JP4311834B2 - Power unit for vehicle - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a vehicle power unit that includes an internal combustion engine, a transmission device having a transmission, and a final reduction gear, and is mounted on a vehicle such as a three-wheeled motor vehicle, and more specifically, the internal combustion engine, the transmission device, and The present invention relates to the mutual arrangement structure of the final reduction gears.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, an automatic three-wheeled vehicle includes an internal combustion engine, a transmission device having a transmission to which power from the internal combustion engine is input, and a final reduction device that transmits power from the transmission device to the rear axle of the rear wheel. As power units for vehicles, for example, those disclosed in Japanese Utility Model Laid-Open Nos. 62-54891 and 59-106723 are known.
[0003]
Among these gazettes, the power unit disclosed in the former includes a transmission belt in which the power of an engine having a cylinder portion having an axis inclined forward and upward is wound between a variable diameter driving pulley and a variable diameter driven pulley. It is transmitted to the rear axle via the winding transmission device, the reduction gear mechanism and the differential gear mechanism. And the transmission case which accommodates a winding transmission device inclines in the front lower direction of a vehicle body toward the drive pulley side couple | bonded with the crankshaft of an internal combustion engine from the driven pulley side located in the upper vicinity of a rear axle.
[0004]
On the other hand, in the power unit disclosed in the latter, the power of the engine having a cylinder portion having an axis inclined rearward and upward is transmitted to the belt-type automatic transmission, and further to the rear axle via the chain transmission means and the reduction gear mechanism. Communicated. The case of the automatic transmission is arranged substantially horizontally, and the axis of the rotation shaft of the driven pulley of the automatic transmission and the axis of the rear axle are arranged on a substantially horizontal plane.
[0005]
[Problems to be solved by the invention]
By the way, in what was disclosed by the former, since the cylinder part which inclined to the front upper direction protruded ahead of the power unit, the front-and-rear length of the power unit became long and the power unit became large.
[0006]
In the latter, since the cylinder portion is inclined rearward and upward, the cylinder portion does not protrude forward from the front end of the power unit. However, the engine is coupled to the case with the axis of the cylinder portion of the engine having a large angle with respect to the plane including the axis of the rotation shaft of the driven pulley of the automatic transmission and the axis of the rear axle. Since the cylinder portion protrudes upward with respect to the case, the overall height of the power unit is high, and the power unit is large.
[0007]
  The invention of the present application has been made in view of such circumstances, and claims 1 to4SUMMARY OF THE INVENTION An object of the present invention is to provide a compact vehicle power unit in which the front and rear lengths of the power unit are short and the overall height is low. And claims4It is another object of the described invention to provide a vehicle power unit in which the power unit support means can be easily attached.
[0008]
[Means for Solving the Problems and Effects of the Invention]
  The invention according to claim 1 of the present application is directed to an internal combustion engine in which the axis of the crankshaft is oriented in the left-right direction and the axis of the cylinder portion is inclined rearward and upward, an input portion to which power from the crankshaft is input, and the A transmission device having an output unit that is positioned rearward of the input unit and outputs power after shifting, a transmission case that houses the transmission device, and a final reduction device that transmits the power from the output unit to the rear axle And a speed reduction case that accommodates the final reduction gear, wherein the input portion and the output portion each have an axis that points in the left-right direction, and the cylinder portion and the rear axle are the axis of the input portion and the In the vehicle power unit disposed above the first plane including the axis of the output unit, the axis of the cylinder unit and the second plane including the axis of the output unit and the axis of the rear axle are substantially parallel to each other. Relationship and So that the said internal combustion engine and the transmission case are disposed respectively on the input side and output side of the transmission case,The cylinder head of the cylinder part is at a position intersecting with a horizontal plane including the axis of the input part,The deceleration case andLocated above the deceleration caseThe cylinder part is a vehicle power unit arranged so as to overlap in the vertical direction.
[0009]
  According to the first aspect of the present invention, the internal combustion engine and the speed reducer are arranged so that the axis of the cylinder portion is inclined rearward and upward, and the axis of the cylinder portion and the second plane are in a substantially parallel positional relationship. Cases are placed on the input side and output side of the transmission case.And the cylinder head of the cylinder portion is at a position intersecting with a horizontal plane including the axis of the input portion.The Therefore, when the second plane is parallel or substantially parallel to the horizontal plane, the axis of the cylinder portion is greatly inclined rearward and upward from the vertical line.,Is it a transmission case?AboveThe amount of protrusion to the direction can be reduced, and the overall height of the power unit can be made extremely low.,Even when the second plane is not parallel or substantially parallel to the horizontal plane, the overall height of the power unit is reduced because the axis of the cylinder portion is inclined rearward and upward.
[0010]
  Furthermore, since the cylinder part of the internal combustion engine arranged on the input part side of the transmission case and the reduction case arranged on the output part side of the transmission case are arranged so as to overlap in the vertical direction, the cylinder part and the deceleration part are arranged. A part in the front-rear direction with the case overlaps each other, and the front-rear length of the power unit can be shortened.
  As a result, a compact power unit having a short front and rear length and a low overall height can be obtained.
  According to a second aspect of the present invention, in the vehicle power unit according to the first aspect, the axis of the output portion is positioned below the axis of the input portion and has a positional relationship substantially parallel to the axis of the cylinder portion. The second plane is substantially parallel to the horizontal plane.
[0011]
  Claims of this application3The invention described is that an internal combustion engine in which the axis of the crankshaft is oriented in the left-right direction and the axis of the cylinder portion is inclined rearward and upward, an input portion to which power from the crankshaft is input, and a rear side of the input portion A transmission device having an output unit that is positioned and outputs power after shifting, a transmission case that houses the transmission device, a final reduction device that transmits power from the output unit to a rear axle, and the final reduction device The input part and the output part each have an axis that points in the left-right direction, and the cylinder part and the rear axle include the axis of the input part and the axis of the output part. In the vehicular power unit disposed above the first plane, the internal combustion engine and the deceleration case are respectively disposed on the input side and the output side of the transmission case, and the transmission case and the serial The reader unit of the cylinder head is arranged so as to overlap in the lateral direction,The upper portion of the deceleration case has a portion that gradually slopes downward from the rear toward the front,The deceleration caseOf the inclined part ofWhenLocated above the deceleration caseThe cylinder part is a vehicle power unit arranged so as to overlap in the vertical direction.
[0012]
  This claim3According to the described invention, the axis of the cylinder portion is inclined rearward and upward, and the cylinder head and the transmission case constituting the cylinder portion are arranged so as to overlap in the left-right direction.In addition, the upper portion of the deceleration case has a portion that is gradually inclined downward from the rear to the front, and the inclined portion of the deceleration case and the cylinder portion positioned above the deceleration case are overlapped in the vertical direction. It is possible to further increase the inclination angle of the cylinder part to the rear upper side while avoiding interference between the deceleration case and the cylinder part.The Therefore, the cylinder part including the cylinder head,Is it a transmission case?AboveThe amount of protrusion in the direction can be reduced, and the overall height of the power unit can be made extremely low.
[0013]
Furthermore, since the cylinder part of the internal combustion engine arranged on the input part side of the transmission case and the reduction case arranged on the output part side of the transmission case are arranged so as to overlap in the vertical direction, the cylinder part and the deceleration part are arranged. A part in the front-rear direction with the case overlaps each other, and the front-rear length of the power unit can be shortened.
As a result, a compact power unit having a short front and rear length and a low overall height can be obtained.
[0014]
  Claim4The invention described in claim 1FromClaim3DescribedAny one of the itemsIn the vehicle power unit, the lower surface of the transmission case is inclined forward and upward from the output portion side toward the input portion side.And intersect with the second planeA support hanger having a front end portion pivotally supported by the vehicle body and a rear end portion attached to the transmission case is disposed below the lower surface.
[0015]
  This claim4According to the described invention, since the lower surface of the power unit is inclined forward and upward, a space which is vacated in the vertical direction as it goes forward is formed below the lower surface. Therefore, the rear end portion of the support hanger whose front end portion is pivotally supported by the vehicle body can be easily attached to the lower surface of the power unit where the power unit can be stably supported using the space. Can do.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
FIG. 1 is a schematic right side view of a three-wheeled motor vehicle 1 having a front wheel 3 and left and right rear wheels 4L and 4R as a pair of drive wheels, each of which is mounted with a vehicle power unit of the present invention. It is. In this specification, “up, down, front, back, left, and right” means up, down, front, back, left, and right of the vehicle body. The “cylinder portion” means a portion including a cylinder, a cylinder head, and a cylinder head cover in an internal combustion engine having a cylinder head cover, and includes a cylinder and a cylinder head in an internal combustion engine without a cylinder head cover. Means part.
[0017]
A steering mechanism 5 for steering the front wheels 3 is provided at the front end portion of the body frame 2 of the three-wheeled motor vehicle 1, and both rear wheels 4L and 4R (in FIG. 4R only) is provided, and a seat 7 is provided above the rear part of the vehicle body frame 2.
[0018]
The steering mechanism 5 includes a front fork 9 that is rotatably supported through a head pipe 8 attached to the front end of the vehicle body frame 2, and a handle 10 is coupled to the upper end of the front fork 9. A front wheel 3 is pivotally supported at the lower end.
[0019]
The front portion of the power unit 6 is supported on the vehicle body by a support hanger 11 including a cylindrical portion 11a and a shaft portion 11b having a front end portion inserted at the rear end of the cylindrical portion 11a. Specifically, the front end portion 11c of the cylindrical portion 11a is pivotally supported by the vehicle body frame 2 located in front of the power unit 6, and the rear end portion 11d of the shaft portion 11b is a transmission case 41 described later of the power unit 6. Are attached to a lower attachment portion 42d provided on a lower surface 42c inclined upward and forward. Accordingly, the front end portion 11c is a front end portion of the support hanger 11, and the rear end portion 11d is a rear end portion of the support hanger 11.
[0020]
The support hanger 11 itself is rotatably supported by a shock absorber 12 pivotally supported on the vehicle body frame 2 at a shaft support portion 11e near the rear end of the cylindrical portion 11a. The cylindrical portion 11a is provided with a Knighthard mechanism composed of a rubber elastic body 11f provided between the inner periphery of the cylindrical portion 11a and the outer periphery of the front end portion of the inserted shaft portion 11b. The cylindrical portion 11a and the shaft portion 11b can be rotated relative to each other so that they can be restored.
[0021]
With these configurations, the power unit 6 can swing relative to the vehicle body about the horizontal axis of the front end portion 11c of the cylindrical portion 11a pivotally supported. At the same time, the support hanger 11 is swingable relative to the vehicle body about the axis in the front-rear direction.
[0022]
A pair of left and right front shaft support portions 13L and 13R (only the right front shaft support portion 13R is shown in FIG. 1) formed on the front upper portion of the power unit 6, and a rear side formed on the rearmost portion of the power unit 6. The shaft support portion 14 is a second power unit support member that is used when the power unit 6 is mounted on a different vehicle body, and is provided to improve the versatility of the power unit 6.
[0023]
Next, FIG. 2 which is a right side view of the power unit 6 with the cover 43 of the transmission case 41 removed, FIG. 3 which is a cross-sectional view taken along line III-III of FIG. 2, and the cover 63 of the speed reduction case 61 are removed. Referring to FIG. 4 which is a left side view of the deceleration case 61 in the state, the internal combustion engine 20 constituting the power unit 6, the V-belt continuously variable transmission 40 and the final reduction device 60 as transmission devices, and their mutual arrangement Will be described.
[0024]
The power unit 6 includes an internal combustion engine 20, a continuously variable transmission 40 that receives power from the internal combustion engine 20 and outputs power after shifting, a transmission case 41 that houses the continuously variable transmission 40, and a continuously variable transmission 40. , A final reduction gear 60 having a reduction gear mechanism 64 and a differential mechanism 65 for transmitting the power from the left and right rear wheels 4L, 4R to the respective rear axles 75L, 75R, and a reduction gear housing the final reduction gear 60 A case 61 is provided.
[0025]
The internal combustion engine 20 is a spark-ignition four-cycle water-cooled single cylinder internal combustion engine, and its crankcase 21 has a plane substantially perpendicular to the axis C2 of the cylinder 23 and including the axis C1 of the crankshaft 22 as a dividing plane. It is divided into a front crankcase 21F and a rear crankcase 21R. The cylinder 23 is formed by integral casting with the rear crankcase 21R. A cylinder head 24 and a cylinder head cover 25 are assembled to the cylinder 23 and the cylinder head 24, respectively. The cylinder head cover 25 constitutes a cylinder portion.
[0026]
The crankshaft 22 whose axis C1 is directed in the left-right direction is rotatably mounted on the crankcase 21 via a pair of main bearings. An AC generator 26 is provided at the left end of the crankshaft 22 that extends leftward through the left wall of the crankcase 21, and a cooling fan 27 is fixed to the rotor of the AC generator 26. The generator case 28 is formed by integral casting with the crankcase 21 on the left side of the crankcase 21, and a fan cover 29 is assembled to the open end on the left side of the generator case 28. A radiator 30 is attached to the left end of the fan cover 29, so that the outside air sucked into the fan cover 29 by the cooling fan 27 passes through the radiator 30, thereby improving the cooling efficiency of the radiator 30. On the other hand, a drive pulley 45 of a continuously variable transmission 40 is provided at the right end of the crankshaft 22 that extends rightward through the right wall of the crankcase 21.
[0027]
The axis C2 of the cylinder part, which is also the axis C2 of the cylinder 23, is substantially from a vertical line extending vertically upward perpendicular to the axis C1 of the crankshaft 22 from the intersection of the axis C2 of the cylinder part and the axis C1 of the crankshaft 22. It is inclined upwards at an angle of 80 degrees. The right side portions of the cylinder 23, the cylinder head 24, and the cylinder head cover 25 are positioned above a speed reduction case 61, which will be described later, and are disposed so as to overlap the speed reduction case 61 in the vertical direction.
[0028]
The cylinder head 24 to which the intake valve and the exhaust valve are mounted is rotatably provided with a cam shaft having a cam for opening the valves, and the cam shaft is driven by the crankshaft 22 through a timing chain. . Further, the intake port 24a is connected to the other end of the intake pipe whose one end is connected to the carburetor 31, and the exhaust port 24b is an exhaust pipe extending rearward between the crankshaft 22 and an output shaft 49 described later. (Not shown).
[0029]
On the other hand, the continuously variable transmission 40 disposed on the right side of the internal combustion engine 20 is accommodated in a transmission case 41. The transmission case 41 includes a case body 42 having a peripheral wall 42a and a bottom wall 42b facing the right wall of the crankcase 21, and a cover 43 that covers an opening end on the right side of the case body 42. The transmission case 41 and the internal combustion engine 20 are a vertical portion including the center line of the vehicle body in the left-right direction at the front portion of the transmission case 41, that is, the drive pulley 45 side where the drive pulley 45 is located in the transmission case 41. The surfaces substantially positioned on the surfaces are used as the connection surfaces, and are connected by bolts 44 at four locations spaced in the circumferential direction around the outer periphery of the drive pulley 45 in the radial direction.
[0030]
The drive pulley 45 of the continuously variable transmission 40 includes a fixed pulley piece 45a fixed to the right end of the crankshaft 22 and a movable pulley piece 45b that is located on the left side and is slidable in the direction of the axis C1 of the crankshaft 22. And have. Further, a ramp plate 46 is fixed to the crankshaft 22 between the bottom wall 42b of the transmission case 41 and the movable pulley piece 45b, and a plurality of centrifugal weights 47 have a diameter between the ramp plate 46 and the movable pulley piece 45b. It is accommodated in the direction of movement.
[0031]
The driven pulley 48 is located below the crankshaft 22 and is rotatably supported via a bearing on an output shaft 49 having an axis C3 parallel to the axis C1 of the crankshaft 22 and directed in the left-right direction. A fixed pulley piece 48a fixed to the outer sleeve 51, and a movable pulley piece 48b fixed to an outer sleeve 51 slidably fitted to the outer periphery of the inner sleeve 50 in the axial direction. The spring 52 is biased toward the fixed pulley piece 48a.
[0032]
In the driving pulley 45 and the driven pulley 48, each of the fixed pulley pieces 45a and 48a and the movable pulley pieces 45b and 48b has a V belt wound between the pulleys 45 and 48 between the conical surfaces facing each other. 53 is pinched.
[0033]
The centrifugal start clutch 54 provided at the right end of the output shaft 49 includes a clutch outer 54a fixed to the output shaft 49, and a drive plate 54b fixed to the inner sleeve 50 inside the clutch outer 54a. And have. When the inner sleeve 50 rotates at a rotational speed greater than the set rotational speed, the clutch shoe 54c swingably supported by the drive plate 54b swings radially outward by centrifugal force and is provided on the outer periphery of the clutch shoe 54c. The friction member 54d thus brought into contact with the inner peripheral surface of the clutch outer 54a makes the start clutch 54 in a connected state.
[0034]
Since the continuously variable transmission 40 has such a structure, when the engine speed is small, as shown in FIGS. 2 and 3, in the drive pulley 45, the movable pulley piece 45b is pivoted from the fixed pulley piece 45a. In the driven pulley 48, the movable pulley piece 48b urged by the spring 52 approaches the fixed pulley piece 48a, and the effective winding radius of the V belt 53 is Therefore, the rotation of the crankshaft 22 is transmitted to the output shaft 49 with a large reduction ratio.
[0035]
When the engine speed increases, in the drive pulley 45, the centrifugal weight 47 moves in the centrifugal direction and the movable pulley piece 45b approaches the fixed pulley piece 45a, so that the effective winding radius of the V-belt 53 increases, and the driven pulley In 48, the movable pulley piece 48b moves away from the fixed pulley piece 48a against the spring 52, and the effective winding radius of the V-belt 53 is reduced, so that the reduction ratio is reduced.
[0036]
Therefore, in the continuously variable transmission 40 as a transmission device, the drive pulley 45 constitutes an input portion to which power from the crankshaft 22 is input together with the right end portion of the crankshaft 22, and the axis C1 of the crankshaft 22 Is also the axis C1 of the drive pulley 45. The driven pulley 48, which is located behind the drive pulley 45 and is connected to the output shaft 49 via the starting clutch 54, constitutes an output unit that outputs the power after shifting together with the output shaft 49, and The axis C3 of the output shaft 49 coaxial with the inner sleeve 50 of the driven pulley 48 is the axis C3 of the driven pulley 48.
[0037]
As shown in FIGS. 3 and 4, the reduction case 61 disposed on the rear side of the transmission case 41, i.e., the driven pulley 48 side where the driven pulley 48 is located in the transmission case 41, The case body 62 is integrally formed with a cover 63 that covers the opening end on the left side of the case body 62. The speed reduction case 61 includes a left end portion of an output shaft 49 that extends leftward through the bottom wall 42b of the transmission case 41, a reduction gear mechanism 64 that reduces the rotation of the output shaft 49, and a final reduction mechanism 65 that includes a differential mechanism 65. The device 60 is accommodated, and the power after the shift, which is taken out from the driven pulley 48 via the output shaft 49 by the final reduction gear 60, is applied to the left and right rear axles 75L, 75R of the left and right rear wheels 4L, 4R. Is transmitted to each. A part of the bottom wall 62b of the deceleration case 61 is a wall shared with the bottom wall 42b of the transmission case 41.
[0038]
Further, the upper part of the peripheral wall 62a of the case main body 62 of the deceleration case 61 and the upper part of the cover 63 are gradually inclined downward from the rear to the front, and from the axis C3 of the output shaft 49 of the inclined part. The radial distance is smaller than the radius of the driven pulley 48. Therefore, it is possible to further increase the inclination angle of the cylinder part from the vertical line to the rear upper side while avoiding interference with the inclined peripheral wall 62a and the cylinder part located directly above the cover 63. Thus, not only the cylinder 23 but also the cylinder head 24 and the cylinder head cover 25 and the transmission case 41 overlap in the left-right direction.
[0039]
Two portions of the left end portion of the output shaft 49, both ends of the first intermediate shaft 66 and both ends of the second intermediate shaft 67 are rotatably supported by the bottom wall 62b of the reduction case 61 and the cover 63, respectively. Further, both ends of the differential carrier 74 of the differential mechanism 65 located behind the transmission case 41 in the speed reduction case 61 are rotatably supported by the bottom wall 62b of the speed reduction case 61 and the cover 63, respectively. A part of the cross section of the reduction gear mechanism 64 in FIG. 3 is a line passing through the axes of the first and second intermediate shafts 66 and 67 and the axis C4 of the left and right rear axles 75L and 75R in FIG. It has a cross section.
[0040]
The output shaft 49 is drivingly connected to the differential carrier 74 by a series of gears. That is, the first and second intermediate shafts 66 and 67 are respectively provided with large-diameter large gears 69 and 71 and small-diameter small gears 70 and 72, and the small-diameter output gear 68 of the output shaft 49 is the first intermediate shaft. The small gear 70 of the first intermediate shaft 66 is engaged with the large gear 69 of the shaft 66, the large gear 71 of the second intermediate shaft 67, and the small gear 72 of the second intermediate shaft 67 is large provided on the differential carrier 74. The rotation of the output shaft 49 is reduced to three stages and transmitted to the differential carrier 74 by the reduction gear mechanism 64 configured as described above and meshed with the final gear 73 having the diameter.
[0041]
Further, the cover 63 is integrally formed with a left axle tube 76L that accommodates a left rear axle 75L that extends through the inner space of the differential carrier 74. On the other hand, a right axle tube 76R that accommodates the right rear axle 75R is attached to the right opening end formed in the bottom wall 62b of the portion of the deceleration case 61 that accommodates the differential mechanism 65 by a bolt.
[0042]
The differential mechanism 65 meshes with the differential carrier 74, a pinion shaft 77 supported through the differential carrier 74, a pair of pinion gears 78 fixed to both ends of the pinion shaft 77, and both pinion gears 78. And a pair of left and right side gears 79L and 79R. The left and right rear axles 75L and 75R are fixed to the left and right side gears 79L and 79R, respectively. Therefore, the rotation of the differential carrier 74 is distributed to an appropriate speed ratio by meshing between the pinion gears 78 and the side gears 79L and 79R, and an equal driving force is transmitted to the rear axles 75L and 75R. The axis C4 of both rear axles 75L and 75R is on the same straight line and is directed in the left-right direction, and part of both rear axles 75L and 75R is accommodated in the speed reduction case 61.
[0043]
Therefore, the power of the crankshaft 22 is input to the drive pulley 45 of the continuously variable transmission 40, and then automatically shifted by the continuously variable transmission 40 at a gear ratio according to the engine speed and transmitted to the driven pulley 48. Further, it is transmitted to the output shaft 49 via the starting clutch 54. The output of the continuously variable transmission 40 is transmitted to the left and right rear axles 75L and 75R via the reduction gear mechanism 64 and the differential mechanism 65.
[0044]
Here, the mutual arrangement of the cylinder portion of the internal combustion engine 20 and the crankshaft 22, the drive of the continuously variable transmission 40, the driven pulleys 45 and 48, and the left and right rear axles 75L and 75R will be described.
[0045]
As described above, since the axis C3 of the driven pulley 48 is positioned below the axis C1 of the crankshaft 22, that is, the axis C1 of the drive pulley 45, the axis C3 of the driven pulley 48 and the axis of the drive pulley 45 The first plane P1 including C1 is inclined forward and upward from the axis C3 of the driven pulley 48 toward the axis C1 of the drive pulley 45, that is, with respect to a horizontal plane including the axis C3 of the driven pulley 48 and extending forward from the axis C3. It is inclined at an angle of approximately 25 degrees. The cylinder portion and the left and right rear axles 75L and 75R are disposed above the first plane P1.
[0046]
On the other hand, since the axis C2 of the cylinder portion is inclined rearward and upward at an angle of about 80 degrees from the vertical line extending vertically upward as described above, the axis C2 of the cylinder portion and the axis of the driven pulley 48 The internal combustion engine 20 and the speed reduction case 61 are transmitted so that C2 and the second plane P2 including the axis C4 of the rear axles 75L and 75R located behind the driven pulley 48 are substantially parallel to each other. The case 41 is disposed on the drive pulley 45 side, which is the input portion side, and on the driven pulley 48 side, which is the output portion side. The second plane P2 is substantially parallel to the horizontal plane, and the first and second intermediate shafts 66 and 67 are disposed below the second plane P2, as shown in FIGS. ing.
[0047]
  In addition,In this description,The axis C2 of the cylinder part and the second plane P2 are in a substantially parallel positional relationship, not only when the axis C2 of the cylinder part and the second plane P2 are parallel, but also with the axis C2 of the cylinder part in FIG. It means the positional relationship between the axis C2 of the cylinder part and the second plane P2 when the first angle α, which is an angle formed by the two planes P2, is smaller than 20 degrees.
[0048]
  Further, in FIG. 2, the first angle α is an angle formed by a straight line on the first plane P1 and a straight line on the second plane P2 extending forward from the axis C3 of the driven pulley 48, that is, the first plane P1 and the first plane P1. The cylinder portion is greatly inclined rearward and upward from the vertical line so that the angle is smaller than the second angle β, which is the angle formed by the portion extending forward from the axis C3 of the driven pulley 48 of the two planes P2. Thus, the cylinder head 24, the cylinder head cover 25, and the transmission case 41 as well as the cylinder 23 are arranged so as to overlap in the left-right direction.As shown in FIG. 2, the cylinder head 24 of the cylinder portion is at a position where it intersects with a horizontal plane including the axis C <b> 1 of the drive pulley 45.
[0049]
Next, the internal combustion engine 20, the transmission case 41 that accommodates the continuously variable transmission 40, and the deceleration case 61 that accommodates the final reduction gear 60 are associated with the shaft support portions 13L, 13R, 14 and the lower mounting portion 42d described above. Further explanation will be given.
[0050]
The right front shaft support portion 13R is near the opening end of the peripheral wall 42a of the transmission case 41 at the rear of the crankshaft 22, and the axis line is almost directly above the bolt 44 that connects the cylinder 23 and the transmission case 41. A pivot that is positioned and fitted with a cylindrical elastic body, is integrally formed with the peripheral wall 42a of the transmission case 41, and protrudes upward.
[0051]
On the other hand, the left front shaft support portion 13L (see FIG. 3) is integrally formed on the upper side wall of the generator case 28 which is a part of the internal combustion engine 20, and protrudes upward and is fitted with a cylindrical elastic body. In FIG. 3, the pivot is located substantially symmetrical with the right front shaft support portion 13R with respect to the axis C2 of the cylinder portion.
[0052]
  Further, the rear shaft support portion 14 of the power unit 6 is a pivot that is integrally formed with the peripheral wall of the speed reduction case 61 and protrudes rearward, and is fitted with a cylindrical elastic body. The axis of the rear shaft support 14 is on the second plane P2.AbbreviationThe center point in the left-right direction of the rear shaft support portion 14 is located on a vertical plane passing through the center line in the left-right direction of the vehicle body.
[0053]
  Further, the lower attachment portion 42d is provided on the lower surface 42c of the peripheral wall 42a of the transmission case 41. The lower surface 42c corresponds to the arrangement of the axis C1 of the drive pulley 45 and the axis C3 of the driven pulley 48 positioned rearward and lower with respect to the axis C1. Is inclined substantially parallel to the first plane P1 from the driven pulley 48 side toward the drive pulley 45 side which is the front portion of the transmission case 41.Further, as shown in FIG. 2, the lower surface 42c is at a position where it intersects the second plane P2.Therefore, a space that is vacated in the vertical direction as it goes forward is formed on the lower surface 42c of the transmission case 41.
[0054]
The support hanger 11 is disposed below the lower surface 42c, and the rear end portion 11d of the shaft portion 11b is attached to the lower attachment portion 42d as described above.
[0055]
  Since this embodiment is configured as described above, the following operational effects can be obtained.
  The cylinder part axis C2 is inclined rearward and upward, and is substantially parallel to the cylinder part axis C2 and the horizontal plane, and includes the axis C3 of the driven pulley 48 and the axes C4 of both rear axles 75L and 75R. The internal combustion engine 20 and the deceleration case 61 are arranged on the drive pulley 45 side, which is the input portion side of the transmission case 41, and the driven pulley 48 side, which is the output portion side, so that the plane P2 is in a substantially parallel positional relationship. ing. Therefore, the axis C2 of the cylinder part can be greatly inclined rearward and upward from the vertical line.,Transmission case 41AboveTherefore, the total height of the power unit 6 can be made extremely low.
[0056]
  Further, the cylinder portion of the internal combustion engine 20 disposed on the drive pulley 45 side which is the front portion of the transmission case 41 and the reduction case 61 disposed on the driven pulley 48 side which is the rear portion of the transmission case 41 overlap in the vertical direction. The cylinder part and theSpeedSource61As a result, the front and rear lengths of the power unit 6 can be shortened.
[0057]
  Further, since the axis C2 of the cylinder part is inclined rearward and upward, and the cylinder head 24 and the transmission case 41 constituting the cylinder part are arranged so as to overlap in the left-right direction, the cylinder head 24 Of cylinder part including,Transmission case 41AboveThe amount of protrusion in the direction can be reduced, and the overall height of the power unit 6 can be made extremely low.
[0058]
  That is, the radial distance from the axis C3 of the output shaft 49 of the portion inclined downward from the rear to the front in the upper part of the deceleration case 61 is smaller than the radius of the driven pulley 48. While avoiding interference with the cylinder part extending from the front, the inclination angle from the vertical line of the cylinder part to the rear upper direction can be further increased, and the cylinder head 24 and the transmission case 41 of the cylinder part can be It can arrange | position so that it may overlap in a direction. As a result, the cylinder part including the cylinder head 24,Transmission case 41AboveThe amount of protrusion in the direction can be reduced, and the overall height of the power unit 6 can be reduced.
[0059]
  On the other hand, since the first angle α is smaller than the second angle β, the axis C1 of the drive pulley 45 is positioned forward and upward with respect to the axis C3 of the driven pulley 48. Even though the drive pulley 45 side of the transmission case 41 is on the front upper side with respect to the driven pulley 48 side of the transmission case 41, the cylinder portion extending from the drive pulley 45 side of the transmission case 41 is In this respect as well, the cylinder head 24 and the transmission case 41 of the cylinder portion can be disposed so as to overlap in the left-right direction. As a result, the axis C1 of the drive pulley 45 is inclined forward and upward relative to the axis C3 of the driven pulley 48, thereby shortening the longitudinal length of the transmission case 41 and at the same time the cylinder portion including the cylinder head 24. of,Transmission case 41AboveThe amount of protrusion in the direction can be reduced, and the overall height of the power unit 6 can be reduced.
[0060]
Further, since the first and second intermediate shafts 66 and 67 of the reduction gear mechanism 64 are arranged below the second plane P2, the distance between the output shaft 49 and the rear axles 75L and 75R is reduced. Thus, the longitudinal length of the deceleration case 61, and hence the longitudinal length of the power unit 6, can be shortened.
As described above, a compact power unit 6 having a short front and rear length and a low overall height can be obtained.
[0061]
Further, the lower surface 42c of the transmission case 41 constituting the power unit 6 is inclined forward and upward from the driven pulley 48 side, which is the rear portion of the transmission case 41, toward the drive pulley 45 side, which is the front portion of the transmission case 41. Therefore, a space that becomes larger in the vertical direction as it goes forward is formed below the lower surface 42c. Therefore, the rear end portion 11d of the support hanger 11 that is pivotally supported by the vehicle body frame 2 positioned in front of the power unit 6 is positioned so that the power unit 6 can be stably supported. It can be easily attached to the lower surface 42c of a transmission case 41 using the space.
[0062]
Hereinafter, an embodiment in which a part of the configuration of the above-described embodiment is changed will be described with respect to the changed configuration.
In the above embodiment, the cylinder 23, the cylinder head 24, and the cylinder head cover 25 that constitute the cylinder portion are arranged so as to overlap the deceleration case 61 in the vertical direction. However, at least one of these three components is the deceleration case 61 and the vertical direction. It may be made to overlap. In the above-described embodiment, the cylinder portion includes the cylinder 23, the cylinder head 24, and the cylinder head cover 25. However, the cylinder portion may include a cylinder and a cylinder head.
[0063]
In the embodiment, the second plane P2 is substantially parallel to the horizontal plane, but it is not necessarily required to be substantially parallel to the horizontal plane. Also in this case, since the axis C2 of the cylinder portion is inclined rearward and upward, the overall height of the power unit 6 is lowered.
[0064]
In the above embodiment, the vehicle is the three-wheeled motor vehicle 1, but may be a two-wheeled vehicle or a four-wheeled vehicle. When the vehicle is a motorcycle, the support hanger need not be swingable about the longitudinal axis of the support hanger.
[Brief description of the drawings]
FIG. 1 is a schematic right side view of a tricycle equipped with a vehicle power unit of the present invention.
2 is a right side view of the vehicle power unit in FIG. 1 with a transmission case cover removed. FIG.
3 is a cross-sectional view taken along line III-III in FIG.
4 is a left side view of the speed reduction case with the speed reduction case cover of the vehicle power unit of FIG. 1 removed. FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Auto tricycle, 2 ... Body frame, 3 ... Front wheel, 4L, 4R ... Rear wheel, 5 ... Steering mechanism, 6 ... Power unit, 7 ... Seat, 8 ... Head pipe, 9 ... Front fork, 10 ... Handle, 11 ... support hanger, 11c ... front end, 11d ... rear end, 12 ... shock absorber, 13L, 13R ... front shaft support, 14 ... rear shaft support,
20 ... Internal combustion engine, 21 ... Crankcase, 22 ... Crankshaft, 23 ... Cylinder, 24 ... Cylinder head, 25 ... Cylinder head cover, 26 ... Alternator, 27 ... Cooling fan, 28 ... Generator case, 29 ... Fan cover , 30 ... Radiator, 31 ... Vaporizer,
40 ... continuously variable transmission, 41 ... transmission case, 42 ... case body, 42c ... bottom surface, 43 ... cover, 44 ... bolt, 45 ... drive pulley, 46 ... ramp plate, 47 ... centrifugal weight, 48 ... driven pulley, 49 ... output shaft, 50 ... inner sleeve, 51 ... outer sleeve, 52 ... spring, 53 ... V belt, 54 ... start clutch,
60 ... Final reduction gear, 61 ... Reduction case, 62 ... Case body, 63 ... Cover, 64 ... Reduction gear mechanism, 65 ... Differential mechanism, 66, 67 ... Intermediate shaft, 68-73 ... Gear, 74 ... Differential carrier 75L, 75R ... rear axle, 76L, 76R ... axle tube, 77 ... pinion shaft, 78 ... pinion gear, 79L, 79R ... side gear,
C1 to C4 ... axis, P1, P2 ... plane.

Claims (4)

An internal combustion engine in which the axis of the crankshaft is directed in the left-right direction, and the axis of the cylinder portion is inclined rearward and upward, an input portion to which power from the crankshaft is input, and a rear side of the input portion and after shifting A transmission device having an output unit for outputting the power of the transmission, a transmission case for housing the transmission device,
A final reduction device that transmits power from the output unit to the rear axle, and a reduction case that houses the final reduction device,
The input unit and the output unit each have an axis that points in the left-right direction, and the cylinder unit and the rear axle are disposed above a first plane that includes the axis of the input unit and the axis of the output unit. In vehicle power units,
The internal combustion engine and the speed reduction case are input parts of the transmission case so that the axis of the cylinder part and the second plane including the axis of the output part and the axis of the rear axle are in a substantially parallel positional relationship. Side and output part side,
The cylinder head of the cylinder part is at a position intersecting with a horizontal plane including the axis of the input part,
The power unit for vehicles , wherein the deceleration case and the cylinder portion located above the deceleration case are arranged so as to overlap in the vertical direction. The axis of the output unit is located below the axis of the input unit,
2. The vehicle power unit according to claim 1, wherein the second plane having a positional relationship substantially parallel to the axis of the cylinder portion is substantially parallel to a horizontal plane. An internal combustion engine in which the axis of the crankshaft is directed in the left-right direction, and the axis of the cylinder portion is inclined rearward and upward, an input portion to which power from the crankshaft is input, and a rear side of the input portion and after shifting A transmission device having an output unit for outputting the power of the motor, a transmission case for housing the transmission device, a final reduction device for transmitting the power from the output unit to the rear axle, and a reduction case for housing the final reduction device And
The input unit and the output unit each have an axis that points in the left-right direction,
In the vehicle power unit in which the cylinder part and the rear axle are arranged above a first plane including the axis of the input part and the axis of the output part,
The internal combustion engine and the deceleration case are respectively arranged on the input part side and the output part side of the transmission case,
The transmission case and the cylinder head of the cylinder part are arranged so as to overlap in the left-right direction,
The upper portion of the deceleration case has a portion that gradually slopes downward from the rear toward the front,
The vehicle power unit , wherein the inclined portion of the speed reduction case and the cylinder portion located above the speed reduction case are arranged so as to overlap in the vertical direction. The lower surface of the transmission case is inclined forward and upward from the output unit side toward the input unit side and intersects the second plane ,
Below the lower surface, a front end portion is pivotally supported to the vehicle body, the rear end portion according to any one of claims claims 1 to 3, characterized in that a support hanger mounted on the transmission case is disposed Vehicle power unit.

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