JP3835426B2 - Scooter type vehicle - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a scooter type vehicle, and more particularly to a scooter type vehicle having a feature in an engine layout.
[0002]
[Prior art]
Many scooter type vehicles are provided with a swing type power unit. A swing type power unit (hereinafter simply abbreviated as a power unit) integrally includes an engine and a conduction case with a transmission that extends backward from one side of the engine, and is provided on a body frame or the like so as to be swingable. It is.
[0003]
Examples of the power unit in which the engine is arranged substantially horizontally and the cylinder thereof is arranged in parallel with the traveling direction of the vehicle are disclosed in, for example, Japanese Patent Application Laid-Open Nos. 62-155185 and 6-48342.
[0004]
Further, as an example of the cylinder arranged in a direction orthogonal to the traveling direction of the vehicle, in addition to those shown in, for example, Japanese Patent Application Laid-Open Nos. 61-81884 and 63-106194, French patent 1.133.249 There is what is shown in.
[0005]
FIG. 19 is a side view showing a general example of a liquid-cooled power unit in which the engine is arranged substantially horizontally and its cylinder is arranged in parallel with the traveling direction axis of the vehicle. FIG. 20 is a horizontal sectional view of this engine (FIG. 19 is a cross-sectional view taken along line AA in FIG.
[0006]
As shown in FIGS. 19 and 20, the power unit 1 is pivotally attached to the vehicle body frame 2 via a stay 3 so as to be swingable.
[0007]
An engine 4 is disposed at the front of the power unit 1. The engine 4 mainly includes a crankcase 4a, a cylinder 4b, and a cylinder head 4c. A reciprocating stroke of the piston 6 in the cylinder 4b arranged in parallel with the traveling direction shaft 5 of the vehicle is connected via a connecting rod 7. The crankshaft 8 is rotated.
[0008]
The crankshaft 8 is arranged in the crankcase 4 a in the vehicle width direction (a direction orthogonal to the vehicle traveling direction axis 5) and is supported by a pair of bearings 9. Further, a conduction case 10 is provided on the left side of the engine 4, for example.
[0009]
A drive pulley 12 a of a V-belt transmission mechanism 11 provided in the conduction case 10 is attached to the left end side of the crankshaft 8, and the driving force of the engine 4 is transmitted to the driven pulley 12 b via the V-belt 13. It has come to be.
[0010]
Further, the driven pulley 12b is transmitted to the rear wheel drive shaft 17 through the centrifugal clutch mechanism 14, the driven shaft 15 and the idle shaft 16 provided at the rear portion of the power unit 1, and is fixed to the rear wheel drive shaft 17. The driving force of the engine 4 is transmitted to the rear wheel 18 thus made.
[0011]
On the other hand, an exhaust pipe 19a constituting an engine exhaust system 19 is connected to the lower surface of the cylinder 4b of the engine 4, a muffler 19b is connected to the downstream side of the exhaust pipe 19a, and an engine intake system is connected to the rear surface of the crankcase 4a. The carburetor 20a and the air cleaner 20b which comprise 20 are connected. An article storage chamber 21 is disposed above the engine intake system 20.
[0012]
The engine 4 employs a liquid cooling type cooling system, and a water jacket 22 for engine cooling water is formed in the cylinder 4b and the cylinder head 4c. On the other hand, for example, a water pump 24 driven by the crankshaft 8 via a plurality of gears 23 is disposed in the conduction case 10. Further, a radiator 25 for cooling water is disposed in the vicinity of the article storage chamber 21. The water jacket 22, the water pump 24, and the radiator 25 are respectively connected by a cooling water hose 26, and the cooling water cooled by the radiator 25 is forcibly sent to the water jacket 22 by the water pump 24, and the cylinder 4b. And after cooling the cylinder head 4c, it guide | induces to the radiator 25. FIG. Further, a cooling air intake 27 is formed on the front surface of the radiator 25 so that the traveling air is guided to the radiator 25.
[0013]
A spark plug 28 is coupled to the cylinder head 4c.
[0014]
[Problems to be solved by the invention]
However, if the crankshaft is disposed in the crankcase in the vehicle width direction (a direction perpendicular to the vehicle traveling direction axis), the length of the cantilever portion on the drive pulley side of the V-belt transmission mechanism becomes longer and the bearing becomes a bearing. This is burdensome and is liable to cause troubles in the bearing portion, and is also disadvantageous for the vibration of the V belt.
[0015]
Further, if the cylinder is arranged in parallel with the traveling direction axis of the vehicle, the position of the spark plug is located in the lower front portion of the article storage chamber, and maintenance is difficult. Similarly, the connection part of the exhaust pipe to the cylinder is on the center line of the vehicle and is difficult to attach and detach.
[0016]
Furthermore, when the engine is a two-cycle engine, the flow of the air-fuel mixture to the scavenging port can be made equal to the left and right by arranging the valve directly opposite to the piston. The front part of the ring was approaching and the valve had to be placed elsewhere.
[0017]
Furthermore, because of the layout of the power unit, the engine intake system can only be arranged between the back of the power unit and the bottom of the article storage chamber, which limits the volume of the storage chamber and makes it difficult to flatten the bottom of the storage chamber. It is.
[0018]
When the engine is equipped with a self-starter device, it is desirable that the output shaft of the starter motor be arranged in parallel with the crankshaft. However, the rear of the crankshaft is close to the front of the rear wheel and there is not enough space. If the starter motor is disposed laterally above the crankshaft, it may interfere with the bottom surface of the storage chamber as described above, and if the starter motor is disposed below the crankshaft, the ground clearance will be reduced.
[0019]
Also, if the engine is liquid-cooled, disposing the water pump in the conduction case will result in poor assemblability, and even if the water pump is installed elsewhere, the upper and lower parts of the power unit are installed for the above reasons. It is difficult to attach it, and eventually it must be arranged on the side of the power unit, which is not preferable because the width of the power unit is increased. Moreover, since it is connected to the crankshaft via a plurality of gears, there is a possibility that transmission of driving force becomes unstable.
[0020]
In addition, when the cooling air intake is formed on the front surface of the radiator, there is a possibility that the traveling air may be blocked by a part of the rider's body, or rainwater or the like may enter and directly hit the radiator.
[0021]
The present invention has been made in view of the above-described circumstances, and an object thereof is to provide a scooter type vehicle that facilitates maintenance.
[0022]
Another object of the present invention is to provide a scooter type vehicle in which a water pump can be installed without increasing the width of the power unit.
[0023]
Another object of the present invention is to provide a scooter type vehicle in which traveling wind guided to the radiator is blocked or rainwater or the like is not applied to the radiator.
[0024]
[Means for Solving the Problems]
In order to solve the above-described problem, a scooter-type vehicle according to the present invention includes an engine and a conduction case extending rearward from the engine as described in claim 1, and a driving force is provided at a rear portion of the conduction case. The swing-type power unit that conducts to the rear wheel is supported on the body frame in a swingable manner and elastically supported on the body frame by a rear shock absorber, and the body cover shape on the front side of the driving seat is curved toward the ground surface side. In a scooter type vehicle having a shape and having an article storage chamber covered with a vehicle body cover below the driving seat, the swing type power unit has a conduction case with a transmission installed on one side of the vehicle traveling direction axis. On the other hand, a water-cooling system in which a cylinder head, an engine intake system and an engine exhaust system are arranged on the other side of the vehicle traveling direction The engine, the Engine The cylinder is arranged in a direction that is orthogonal to the traveling direction axis of the vehicle and substantially horizontally, and the water pump is disposed on the cylinder head side with respect to the crankshaft parallel to the traveling direction of the vehicle. A radiator for cooling the engine coolant is fixed to the lower portion of the front portion of the operating seat by a bracket so that exhaust air passing through the radiator passes between the article storage chamber and the vehicle body cover; The engine cooling water from the engine is led to a water jacket formed in the cylinder by a cooling water hose and a water jacket for engine cooling formed around the combustion chamber of the cylinder head, and the spark plug is further coupled to the cylinder head The cooling water hose is arranged on the other side of the vehicle traveling direction axis in a plan view of the vehicle, guided to the radiator from the outside in the vehicle width direction than the portion. Is.
[0026]
Also, In order to solve the above-mentioned problems, Claim 2 As described above, the engine of the swing type power unit is a four-cycle single-cylinder engine.
[0027]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0028]
FIG. 1 is a left side view showing a first embodiment of a scooter type vehicle to which the present invention is applied, and FIG. 2 is a right side view thereof. 3 is a cross-sectional view taken along line III-III in FIG. 1, and FIG. 4 is a cross-sectional view taken along line IV-IV in FIG.
[0029]
As shown in FIGS. 1 to 4, the scooter type vehicle 30 has a body frame 31. The vehicle body frame 31 includes a down tube 32 and a pair of left and right rear frames 33 extending rearward and upward from the rear end side of the downtube 32. In addition, an article storage chamber 35 capable of storing a helmet 34 and the like is provided above the rear frame 33, and an operation seat 36 is installed above the article storage chamber 35 so as to be openable and closable. For example, a fuel tank 37 is arranged. The scooter type vehicle 30 has its entire body covered with a synthetic resin body cover 38 to adjust its appearance.
[0030]
A head pipe 39 is provided at the front end of the down tube 32, and a front fork 41, a handle bar 42, and the like that rotatably support the front wheel 40 are provided on the head pipe 39. Then, the front wheel 40 is steered by the handle bar 42 so as to be rotatable left and right.
[0031]
On the other hand, a pair of left and right suspension brackets 43 is provided at the center of the rear frame 33. A pivot shaft 44 is installed between the suspension brackets 43, and a swing type power unit 45 is pivotally attached to the pivot shaft 44 via a stay 46.
[0032]
The swing type power unit 45 (hereinafter simply referred to as a power unit) is integrally provided with an engine 47 and a conductive case 48 extending rearward from one side of the engine 47. The conductive case 48 also serves as a swing arm and is elastically supported on the rear frame 33 by a rear shock absorber 49. A rear wheel 50 that is a driving wheel is held at the rear end of the conduction case 48.
[0033]
An engine 47 is disposed in front of the power unit 45. The engine 47 is a liquid (water) -cooled two-cycle single-cylinder engine, and mainly includes a crankcase 51, a cylinder 52, and a cylinder head 53. The power unit suspension stay 46 described above is provided on the upper part of the outer wall of the crankcase 51.
[0034]
On one side of the crankcase 51, for example, on the right side, a cylinder 52 is arranged in a direction orthogonal to the traveling direction axis 54 of the vehicle 30 and substantially horizontally. The cylinder head 53 is formed with a combustion chamber 55 aligned with the cylinder 52, and a spark plug 56 is screwed to the center thereof from the outside. A water jacket 57 for engine cooling water is formed around the combustion chamber 55 of the cylinder 52 and the cylinder head 53.
[0035]
The crankcase 51 can be divided into left and right or up and down along the traveling direction axis 54 of the vehicle 30, and the crankshaft 58 is disposed on the mating surface thereof in parallel with the traveling direction axis 54 of the vehicle 30. The crankshaft 58 is configured to be split in the front-rear direction, and is connected to the intermediate portion by a crankpin 59 and supported by a pair of bearings 60.
[0036]
A piston 62 is connected to the crank pin 59 via a connecting rod 61, and the reciprocating motion of the piston 62 in the cylinder 52 causes the crank shaft 58 to rotate. The crank chamber 63 in which the crankshaft 58 in the crankcase 51 is disposed communicates with the inside of the cylinder 52 through a scavenging passage 64.
[0037]
A magnet device 65 is provided on the front side of the crankcase 51. The front surface of the magneto device 65 is covered with a magneto cover 66, and a water pump 67 is disposed at substantially the center thereof. The water pump 67 is connected to the front end portion of the crankshaft 58 and is configured to be driven by the rotational force of the crankshaft 58.
[0038]
On the other hand, an oil pump drive gear 68 is provided at the rear portion of the crankshaft 58, and is configured to drive an oil pump 70 disposed on the back surface of the crankcase 51 via the oil pump drive shaft 69. A drive bevel gear 71 is provided at the rear end of the crankshaft 58. The drive bevel gear 71 is a transmission device that conducts the driving force of the engine 47 while changing the rotation axis of the crankshaft 58 in different directions.
[0039]
On the other hand, an idle shaft chamber 72 is formed between the crank chamber 63 and the front portion of the rear wheel 50. A crank idle shaft 73 is disposed in the idle shaft chamber 72 in a direction orthogonal to the crankshaft 58 and is supported by a bearing 74.
[0040]
Near the intermediate portion of the crank idle shaft 73, a driven bevel gear 75, which is a transmission device that conducts the driving force of the engine 47 while converting the rotation axis of the crankshaft 58 in different directions, is provided. The rotation shaft direction of the crankshaft 58 is changed by meshing with 71.
[0041]
The idle shaft chamber 72 is closed by an idle shaft cover 76 that supports the crank idle shaft 73. A shim 77 that adjusts the meshing between the bevel gears 71 and 75 is provided on the joint surface between the idle shaft chamber 72 and the idle shaft cover 76, and the crank chamber 63 and the idle shaft chamber 72 are liquid-tight by an O-ring 78 or the like. keep.
[0042]
The conductive case 48 is covered with a case cover 79 to form a belt chamber 80 therein, and a V-belt type automatic transmission 81 is disposed in the belt chamber 80. The left end side of the crank idle shaft 73 projects into the belt chamber 80, and a drive pulley 82 of the transmission 81 is attached. The drive pulley 82 is connected to the driven pulley 84 via the V belt 83, and the driving force of the engine 47 is transmitted to the driven pulley 84.
[0043]
The driven pulley 84 is rotatably supported by a driven shaft 85 provided at a rear portion of the power unit 45, and the rotational driving force transmitted from the engine 47 transmitted to the driven pulley 84 is driven via the centrifugal clutch mechanism 86. 85.
[0044]
The driven shaft 85 is connected to the rear wheel drive shaft 88 through a transmission mechanism 87 that is a reduction gear mechanism and a power transmission device, so that the driving force of the engine 47 is transmitted to the rear wheel 50 through the transmission mechanism 87. It has become.
[0045]
Incidentally, a reed valve 90 constituting an engine intake system 89 is provided on a portion of the crankcase 51 that is opposite to the piston 62, for example, on the left side of the crankcase 51, and the carburetor 91 that also constitutes the engine intake system 89 is provided on the reed valve 90. Are connected via an intake pipe 92. An air cleaner 93 that constitutes the engine intake system 89 is connected to the upstream side of the carburetor 91. The air cleaner 93 is disposed in a space formed between the left side surface of the crankcase 51 and the front surface of the conduction case 48 and below the article storage chamber 35.
[0046]
On the other hand, an exhaust pipe 95 constituting an engine exhaust system 94 is connected to the lower surface of the cylinder 52 of the engine 47, and a muffler 96 is connected to the downstream side of the exhaust pipe 95.
[0047]
A radiator 97 is disposed on one side of the article storage chamber 35, for example, on the right side of the article storage chamber 35 on the opposite side of the conduction case 48 with respect to the traveling direction axis 54 of the vehicle. It is fixed to the frame 33 via a bracket 98. Further, a cooling air intake 99 is formed in the vehicle body cover 38 on the front surface of the radiator 97, and the traveling air is guided to the radiator 97 along the side wall of the article storage chamber 35.
[0048]
The water jacket 57, the water pump 67, and the radiator 97 are connected to each other by the cooling water hose 100, and the cooling water cooled by the radiator 97 is forcibly sent to the water jacket 57 by the water pump 67, and the cylinder. 52 and the cylinder head 53 are cooled and guided to the radiator 97.
[0049]
As described above, by arranging the cylinder 52 in a direction orthogonal to the traveling direction axis 54 of the vehicle 30, the connection portion of the spark plug 56 and the exhaust pipe 95 is located on the side portion of the vehicle 30 and can be easily attached and detached. Maintenance is improved.
[0050]
In addition, the crankshaft 58 is arranged in parallel with the traveling direction axis 54 of the vehicle 30, and a crank idle shaft 73 is provided, and both shafts 58, 73 are connected by bevel gears 71, 75 to convert the rotation axis direction of the crankshaft 58. By configuring as described above, not only the cantilever portion 58a of the crankshaft 58 but also the length of the crank idle shaft 73 is shortened so that the bearings 60 and 74 are less likely to be burdened. As a result, troubles in the bearing portion are reduced, and the vibration of the V belt 83 is advantageous.
[0051]
Furthermore, by arranging the cylinder 52 in a direction perpendicular to the traveling direction axis 54 of the vehicle 30, a space is formed between the left side surface of the crankcase 51 and the front surface of the conduction case 48 and below the article storage chamber 35. Thus, the engine intake system 89 can be arranged in this space. As a result, the reed valve 90 can be disposed directly opposite to the piston 62, and the flow of the air-fuel mixture to the scavenging passage 64 can be made equal to the left and right, and it is sufficient between the back surface of the power unit 45 and the bottom surface of the article storage chamber 35. Space can be secured, the bottom of the article storage chamber 35 can be flattened, and the volume of the article storage chamber 35 can be sufficiently secured.
[0052]
A magnet device 65 is provided on the front side of the crankcase 51, a water pump 67 is disposed on the magnet cover 66 that covers the front surface of the magnet device 65, and the water pump 67 is connected to the front end of the crankshaft 58 and driven. With this configuration, the water pump 67 can be easily assembled and the width of the power unit 45 is not increased. Further, since the water pump 67 is directly connected to the crankshaft 58, transmission of driving force is stabilized.
[0053]
In the above-described embodiment, an example in which the bevel gears 71 and 75 are used as the transmission device that transmits the driving force of the engine 47 while changing the rotation axis of the crankshaft 58 in different directions has been described. , 75, hypoid gears can be used.
[0054]
Further, in the above-described embodiment, the example in which the stay 46 for suspending the power unit is provided on the upper part of the outer wall of the crankcase 51 is shown. However, as shown in FIGS. The power unit 45 may be pivotally attached to the rear end portion of the down tube 32.
[0055]
Furthermore, in the above-described embodiment, an example in which the air cleaner 93 is disposed in the space formed between the left side surface of the crankcase 51 and the front surface of the conductive case 48 and below the article storage chamber 35 has been shown. As shown, the air cleaner 93 may be disposed on the case cover 79 of the conductive case 48.
[0056]
FIG. 7 is a left side view showing a second embodiment of the scooter type vehicle to which the present invention is applied, and FIG. 8 is a right side view thereof. 9 is a cross-sectional view taken along line IX-IX in FIG. 7, and FIG. 10 is a cross-sectional view taken along line XX in FIG. Since the scooter type vehicle 101 shown in the second embodiment is basically the same as the scooter type vehicle 30 shown in the first embodiment, the same components are denoted by the same reference numerals.
[0057]
As shown in FIGS. 7 to 10, the scooter type vehicle 101 has a body frame 31. The vehicle body frame 31 includes a down tube 32 and a pair of left and right rear frames 33 extending rearward and upward from the rear end side of the downtube 32. In addition, an article storage chamber 35 capable of storing a helmet 34 and the like is provided above the rear frame 33, and an operation seat 36 is installed above the article storage chamber 35 so as to be openable and closable. For example, a fuel tank 37 is arranged. The scooter type vehicle 101 has its entire vehicle body covered with a synthetic resin vehicle body cover 38 to adjust its appearance.
[0058]
A head pipe 39 is provided at the front end of the down tube 32, and a front fork 41, a handle bar 42, and the like that rotatably support the front wheel 40 are provided on the head pipe 39. Then, the front wheel 40 is steered by the handle bar 42 so as to be rotatable left and right.
[0059]
On the other hand, a pair of left and right suspension brackets 43 is provided at the center of the rear frame 33. A pivot shaft 44 is installed between the suspension brackets 43, and a swing type power unit 102 is pivotally attached to the pivot shaft 44 via a stay 46.
[0060]
This swing type power unit 102 (hereinafter simply referred to as a power unit) is integrally provided with an engine 103 and a conductive case 48 extending rearward from one side of the engine 103. The conductive case 48 also serves as a swing arm and is elastically supported on the rear frame 33 by a rear shock absorber 49. A rear wheel 50 that is a driving wheel is held at the rear end of the conduction case 48.
[0061]
An engine 103 is disposed in front of the power unit 102. The engine 103 is a liquid (water) -cooled four-cycle single-cylinder engine, and mainly includes a crankcase 104, a cylinder 105, a cylinder head 106, and a head cover 107. The power unit suspension stay 46 described above is provided on the upper part of the outer wall of the crankcase 104.
[0062]
On one side, for example, the right side, of the crankcase 104, a cylinder 105 is arranged in a direction orthogonal to the traveling direction axis 54 of the vehicle 101 and substantially horizontally. The cylinder head 106 is formed with a combustion chamber 55 aligned with the cylinder 105, and a spark plug 56 is screwed from the outside. A water jacket 57 for engine cooling water is formed around the combustion chamber 55 of the cylinder 105 and the cylinder head 106. Further, a valve operating mechanism 109 including an intake / exhaust valve (not shown), a camshaft 108 for opening and closing these valves, and the like is disposed on the cylinder head 106. The valve operating mechanism 109 is covered with a head cover 107.
[0063]
The crankcase 104 can be divided into left and right or up and down along the traveling direction axis 54 of the vehicle 101, and a crankshaft 58 is disposed on the mating surface thereof in parallel with the traveling direction axis 54 of the vehicle 101. The crankshaft 58 is configured to be split in the front-rear direction, and is connected to the intermediate portion by a crankpin 59 and supported by a pair of bearings 60.
[0064]
A piston 62 is connected to the crank pin 59 via a connecting rod 61, and the reciprocating motion of the piston 62 in the cylinder 105 causes the crank shaft 58 to rotate.
[0065]
A cam chain drive sprocket 110 is provided at the front of the crankshaft 58. A cam chain driven sprocket 111 is provided at the front portion of the camshaft 108. Both sprockets 110 and 111 are connected by a cam chain 112.
[0066]
A magnet device 65 is provided on the front side of the crankcase 104 and is covered with a magnet cover 66. Further, a starter driven gear 114 is provided at the rear part of the crankshaft 58 via a starter clutch 113, and a starter motor 116 disposed parallel to the traveling direction shaft 54 of the vehicle 101 on the back of the crankcase 104 via an idle gear 115. Operatively connected to the drive shaft 117. Further, a drive bevel gear 71 is provided at the rear end of the crankshaft 58, which is a transmission device that conducts the driving force of the engine 103 while changing the rotation axis of the crankshaft 58 in different directions.
[0067]
On the other hand, an idle shaft chamber 72 is formed between the crank chamber 63 of the crankcase 104 in which the crankshaft 58 is accommodated and the front portion of the rear wheel 50. A crank idle shaft 73 is disposed in the idle shaft chamber 72 in a direction orthogonal to the crankshaft 58 and is supported by a bearing 74.
[0068]
Near the intermediate portion of the crank idle shaft 73, a driven bevel gear 75, which is a transmission device that conducts the driving force of the engine 103 while converting the rotation axis of the crankshaft 58 in different directions, is provided. The rotation shaft direction of the crankshaft 58 is changed by meshing with 71.
[0069]
The idle shaft chamber 72 is closed by an idle shaft cover 76 that supports the crank idle shaft 73. A shim 77 that adjusts the meshing between the bevel gears 71 and 75 is provided on the joint surface between the idle shaft chamber 72 and the idle shaft cover 76, and the crank chamber 63 and the idle shaft chamber 72 are liquid-tight by an O-ring 78 or the like. keep.
[0070]
The conductive case 48 is covered with a case cover 79 to form a belt chamber 80 therein, and a V-belt type automatic transmission 81 is disposed in the belt chamber 80. The left end portion of the crank idle shaft 73 projects into the belt chamber 80, and a drive pulley 82 of the transmission 81 is attached. The drive pulley 82 is connected to the driven pulley 84 via the V belt 83, and the driving force of the engine 103 is transmitted to the driven pulley 84.
[0071]
The driven pulley 84 is rotatably supported by a driven shaft 85 provided at the rear portion of the power unit 102, and the rotational driving force transmitted from the engine 103 transmitted to the driven pulley 84 is driven via the centrifugal clutch mechanism 86. 85.
[0072]
The driven shaft 85 is connected to the rear wheel drive shaft 88 through a transmission mechanism 87 that is a reduction gear mechanism and a power transmission device, so that the driving force of the engine 103 is transmitted to the rear wheel 50 through the transmission mechanism 87. It has become.
[0073]
On the other hand, a water pump 118 is disposed on the wall of the crankcase 104 on the right end portion 73 a side of the crank idle shaft 73. The water pump 118 is connected to the right end 73 a of the crank idle shaft 73 and is configured to be driven by the rotational force of the crank idle shaft 73.
[0074]
An exhaust pipe 95 constituting an engine exhaust system 94 is connected to the lower surface of the cylinder head 106, and a muffler 96 is connected to the downstream side of the exhaust pipe 95. A carburetor 120 constituting an engine intake system 119 is disposed in the vicinity of the cylinder head 106 and is connected to the upper surface of the cylinder head 106 via an intake pipe 121.
[0075]
An air cleaner 122 that also constitutes the engine intake system 119 is connected to the upstream side of the carburetor 120. The air cleaner 122 is disposed in a space formed at the rear of the cylinder 105 and the cylinder head 106 and above the muffler 96 and on the right side of the rear wheel 50.
[0076]
Further, a breather hose 123 is mounted on the wall of the idle shaft chamber 72 so that blow-by gas accumulated in the idle shaft chamber 72 is guided to the air cleaner 122. The breather hose 123 may be provided on the upper wall or side wall of the crankcase 104 near the crankshaft 58.
[0077]
By the way, a radiator 124 is disposed on one side of the article storage chamber 35, for example, on the right front portion of the article storage chamber 35 on the opposite side of the conduction case 48 with respect to the traveling direction axis 54 of the vehicle. It is fixed to the wall of the article storage chamber 35 via a bracket 125. Further, a cooling wind inlet 99 is formed in the vehicle body cover 38 in front of the radiator 124, and the traveling wind is guided to the radiator 124, and the exhausted air that has passed through the radiator 124 is guided rearward along the side wall of the article storage chamber 35. It is burned.
[0078]
The water jacket 57, the water pump 118, and the radiator 124 are connected to each other by the cooling water hose 100, and the cooling water cooled by the radiator 124 is forcibly sent to the water jacket 57 by the water pump 118, and the cylinder 105 and the cylinder head 106 are cooled and then guided to the radiator 124.
[0079]
As described above, by arranging the cylinder 105 in a direction orthogonal to the traveling direction axis 54 of the vehicle 101, the connecting portion of the spark plug 56 and the exhaust pipe 95 is located on the side of the vehicle 101 and can be easily attached and detached. Maintenance is improved.
[0080]
Further, the crankshaft 58 is arranged in parallel with the traveling direction axis 54 of the vehicle 101, and a crank idle shaft 73 is provided, and both shafts 58, 73 are connected by bevel gears 71, 75 to convert the rotation axis direction of the crankshaft 58. By configuring as described above, not only the cantilever portion 58a of the crankshaft 58 but also the length of the crank idle shaft 73 is shortened so that the bearings 60 and 74 are less likely to be burdened. As a result, troubles in the bearing portion are reduced, and the vibration of the V belt 83 is advantageous.
[0081]
Furthermore, by arranging the cylinder 105 in a direction perpendicular to the traveling direction axis 54 of the vehicle 101, a space is formed at the rear of the cylinder 105 and the cylinder head 106, above the muffler 96, and on the right side of the rear wheel 50, The engine intake system 119 can be disposed in this space. As a result, a sufficient space can be secured between the back surface of the power unit 102 and the bottom surface of the article storage chamber 35, and the bottom surface of the article storage chamber 35 can be flattened, so that the volume of the article storage chamber 35 can be sufficiently secured.
[0082]
A water pump 118 is disposed on the wall of the crankcase 104 on the right end portion 73a side of the crank idle shaft 73, and the water pump 118 is connected to the right end portion 73a of the crank idle shaft 73 and driven. Assembling of the water pump 118 is facilitated and the width of the power unit 102 is not increased. Further, since the water pump 118 is directly connected to the crank idle shaft 73, transmission of driving force is stabilized.
[0083]
In addition, by arranging the cylinder 105 in a direction orthogonal to the traveling direction axis 54 of the vehicle 101, the starter motor 116 can be arranged at a position that does not interfere with other members.
[0084]
In the above-described embodiment, an example in which the bevel gears 71 and 75 are used as the transmission device that transmits the driving force of the engine 103 while changing the rotation axis of the crankshaft 58 in different directions has been described. , 75, hypoid gears can be used.
[0085]
In the above-described embodiment, the example in which the stay 46 for suspending the power unit is provided on the upper portion of the outer wall of the crankcase 104 is shown. However, as shown in FIG. The power unit 102 may be pivotally attached to the rear end portion of the down tube 32 provided at the lower portion of the outer wall.
[0086]
Further, in the above-described embodiment, an example in which the engine intake system 119 is arranged in the space formed on the rear side of the cylinder 105 and the cylinder head 106 and above the muffler 96 and on the right side of the rear wheel 50 is shown. 12, the engine intake system 119 may be disposed on the front side of the cylinder 105 and the cylinder head 106, and between the left side surface of the crankcase 104 and the front surface of the conduction case 48 as shown in FIG. In addition, an air cleaner 122 may be disposed in a space formed below the article storage chamber 35, and the air cleaner 122 and the carburetor 120 may be connected using a duct 122a.
[0087]
FIG. 14 is a left side view of the power unit 131 showing an example in which the balancer device 130 is provided in the engine 103 used in the second embodiment described above, and FIG. 15 is a cross-sectional view taken along line XV-XV in FIG. is there.
[0088]
As shown in FIGS. 14 and 15, the balancer device 130 is disposed on the left side surface of the crankcase 104 in front of the conduction case 48. The balancer device 130 is arranged in parallel with the crankshaft 58 and is provided at a balancer shaft 133 supported by a pair of bearings 132, a balancer weight 134 fixed to the balancer shaft 133, and one end of the balancer shaft 133. The balancer driven gear 136 meshes with the balancer drive gear 135 provided on the crankshaft 58. Further, the balancer device 130 is configured to be attachable from an opening 137 formed on the left side surface of the crankcase 104, and the opening 137 is closed by a balancer cover 138.
[0089]
As described above, by arranging the cylinder 105 in a direction orthogonal to the traveling direction axis 54 of the vehicle 101, the balancer shaft 133 can be arranged in parallel with the crankshaft 58 at a position that does not interfere with other members.
[0090]
By the way, in the above-described embodiment, an example in which the breather hose 123 is attached to the wall of the idle shaft chamber 72 or the upper wall or the side wall of the crankcase 104 has been shown, but as shown in FIGS. The breather hose 123 may be attached to the balancer cover 138.
[0091]
In the two-cycle engine 47 shown in the first embodiment described above, an oil pump drive gear 68 is provided at the rear of the crankshaft 58, and the oil pump 70 is driven via the oil pump drive shaft 69. In addition, an example is shown in which a water pump 67 is disposed on a magnet cover 66 that covers the front surface of the magneto device 65, and the water pump 67 is connected to the front end of the crankshaft 58 and driven. As in the engine 103 shown in the embodiment, a water pump 67 or an oil pump 70 may be connected to the right end 73a of the crank idle shaft 73. The oil pump 70 is provided on the magnet cover 66 and driven by the crankshaft 58. You may make it do.
[0092]
Furthermore, in the 4-cycle engine 103 shown in the second embodiment described above, an example in which the water pump 118 is connected to the right end portion 73a of the crank idle shaft 73 is shown, and the description of the oil pump 70 is omitted. As with the cycle engine 47, a water pump 118 may be disposed on a magnet cover 66 that covers the front surface of the magnet device 65, and the water pump 118 may be connected to the front end of the crankshaft 58 for driving. An oil pump (not shown) may be directly connected to the right end 73a of the shaft 73 or the front end of the crankshaft 58.
[0093]
FIG. 16 is a right side view of a scooter type vehicle in which a guide duct is provided in the vehicle body, and FIG. 17 is a plan view of the scooter type vehicle. As shown in FIGS. 16 and 17, the scooter type vehicle 140 includes an intake guide duct 142 in front of the radiator 141 and an exhaust guide duct 143 in the rear of the radiator 141. The intake port 144 of the intake guide duct 142 opens toward the front of the vehicle 140 at a location that is not obstructed by the rider's body. For example, the front portion of the vehicle body cover 145 (position 144 (a) in FIG. 16), driving The front of the bay entrance 146 in front of the seat 36 (position 144 (b) in FIG. 16), the rear of the bay entrance 146 (position 144 (c) in FIG. 16), and the like are conceivable. Since both the intake ports 144 (b) and 144 (c) are opened below the radiator 141, rainwater and the like can be prevented from entering the radiator 141. The intake port 144 (a) opens upward from the radiator 141. However, since the middle of the intake guide duct 142 is positioned below the radiator 141, rainwater and the like can be prevented from entering the radiator 141.
[0094]
Further, as shown in FIG. 18, an intake guide duct 147 having a plurality of intake ports 144 (d) to 144 (f) may be provided. Further, as shown in FIG. 16, an intake fan 148 may be provided behind the radiator 141 so that the outside air is forcibly sucked when the vehicle is stopped or when the traveling wind is low.
[0095]
By providing the guide ducts 142 and 143 before and after the radiator 141, the heat dissipation effect of the radiator 141 is enhanced, and the cooling efficiency of the engines 47 and 103 is improved.
[0096]
In the meantime, in the scooter type vehicle 140 shown in FIGS. 16 and 17, a part of the rear side of the article storage chamber 150 is extended rearward to form an extension portion 150a, and is provided side by side with tanks such as the fuel tank 151. The By forming the extension 150a in the article storage chamber 150, it is possible to store a long object that cannot be stored in the conventional article storage chamber.
[0097]
【The invention's effect】
As described above, according to the scooter type vehicle according to the present invention, by arranging the cylinder in a direction perpendicular to the traveling direction axis of the vehicle, a space is formed in the rear portion of the cylinder and the cylinder head, and the engine is installed in this space. Intake system and engine exhaust system can be arranged, sufficient space can be secured between the swing type power unit and the bottom of the article storage room, and the bottom of the article storage room can be flattened, and the volume of the article storage room is sufficient. In addition, the maintainability of the spark plug and the exhaust pipe is improved.
[0098]
Further, since the water pump is disposed on the crankcase wall, the water pump can be easily assembled, the width of the power unit is not enlarged, and the transmission of the driving force is stabilized.
[Brief description of the drawings]
FIG. 1 is a left side view of a scooter type vehicle showing a first embodiment of the scooter type vehicle according to the present invention.
FIG. 2 is a right side view of the scooter type vehicle shown in FIG.
3 is a cross-sectional view taken along line III-III in FIG.
4 is a cross-sectional view taken along line IV-IV in FIG.
FIG. 5 is a left side view of the power unit showing another mounting position of the power unit suspension stay.
FIG. 6 is a left side view of the power unit showing another arrangement position of the air cleaner.
FIG. 7 is a left side view of the scooter type vehicle showing a second embodiment of the scooter type vehicle according to the present invention.
8 is a right side view of the scooter type vehicle shown in FIG.
9 is a sectional view taken along line IX-IX in FIG.
10 is a cross-sectional view taken along line XX in FIG.
11 is a plan view of the scooter type vehicle shown in FIG.
FIG. 12 is a plan view of a power unit showing another arrangement position of the engine intake system.
FIG. 13 is a plan view of a power unit showing another arrangement position of the engine intake system.
14 is a left side view of a power unit showing an example in which a balancer device is provided in the engine shown in FIG. 9;
15 is a sectional view taken along line XV-XV in FIG.
FIG. 16 is a right side view of a scooter type vehicle in which a guide duct is provided in the vehicle body.
17 is a plan view of the scooter type vehicle shown in FIG. 16. FIG.
FIG. 18 is a side view showing another shape example of the intake guide duct.
FIG. 19 is a side view showing a general example of a liquid-cooled swing type power unit in which the engine is arranged substantially horizontally and the cylinder thereof is arranged in parallel with the traveling direction axis of the vehicle.
20 is a cross-sectional view taken along line AA in FIG.
[Explanation of symbols]
30, 101, 140 Scooter type vehicle
31 body frame
32 Downtube
33 Rear frame
35,150 Goods storage room
45,102,131 Swing type power unit
47 2-cycle engine
48 conduction case
51,104 Crankcase
52,105 cylinders
53,106 Cylinder head
54 Axial direction axis of vehicle
56 Spark plug
57 water jacket
58 crankshaft
67,118 Water pump
71 Drive bevel gear (conduction device)
73 Crank idle shaft
75 Driven bevel gear (conduction device)
81 V-belt type automatic transmission
88 Rear wheel drive shaft
89,119 Engine intake system
91,120 Carburetor
94 Engine exhaust system
97,124,141 Radiator
103 4-cycle engine
114 Starter driven gear
116 Starter motor
142 Intake guide duct
143 Exhaust guide duct
144 (a) to (f) Intake port

Claims (2)

The vehicle body frame includes an engine and a conduction case extending rearward from the engine, and a swing type power unit that conducts driving force to the rear wheels at a rear portion of the conduction case is swingably supported on the vehicle body frame, and the rear shock absorber In a scooter type vehicle in which the vehicle body cover shape on the front side of the driving seat is curved toward the ground surface side, and the article storage chamber covered with the vehicle body cover is disposed below the driving seat,
The swing-type power unit has a conduction case with a transmission installed on one side of the vehicle travel direction axis, and a water-cooling system that arranges a cylinder head, an engine intake system and an engine exhaust system on the other side of the vehicle travel direction axis. As an engine,
A cylinder of the engine is disposed in a direction substantially orthogonal to the vehicle traveling direction axis and substantially horizontal, and a water pump is disposed on the cylinder head side with respect to a crankshaft parallel to the traveling direction of the vehicle ;
A radiator for cooling engine cooling water is fixed to the lower front portion of the driving seat by a bracket so that exhaust air passing through the radiator passes between the article storage chamber and the vehicle body cover,
The engine cooling water from the water pump is led to a water jacket formed in the cylinder by a cooling water hose and a water jacket for cooling the engine formed around the combustion chamber of the cylinder head, and further the cylinder head of the spark plug Lead to the radiator from the outside in the vehicle width direction from the connecting part to
A scooter type vehicle characterized in that the cooling water hoses are arranged on the other side of the vehicle in the vehicle plan view . The scooter type vehicle according to claim 1 , wherein the engine of the swing type power unit is a four-cycle single cylinder engine.

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