rear member 227 of the leg shield 225 of the vehicle body cover 22 that covers the down frame 212 is made substantially flat, so that the vehicle body cover 22 does not get in the way when getting on, and thus passengers can easily get on and off. .
- the vehicle body frame 22 of the present embodiment includes a connecting member 228 having a portion that is provided below the down frame 212 and connected to the plurality of under frames 214.
- the lower frame 212 includes a connecting member 228, a portion where the lower portion of the down frame 212 and the connecting member 228 are connected, and a portion where the front portion of the under frame 214 and the connecting member 228 are connected.
- the connection part which is a part is formed.
- the bending rigidity in the front-rear direction of the connecting part is larger than the bending rigidity in the front-rear direction of the down frame 212, and the bending rigidity in the up-down direction of the connecting part is larger than the total bending rigidity in the up-down direction of the plurality of underframes 214. large.
- the force transmitted to the down frame 212 may concentrate on the connecting portion.
- the connecting portion since the connecting portion has higher bending rigidity in the front-rear direction than the down frame 212, the connecting portion is not easily deformed, and the down frame 212 can be firmly supported. Furthermore, a part of the force transmitted to the down frame 212 may be transmitted to the under frame 214 and a vertical force may be applied to the under frame 214.
- the bending rigidity in the vertical direction of the connecting portion is larger than the total bending rigidity in the vertical direction of the plurality of underframes 214, the connecting portion is difficult to deform and can firmly support the underframe 214.
- the vehicle body frame 212 of the present embodiment is provided with a bending rigidity sufficient to support the force transmitted from the front portion of the vehicle without providing the conventional upper frame (other than the deformation of the connecting portion). Can be ensured). For example, sufficient rigidity can be ensured even when traveling on a rough road. Furthermore, the portion of the body frame 22 that supports the link mechanism 5 and extends rearward and downward can be disposed closer to the front than in the prior art, so the down frame 212 can be disposed closer to the front than in the prior art. For this reason, the footrest space which penetrates right and left behind the front wheel 3 can be ensured widely.
- the total bending rigidity of the plurality of underframes 214 may be larger or smaller than the bending rigidity of the down frame 212.
- the connecting portion is configured such that the down frame 212 and the under frame 214 are not directly welded but connected via a gusset structure, or the under frame 214 is directly welded to the down frame 212 in the gusset structure. The form etc. which are made can be illustrated.
- the right shock absorber 33 or the left shock absorber 35 contracts a part of the down frame 212 when the vehicle decelerates or travels on a rough road.
- the two front wheels 3 and the front fender 223 are arranged so as to overlap with each other.
- a part of the down frame 212 is moved to the front wheel 3 And you may arrange
- a part of the down frame 212 overlaps the movable range of the front wheel 3 and the front fender 223. It may be configured to be arranged in the above.
- a part of the down frame 212 is disposed so as to overlap the movable range of the two front wheels 3 and the front fender 223 when viewed from the left-right direction of the body frame 21. You may arrange
- the underframe 214 is configured by three of the center underframe 214a and the two side underframes 214b.
- the number is not limited to this example.
- One of 214a may be used.
- the vehicle body frame of the vehicle including the leanable vehicle body frame and the two front wheels described in Patent Document 1 includes an upper frame extending from the upper part of the head pipe toward the rear of the vehicle body, and a lower part of the link mechanism.
- a lower frame extending from the portion to the rear of the vehicle body extends to the lower part of the seat.
- the vehicle 1 including the leanable vehicle body frame 21 and the two front wheels 3 includes a right front wheel 31 and a left front wheel 32 that are arranged on the left and right when viewed from the front of the vehicle 1.
- the vehicle 1 includes rotating members 51 and 52 that rotate about a rotating shaft that is disposed above the right front wheel 31 and the left front wheel 32, and performs a tilting operation in conjunction with the rotating operation of the rotating members 51 and 52.
- the link mechanism 5 for tilting the right front wheel 31 and the left front wheel 32 is provided.
- the vehicle 1 includes a vehicle body frame 21 having a first support portion that supports the link mechanism 5 and a second support portion that is connected to the first support portion and extends rearward and downward from the connection portion. ing.
- a part of the second support part is a movable range of the right front wheel 31 or the left front wheel 32 and a part of the right front wheel 31 or a part of the left front wheel 32. It overlaps with at least one of the movable ranges of the fender 223 that covers the part.
- the second support portion is connected to the first support portion, extends rearward and downward from the connection portion, and further, when viewed from the left-right direction of the vehicle body frame 21,
- the portion is arranged to overlap at least one of the movable range of the right front wheel 31 and the left front wheel 32 or the movable range of the fender 223 that covers a part of the right front wheel 31 and the left front wheel 32.
- the second support portion can be arranged in a position close to the right front wheel 31 and the left front wheel 32 to be in a posture close to vertical.
- the portion of the body frame 21 that supports the link and extends rearward and downward can be disposed closer to the front than in the past, the footrest space S penetrating left and right behind the right front wheel 31 and the left front wheel 32 can be provided. Widely secured. Therefore, it is possible to improve the difficulty of riding and getting off.
- the body frame 21 includes a plurality of third support portions extending rearward from the lower portion of the second support portion, and the bending rigidity of the second support portion is higher than any of the plurality of third support portions. Larger is preferred.
- the longitudinal force transmitted through the link mechanism 5 must be supported by the body frame 21. For example, in the above-described conventional configuration, if the upper frame is simply lost, it is difficult to support the force in the front-rear direction.
- the second support portion of the vehicle 1 of the present invention has a bending rigidity greater than any of the plurality of third support portions, the above-described longitudinal force can be applied without providing an upper frame as in the conventional configuration. It is possible to ensure sufficient bending rigidity to support. Further, since the third support portion is provided so as to extend from the lower portion of the second support portion toward the rear, it is sufficient to support the weight of the link mechanism 5 and the force transmitted from the front of the vehicle 1. High rigidity can be ensured. Therefore, it is possible to sufficiently ensure the rigidity with respect to the force in the front-rear direction while ensuring a wide foot space that penetrates left and right behind the right front wheel 31 and the left front wheel 32.
- the plurality of third support portions are arranged in parallel with each other along the horizontal direction.
- the second support part is preferably substantially perpendicular to the third support part when viewed from the left-right direction of the body frame 21.
- the second support portion is substantially perpendicular to the third support portion when viewed from the left-right direction of the body frame 21, the legs that penetrate left and right behind the right front wheel 31 and the left front wheel 32. A wider space can be secured. Therefore, it is possible to improve the difficulty of riding and getting off.
- the rear surface of the vehicle body cover 22 covering the second support portion is a substantially flat surface.
- the rear surface of the vehicle body cover 22 that covers the second support portion is substantially flat, so that the front portion of the footrest space S is flattened in the left-right direction so that the footrest space S is more widely secured. Can do. Further, the vehicle body cover 22 does not become an obstacle when getting on, and passengers can easily get on and off. ADVANTAGE OF THE INVENTION According to this invention, the vehicle 1 which can provide the footrest space S penetrated to right and left can be provided.
- the acute angle in the present invention and the above embodiment is an angle including 0 ° and smaller than 90 °. Originally, the acute angle does not include 0 °, but in the present invention and the above-described embodiment, the acute angle includes 0 °.
- intersects perpendicularly with the upper axis of a cross member, and a lower axis is a plane extended back and upward.
- the present invention is not limited to this, and the virtual plane perpendicular to the upper axis and the lower axis of the cross member may be a plane extending forward and upward.
- parallel includes two straight lines which are inclined within a range of ⁇ 10 ° and do not intersect as members.
- “along” with respect to “direction”, “member” and the like includes a case where the angle is within a range of ⁇ 40 °.
- “extending” with respect to “direction” includes a case where the surface is inclined within a range of ⁇ 40 °.
- the vehicle according to the present invention is a vehicle including a body frame that can tilt and two front wheels.
- the number of rear wheels is not limited to one and may be two.
- the body cover that covers the body frame may not be provided.
- the power unit includes a power source.
- the power source is not limited to the engine but may be an electric motor.
- the right side member 53, the left side member 54, and the head pipe 211 are provided at overlapping positions as viewed in the left-right direction of the body frame 21.
- the head pipe 211 may be provided at different positions in the front-rear direction with respect to the right side member 53 and the left side member 54 when viewed from the left-right direction of the body frame 21.
- the inclination angle of the right side member 53 and the left side member 54 with respect to the vertical direction of the body frame 21 may be different from the inclination angle of the head pipe 211.
- link support section may be composed of a single part or a plurality of parts. In the case of a plurality of parts, they may be joined by welding, adhesion, or the like, or may be joined by fastening members such as bolts and rivets.
- the upper cross member includes an upper front cross member constituted by a single part, an upper rear cross member constituted by a single part, and a connecting member provided between them and formed by a plurality of parts. You can leave. In the case of a plurality of parts, they may be joined by welding, adhesion, or the like, or may be joined by fastening members such as bolts and rivets.
- the lower cross member includes a lower front cross member constituted by one piece of component, a lower rear cross member constituted by one piece of component, and a connecting member provided between them and formed by a plurality of components. You can leave. In the case of a plurality of parts, they may be joined by welding, adhesion, or the like, or may be joined by fastening members such as bolts and rivets.
- the right side member and the left side member may be configured by a single part or a plurality of parts. In the case of a plurality of parts, they may be joined by welding, adhesion, or the like, or may be joined by fastening members such as bolts and rivets.
- positioned back may be included.
- An upper cross member or a lower cross member may be disposed between a portion disposed in front of the right side member and the left side member and a portion disposed behind.
- the vehicle body frame 21 includes a link support portion 211, a connecting member 215 (upper front and rear frame portion), a down frame 212 (upper and lower frame portion), and an under frame 214 (lower front and rear frame portion). Connected by.
- the vehicle body frame 21 of the present invention is not limited to the above embodiment.
- the vehicle body frame 21 may have a link support portion, an upper front and rear frame portion, an upper and lower frame portion, and a lower front and rear frame portion.
- the vehicle body frame 21 may be formed entirely or partly by casting or the like.
- the body frame 21 may be comprised by one member in the upper front-back frame part and the upper-lower frame part, and may be comprised by another member.
- the front of the vehicle body frame that curves when the vehicle body frame in an upright state is viewed from the left and right directions.
- a portion where the acute angle formed by the tangent of the edge and the vertical direction of the body frame is 45 degrees is defined as the upper end of the vertical frame portion.
- the vertical frame portion is defined as a portion where the acute angle formed by the tangent line of the front edge of the vehicle body frame and the vertical direction of the vehicle body frame is 45 degrees or less, and the acute angle formed by the tangent line of the front edge of the vehicle body frame and the vertical direction of the vehicle body frame.
- the part where the angle is greater than 45 degrees is defined as the upper front and rear frame part.
- the vehicle body frame in an upright state is viewed from the left and right directions, and the front of the curved body frame is A portion where the acute angle formed by the tangent of the edge and the vertical direction of the body frame is 45 degrees is defined as the lower end of the vertical frame portion. Therefore, a portion where the acute angle formed by the tangent to the front edge of the vehicle body frame and the vertical direction of the vehicle body frame is 45 degrees or more is defined as the upper and lower frame portions, and the acute angle formed by the tangent of the front edge of the vehicle body frame and the vertical direction of the vehicle body frame.
- the part where is larger than 45 degrees is defined as the lower front and rear frame part.
- the upper and lower frame portions of the vehicle body frame 21 are from a virtual plane VPTT in which the upper end UEFE of the front edge FE is parallel to the rotational axis SA of the steering shaft 60 and contacts the rear portions of the right front wheel 31 and the left front wheel 32 in the upright state of the vehicle 1.
- the upper and lower frame portions of the body frame 21 may be composed of a plurality of frame members.
- the upper and lower frame portions of the vehicle body frame 21 may include a frame member that constitutes the front edge and another frame member that is disposed behind the frame member.
- the front edge FE of the down frame 212 of the vehicle body frame 21 is formed in a straight line when the vehicle 1 is viewed from the side in an upright state.
- the front edges of the upper and lower frame portions of the vehicle body frame in the present invention are not limited to the above embodiment.
- the front edges of the upper and lower frame portions of the vehicle body frame in the present invention may be curved or may be composed of a plurality of straight lines in a side view of the vehicle in an upright state.
- the down frame 212 of the vehicle body frame 21 has an upper end UEFE positioned ahead of the lower end LEFE.
- the upper and lower frame portions of the vehicle body frame of the present invention are not limited to the above embodiment.
- an acute angle ⁇ LFUL formed by an imaginary line VLFUL passing through the upper end UEFE and the lower end LEFE and the vertical direction of the vehicle body frame 21 is formed between the rotation axis SA of the steering shaft 60 and the vertical direction of the vehicle body frame 21. It only needs to be smaller than the acute angle ⁇ SA.
- the upper end UEFE and the lower end LEFE may be in the same position in the vehicle front-rear direction of the vehicle in the upright state, or the upper end UEFE may be located behind the lower end LEFE. Good.
- an acute angle ⁇ LFUL formed by a virtual line VLFUL passing through the upper end UEFE and the lower end LEFE and the vertical direction of the vehicle body frame 21 is the upper end UEFE and the lower end with respect to the vertical direction of the vehicle body frame 21 in a side view when the vehicle 1 is upright.
- the upper part of the imaginary line VLFUL passing through LEFE may be inclined so as to be positioned forward, and the upper part of the imaginary line VLFUL passing through the upper end UEFE and the lower end LEFE is located rearward with respect to the vertical direction of the body frame 21. It may be formed so as to be inclined.
- the down frame 212 of the vehicle body frame 21 has an acute angle ⁇ LFUL formed by an imaginary line VLFUL passing through the upper end UEFE and the lower end LEFE and the vertical direction of the vehicle body frame 21 and the rotation axis AUC of the upper cross member 51 and the lower cross member 52. Is formed to be smaller than an acute angle ⁇ VC formed by a virtual plane VPVC perpendicular to the rotation axis ALC and the vertical direction of the body frame 21.
- the present invention is not limited to the above embodiment.
- the acute angle formed by the imaginary line VLFUL passing through the upper and lower ends of the upper and lower frames and the vertical direction of the vehicle body frame 21 is hypothetically perpendicular to the rotation axis AUC of the upper cross member 51 and the rotation axis ALC of the lower cross member 52. It may be formed so as to be larger than an acute angle ⁇ VC formed between the plane VPVC and the vertical direction of the body frame, or may be formed so as to coincide with each other.
- the acute angle ⁇ SA formed by the rotation axis SA of the steering shaft 60 and the vertical direction of the vehicle body frame 21 is the acute angle ⁇ TA formed by the expansion / contraction direction TA of the right shock absorber 33 and the left shock absorber 35 and the vertical direction of the vehicle body frame 21.
- the present invention is not limited to the above embodiment.
- the acute angle ⁇ SA formed between the rotation axis SA of the steering shaft 60 and the vertical direction of the vehicle body frame 21 is smaller than the acute angle ⁇ TA formed between the expansion / contraction direction TA of the right shock absorber 33 and the left shock absorber 35 and the vertical direction of the vehicle body frame 21. It may be large or large.
- the rotation axis SA of the steering shaft 60 and the expansion / contraction direction TA of the right shock absorber 33 and the left shock absorber 35 are the same.
- the present invention is not limited to the above embodiment.
- the rotation axis SA of the steering shaft 60 and the expansion / contraction direction TA of the right shock absorber 33 and the left shock absorber 35 may be separated in the front-rear direction. For example, you may cross.
- the right front wheel 31 and the left front wheel 32 are supported such that their upper ends are movable from the upper end UEFE of the down frame 212 of the body frame 21 to the upper side in the vertical direction of the body frame 21.
- the present invention is not limited to the above embodiment.
- the right front wheel 31 and the left front wheel 32 may be movable to the same height as or below the upper end UEFE of the down frame 212 of the body frame 21 in the vertical direction of the body frame 21. .
- the link mechanism may further include a cross member in addition to the upper cross member and the lower cross member.
- the upper cross member and the lower cross member are merely named in a relative vertical relationship.
- the upper cross member does not indicate the uppermost cross member in the link mechanism.
- the upper cross member means a cross member located above another cross member below the upper cross member.
- the lower cross member does not indicate the lowest cross member in the link mechanism.
- the lower cross member means a cross member located below another cross member above it.
- the cross member may be composed of two parts, a right cross member and a left cross member.
- the upper cross member and the lower cross member may be configured by a plurality of cross members as long as they have a link function. Further, another cross member may be provided between the upper cross member and the lower cross member.
- the link mechanism only needs to include an upper cross member and a lower cross member.
- Vehicle vehicle
- 3 Front wheel
- 5 Link mechanism
- 21 Body frame
- 22 Body cover
- 31 right front wheel
- 32 left front wheel
- 211 head pipe (example of first support part)
- 212 down frame (example of second support part)
- 214 under frame (example of third support part) )
- 214a center underframe
- 214b side underframe
- 223 front fender (an example of a fender)
- S footrest space
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Automatic Cycles, And Cycles In General (AREA)
- Body Structure For Vehicles (AREA)
- Axle Suspensions And Sidecars For Cycles (AREA)
Abstract
Description
特許文献1に記載の車両は、車両の左右方向の大きさは小型化できているが、車両の前後方向の大きさが大型化していた。
車両の前方から見て左右に配置され、ハンドルの操作により操舵可能な右前輪および左前輪と、
車両直立状態において、前記右前輪および前記左前輪より上方に配置される上クロス部材と、前記上クロス部材より車体フレームの上下方向の下方に配置され、前記右前輪および前記左前輪より上方に配置される下クロス部材と、上部が前記上クロス部材の右部に回転可能に支持され、下部が前記下クロス部材の右部に回転可能に支持され、前記右前輪および前記左前輪より上方に配置され、前記右前輪を支持する右サイド部材と、上部が前記上クロス部材の左部に回転可能に支持され、下部が前記下クロス部材の左部に回転可能に支持され、前記右前輪および前記左前輪より上方に配置され、前記左前輪を支持する左サイド部材と、を有するリンク機構と、
上部に前記リンク機構の前記上クロス部材の中間部を回転可能に支持し、下部に前記下クロス部材の中間部を回転可能に支持するリンク支持部と、前記リンク支持部の下部から前記車体フレームの前後方向の後方に延びる上前後フレーム部と、前記上前後フレーム部の後部から前記車体フレームの上下方向の下方に延びる上下フレーム部と、前記上下フレーム部の下部から後方に延びる下前後フレーム部とを有し、車両の左右方向に傾斜可能な前記車体フレームと、
前記ハンドルが上部に設けられ、前記リンク支持部に回転可能に支持され、下部が上部より前記車体フレームの前後方向の前方に位置するステアリングシャフトと、を備え、
前記車体フレームの前記リンク支持部は、前記上クロス部材および前記下クロス部材の回転軸線に垂直な仮想平面と前記車体フレームの上下方向とがなす鋭角が前記ステアリングシャフトの回転軸線と前記車体フレームの上下方向のなす鋭角より小さくなる態様で前記上クロス部材および前記下クロス部材を回転可能に支持し、
前記車体フレームの前記上下フレーム部は、
その前縁の上端が、前記ステアリングシャフトの回転軸線に平行で車両直立状態における前記右前輪および前記左前輪の後部に接する仮想平面より前方に配置され、
前記前縁の前記上端と下端の間の左右方向の幅が、前記右前輪と前記左前輪の間隔より小さく形成され、
前記上端と前記下端を通る仮想線と前記車体フレームの上下方向とがなす鋭角が、前記ステアリングシャフトの回転軸線と前記車体フレームの上下方向のなす鋭角より小さくなる態様に形成されたことを特徴とする。
従って、(1)の構成によれば、傾斜可能な車体フレームと2つの前輪を備えた車両の左右方向および前後方向の大きさを小型化できる。
前記車体フレームの前記上下フレーム部は、前記上端と前記下端を通る仮想線と前記車体フレームの上下方向とがなす鋭角が前記上クロス部材および前記下クロス部材の回転軸線に垂直な仮想平面と前記車体フレームの上下方向のなす鋭角より小さくなる態様に形成されても良い。
前記車体フレームの前記上下フレーム部は、前記上端が前記ステアリングシャフトの回転軸線より前記ステアリングシャフトの回転軸線に平行で車両直立状態における前記右前輪および前記左前輪の後部に接する仮想平面に近い位置に配置されても良い。
前記右前輪および前記左前輪は、その上端が前記車体フレームの前記上下フレーム部の前記上端より前記車体フレームの上下方向の上方まで移動可能に支持されても良い。
前記右前輪と前記右サイド部材の間に設けられるテレスコピック式の右緩衝器と、
前記左前輪と前記左サイド部材の間に設けられるテレスコピック式の左緩衝器と、を備え、
前記右緩衝器および前記左緩衝器は、その伸縮方向と前記車体フレームの上下方向とがなす鋭角が前記ステアリングシャフトの回転軸線と前記車体フレームの上下方向のなす鋭角より小さくなる態様で設けられていても良い。
前記リンク機構は、前記上クロス部材および前記下クロス部材の回転軸線に垂直な仮想平面と前記車体フレームの上下方向のなす鋭角が前記右緩衝器および前記左緩衝器の伸縮方向と前記車体フレームの上下方向とがなす鋭角より小さくなる態様に設けられていても良い。
前記車体フレームの前記上下フレーム部は、その前縁を構成する車体フレームの左右方向において前記右前輪と前記左前輪の中央に配置される単一の筒状部材を含んでいても良い。
前記車体フレームは、前記上端と前記上下フレーム部の前縁を構成する前記単一の筒状部材の下部の後端を通る仮想線と前記車体フレームの上下方向とがなす鋭角が前記ステアリングシャフトの回転軸線と前記車体フレームの上下方向のなす鋭角より小さくなる態様に形成されても良い。
以下、図面を参照し、本発明の一実施形態に係る車両の一種である車両1について説明する。図において、形状が異なっていても、機能が同一又は相当部分には同一符号を付す。以下、図中の矢印Fは、車両が直立状態での車両1の前後方向の前方向を示す。図中の矢印Rは、車両が直立状態での車両1の左右方向の右方向を示す。矢印Uは、車両が直立状態での車両1の上下方向の上方向を示す。また、図中の矢印Fは、車両1の車体フレームの前後方向の前方向と同一である。図中の矢印Rは、車両1の車体フレームの左右方向の右方向と同一である。矢印Uは、車両1の車体フレームの上下方向の上方向と同一である。なお、車体フレームが鉛直方向に対して車体フレームの左右方向に傾斜した場合、車両1の車体フレームの左右方向は、車両が直立状態での車両1の左右方向と異なる。車体フレームが鉛直方向に対して車体フレームの左右方向に傾斜した場合、車両1の車体フレームの上下方向は、車両が直立状態での車両1の上下方向と異なる。図1は、車両1の全体側面図である。なお、以下の説明において前後左右と方向を示す場合、車両1を運転する乗員から見た前後左右の方向を意味するものとする。
車両1は、右前輪31、左前輪32、リンク機構5、車体フレーム21、ステアリングシャフト60を備える。右前輪31および左前輪32は、車両1の前方から見て左右に配置され、ハンドル23の操作により操舵可能である。
図2に示すように、車体フレーム21のダウンフレーム212は、前縁FEの上端UEFEと下端LEFEの間の左右方向の幅が右前輪31と左前輪32の間隔より小さく形成される。車体フレーム21のダウンフレーム212は、車両直立状態の正面視において、前縁FEの上端UEFEと下端LEFEが右前輪31と左前輪32の間に配置される。
図1に戻り、車体フレーム21のダウンフレーム212は、上端UEFEと下端LEFEを通る仮想線VLFULと車体フレーム21の上下方向とがなす鋭角ΘLFULがステアリングシャフト60の回転軸線SAと車体フレーム21の上下方向のなす鋭角ΘSAより小さくなる態様に形成される。車両1の直立状態の側面視において、上端UEFEと下端LEFEを通る仮想線VLFULと車体フレーム21の上下方向とがなす鋭角ΘLFULが、ステアリングシャフト60の回転軸線SAと車体フレーム21の上下方向のなす鋭角ΘSAより小さい。
車体フレーム21のリンク支持部211は、上クロス部材51の回転軸線AUCおよび下クロス部材52の回転軸線ALCに垂直な仮想平面VPVCと車体フレーム21の上下方向とがなす鋭角ΘVCがステアリングシャフト60の回転軸線SAと車体フレーム21の上下方向のなす鋭角ΘSAより小さくなる態様で上クロス部材51および下クロス部材52を回転可能に支持する。そのため、リンク機構5が作動して右前輪31または左前輪32が上方に移動しても、後方への移動量を減らすことができる。
従って、前記構成によれば、傾斜可能な車体フレーム21と2つの前輪を備えた車両1の左右方向および前後方向の大きさを小型化できる。
この場合、車体フレーム21と右前輪31および左前輪32との干渉を避けつつ、右前輪31および左前輪32の後端の移動軌跡VLRTに前縁FEを近づけたダウンフレーム212(上下フレーム部)の前縁FEを単一の筒状部材で構成する。剛性を確保しながらコンパクトにできる単一の筒状部材で右前輪31および左前輪32の後端に近いダウンフレーム212(上下フレーム部)の前縁FEを構成したので、車体フレーム21と右前輪31および左前輪32との干渉を避けつつ、右前輪31および左前輪32の後端の移動軌跡VLRTとダウンフレーム212(上下フレーム部)の前縁FEを車体フレーム21の前後方向でより近づけることができる。そのため、車両1のホイールベースを小さくでき、車両1の前後方向の大きさを小型化できる。従って、傾斜可能な車体フレーム21と2つの前輪を備えた車両1の左右方向および前後方向の大きさを小型化できる。
この場合、ダウンフレーム212(上下フレーム部)の下部の後端REFを右前輪31および左前輪32に近づけて配置する。これにより、車体フレーム21と右前輪31および左前輪32との干渉を避けつつ、右前輪31および左前輪32の後端の移動軌跡VLRTとダウンフレーム212(上下フレーム部)の前縁FEを車体フレーム21の前後方向でより近づけることができる。そのため、車両1のホイールベースを小さくでき、車両1の前後方向の大きさを小型化できる。従って、傾斜可能な車体フレーム21と2つの前輪を備えた車両1の左右方向および前後方向の大きさを小型化できる。
図1に示すように、車両1は、車両本体部2、前輪3、後輪4、操舵機構7、リンク機構5を備えている。車両本体部2は、主に、車体フレーム21、車体カバー22、ハンドル23、シート24およびパワーユニット25から構成されている。
連結部材215は、ヘッドパイプ211の下部から車体フレーム21の前後方向の後方に延びている。ダウンフレーム212は、連結部材215の後部から車体フレーム21の上下方向の下方に延びている。アンダーフレーム214は、ダウンフレーム212の下部から後方に延びている。リアフレーム213は、シート24およびテールランプ等を支持する。
図2から図4に示すように、操舵機構7は、ハンドル23、ステアリングシャフト60、操作力伝達機構6、右緩衝器33、第1回転防止機構34、左緩衝器35、第2回転防止機構36、左右1対の前輪3、第1ブラケット317および第2ブラケット327などを含んでいる。
第1回転防止機構34は、第1ガイド313を含んでいる。第1外筒312の上部には、第1ガイド313が配置されている。第1ガイド313は、第1外筒312の上部に固定されている。右前輪31は、第1中心軸Xを中心に回転可能である。右前輪31は、第1中心軸Xを中心に回転して向きを変えることができる。
第2回転防止機構36は、第2ガイド323を含んでいる。第2外筒322の上部には、第2ガイド323が配置されている。第2ガイド323は、第2外筒322の上部に固定されている。左前輪32は第2中心軸Yを中心に回転する。左前輪32は、第2中心軸Yを中心に回転して向きを変えることができる。
図2から図4に示すように、リンク機構5は、ハンドル23の下方に配置されている。リンク機構5は右前輪31および左前輪32の上方に配置されている。リンク機構5は、ヘッドパイプ211に支持されている。
右サイド部材53は、右前輪31より上方に配置されている。右サイド部材53は、下部で第1ブラケット317に接続されている。右サイド部材53は、第1ブラケット317に対して第1中心軸Xを中心に回転可能に取り付けられている。
第1ブラケット317は、ハンドル23を回転させることで、右サイド部材53との接続部分を中心に回転する。右サイド部材53は、第1ブラケット317が回転した場合に車体フレーム21に対して回転しない。右サイド部材53は、車体フレーム21の左右方向について右緩衝器33よりも右方に配置されている。右サイド部材53は、車体フレーム21の上下方向について右緩衝器33よりも上方に配置されている。
左サイド部材54は、車体フレーム21の上下方向について左前輪32より上方に配置されている。左サイド部材54は、下部で第2ブラケット327に接続されている。左サイド部材54は、第2ブラケット327に対して第2中心軸Yを中心に回転可能に取り付けられている。
第2ブラケット327は、ハンドル23を回転させることで、左サイド部材54との接続部分を中心に回転する。左サイド部材54は、第2ブラケット327が回転した場合に車体フレーム21に対して回転しない。左サイド部材54は、車体フレーム21の左右方向について左緩衝器35よりも左方に配置されている。左サイド部材54は、車体フレーム21の上下方向について左緩衝器35より上方に配置されている。
図1および図3に示すように、車体フレーム21は、ヘッドパイプ(リンク支持部の一例)211と、ダウンフレーム(上下フレーム部の一例)212と、アンダーフレーム(下前後フレーム部の一例)214と、リアフレーム213とを含んでいる。ヘッドパイプ211は、リンク機構5を支持する。
図1や図4に示すように、車体カバー22は、フロントカバー221、フロントフェンダー223およびリアフェンダー224を含んでいる。
図8に示すように、右前輪31および右前輪31を覆うフロントフェンダー223は、車両の直立時の位置(図8中実線で示す位置)に対して、減速時や悪路走行時などに右緩衝器33が最大に収縮した最大収縮時の位置(図8中点線で示す位置)まで可動する。右緩衝器33の伸縮動作では、右緩衝器33が最大に収縮した最大収縮時の位置と右緩衝器33が最大に伸長した最大伸長時の位置との間の範囲が可動範囲となる。左前輪32および左前輪32を覆うフロントフェンダー223は、左緩衝器35の伸縮動作により、右前輪31および右前輪31を覆うフロントフェンダー223と同様に可動する。
図9は、操舵動作を説明する図であり、車体カバーを外した状態での車両の部分平面図である。
図10は、傾斜動作を説明する図であり、車体カバーを外した状態での車両の全体正面図である。図11は、傾斜動作時における車輪等の動きを説明する図であり、車両の前部を水平方向に切断した概略断面図である。
図12は、車両前部の左部分側面図であり、前輪3および前輪を覆うフロントフェンダー223の可動範囲Wを図示している。前輪3および前輪を覆うフロントフェンダー223は、操舵機構7による操舵動作とリンク機構5による傾斜動作と緩衝器の伸縮動作の少なくとも1つの動作に伴い一定の範囲を可動する。符号Waは、前輪3および前輪を覆うフロントフェンダー223がレッグシールド225に最も近づく最近接位置を示し、符号Wbは、前輪3および前輪を覆うフロントフェンダー223がレッグシールド225から最も離れる最離間位置を示している。
また、連結部は、ダウンフレーム212とアンダーフレーム214とが直接は溶接されずガゼット構造物を介して連結される形態や、アンダーフレーム214がガゼット構造物内でダウンフレーム212と直接溶接されて連結される形態等を例示できる。
なお、本発明および上記実施形態における鋭角とは、0°を含み90°より小さい角度とする。本来、鋭角は、0°を含まないが、本発明および上記実施形態においては、鋭角は0°を含むものとする。また、上記実施例では、クロス部材の上軸線および下軸線と垂直に交わる仮想平面は、後方かつ上方に延びる平面である。しかしながら、これに限定されることなく、クロス部材の上軸線および下軸線と垂直に交わる仮想平面が、前方かつ上方に延びる平面であっても良い。
本明細書において、「平行」は、±10°の範囲で傾斜し、部材として交わらない2つの直線も含む。本発明において、「方向」および「部材」等に対して「沿う」は、±40°の範囲で傾斜する場合も含む。本発明において、「方向」に対して「延びる」は、±40°の範囲で傾斜する場合も含む。
本発明に係る車両は、傾斜可能な車体フレームと2つの前輪を備えた車両である。後輪の数は1つに限らず2つでも良い。また、車体フレームを覆う車体カバーを備えていても良い。車体フレームを覆う車体カバーを備えていなくても良い。パワーユニットは、動力源を含む。動力源は、エンジンに限らず電動モータであっても良い。
上記各実施形態においては、車体フレーム21の左右方向見て、右サイド部材53、左サイド部材54およびヘッドパイプ211は、重なる位置に設けられている。しかしながら、車体フレーム21の左右方向から見て、右サイド部材53と左サイド部材54に対しヘッドパイプ211が前後方向の異なる位置に設けられていてもよい。また、右サイド部材53と左サイド部材54の車体フレーム21の上下方向に対する傾斜角度が、ヘッドパイプ211の傾斜角度と異なっていてもよい。
なお、リンク支持部は、一片の部品で構成されていても、複数の部品で構成されていても良い。複数の部品で構成されている場合、溶接、接着などにより結合されていても、ボルト、リベットなどの締結部材で結合されていても良い。
なお、上クロス部材は、一片の部品で構成される上前クロス部材、一片の部品で構成される上後クロス部材、およびそれらの間に設けられ、複数の部品で構成される連結部材を含んでいても良い。複数の部品で構成されている場合、溶接、接着などにより結合されていても、ボルト、リベットなどの締結部材で結合されていても良い。
本実施例において、車体フレーム21は、リンク支持部211と連結部材215(上前後フレーム部)とダウンフレーム212(上下フレーム部)とアンダーフレーム214(下前後フレーム部)を有し、それらが溶接により接続されている。しかしながら、本発明の車体フレーム21は上記実施形態に限定されない。車体フレーム21は、リンク支持部と上前後フレーム部と上下フレーム部と下前後フレーム部を有していればよい。例えば、車体フレーム21は、鋳造等により全部または一部が一体に形成されていてもよい。また、車体フレーム21は、上前後フレーム部と上下フレーム部が1つの部材で構成されていてもよいし、別部材で構成されていてもよい。
本実施形態において、車体フレーム21のダウンフレーム212の前縁FEは、車両1の直立状態の側面視において、直線状に形成されている。しかしながら、本発明における車体フレームの上下フレーム部の前縁は、上記実施形態に限定されない。例えば、本発明における車体フレームの上下フレーム部の前縁は、車両の直立状態の側面視において、湾曲していてもよいし、複数の直線から構成されていてもよい。
本実施形態において、車体フレーム21のダウンフレーム212は、上端UEFEが下端LEFEよりも前方に位置している。しかしながら、本発明の車体フレームの上下フレーム部は、上記実施形態に限定されない。本発明の車体フレームの上下フレーム部は、上端UEFEと下端LEFEを通る仮想線VLFULと車体フレーム21の上下方向とがなす鋭角ΘLFULがステアリングシャフト60の回転軸線SAと車体フレーム21の上下方向のなす鋭角ΘSAよりも小さければよい。例えば、車両の直立状態の側面視で、車両の直立状態の車両前後方向において、上端UEFEと下端LEFEが同じ位置であってもよいし、上端UEFEが下端LEFEよりも後方に位置していてもよい。
本実施形態において、車体フレーム21のダウンフレーム212は、上端UEFEと下端LEFEを通る仮想線VLFULと車体フレーム21の上下方向とがなす鋭角ΘLFULが上クロス部材51の回転軸線AUCおよび下クロス部材52の回転軸線ALCに垂直な仮想平面VPVCと車体フレーム21の上下方向のなす鋭角ΘVCより小さくなるように形成される。しかしながら、本発明は上記実施形態に限定されない。本発明における上下フレーム部は、その上端と下端を通る仮想線VLFULと車体フレーム21の上下方向とがなす鋭角が上クロス部材51の回転軸線AUCおよび下クロス部材52の回転軸線ALCに垂直な仮想平面VPVCと車体フレームの上下方向のなす鋭角ΘVCより大きくなるように形成されてもよいし、一致するように形成されてもよい。
本実施形態において、ステアリングシャフト60の回転軸線SAと車体フレーム21の上下方向のなす鋭角ΘSAは、右緩衝器33および左緩衝器35の伸縮方向TAと車体フレーム21の上下方向とがなす鋭角ΘTAは一致している。しかしながら、本発明においては、上記実施形態に限定されない。例えば、ステアリングシャフト60の回転軸線SAと車体フレーム21の上下方向のなす鋭角ΘSAは、右緩衝器33および左緩衝器35の伸縮方向TAと車体フレーム21の上下方向とがなす鋭角ΘTAよりも小さくても良いし、大きくてもよい。
本実施形態において、右前輪31および左前輪32は、その上端が車体フレーム21のダウンフレーム212の上端UEFEより車体フレーム21の上下方向の上方まで移動可能に支持される。しかしながら、本発明は、上記実施形態に限定されない。本発明において、右前輪31および左前輪32は、車体フレーム21の上下方向においてその上端が車体フレーム21のダウンフレーム212の上端UEFEと同じ高さまたはそれよりも下方まで移動可能であってもよい。
なお、本発明では、リンク機構は、上クロス部材と下クロス部材の他にさらにクロス部材を備えていても良い。上クロス部材と下クロス部材は、相対的な上下関係で命名しているに過ぎない。上クロス部材は、リンク機構における最上位のクロス部材を示していない。上クロス部材は、それより下方の別のクロス部材より上方にあるクロス部材を意味する。下クロス部材は、リンク機構における最下位のクロス部材を示していない。下クロス部材は、それより上方の別のクロス部材より下方にあるクロス部材を意味する。また、クロス部材は、右クロス部材と左クロス部材の2つの部品で構成されていても良い。このように、上クロス部材および下クロス部材は、リンク機能を有する範囲で、複数のクロス部材で構成しても良い。さらに、上クロス部材と下クロス部材の間に他のクロス部材を設けても良い。リンク機構は、上クロス部材および下クロス部材を含んでいれば良い。
本出願は、2012年12月21日に提出された日本国特許出願2012-279996、2012年12月21日に提出された日本国特許出願2012-278879及び2013年7月1日に提出された日本国特許出願2013-138481に基づくものであり、その内容はここに参照として取り込まれる。
車体カバー、31:右前輪、32:左前輪、211:ヘッドパイプ(第1支持部の一例)、212:ダウンフレーム(第2支持部の一例)、214:アンダーフレーム(第3支持部の一例)、214a:中央アンダーフレーム、214b:側部アンダーフレーム、223:フロントフェンダー(フェンダーの一例)、S:足置きスペース
Claims (8)
- 車両の前方から見て左右に配置され、ハンドルの操作により操舵可能な右前輪および左前輪と、
車両直立状態において、前記右前輪および前記左前輪より上方に配置される上クロス部材と、前記上クロス部材より車体フレームの上下方向の下方に配置され、前記右前輪および前記左前輪より上方に配置される下クロス部材と、上部が前記上クロス部材の右部に回転可能に支持され、下部が前記下クロス部材の右部に回転可能に支持され、前記右前輪および前記左前輪より上方に配置され、前記右前輪を支持する右サイド部材と、上部が前記上クロス部材の左部に回転可能に支持され、下部が前記下クロス部材の左部に回転可能に支持され、前記右前輪および前記左前輪より上方に配置され、前記左前輪を支持する左サイド部材と、を有するリンク機構と、
上部に前記リンク機構の前記上クロス部材の中間部を回転可能に支持し、下部に前記下クロス部材の中間部を回転可能に支持するリンク支持部と、前記リンク支持部の下部から前記車体フレームの前後方向の後方に延びる上前後フレーム部と、前記上前後フレーム部の後部から前記車体フレームの上下方向の下方に延びる上下フレーム部と、前記上下フレーム部の下部から後方に延びる下前後フレーム部とを有し、車両の左右方向に傾斜可能な前記車体フレームと、
前記ハンドルが上部に設けられ、前記リンク支持部に回転可能に支持され、下部が上部より前記車体フレームの前後方向の前方に位置するステアリングシャフトと、
を備え、
前記車体フレームの前記リンク支持部は、前記上クロス部材および前記下クロス部材の回転軸線に垂直な仮想平面と前記車体フレームの上下方向とがなす鋭角が前記ステアリングシャフトの回転軸線と前記車体フレームの上下方向のなす鋭角より小さくなる態様で前記上クロス部材および前記下クロス部材を回転可能に支持し、
前記車体フレームの前記上下フレーム部は、その前縁の上端が前記ステアリングシャフトの回転軸線に平行で車両直立状態における前記右前輪および前記左前輪の後部に接する仮想平面より前方に配置され、前記前縁の前記上端と下端の間の左右方向の幅が前記右前輪と前記左前輪の間隔より小さく形成され、前記上端と前記下端を通る仮想線と前記車体フレームの上下方向とがなす鋭角が前記ステアリングシャフトの回転軸線と前記車体フレームの上下方向のなす鋭角より小さくなる態様に形成された車両。 - 前記車体フレームの前記上下フレーム部は、前記上端と前記下端を通る仮想線と前記車体フレームの上下方向とがなす鋭角が前記上クロス部材および前記下クロス部材の回転軸線に垂直な仮想平面と前記車体フレームの上下方向のなす鋭角より小さくなる態様に形成された請求項1に記載の車両。
- 前記車体フレームの前記上下フレーム部は、前記上端が前記ステアリングシャフトの回転軸線より前記ステアリングシャフトの回転軸線に平行で車両直立状態における前記右前輪および前記左前輪の後部に接する仮想平面に近い位置に配置された請求項1または2に記載の車両。
- 前記右前輪および前記左前輪は、その上端が前記車体フレームの前記上下フレーム部の前記上端より前記車体フレームの上下方向の上方まで移動可能に支持された請求項1、2または3のいずれか一項に記載の車両。
- 前記右前輪と前記右サイド部材の間に設けられるテレスコピック式の右緩衝器と、
前記左前輪と前記左サイド部材の間に設けられるテレスコピック式の左緩衝器と、を備え、
前記右緩衝器および前記左緩衝器は、その伸縮方向と前記車体フレームの上下方向とがなす鋭角が前記ステアリングシャフトの回転軸線と前記車体フレームの上下方向のなす鋭角と同じかそれより小さくなる態様で設けられた請求項1、2、3または4のいずれか一項に記載の車両。 - 前記リンク機構は、前記上クロス部材および前記下クロス部材の回転軸線に垂直な仮想平面と前記車体フレームの上下方向のなす鋭角が前記右緩衝器および前記左緩衝器の伸縮方向と前記車体フレームの上下方向とがなす鋭角より小さくなる態様に設けられた請求項5に記載の車両。
- 前記車体フレームの前記上下フレーム部は、その前縁を構成する前記車体フレームの左右方向において前記右前輪と前記左前輪の中央に配置される単一の筒状部材を含む請求項1、2、3、4または5のいずれか一項に記載の車両。
- 前記車体フレームは、前記上端と前記上下フレーム部の前縁を構成する前記単一の筒状部材の下部の後端を通る仮想線と前記車体フレームの上下方向とがなす鋭角が前記ステアリングシャフトの回転軸線と前記車体フレームの上下方向のなす鋭角より小さくなる態様に形成された請求項7に記載の車両。
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