JP2004116426A - Intake system structure for low floor type vehicle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To smoothly supply air to each cylinder of a V-type engine from each intake system, while enhancing rigidity of a vehicle body frame. <P>SOLUTION: In a low floor type vehicle 10, a front and rear V-type engine 100 is suspended by an upper frame 22 extending from a head pipe 21 rearward and downward and a down frame 23 extending downward from the head pipe. Intake connection pipes 191, 191, and an intake system 190 including an air cleaner 56 are disposed on the front and rear V-type engine. Each of the intake connection pipes is arranged in a V-bank of the V-type engine to be approximately along with the upper frame and down frame. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a technology for improving an engine intake system structure of a low-floor type vehicle.
[0002]
[Prior art]
2. Description of the Related Art In a low-floor vehicle such as a scooter-type motorcycle or three-wheeled vehicle, a technology is known in which a front-rear V-type engine is mounted below a body frame and an intake system and an air cleaner are arranged above the engine (see, for example, Patent Document 1). .).
[0003]
[Patent Document 1]
JP 2001-87763 A (page 3-4, FIG. 2)
[0004]
An outline of a conventional low-floor type vehicle disclosed in Patent Document 1 will be described with reference to FIG.
FIG. 28 is a schematic diagram of a conventional low-floor type vehicle, and FIG. 2 of JP-A-2001-88863 is shown again. The reference numerals have been re-assigned.
The conventional low-floor vehicle 300 is a scooter-type motorcycle having a power unit 320 mounted in a double cradle-type body frame 310 and below a low floor 318.
[0005]
The body frame 310 includes a pair of left and right upper frames 312, 312 (shown only on the left; the same applies hereinafter) extending rearward and downward from the head pipe 311, and a pair of left and right down frames 313, 313 extending downward from the head pipe 311. A pair of left and right center frames 314, 314 extending rearward and upward from the middle of extension of the down frames 313, 313; a pair of left and right lower frames 315, 315 extending rearward from lower ends of the down frames 313, 313; A pair of left and right rear frames 316 and 316 connecting the rear ends of the center frames 314 and 314 and the rear ends of the center frames 314 and 314, respectively.
[0006]
The rear ends of the upper frames 312 and 312 are connected while the center frames 314 and 314 are being extended. The low floor 318 can be supported by the body frame 310. The low floor 318 is a floor on which the feet of the occupant are placed.
[0007]
The power unit 320 includes a front-back V-type engine 321 and a rear transmission unit 331. The V-type engine 321 is a water-cooled engine provided with a front cylinder 322 and a rear cylinder 323 such that a bank angle θ10 of about 45 ° in a side view (a sandwich angle θ10 between the cylinders 322 and 323). . The front cylinder 322 extends substantially horizontally forward. The rear cylinder 323 extends to face the head pipe 311. As a result, the bank angle θ10 becomes a narrow angle of about 45 ° in side view. Naturally, the bisector L11 of the bank angle θ10 passes between the head pipe 311 and the front wheel 351. 324 is a crankshaft.
Exhaust pipes 326 and 326 connected to the respective cylinders 322 and 323 extend rearward below the engine 321 to reach the muffler 327.
[0008]
Further, in the low-floor type vehicle 300, an air cleaner 340 is disposed in a space between the head pipe 311 and a rear cylinder 323, a radiator 352 for cooling the engine is disposed between the engine 321 and the front wheel 351, and a seat is provided in an upper rear portion. 353 are arranged, and a front fuel tank 354 and a rear storage box 355 are arranged below the seat 353.
[0009]
The transmission unit 331 includes a transmission unit 333 that can swing vertically using the final output shaft 332 as a swing base end. The rear wheel 334 can be attached to the transmission unit 333, and the transmission unit 333 can be suspended from the vehicle body frame 310 via the rear cushion 335. The rear cushion 335 is disposed vertically below the seat 353 and between the fuel tank 354 and the storage box 355. L12 is a straight line passing through the head pipe 311 and the final output shaft 332.
[0010]
The air cleaner 340 includes a filter element 341 inside, an intake port 342 provided at an upper portion, and the intake port 342 is closed by an upper lid 343. The cylinders 322 and 323 are connected to the air cleaner 340 by the intake connection pipes 344 and 345, respectively. The intake connection pipe 344 connected to the front cylinder 322 reaches the air cleaner 340 through the space between the cylinders 322 and 323. On the other hand, the intake connection pipe 345 connected to the rear cylinder 323 passes over the rear cylinder 323 and reaches the air cleaner 340.
[0011]
[Problems to be solved by the invention]
However, the conventional vehicle body frame 310 has the upper frames 312 and 312 greatly lowered rearward and downward in order to ensure ease of stepping over when the driver gets on the vehicle, and the rear ends thereof are in the middle of extension of the center frames 314 and 314. It is a joined structure. That is, since the upper frame 312, 312 and the center frame 314, 314 are combined in a substantially V-shape, there is a limitation in disposing the engine 321 below, and the rigidity of the body frame 310 is secured. However, it is difficult to effectively use the space above the engine 321. Further, there is room for improvement in the relationship between the body frame 310 and the intake system.
[0012]
Accordingly, an object of the present invention is to provide a technique capable of more smoothly supplying air from each intake system to each cylinder of a V-type engine while further increasing the rigidity of a vehicle body frame.
[0013]
[Means for Solving the Problems]
In order to achieve the above object, a first aspect is to suspend the front-rear V-type engine by an upper frame extending rearward and downward from the head pipe and a down frame extending downward from the head pipe. In a low-floor type vehicle in which an intake connection pipe and an air intake system including an air cleaner are disposed above the vehicle, the respective intake connection pipes are arranged between the V banks of the V-type engine and substantially along the upper frame and the down frame. An engine intake system structure for a low-floor vehicle, wherein the engine intake system is arranged.
[0014]
Since the respective intake connection pipes were arranged between the V banks of the V-type engine suspended on the diamond-type body frame, and these intake connection pipes were substantially aligned with the upper frame and the down frame of the diamond-type body frame, Each intake connection pipe can be configured substantially linearly. By employing the substantially straight intake connection pipes, air can be more smoothly supplied from each intake connection pipe to each cylinder. As a result, the intake efficiency can be further improved, and the output performance of the V-type engine can be further improved.
In addition, by adopting such a configuration, the space inside the vehicle body frame can be effectively used and can be disposed compactly, so that the degree of freedom of design can be increased, and the appearance of the low-floor type vehicle is enhanced. You can also. Further, when the driver gets on the vehicle, it is possible to improve the ease of straddling the body frame.
[0015]
A second aspect of the present invention is characterized in that a truss-shaped frame structure is provided between the upper frame and the down frame facing the side surface of each intake connection pipe.
Since a truss-shaped frame structure is provided between the upper frame and the down frame facing the side surface of each intake connecting pipe, the rigidity of the body connecting frame in the extending direction of each intake connecting pipe can be further increased. it can. Therefore, the output performance of the V-type engine suspended on the vehicle body frame can be further improved.
[0016]
A third aspect of the present invention is characterized in that the truss-shaped frame structure has a triangular space through which the filter element of the air cleaner can be inserted and removed.
Since the truss-shaped frame structure has a triangular space through which the filter element of the air cleaner can be taken in and out, the filter element can be easily detached from the side of the air cleaner. Therefore, maintenance and inspection work of the filter element is easy, and workability is improved. In addition, the size and weight of the air cleaner can be reduced.
[0017]
According to a fourth aspect of the present invention, the upper frame extends substantially linearly while leaning rearward and downward to near the cylinder of the rear bank of the V-type engine, and then extends to a position near the pivot of the rear wheel swing arm with a gentle inclination. It is characterized by having.
By extending the upper frame in a substantially straight line while inclining rearward and downward from the head pipe to the vicinity of the cylinder of the rear bank of the V-type engine, and then gradually reducing the degree of inclination, extending the vicinity of the pivot of the rear wheel swing arm. The upper frame can be extended substantially linearly in the front-rear direction. Therefore, the rigidity of the upper frame can be further increased, and as a result, the rigidity of the vehicle body frame can be further increased.
As described above, the front portion of the upper frame contributes to the stability of the intake system, and the rear portion of the upper frame can function to effectively receive the load from the rear wheels. Therefore, the rigidity of the vehicle body frame can be effectively maintained by a small and lightweight configuration.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiments of the present invention will be described below with reference to the accompanying drawings. In addition, “front”, “rear”, “left”, “right”, “up”, and “down” follow directions viewed from the driver, and Fr is the front side, Rr is the rear side, L is the left side, and R is the right side. , CL indicate the vehicle width center (body center). Also, the drawings should be viewed in the direction of reference numerals.
[0019]
First, the overall configuration of the low floor vehicle 10 will be described. FIG. 1 is a left side view (part 1) of a low-floor type vehicle according to the present invention, showing a configuration in which a vehicle body cover is mounted. FIG. 2 is a left side view (part 2) of the low-floor vehicle according to the present invention, showing a configuration in which a vehicle body cover is removed. FIG. 3 is a plan view of the low-floor type vehicle according to the present invention, showing a configuration in which a vehicle body cover is removed.
[0020]
The low-floor type vehicle 10 includes a body frame 20, a front fork 51 attached to a head pipe 21 of the body frame 20, a front wheel 52 attached to the front fork 51, a handle 53 connected to the front fork 51, and a body frame 20. , A radiator 55, an air cleaner 56, and a fuel tank 57 mounted on the front upper portion of the vehicle body frame 20, a seat 58 mounted on the rear upper portion of the vehicle body frame 20, and a vehicle frame 20 below the seat 58. A storage box 59 attached to the rear of the vehicle body, a swing arm 62 suspended by a rear cushion 61 for the rear wheel at the rear of the vehicle body frame 20, and a rear wheel 63 attached to the swing arm 62 are main constituent members, and Full cowling type vehicle covered with a body cover (cowl) 70 A.
[0021]
More specifically, the seat 58 is a tandem seat that can be driven by two persons in front and back, and includes a movable (adjustable) seat back 64 for a driver in the center. Such a seat 58 can be attached to the body frame 20 by a seat rail 65 extending rearward from the upper rear part of the body frame 20.
P1 is an intermediate position of the wheel base (the center distance between the front wheel 52 and the rear wheel 63), and the distance X1 is equal to the distance X2.
[0022]
As shown in FIG. 1, the vehicle body cover 70 includes a front cover 71 that covers a front portion of the head pipe 21 and an upper portion of the front wheel 52, an inner cover 72 that covers a rear portion of the front cover 71, and a step of placing a foot of the driver. Left and right low floors 73 as floors (only the left side is shown; the same applies hereinafter), left and right floor skirts 74 extending downward from outer edges of these low floors 73, and a longitudinal center of the body frame 20 extending rearward from the inner cover 72. , A rear cover 77 extending rearward from the center cover 75 to cover the rear part of the vehicle body frame 20, the seat rail 65, and the storage box 59, and a rear cover 77 covering the rear upper part of the vehicle body behind the side cover 76. Become.
[0023]
The center cover 75 is a member that also covers the air cleaner 56, the fuel tank 57, and the engine 100.
In the figure, 81 is a wind screen, 82 is a front fender, 83 is a headlamp, 84 is a turn signal, 85 is a rear spoiler and rear grip, 86 is a tail lamp, 87 is a rear fender, 87 is a number plate.
[0024]
Next, the body frame 20 will be described. 4 is a left side view of the vehicle body frame according to the present invention, FIG. 5 is a plan view of the vehicle body frame according to the present invention, FIG. 6 is a front view of the vehicle body frame according to the present invention, and FIG. FIG. 8 is a perspective view of the vehicle body frame according to the present invention as viewed from the right side.
[0025]
The body frame 20 includes a pair of left and right upper frames 22, 22 extending rearward and downward from the head pipe 21, and a front portion of a crankcase 104 of the V-type engine 100 (see FIG. 2) extending downward from the head pipe 21. And a pair of left and right down frames 23, 23 connected to the V-type engine 100.
[0026]
More specifically, the upper frames 22, 22 extend substantially linearly from the upper part of the head pipe 21 to the rear and lower, and extend from the lower inclined end 22a to the rear to lower and lower. It is. The down frames 23, 23 are pipe members extending from the lower part of the head pipe 21 to the rear lower part at an inclination angle larger than that of the upper frames 22, 22.
[0027]
A truss-shaped frame structure (a triangular frame structure) is provided between the left upper frame 22 and the left down frame 23 and between the right upper frame 22 and the right down frame 23.
[0028]
Specifically, in the truss-shaped frame structure, a substantially horizontal first reinforcing member 24 extends from a joint portion between the head pipe 21 and the down frame 23 toward the upper frame 22, and the upper frame 22 and the first reinforcing member 24 are extended. The second reinforcing member 25 is extended from the joining portion with the lower frame 23 to the lower end of the down frame 23, and further joined between the vicinity of the lower inclined end portion 22a of the upper frame 22 and the middle of the extending of the second reinforcing member 25. With the configuration in which the third reinforcing member 26 is bridged between the two, three space portions 27 to 29 each having a triangular shape in a side view are provided. These spaces 27 to 29 penetrate in the vehicle width direction.
[0029]
That is, the first space portion 27 is a space formed by the head pipe 21, the upper frame 22, and the first reinforcing member 24. The second space 28 is a space formed by the down frame 23 and the first and second reinforcing members 24 and 25. The third space 29 is a space formed by the upper frame 22 and the second and third reinforcing members 25 and 26.
[0030]
Further, in the body frame 20, a cross member 31 is bridged between the left and right upper frames 22, 22 near the downwardly inclined end portion 22a of the upper frame 22, so that the left and right down frames 23, 23 extend halfway and at the lower end. The rigidity is ensured by bridging the two cross members 32 and 33 between them. The cross member 31 between the left and right upper frames 22 includes a bracket 34 for a cushion.
[0031]
The body frame 20 includes a left first hanger plate 35 at a lower end portion of the left down frame 23, a left second hanger plate 36 at the left third reinforcing member 26, and a left upper frame 22 and a left third hanger plate 36. A left third hanger plate 37 is provided in the vicinity of the joint with the reinforcing member 26, and a left fourth hanger plate 44 is provided at the rear end of the left upper frame 22, and as shown in FIG. A right hanger portion 23a is provided at the lower end of the right side, a right first hanger plate 38 is provided on the right third reinforcing member 26, and a right second hanger plate 38 is provided near a joint between the right upper frame 22 and the right third reinforcing member 26. A right hanger plate 48 is provided at the rear end of the right upper frame 22.
These hanger plates 35 to 39, 44, and 48 are connecting members detachable from the vehicle body frame 20.
[0032]
According to the present invention, the low floor 73 (see FIG. 1) is supported by the left and right low floor support frames 41, 42 fixed to the lower portions of the down frames 23, 23 via the stays 47, 47 and extending forward and backward. It is characterized by.
The left low floor support frame 41 is a pipe material having a rear portion connected to a rear portion of the left upper frame 22 by a stay 43 and a fourth hanger plate 44 on the left side, and integrally holding a side stand 46 at the rear portion. is there. The left fourth hanger plate 44 also serves as a low floor support frame stay.
[0033]
Specifically, the side stand 46 was attached to the left low-floor support frame 41 with the bracket 45 so as to be able to stand up and retract. As shown in FIG. 8, the right low floor support frame 42 has a rear portion connected to a bracket 172 of the transmission unit 130 indicated by an imaginary line.
[0034]
The mounting structure of the low floor support frames 41 and 42 described above will be described together.
Low floor support frames 41 and 42 extending in the front and rear directions are fixed to the lower portions of the down frames 23 and 23 in the diamond frame, and the low floor 73 (see FIG. 1) is supported by the low floor support frames 41 and 42. I did it. Therefore, the low floor 73 can be supported reliably and stably, that is, effectively, even though the V-type engine 100 (see FIG. 2) is configured to be lowered.
[0035]
Further, the rear part of the left low floor support frame 41 fixed to the lower part of the left down frame 23 was also connected to the rear part of the left upper frame 22. For this reason, the left low floor support frame 41 long in the front and back can be sufficiently fixed by the body frame 20. As a result, the rigidity of the low floor support frame 41 can be increased, the low floor 73 can be more reliably and stably supported, and the support rigidity can be further increased.
[0036]
On the other hand, as shown in FIG. 8, the rear part of the right low floor support frame 42 fixed to the lower part of the right down frame 23 is further connected to the transmission unit 130 having high rigidity. Therefore, the right low floor support frame 42 that is long in the front and back can be sufficiently fixed by the vehicle body frame 20 and the transmission unit 130. As a result, the rigidity of the low floor support frame 42 can be increased, the low floor 73 can be more reliably and stably supported, and the support rigidity can be further increased.
[0037]
Further, as shown in FIG. 4, the side stand 46 is integrally held at the rear of the left low floor support frame 41, so that the low floor support frame 41 can also serve to hold the side stand 46. For this reason, it is possible to achieve dual use with other functional components, the size of the bracket 45 holding the side stand 46 is small, and there is no need to provide a separate holding component. Moreover, since the side stand 46 is held by the low-floor support frame 41 extending in the front-back direction, the side stand 46 can be set at an arbitrary position in the front-rear direction, thereby increasing the degree of freedom in design.
[0038]
Next, a configuration around the power unit 54 will be described. FIG. 9 is a left side view around the vehicle body frame, the power unit, the air cleaner, and the fuel tank according to the present invention. FIG. 10 is a cross-sectional view of the power unit according to the present invention, which is shown as a cross-sectional structure in which the power unit 54 is viewed from above. FIG. 11 is a sectional view of the first half of the power unit according to the present invention, and corresponds to FIG. FIG. 12 is a sectional view of the rear half of the power unit according to the present invention, and corresponds to FIG. FIG. 13 is a plan view of the rear portion of the power unit according to the present invention and the periphery of the rear wheel swing arm.
[0039]
The power unit 54 is a combination of a front-rear V-type engine 100 and a rear transmission unit 130. That is, the power unit 54 includes the transmission unit 130.
[0040]
As shown in FIG. 9, the V-type engine 100 is a two-cylinder engine in which a bank angle θ1 (an angle between the cylinders 101 and 102) is set to approximately 90 ° or more than 90 ° in a side view. In the V-type engine 100, the cylinder 101 of the front bank, that is, the front cylinder 101 extends substantially horizontally forward so as to be directed above the axle of the front wheel 52 (see FIG. 2). The cylinder 102 in the rear bank, that is, the rear cylinder 102, extends substantially vertically upward so as to point toward the lower inclined end portion 22a of the upper frame 22. The present invention is characterized in that the V-type engine 100 is arranged such that the bisector L1 of the bank angle θ1 is directed to the head pipe 21 in this manner.
[0041]
9 shows that the crankshaft 103 of the V-type engine 100 is disposed forward of the intermediate position P1 of the wheel base (see FIG. 2), so that the cylinder 101 of the front bank is positioned more than the left and right down frames 23, 23. This shows that the cylinder 102 of the rear bank is arranged between the left and right upper frames 22 (see also FIG. 3).
[0042]
By arranging the cylinder 101 of the front bank ahead of the left and right down frames 23, 23, the V-type engine 100 can be arranged as forward as possible. As a result, the center of gravity of the low-floor vehicle 10 can be set forward, so that the load applied to the front wheels 52 and the rear wheels 63 (see FIG. 2) can be more appropriately distributed.
[0043]
Further, by disposing the cylinder 101 of the front bank at the front, the position of the crankshaft 103 of the V-type engine 100 shifts forward. Even in this case, the bisector L1 of the bank angle θ1 is directed to the head pipe 21. Since the bisector L1 of the bank angle θ1 rises by the amount that the position of the crankshaft 103 moves forward, the cylinder 102 in the rear bank tilts rearward of the vehicle body accordingly. Therefore, the height of the cylinder 102 in the rear bank can be reduced. For this reason, the degree of freedom in mounting the V-type engine 100 is further increased.
[0044]
Furthermore, since the cylinders 102 of the rear bank are arranged between the left and right upper frames 22, 22, even if the upper frames 22, 22 are lowered, they do not interfere with the cylinders 102 of the rear bank. For this reason, the upper frames 22 and 22 can be passed to a position as low as possible. Accordingly, the center of gravity of the body frame 20 is lowered, so that the center of gravity of the low-floor type vehicle 10 can be reduced, and the vibration can be further reduced. In addition, since the low floor 73 (see FIG. 1) can be lowered, the operation of the low floor vehicle 10 becomes easier. Further, by lowering the upper frames 22, 22, it becomes easier for the driver to straddle the body frame 20 when riding.
[0045]
A radiator 55 for the engine (water-cooled engine) 100 is disposed in front of the head pipe 21 as shown in FIG. By moving the radiator 55, which was conventionally disposed in front of the water-cooled engine, to the front of the head pipe 21, the V-type engine 100 can be disposed as forward as possible.
[0046]
The V-type engine 100 and the transmission unit 130 are arranged such that the lower half is lowered below the low floor support frames 41 and 42 (only the left is shown in this figure). Therefore, it is possible to arrange the V-type engine 100 and the transmission unit 130 below the low floor 73 (see FIG. 1) supported from below by the low floor support frames 41 and 42 and mount the transmission on the low floor vehicle 10. it can. The crankshaft 103 is located below the low floor 73 and the low floor support frames 41 and 42.
[0047]
By doing so, the V-type engine 100 and the intake system 190 are arranged in the space S1 below the straight line L2 passing through the point P2 at the height center of the head pipe 21 and the final output shaft 138 of the transmission unit 130. . Moreover, the bisector L1 of the bank angle θ1 can be directed to the head pipe 21.
[0048]
Here, the intake system 190 is a system that supplies combustion air to the V-type engine 100, and includes the air cleaner 56 and the respective intake connection pipes 191 and 191 connected from the air cleaner 56 to the respective cylinders 101 and 102.
[0049]
Since the V-shaped engine 100 is arranged with the bisector L1 of the bank angle θ1 directed to the head pipe 21, the bank angle θ1 can be set to a wide angle of about 90 ° or more. By increasing the bank angle θ1, the vibration of the V-type engine 100 can be made more advantageous, and the intake system 190 including the intake connection pipes 191 and 191 for the cylinders 101 and 102 and the air cleaner 56 can be obtained. Place a large space can be secured. Therefore, the degree of freedom in designing the intake system 190 is increased.
[0050]
Furthermore, since the bisector L1 of the bank angle θ1 is directed to the head pipe 21, a large space can be secured between the V banks and the head pipe 21. Since the intake system 190 including the intake connection pipes 191 and 191 and the air cleaner 56 is disposed in such a large space between the V banks so as to be directed toward the head pipe 21, the intake system 190 and the V-type engine 100 are efficiently connected. The performance of the V-type engine 100 can be improved. Further, the intake system 190 can be reduced in size to a relatively low position and integrated. Therefore, the fuel tank 57 can be easily arranged above the low intake system 190, and the mass can be concentrated on the front part.
[0051]
By arranging the fuel tank 57 at the front of the low-floor vehicle 10, the center of gravity of the low-floor vehicle 10 can be set forward, so that the load applied to the front wheels 52 and the rear wheels 63 can be reduced more appropriately. Can be distributed. In addition, since the fuel tank 57 does not need to be disposed below the seat 58 (see FIG. 2), a large space is secured below the seat 58, and the storage box 59 (see FIG. 2) having a large storage space is disposed. Exerts a great effect.
[0052]
Furthermore, since the V-type engine 100 and the intake system 190 are arranged in the space S1 below the straight line L2 passing through the head pipe 21 and the final output shaft 138 of the transmission unit 130, the space S2 above the air cleaner 56 is effective. Can be used for Therefore, the fuel tank 57 as a functional component can be easily arranged above the air cleaner 56.
[0053]
The tip of the cylinder 102 in the rear bank and the upper end of the air cleaner 56 of the intake system 190 protrude slightly upward from the straight line L2, but within a range substantially matching the upper contour of the upper frames 22, 22. Yes, it can be regarded as being substantially disposed in the space S1 below the straight line L2 passing through the head pipe 21 and the final output shaft 138.
[0054]
10 to 12 show a cross-sectional configuration of the power unit 54. The V-type engine 100 is shown with the cylinder 102 in the rear bank omitted.
The V-type engine 100 includes a left-right split crankcase 104, a front bank cylinder 101 and a rear bank cylinder 102 (see FIG. 9) connected to the crankcase 104, and a head connected to the tips of these cylinders 101 and 102. 105 and a head cover 106, a crankshaft 103 extending in the vehicle width direction and rotatably housed in a crankcase 104, a piston 108 connected to the crankshaft 103 by a connecting rod 107, and a valve train housed in a cam chamber 109. The water-cooled engine includes a mechanism 111, a spark plug 112, and the like, and has a water-cooled jacket.
[0055]
In the figure, 113 is a cam chain, 114 is a driving gear for a cooling water pump, 115 is a right side cover, 116 is an AC generator, and 117 is a crankshaft driving gear by a starter motor (described later).
By covering the left side cover 118 on the left side of the crankcase 104, the left end of the crankshaft 103, the AC generator 116, and the left end of a first transmission shaft 136 described later are largely covered.
[0056]
The transmission unit 130 is coupled to the engine 100 at one side (right R) of the V-type engine 100, extends rearward at one side (right R) of the low-floor vehicle 10, and swings for a rear wheel. The pivot portion of the arm 62 drives the rear wheel 63 from the other side (left side L) of the low floor vehicle 10.
In this manner, the power unit 54 is configured by combining the crankcase 104 and the transmission unit 130 in a substantially U-shape in plan view, and the power unit 54 is mounted on the other side (left side L) of the low floor vehicle 10 in plan view. A letter-shaped opening can be provided.
With this configuration, only the V-type engine 100 or the transmission unit 130 can be changed, and the power unit 54 has high versatility.
[0057]
More specifically, the transmission unit 130 includes a main case 131 attached to the rear right surface of the crankcase 104 and extending rearward, a first cover 132 for closing a right opening of the main case 131, and the main case 131 and the first cover 132. The first transmission chamber 133 formed, the sub case 134 superimposed on the rear left side of the main case 131, the second transmission chamber 135 formed by the main case 131 and the sub case 134, A first transmission shaft 136 extending in the vehicle width direction into the first transmission chamber 133; a second transmission shaft 137 extending in the vehicle width direction from a rear portion in the first transmission chamber 133 into the second transmission chamber 135; A final output shaft 138 extending from the inside of the machine room 135 to the left outward through the sub case 134, and a left end portion of the first transmission shaft 136 from a left end portion of the crankshaft 103. The first gear mechanism 139 for transmitting power, the belt-type continuously variable transmission mechanism 141 for transmitting power from the right end of the first transmission shaft 136 to the right end of the second transmission shaft 137, the centrifugal clutch 142, and the second transmission shaft 137. And a second gear mechanism 143 for transmitting power from the left end to the final output shaft 138.
[0058]
The belt-type continuously variable transmission mechanism 141 employs a motor control system in which the speed is controlled by a servomotor (not shown) via a speed change gear 147.
144 is a balancer, 145 is a reluctor, and 146 is a pulser (crankshaft angle sensor), which is used for ignition control of the engine 100 and fuel injection control.
[0059]
Referring to FIG. 13 further, a transmission shaft 151 is spline-coupled to the left end of the final output shaft 138, and a driving sprocket 152 is mounted on the transmission shaft 151, while a driven sprocket 154 is mounted on an axle 153 for the rear wheel 63. By hanging the chain 155 between the driving and driven sprockets 152 and 154, the power of the V-type engine 100 can be transmitted from the transmission unit 130 to the rear wheel 63 by the chain drive mechanism 150.
[0060]
The axis C1 of the final output shaft 138 is also the pivot center C1 (swing center C1) of the rear wheel swing arm 62.
The swing arm 62 is a substantially H-shaped member as viewed in plan, including a left arm 161, a right arm 162, and a cross member 163 connecting the left and right arms 161, 162. It can be rotatably supported.
[0061]
Such a swing arm 62 is arranged such that the rear right side of the main case 131 and the rear left side of the sub case 134 are sandwiched between the front ends of the left and right arms 161 and 162. The left supported portion 161a provided at the front end of the left arm 161 is supported by the left pivot 164 on the rear left side of the sub case 134, and the right supported portion 162a provided at the front end of the right arm 162 is provided at the rear of the main case 131. By supporting the swing arm 62 on the right side with the right pivot 165, the swing arm 62 can be mounted so as to be able to swing up and down.
[0062]
The pivot 165 is a male screw that is screwed into and out of the main case 131. The pivot 165 is screwed into the main case 131 so as to be retracted in advance, and after the swing arm 62 is positioned at the pivot center C1, the tip of the pivot 165 is exposed and fitted to the right supported portion 162a. The right supported portion 162a can be attached to the case 131.
[0063]
The left arm 161 also serves as a chain case. By covering the left opening of the left arm 161 with the chain cover 166, the drive / driven sprockets 152 and 154 and the chain 155 can be stored.
[0064]
As is apparent from the above description, the power unit 54 includes the rear end of the crankcase 104, the left ends of the main / sub cases 131 and 134 of the transmission unit 130, and the front end of the left arm 161 of the swing arm 62. , Can be provided on the other side (left side L) of the low-floor vehicle 10 in plan view.
[0065]
Next, the relationship between the body frame 20 and the power unit 54 will be described. FIG. 14 is a perspective view of the periphery of the vehicle body frame and the power unit according to the present invention as viewed from the front left. FIG. 15 is a perspective view of the periphery of the vehicle body frame, the power unit, and the air cleaner according to the present invention as viewed from the rear left. FIG. 16 is a perspective view of the periphery of the vehicle body frame, the power unit, and the air cleaner according to the present invention as viewed from the right front.
FIG. 17 is a perspective view of the periphery of the vehicle body frame and the power unit according to the present invention as viewed from the right rear.
[0066]
14 to 17 show that the V-type engine 100 and the transmission unit 130 are suspended on the vehicle body frame 20 which is a diamond-type frame.
In the V-type engine 100, the left side of the crankcase 104 is attached to the vehicle body frame 20 via the first, second, and third hanger plates 35, 36, and 37, and the right side of the crankcase 104 is connected to the right side. It was attached to the vehicle body frame 20 via the hanger portion 23a and the right first hanger plate 38.
[0067]
On the other hand, for the transmission unit 130, the upper part of the left side of the main case 131 is attached to the vehicle body frame 20 via the third and fourth hanger plates 37, 44, and the upper part of the right side of the main case 131 is It was attached to the vehicle body frame 20 via the second and third right hanger plates 39 and 48.
The cross members 32 and 33 also serve as engine guard members.
[0068]
Since the body frame 20 is a diamond frame and the V-type engine 100 is suspended on the diamond frame, the engine 100 can be a part of the body frame 20. Therefore, there is no need to pass the frame members under the V-type engine 100. Therefore, the V-type engine 100 can be lowered to the minimum ground height. As a result, as shown in FIG. 9, the crankshaft 103 of the V-type engine 100 is also lowered, so that the space above the low floor 73 (see FIG. 1) can be widened accordingly. Further, by lowering the V-type engine 100, the low floor 73 is disposed above the crankcase 104, and the step width (the width of the low floor 73) can be reduced.
[0069]
Generally, the lower the crankshaft 103, the smaller the bank angle θ1. In the layout of the present invention, the bank angle θ1 is secured by employing the narrow V-type engine 100.
In this manner, the degree of freedom in mounting the V-type engine 100 having the bank angle θ1 of approximately 90 ° or more than 90 ° can be further increased. Moreover, by lowering the V-type engine 100, the center of gravity of the low-floor vehicle 10 can be reduced.
[0070]
Referring to FIG. 9, the upper frames 22, 22 extend substantially linearly inclining rearward and downward to the vicinity of the cylinder 102 in the rear bank of the V-type engine 100, and then gradually decrease the inclination, thereby It extends to the vicinity of the pivot (the position of the final output shaft 138) of the wheel swing arm 62.
[0071]
In this manner, the upper frames 22, 22 can be extended substantially linearly in the front-rear direction. For this reason, the rigidity of the upper frames 22, 22 can be further increased, and as a result, the rigidity of the body frame 20 can be further increased.
As described above, the front portions of the upper frames 22, 22 contribute to the stability of the intake system 190, and the rear portions of the upper frames 22, 22 can function to effectively receive the load from the rear wheel 63. Therefore, the rigidity of the vehicle body frame 20 can be effectively maintained by a small and lightweight configuration.
[0072]
As shown in FIG. 15, the left and right first reinforcing members 24, 24 of the body frame 20 are formed to be curved outward, so that the capacity of the air cleaner 56 can be increased and the air cleaner 56 is disposed forward. Even so, it is possible to prevent interference with the head pipe 21 or the maximum turning range of the front fork 51 (see FIG. 2).
[0073]
In FIG. 15, reference numeral 148 denotes a continuously variable transmission ratio variable servo motor which controls the continuously variable transmission ratio of the belt-type continuously variable transmission mechanism 141 via the transmission gear 147 shown in FIG. In FIG. 16, reference numeral 121 denotes an engine cooling water pump. 16 and 17 show that the bracket 172 at the upper right of the transmission unit 130 is detachably attached to the right side of the crankcase 104.
[0074]
Incidentally, as shown in FIG. 9, the crankcase 104 and the transmission unit 130 are vertically connected by the left third hanger plate 37 and the connecting member 173, and the left third hanger plate 37 and the connecting are connected. This shows that the member 173 is provided on the substantially U-shaped opening side of the power unit 54 in plan view. The left third hanger plate 37 plays a role of a connecting member.
[0075]
Specifically, the front part of the connecting member 173 is attached to the lower left lower part of the crankcase 104 with two bolts 174 and 174, and the rear part of the connecting member 173 is attached to the lower left lower part of the transmission unit 130 with one bolt 175. Was.
Further, the front part of the left third hanger plate 37 (connecting member 37) is attached to the left rear upper part of the crankcase 104 with one bolt 178, and the rear part of the left third hanger plate 37 is mounted on the left front upper part of the transmission unit 130. Was attached with one bolt 179.
[0076]
By doing so, the rigidity of the power unit 54 can be sufficiently ensured. Accordingly, the rigidity of the power unit 54 including the engine 100 and the transmission unit 130 that is a part of the body frame 20 is increased, so that the rigidity of the body frame 20 can be further increased.
[0077]
Further, by providing the upper and lower connecting members 37 and 173 on the substantially U-shaped opening side of the power unit 54 in the plan view, the opening portion can be reinforced by the upper and lower connecting members 37 and 173, so that the desired efficiency can be obtained. The rigidity of the low-floor type vehicle 10 is enhanced because the rigidity of the low-floor vehicle 10 can be improved because the connecting members 37 and 173 do not protrude from the vehicle body.
[0078]
Further, the connecting member 173 is configured to hold a main stand (stand member) 176 as shown in FIGS. That is, by connecting the upper left portion of the substantially gate-shaped main stand 176 in front view to the lower end portion of the connecting member 173, and connecting the upper right portion of the main stand 176 to the lower portion of the transmission unit 130 via the stay 177, The main stand 176 was attached so as to be able to stand up and retract.
[0079]
Since the connecting member 173 for securing the rigidity of the power unit 54 also serves to hold the main stand 176, it can be shared with other functional parts, and the low-floor vehicle 10 has a reduced number of parts. It is possible to reduce the weight and size of the configuration.
[0080]
Next, the intake system 190 will be described. FIG. 18 is a left side view around the vehicle body frame, the V-type engine, and the intake system according to the present invention, and shows a cross section of the air cleaner 56. FIG. 19 is a rear sectional view around the air cleaner and the vehicle body cover according to the present invention, FIG. 20 is an exploded view of the air cleaner according to the present invention, and FIG. 21 is an operation diagram of the air cleaner according to the present invention.
[0081]
Explaining with reference to FIGS. 9 and 18, an intake system 190 including intake connection pipes 191 and 191 and an air cleaner 56 is disposed above the V-type engine 100, and an upper part of the air cleaner 56 is provided as a vehicle accessory. This shows that a space S2 for disposing the fuel tank 57 is provided.
More specifically, an intake system 190 is disposed between the V banks of the V-type engine 100 (between the cylinders 101 and 102) so as to be directed toward the head pipe 21, and the fuel tank 57 is disposed above the intake system 190.
[0082]
More specifically, the V-type engine 100 includes intake connection pipes 191 and 191 that connect the cylinders 101 and 102 to the air cleaner 56, respectively. Each of the intake connection pipes 191 and 191 includes throttle valves 192 and 192 and fuel injection valves 193 and 193, respectively, and includes air supply pipes (funnels) 194 and 194 extending into the air cleaner 56, respectively. The air supply pipes 194, 194 are connected to one ends of the intake connection pipes 191, 191, respectively, and are arranged in a substantially C-shape in side view. The filter element 206 was disposed between the air supply pipes 194 and 194.
[0083]
In the figure, reference numeral 149 denotes a starter motor. Reference numeral 195 denotes an intake air temperature sensor for detecting the intake air temperature in the air cleaner 56, which is used to correct the intake air temperature when calculating and controlling the injection amounts of the fuel injection valves 193 and 193.
[0084]
As shown in FIGS. 18 to 20, the air cleaner 56 has a configuration that allows maintenance and inspection from the side of the low-floor vehicle 10. The specific configuration of the air cleaner 56 includes a cleaner case 201, a removable bottom plate 203 for closing the lower end opening 202 of the cleaner case 201, two air supply pipes 194, 194 extending from the bottom plate 203 into the case, and a cleaner case 201. , A detachable inspection lid 205 for closing an inspection port 204 provided in the upper rear portion, a cylindrical filter element 206 housed inside the cleaner case 201, and a filter inspection provided on the left or right side of the cleaner case 201. The cover 207 includes a hole 207, a detachable lid member 208 for closing the filter inspection hole 207, and a substantially L-shaped intake pipe 209 provided in the lid member 208.
[0085]
The lid member 208 is configured such that one end of the intake pipe 209 is detachably attached, includes a communication pipe 211 that communicates with the intake pipe 209, and one end of the filter element 206 that communicates with the communication pipe 211 is detachably attached. In this way, the air cleaner 56 includes the filter element 206 therein, and can be configured to be detachable by the lid member 208 on the side of the air cleaner 56.
[0086]
The center cover 75 (a part of the vehicle body cover 70) covering the air cleaner 56 has an inspection hole 75a and a detachable inspection lid 212 for closing the inspection hole 75a. The inspection lid 212 is located at a position facing the lid member 208.
[0087]
The air taken in from the intake pipe 209 passes through the communication pipe 211, the filter element 206, the cleaner case 201, the air supply pipes 194, 194, and the intake connection pipes 191, 191, and passes through each cylinder 101 of the V-type engine 100 shown in FIG. , 102.
[0088]
In order to maintain and inspect the filter element 206, as shown in FIG. 21, first, the screw 213 is removed, and the locking groove 212a at one end of the inspection lid 212 is pulled out from the edge of the inspection hole 75a. Thus, the inspection lid 212 is detached from the center cover 75.
Next, the screw 214 is removed, and the lid member 208 is removed through the inspection hole 75a. As a result, the intake pipe 209 and the filter element 206 come off together with the lid member 208.
In order to return the filter element 206 to its original state, the procedure may be reversed from the above-described removal procedure.
[0089]
As is clear from the above description, since the air cleaner 56 is configured to be able to be maintained and inspected from the side of the low-floor vehicle 10, it is not necessary to perform maintenance and inspection from above the air cleaner 56. For this reason, it is possible to sufficiently secure a large space that can be effectively used above the air cleaner 56.
[0090]
Further, the filter element 206 provided inside the air cleaner 56 is configured to be detachable by a lid member 208 on a side portion of the air cleaner 56, and the inspection lid 212 facing the lid member 208 is attached to the vehicle body covering the air cleaner 56. Since the cover element is provided on the cover 70, the filter element 206 can be easily detached from the side of the air cleaner 56 by removing the lid member 208 after removing the inspection lid 212. Therefore, maintenance and inspection work of the filter element 206 is easy, and workability is improved.
[0091]
Furthermore, as shown in FIG. 18, since the filter element 206 is arranged between the plurality of air supply pipes 194 and 194 extending into the air cleaner 56, when the filter element 206 is detached from the side of the air cleaner 56, The element 206 does not interfere with the air pipes 194, 194. Therefore, it is not necessary to increase the size of the air cleaner 56 in order to prevent interference. Therefore, the size of the air cleaner 56 can be reduced, and as a result, the degree of freedom in designing the air cleaner 56 to be mounted on the low-floor vehicle 10 is increased.
[0092]
Further, by providing a space S2 for arranging vehicle accessories such as the fuel tank 57 (see FIG. 9) above the air cleaner, the vehicle accessories can be easily arranged by effectively utilizing the space S2. In addition to this, the degree of freedom in designing the load distribution can be increased. For example, by arranging the air cleaner 56 and the fuel tank 57 at the front of the low-floor vehicle 10, the center of gravity of the low-floor vehicle 10 can be set to the front, so that the load applied to the front wheels 52 and the rear wheels 63 Can be more appropriately distributed.
[0093]
By the way, as shown in FIG. 18, each of the intake connection pipes 191 and 191 is characterized by being arranged substantially along the upper frame 22 and the down frame 23. That is, the intake connection pipe 191 connected to the cylinder 101 of the front bank is arranged substantially along the down frame 23, and the intake connection pipe 191 connected to the cylinder 102 of the rear bank is almost aligned with the upper frame 22. Placed.
[0094]
For this reason, each of the intake connection pipes 191 and 191 can be configured to be substantially linear. By employing the substantially straight intake connection pipes 191 and 191, air can be more smoothly supplied from the intake connection pipes 191 and 191 to the cylinders 101 and 102. As a result, the intake efficiency can be further improved, and the output performance of the V-type engine 100 can be further improved.
[0095]
In addition, by adopting such a configuration, the space inside the body frame 20 can be effectively used and the space can be compactly arranged, so that the degree of freedom of design can be increased, and the appearance of the low floor vehicle 10 can be improved. Can also be increased. Furthermore, when the driver gets on the vehicle, the ease with which the vehicle body frame 20 is straddled can be improved.
[0096]
As described above, a truss-shaped frame structure is provided between the upper frame 22 and the down frame 23 facing the side surfaces of the respective intake connection pipes 191 and 191. Therefore, the rigidity of the intake connection pipes 191 and 191 in the extending direction of the body frame 20 can be further increased. Therefore, the output performance of the V-type engine 100 suspended on the vehicle body frame 20 can be further improved.
[0097]
The triangular second space 28 included in the truss-shaped frame structure is a space in which the filter element 206 of the air cleaner 56 can be taken in and out. With the second space 28, the filter element 206 can be easily attached and detached from the side of the air cleaner 56. Therefore, maintenance and inspection work of the filter element 206 is easy, and workability is improved. In addition, the size and weight of the air cleaner 56 can be reduced.
[0098]
In FIG. 19, reference numerals 221 and 222 denote element pressing portions. 20, 223 and 223 are air supply pipe connection joints, 224 and 224 are air supply pipe connection flanges, 225 are screws, and 226 and 227 are packings.
[0099]
Next, the exhaust system 240 of the V-type engine 100 will be described. FIG. 22 is a left side view around the vehicle body frame, the power unit and the exhaust system according to the present invention, and FIG. 23 is a plan view around the vehicle body frame, the power unit and the exhaust system according to the present invention.
[0100]
Explaining also with reference to FIGS. 14 to 17, the exhaust system 240 of the V-type engine 100 includes a first exhaust pipe 241 connected to the cylinder 102 in the rear bank, and a second exhaust pipe 241 connected to the cylinder 101 in the front bank. Exhaust pipe 242, a collecting pipe 243 that collects the rear end of the first exhaust pipe 241 and the rear end of the second exhaust pipe 242, and a muffler 245 connected to the rear end of the collecting pipe 243 via an extension pipe 244. Consists of The silencer 245 has a built-in catalyst 246 (see FIG. 22) and is arranged on the upper right side of the rear wheel 63.
[0101]
The first exhaust pipe 241 connected to the cylinder 102 of the rear bank extends rearward (specifically, left rearward) from the cylinder 102 of the rear bank, extends downward at the rear end, and extends along the plane of the power unit 54. The lower end extends rearward (specifically, right rearward) through the space S <b> 4 of the substantially U-shaped opening, passes under the power unit 54, and the rear end of the second exhaust pipe 242 passes through the collecting pipe 243. Connected to.
[0102]
Since the first exhaust pipe 241 connected to the cylinder of the rear bank 102 of the V-type engine 100 is passed through the space S4 of the substantially U-shaped opening of the power unit 54 in plan view, the space of the U-shaped opening is formed. S4 can be used effectively. For this reason, since the first exhaust pipe 241 does not protrude from the vehicle body, the appearance of the low-floor vehicle 10 is enhanced.
[0103]
The second exhaust pipe 242 connected to the cylinder 101 of the front bank extends downward from the cylinder 101 of the front bank, extends its lower end to the right, extends its right end rearward along the lower right of the power unit 54, and thereafter The end is connected to the collecting pipe 243.
[0104]
As shown in FIG. 14, the second exhaust pipe 242 passes through one side (right side) of the front surface of the V-type engine 100 and is connected to the crankcase 104 on the front side of the engine on the other side (left side) of the V-type engine 100. , An oil filter 122 and / or an oil cooler 123 are provided. That is, an oil filter 122 and an oil cooler 123 are provided at the front of the left half of the crankcase 104.
[0105]
Meanwhile, the transmission unit 130 is provided with an intake port 251 on the right side as shown in FIG. 11 and a fan 253 on a pulley 252 of the belt-type continuously variable transmission mechanism 141 so as to suck outside air to generate the inside of the transmission unit 130. Is air-cooled. The cooled exhaust air is released to the atmosphere by an exhaust member 254 provided at the rear upper portion of the transmission unit 130 as shown in FIGS.
[0106]
The exhaust member 254 is a vertically inverted U-shaped duct in a side view, and is configured to direct exhaust air to the first and second exhaust pipes 241 and 242. The portion of the first and second exhaust pipes 241 and 242 that is exposed to the exhaust air is a gathering portion of the first exhaust pipe 241 and the second exhaust pipe 242, that is, the gathering pipe 243 or its vicinity. The exhaust sensor 255 is provided in a portion of the first and second exhaust pipes 241 and 242 where the exhaust air hits. That is, the exhaust sensor 255 is provided at the rear of the collecting pipe 243. Since the exhaust sensor 255 is cooled by the exhaust air, it is advantageous in maintaining the function and performance of the exhaust sensor 255.
[0107]
The exhaust sensor 255 detects the amount of oxygen in the exhaust gas. Based on the detection data, the injection amount of the fuel injection valves 193 and 193 (see FIG. 18) can be feedback-controlled. For example, when the detected oxygen amount is large, it is assumed that the ratio of the fuel supply amount to the air supply amount is small, and control is performed so as to increase the injection amounts of the fuel injection valves 193 and 193.
[0108]
As described above, since the exhaust sensor 255 is provided at the portion of the first and second exhaust pipes 241 and 242 where the exhaust air hits, the exhaust sensor 255 can be cooled by the exhaust air. Since the thermal effect of the exhaust gas sensor 255 due to the exhaust gas can be reduced, it is advantageous in maintaining the function and performance of the exhaust gas sensor 255. For example, the fuel injection valves 193 and 193 (see FIG. 18) can always be properly controlled by the exhaust sensor 255.
[0109]
The above exhaust system 240 will be described collectively.
Since the power unit 54 is formed in a substantially U-shape in plan view, the first exhaust pipe 241 connected to the cylinder 102 in the rear bank of the V-type engine 100 extends rearward from the cylinder 102, and its rear end is directed downward. The V-type engine 100 extends through the space S <b> 4 having a substantially U-shaped opening, extends its lower end rearward, and connects its rear end to the second exhaust pipe 242 connected to the cylinder 101 of the front bank of the V-type engine 100. be able to.
[0110]
In this way, the first exhaust pipe 241 connected to the cylinder 102 of the rear bank is passed over the power unit 54, and is further extended downward through the space S4 having a substantially U-shaped opening in a plan view, whereby the space S4 is reduced. It can be effectively used and connected to the second exhaust pipe 242 connected to the cylinder 101 of the front bank. Therefore, a plurality of exhaust pipes for the front and rear V-type engines can be efficiently arranged.
[0111]
Furthermore, since the exhaust air from the exhaust member 254 provided at the rear of the transmission unit 130 is directed to the first and second exhaust pipes 241 and 242, the first and second exhaust air is exhausted by the exhaust air. The pipes 241 and 242 and the exhaust gas in the pipes can be controlled to a desired temperature. In particular, by cooling the first and second exhaust pipes 241 and 242 and the exhaust gas by the exhaust air after cooling the transmission unit 130, both can be cooled at the same time, and separate cooling means is provided. There is no need to provide them, and the low-floor vehicle 10 can be reduced in size.
[0112]
Furthermore, since the exhausted air from the exhaust member 254 is applied to the vicinity of the gathering portion of the first exhaust pipe 241 and the second exhaust pipe 242, the inside of the first and second exhaust pipes 241 and 242 is formed. Since the exhaust gas can be cooled together to control the temperature, the efficiency is high.
[0113]
As shown in FIG. 14, a second exhaust pipe 242 passes through one side of the front surface of the V-type engine 100, while the first exhaust pipe 242 passes through the crankcase 104 on the other side of the front surface of the V-type engine 100. -Do not pass through the second exhaust pipes 241, 242. By effectively utilizing the vacant space through which the exhaust pipes 241 and 242 do not pass, the crankcase 104 on the other side of the front surface of the V-type engine 100 is provided with an oil filter 122 which is a functional part of an engine oil lubrication and cooling system. Since the oil cooler 123 can be provided, the size of the low-floor vehicle 10 can be reduced.
[0114]
Next, the arrangement of the rear wheel rear cushion 61 will be described.
FIG. 24 is a schematic view of a low-floor vehicle according to the present invention, in which a storage box 59 having a front and rear length substantially equal to the front and rear length of the seat 58 is provided below the seat 58, and This shows that the wheel rear cushion 61 is placed horizontally. Referring to FIG. 13, it can be seen that the rear cushion 61 is disposed substantially at the center of the vehicle body (the center in the vehicle width direction).
[0115]
25 is a left side view around the storage box and the rear cushion for the rear wheel according to the present invention, and FIG. 26 is a sectional view taken along line 26-26 of FIG.
The rear wheel rear cushion 61 is arranged along the rear portion of the upper frame 22. Specifically, by connecting one end of the rear cushion 61 to the cushion bracket 34 of the upper frame 22 and connecting the other end of the rear cushion 61 to the cushion bracket 167 of the swing arm 62, The rear cushion 61 is arranged substantially parallel to the upper frame 22.
[0116]
The storage box 59 includes an inspection lid 261 for the rear cushion 61 on the bottom surface 59a. The rear cushion 61 includes an adjusting member 61a for adjusting the cushioning property. The bottom surface 59a of the storage box 59 is right above the adjustment member 61a.
When adjusting the rear cushion 61, the inspection lid 261 detachably attached to the bottom surface 59a by elastic engagement is removed, and a tool 262 is inserted through the inspection hole 59b of the bottom surface 59a to adjust the adjustment member 61a. . Adjustment work is easy.
[0117]
The mounting structure of the rear cushion 61 described above will be described collectively.
Since the rear cushion 61 for the rear wheels is disposed horizontally below the storage box 59, even if the storage box 59 is extended back and forth, it does not interfere with the rear cushion 61 for the rear wheels located substantially at the center of the vehicle body. Therefore, the storage box 59 having a front-rear length substantially equal to the front-rear length of the seat 58 can be disposed below the seat 58. Therefore, by increasing the front and rear length of the storage box 59 to increase the storage space, it is possible to easily secure a storage space for storing a long and large-diameter object.
[0118]
Further, since the inspection lid 261 of the rear cushion 61 for the rear wheel is provided on the bottom surface of the storage box 59, the maintenance and inspection of the rear cushion 61 can be performed by removing the inspection lid 261. The maintenance and inspection work can be easily performed without removing the storage box 59 and the vehicle body cover 70 (see FIG. 1), thereby improving workability.
[0119]
Furthermore, since the rear cushion 61 for the rear wheel is disposed along the rear portion of the upper frame 22 of the diamond frame 20, the rigidity of the rear cushion 61 for the rear wheel is sufficiently ensured by the upper frame 22 having high rigidity. And a small suspension structure.
[0120]
FIG. 27 is a modified example of the storage box according to the present invention, and corresponds to the embodiment shown in FIG. The storage box 59 of the modification has a hinge structure in which the inspection lid 263 provided on the bottom surface 59a is opened and closed by a hinge 264. Other configurations are the same as those in FIGS. 24 to 26 described above, and are denoted by the same reference numerals and description thereof will be omitted.
[0121]
【The invention's effect】
The present invention has the following effects by the above configuration.
Claim 1 arranges each intake connecting pipe between V banks of a V-type engine suspended on a diamond-shaped body frame, and substantially connects these intake connecting pipes to the upper frame and the down frame of the diamond-shaped body frame. Since they are aligned, each intake connection pipe can be configured in a substantially straight line. By employing the substantially straight intake connection pipes, air can be more smoothly supplied from each intake connection pipe to each cylinder. As a result, the intake efficiency can be further improved, and the output performance of the V-type engine can be further improved.
In addition, by adopting such a configuration, the space inside the vehicle body frame can be effectively used and can be arranged compactly, so that the degree of freedom of design can be increased and the appearance of the low-floor type vehicle is enhanced. You can also. Further, when the driver gets on the vehicle, it is possible to improve the ease of straddling the body frame.
[0122]
According to a second aspect of the present invention, a truss-shaped frame structure is provided between the upper frame and the down frame facing the side surface of each intake connection pipe, so that the rigidity of each intake connection pipe in the body frame in the extending direction is reduced. It can be even higher. Therefore, the output performance of the V-type engine suspended on the vehicle body frame can be further improved.
[0123]
According to the third aspect, since the truss-shaped frame structure has the triangular space through which the filter element of the air cleaner can be inserted and removed, the filter element can be easily attached and detached from the side of the air cleaner. Therefore, maintenance and inspection work of the filter element is easy, and workability is improved. In addition, the size and weight of the air cleaner can be reduced.
[0124]
A fourth aspect of the present invention provides a pivot arm for a rear wheel swing arm, wherein the upper frame is extended substantially linearly while being inclined rearward and downward from the head pipe to the vicinity of the cylinder of the rear bank of the V-type engine, and then the inclination degree is moderated. By extending to the vicinity, the upper frame can be extended substantially linearly in the front-rear direction. Therefore, the rigidity of the upper frame can be further increased, and as a result, the rigidity of the body frame can be further increased.
As described above, the front portion of the upper frame contributes to the stability of the intake system, and the rear portion of the upper frame can function to effectively receive the load from the rear wheels. Therefore, the rigidity of the vehicle body frame can be effectively maintained by a small and lightweight configuration.
[Brief description of the drawings]
FIG. 1 is a left side view of a low floor vehicle according to the present invention (part 1).
FIG. 2 is a left side view of the low floor vehicle according to the present invention (part 2).
FIG. 3 is a plan view of a low-floor type vehicle according to the present invention; FIG. 4 is a left side view of a body frame according to the present invention; FIG. 5 is a plan view of a body frame according to the present invention; FIG. FIG. 7 is a left side perspective view of a vehicle body frame according to the present invention. FIG. 8 is a right side perspective view of a vehicle body frame according to the present invention. FIG. 9 is a vehicle body according to the present invention. Left side view around frame, power unit, air cleaner and fuel tank. FIG. 10 is a cross-sectional view of the power unit according to the present invention. FIG. 11 is a cross-sectional view of the front half of the power unit according to the present invention. FIG. FIG. 13 is a plan view of a rear portion of a power unit according to the present invention and a periphery of a swing arm for a rear wheel. FIG. 14 is a perspective view of a body frame and a power unit of the present invention around a left front. FIG. 15 is a perspective view of the periphery of the vehicle body frame, the power unit and the air cleaner according to the present invention as viewed from the left rear. FIG. 16 is a perspective view of the periphery of the vehicle body frame, the power unit and the air cleaner of the present invention as viewed from the right front. FIG. 18 is a perspective view of the vehicle body frame and the power unit according to the present invention as viewed from the right rear. FIG. 18 is a left side view of the body frame, the V-type engine, and the intake system according to the present invention. FIG. FIG. 20 is an exploded view of an air cleaner according to the present invention. FIG. 21 is an operation view of an air cleaner according to the present invention. FIG. 22 is a left side view of a body frame, a power unit, and an exhaust system according to the present invention. FIG. 23 is a plan view showing a body frame, a power unit, and an exhaust system according to the present invention. FIG. 25 is a left side view around the storage box and the rear cushion for the rear wheel according to the present invention. FIG. 26 is a sectional view taken along the line 26-26 in FIG. 25. FIG. 27 is a modified example of the storage box according to the present invention. FIG. 28 is a schematic view of a conventional low-floor type vehicle.
DESCRIPTION OF SYMBOLS 10 ... Low floor type vehicle, 20 ... Body frame, 21 ... Head pipe, 22 ... Upper frame, 23 ... Down frame, 28 ... 2nd space part, 56 ... Air cleaner, 73 ... Low floor, 100 ... Front and rear V-type engine , 101, 102: cylinder, 164, 165: pivot of the swing arm for the rear wheel, 190: intake system, 191: intake connection pipe, 206: filter element.

Claims (4)

A front and rear V-type engine is suspended by an upper frame extending rearward and downward from a head pipe and a down frame extending downward from the head pipe, and intake air including an intake connecting pipe and an air cleaner above the front and rear V-type engine. In a low-floor type vehicle in which a system is arranged, each of the intake connection pipes is arranged between V banks of the V-type engine, and is arranged substantially along the upper frame and the down frame. Engine intake system structure for low floor vehicles. The engine intake system structure for a low-floor type vehicle according to claim 1, wherein a truss-shaped frame structure is provided between the upper frame and the down frame facing a side surface of each of the intake connection pipes. 3. The engine intake system structure for a low-floor vehicle according to claim 2, wherein the truss-shaped frame structure has a triangular space through which a filter element of the air cleaner can be inserted and removed. The upper frame extends substantially linearly while inclining rearward and downward to near the cylinder of the rear bank of the V-type engine, and then extends to a position near the pivot of the rear wheel swing arm with a gentle inclination. The engine intake system structure for a low-floor type vehicle according to claim 1, wherein:

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