JP3808346B2 - Motorcycle - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a motorcycle having a cowling that covers the periphery of an engine.
[0002]
[Prior art]
Conventionally, there is a motorcycle having a cowling covering the periphery of an engine. Generally, the cowling is provided with an opening (running wind intake) for taking running wind into the cowling. In Japanese Utility Model Publication No. 3-26060, an opening is provided in the left and right sides of the cowling covering the engine side to the side of the engine, and a flat passage for introducing the running wind to the rider side inside the cowling and the engine A technique is disclosed in which a wind regulation duct formed by alternately intersecting a plurality of flat passages for discharging hot air to the outside of a vehicle body in the vertical direction is fixed.
[0003]
[Problems to be solved by the invention]
In the above-described conventional cowling for a motorcycle, the air-conditioning duct is fitted and fixed to the openings on the left and right sides in the vicinity of the engine, so that the hot air from the engine is discharged through a flat passage facing the outside of the air-conditioning duct. It is effective because it is separated from the vehicle body and the wind is introduced to the rider side inside the cowling through a flat passage facing the cowling rear of the air conditioning duct, thus preventing hot air from hitting the rider's legs locally. . However, since the air conditioning duct is configured to be fitted into the opening and the passage is formed in the entire air conditioning duct, the structure is complicated. Further, the conventional example has a problem that the cooling effect is not sufficient because the running air is not directly applied to the engine head.
[0004]
The present invention has been made in view of such circumstances, and an object of the present invention is to provide a motorcycle capable of supplying traveling air to an engine with a simple configuration.
[0005]
[Means for Solving the Problems]
In order to solve the above problems, a motorcycle according to the present invention is a motorcycle including a cowling that covers the periphery of an engine. A protective member that covers and protects the outer surface of the engine head cover is attached, An opening that allows air to flow between the inside and outside of the cowling is formed on the side of the cowling. From the opening, Said An engine head cover to which a protective member is attached is exposed, and a rectifying device that rectifies running air and supplies it to the engine head cover is installed on a part of the opening on the front side of the vehicle body. To do.
[0006]
According to the present invention, the opening is provided on the side portion of the cowling, and the rectifying device that rectifies and supplies the traveling wind toward the engine head cover is provided in a part of the opening. Supplied. In addition, since the engine head cover is exposed from the opening and the rectifier is provided only on a part of the opening on the front side of the vehicle body, the device configuration is simplified.
[0007]
In this case, the rectifier has a longitudinal direction in the longitudinal direction of the vehicle body and has a plurality of slits parallel to each other in the vertical direction of the vehicle body, so that the traveling wind can be rectified with a simple configuration.
[0008]
In this case, since the engine head cover is disposed on the rear side of the vehicle body with respect to the rectifier, traveling wind can be uniformly and efficiently supplied to the engine head cover.
[0009]
In this case, a passage extending in the longitudinal direction of the vehicle body is formed between the engine head cover and the protection member, and the rectifier supplies the traveling wind toward the passage. The head cover can be effectively cooled.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the motorcycle of the present invention will be described with reference to the drawings. FIG. 1 is a schematic overall side view showing an embodiment of the motorcycle of the present invention, FIG. 2 is an enlarged view of the vicinity of the headlamp of FIG. 1, and FIG. Here, in the following description, descriptions of directions such as front and rear and left and right are directions with respect to the vehicle body.
[0011]
In FIG. 1, a motorcycle 1 includes a vehicle body frame 2, a pair of left and right front forks 3 that are rotatably supported on a front end portion of the vehicle body frame 2, and a steering wheel attached to the upper end portions of these front forks 3. A handle 4, a front wheel 5 that is rotatably supported by the front fork 3, a rear fork (swing arm) 6 that is swingably supported by the vehicle body frame 2, and a rear end portion of the rear fork 6 that is rotatable. A supported rear wheel 7, an engine 8 supported by the vehicle body frame 2, a fuel tank 9 disposed at the upper part of the vehicle body frame 2, and a driver seated by the driver provided behind the fuel tank 9. Seat 10, an occupant seat 11 provided behind the driver seat 10 and seated by the occupant, a driver step 12, an occupant step 13, and the left and right sides of the rear part of the vehicle body. A side trunk 14 being kicked, and a cowling 15 covering substantially the whole of the vehicle body. Here, FIG. 1 shows the motorcycle 1 supported by a stand 200.
[0012]
An exhaust pipe 8 </ b> A is connected to the cylinder portion of the engine 8. Each of the exhaust pipes 8A extends downward, then bends below the engine 8, and connects to a muffler 8B disposed behind the exhaust pipe 8A.
[0013]
The cowling 15 includes a front cowl 17 that covers the front portion of the vehicle body and has an upper end surface along the main frame 16 of the vehicle body frame 2, and a rear cowl 18 that covers the rear portion of the vehicle body, which is the lower portion of the seats 10 and 11. . Further, the front cowl 17 includes an upper cowl 19 provided at the front end of the vehicle body, a middle cowl 20 that covers a side portion of the engine 8, and an under cowl 21 that covers a lower portion of the engine 8 (lower portion of the exhaust pipe 8A). Yes.
[0014]
A first opening 22 is formed at the center in the height direction of the front cowl 17, and a second opening 23 is formed at the bottom. Air (running wind) enters and exits between the inside and outside of the cowling through each of the first opening 22 and the second opening 23. The head cover of the engine 8 is exposed from the first opening 22. A front wind cowl 17 is provided in front of the middle cowl 20 with a running wind inlet 20A for taking a running wind into the cowling. A left and right lower portion of the middle cowl 20 bulges outward from the vehicle body. A panel 20B is provided.
[0015]
Inside the upper cowl 19, a meter unit (not shown) to which a speedometer, an engine tachometer and the like are attached is disposed. As shown in FIGS. 1, 2, and 3, a headlamp 24 is provided on the front surface of the upper cowl 19, and a rearview mirror cover 25 bulges on both side surfaces of the upper cowl 19. Is provided. A rearview mirror is provided inside the rearview mirror cover 25. The rearview mirror cover 25 is attached to the front cowl 17 by engaging a concave locking portion provided on the side surface of the front cowl 17 and a convex portion provided on the rearview mirror cover 25. Further, a direction indicator 26 is provided on each front surface of the rearview mirror cover 25. On the upper part of the upper cowl 19, a windscreen 27 made of a transparent synthetic resin for a front visual field is provided.
[0016]
As shown in FIG. 3, openings 33 </ b> A to 33 </ b> F through which air can flow are formed in the upper cowl 19. Of these, the openings 33A and 33F are formed between the upper cowl 19 and the left and right rearview mirror covers 25, respectively, and the openings 33B and 33E are formed on both the left and right sides of the upper cowl 19 so that the openings The portions 33C and 33D are formed at the upper center of the upper cowl 19. Each of the openings 33A to 33F serves as a wind guide for introducing the traveling wind to the rear of the cowl, and the space between the upper cowl 19 and the wind screen 27 and the driver is negatively pressured by sending the traveling wind to the rear of the cowl. Suppresses becoming.
[0017]
The rear cowl 18 is formed from the lower side to the rear side of the seats 10 and 11, and a tail portion 18 a that covers the rear portion of the seat 11 is integrally formed at the rear part thereof. A rear fender 7A that covers the upper rear portion of the rear wheel 7 is attached to the rear end of the rear cowl 18.
[0018]
The front wheel 5 is formed by attaching tires 29 to the outer periphery of a wheel 28 having an axle 28a provided at the center thereof, and the left and right sides of the axle 28a are supported by the lower ends of the front forks 3. The left and right front forks 3 are attached with front fenders 5A that cover the front wheels 5 above. A rotor 30 </ b> A constituting the front disc brake device 30 is fixed coaxially and integrally with the wheel 28 on both the left and right sides of the wheel 28 of the front wheel 5. The front disc brake device 30 includes the rotor 30A and a brake caliper 30B that brakes the rotation of the rotor 30A with frictional force across the rotor 30A in the operating state.
[0019]
Similar to the front wheel 5, the rear wheel 7 includes a wheel 31 having an axle 31 a provided at the shaft center and a tire 32 attached to the outer periphery of the wheel 31. The axle 31a is supported at the rear end of the rear fork 6 in a cantilever manner, so that the axle 31a swings integrally with the rear fork 6. The rear wheel 7 is also equipped with a rear disc brake device comprising a rotor and a brake caliper, similar to the front disc brake device 30 of the front wheel 5, but the description thereof is omitted here.
[0020]
4, 5, and 6 are views showing the vehicle body frame 2, where FIG. 4 is a view of the vehicle body frame 2 viewed from the side, FIG. 5 is a view of the vehicle body frame 2 viewed from the front, and FIG. It is the figure which looked at the flame | frame 2 from upper direction.
As shown in FIG. 4, the vehicle body frame 2 includes a head pipe 34 provided at a front end, a main frame 16 that extends obliquely downward and rearward from the head pipe 34, and a seat frame that extends rearward from the top of the main frame 16 ( (First frame) 35, a step plate (second frame) 36 extending rearward from the lower portion of the main frame 16, and a rear frame (third frame) 37 connecting the seat frame 35 and the step plate 36 on the rear side of the vehicle body. And have.
[0021]
The head pipe 34 supports the front fork 3 supporting the front wheel 5 so as to be steerable. Further, a stay extending forward is attached to the head pipe 34, and supports a meter unit such as a speedometer or an engine tachometer. Further, a bracket (not shown) is connected to the stay attached to the head pipe 34 to support the front cowl 17.
[0022]
As shown in FIGS. 4, 5, and 6, the main frame 16 is separated from the head pipe 34 in the left and right directions and is formed to extend in a pair of left and right rearward and obliquely downward. The main frame 16 is formed of a hollow square cross-section member made of a metal such as aluminum, and a connection frame 16A is connected between the pair of left and right main frames 16. The main frame 16 supports the fuel tank 9 at the upper part thereof. An engine hanger 38 is formed so as to extend downward from between the head pipe 34 and the main frame 16 in the body frame 2, and the main frame 16 supports the engine 8 via the engine hanger 38.
[0023]
The seat frames 35 are provided in a pair of left and right so as to extend rearward from the upper portions of the pair of left and right main frames 16. The pair of left and right seat frames 35 support the driver's seat 10 and the occupant's seat 11 and extend to the vicinity of the tail portion 18a and are connected on the rear end side. Like the main frame 16, the seat frame 35 is also formed of a hollow square cross-section member made of metal such as aluminum.
[0024]
The step plates 36 are provided in a pair of left and right so as to extend rearward from the lower portions of the pair of left and right main frames 16. As shown in FIG. 6, the step plate 36 is provided so as to protrude outward from the seat frame 35. A driver step 12 is provided on the outer front side of the step plate 36, and an occupant step 13 is provided on the outer rear side of the step plate 36. That is, the step plate 36 as a rigid member has a function as a step holder. Like the main frame 16, the step plate 36 is also formed of a hollow square cross-sectional member made of a metal such as aluminum.
[0025]
A rear fork 6 that swingably supports the rear wheel 7 is connected to the front portion of the step plate 36. The rear fork 6 has a pair of left and right fork portions 6a extending rearward from a base portion 39 at the front end thereof, and the base portion 39 is rotatably supported by the main frame 16 so that the base portion 39 serves as a fork portion. 6a can swing up and down.
[0026]
A pair of left and right rear frames 37 are provided, with their upper ends connected to a substantially central portion of the seat frame 35 in the longitudinal direction of the vehicle body and lower ends connected to the rear portion of the step plate 36. The rear frame 37 is also formed of a hollow square cross-sectional member made of a metal such as aluminum.
[0027]
The vehicle body frame 2 is set so that the side view shape of the space formed by the main frame 16, the seat frame 35, the step plate 36, and the rear frame 37 is a quadrangular shape as shown in FIG. Yes. Specifically, the side view shape of the space is an isosceles trapezoidal shape in which the lower side (step plate 36 side) is shorter than the upper side (seat frame 35 side). Each of the main frame 16, seat frame 35, step plate 36, and rear frame 37 connected to each other has a function as a strength member that maintains the strength of the entire vehicle body.
[0028]
As described above, the vehicle body frame 2 includes the main frame 16, the seat frame 35 and the step plate 36 that extend rearward from the upper and lower portions of the main frame 16, and the rear frame 37 that connects the seat frame 35 and the step plate 36. Since the space formed by each of these frames is set to have a substantially square side view, high rigidity can be obtained without requiring another reinforcing member. Further, since no other reinforcing members are required and the total number of members is reduced, the cost can be reduced and the space inside the frame can be effectively used.
[0029]
FIG. 7 is an enlarged side view of the front cowl 17 in the vicinity of the coupling portion between the upper cowl (upper cowl) 19 and the middle cowl (lower cowl) 20.
Here, the cowling 15 is attached to the vehicle body frame 2, and the upper portion of the front cowl 17 is supported by a bracket (not shown) connected to the vehicle body frame 2. The bracket is connected to a stay extending forward from the main frame 16 or the head pipe 34 in the body frame 2.
[0030]
As described above, the front cowl 17 that covers the front part of the vehicle body includes an upper cowl (upper cowl) 19 provided at the front end of the vehicle body, and a middle cowl (lower part) that is disposed below the upper cowl 19 and is coupled to the upper cowl 19. A plurality of cowl members (upper cowl 19, middle cowl 20, and under cowl 21). It is constituted by combining. A rearview mirror cover (covering member) 25 is attached to the upper side surface of the front cowl 17 so as to bulge out. A rearview mirror is housed inside the rearview mirror cover 25.
[0031]
The upper part of the middle cowl 20 is formed to extend to the vicinity of the headlamp 24 provided on the front surface of the upper cowl 19. The outer shape of the middle cowl 20 has a shape in which the upper front end thereof follows the side end 24 </ b> A of the headlamp 24. Then, after slightly heading backward from the vicinity of the upper end of the headlamp 24 (see point A), it extends downward to form a convex portion 20A, from which an upper end portion 20B extending substantially horizontally to the rear side is formed. Has been. Here, the position in the height direction where the upper end portion 20B is formed is set to a portion of the entire front cowl 17 where the distance in the longitudinal direction of the vehicle body can be minimized.
[0032]
The upper cowl 19 is disposed so that a part thereof is superimposed on the middle cowl 20. Here, the overlapping portion of the upper cowl 19 is located below the middle cowl 20 (inward of the cowling). As shown in FIG. 7, the outer shape of the upper cowl 19 has a shape in which the front end thereof follows the upper end 24 </ b> B and the lower end 24 </ b> C of the headlamp 24. A lower end portion 19A of the upper cowl 19 extends rearward, and is coupled to the middle cowl 20 at a rear end thereof by a coupling member 80 such as a screw. In the upper cowl 19, a rear end portion 19B extending upward from a portion coupled to the middle cowl 20 by the coupling member 80 is formed, bent rearward, and horizontally parallel to the upper end portion 20B of the middle cowl 20. After the end portion 19C is formed, a second rear end portion 19D extending upward is formed, and a joint portion 19E that is joined to the wind screen 27 at the upper position is formed. Further, a front end portion 19F is formed on the front side of the rear end portion 19B. In FIG. 7 including a portion between the rear end portion 19B and the front end portion 19F, a hatched portion indicated by a broken line is the middle cowl 20. overlap.
[0033]
In this way, the upper cowl 19 and the middle cowl 20 are joined so that a part thereof is overlapped. When the upper cowl 19 and the middle cowl 20 are joined, they are joined so as to overlap each other by a predetermined amount, so that the joint between the upper cowl 19 and the middle cowl 20 is outside before the rear mirror cover 25 is attached. The exposed portions are the end surfaces of the convex portion 20A and the upper end portion 20B of the middle cowl 20.
[0034]
A rearview mirror cover (covering member) 25 is attached to the outside of the coupling portion between the upper cowl 19 and the middle cowl 20. Here, the rearview mirror cover 25 covers the respective end surfaces of the convex portion 20A and the upper end portion 20B of the middle cowl 20, which is the portion exposed to the outside, of the coupling portion between the upper cowl 19 and the middle cowl 20. It is attached. For this reason, before the state in which the rearview mirror cover 25 is attached, the joint portions (the respective end surfaces of the convex portion 20A and the upper end portion 20B) of the upper cowl 19 and the middle cowl 20 that are exposed to the outside are the rearview mirror cover 25. Is attached and covered in the rearview mirror cover 25. At this time, as described above, the convex portion 20A and the upper end portion 20B are provided in the portion of the entire front cowl 17 where the distance in the longitudinal direction of the vehicle body can be minimized, so that the convex portion 20A is formed by the rearview mirror cover 25. And each end surface of upper end part 20B can be covered enough.
[0035]
Next, a procedure for coupling the upper cowl 19 and the middle cowl 20 will be described.
The upper cowl 19 and the middle cowl 20 are attached to the vehicle body frame 2. First, the upper cowl 19 is attached to a stay or bracket connected to the head pipe 34 or the main frame in the body frame 2. Next, the middle cowl 20 is attached so as to partially overlap the upper cowl 19 attached to the vehicle body frame 2, and the upper cowl 19 and the middle cowl 20 are coupled using the coupling member 80.
[0036]
When the upper cowl 19 and the middle cowl 20 are coupled, the end surfaces of the convex portion 20A and the upper end portion 20B of the middle cowl 20 exposed to the outside of the coupling portion between the upper cowl 19 and the middle cowl 20 are covered. As described above, the rearview mirror cover 25 is attached to the front cowl 17. The rearview mirror cover 25 is connected to the front cowl 17 by engaging its convex portion (not shown) with an engaging concave portion (locking portion) provided on the outer surface of the upper cowl 19 or the middle cowl 20. Thus, by attaching the rearview mirror cover 25, the end surfaces of the convex portion 20 </ b> A and the upper end portion 20 </ b> B of the middle cowl 20 exposed to the outside of the joint portion between the upper cowl 19 and the middle cowl 20 are covered. .
[0037]
In this way, by attaching the rearview mirror cover 25 as a covering member that covers the joint portion outside the joint portion between the upper cowl 19 and the middle cowl 20, the exposed portion of the joint portion is covered. Can improve the appearance of the cowling. And since the length of a coupling | bond part can be restrained by setting the position to which the rear-view mirror cover 25 is attached as a coupling | bond part, the quantity of a coupling member and a coupling | bond part can be decreased. Therefore, it is possible to improve the coupling workability and reduce the cost.
[0038]
By the way, the wind screen 27 in this embodiment is inclined backward and is provided so as to be movable substantially along the inclination direction. This will be described with reference to FIGS.
8 is an enlarged side view of the vicinity of the wind screen, which is a characteristic part of the present invention, FIG. 9 is a view of the wind screen moving device viewed from the front, FIG. 10 is a side view of FIG. 9, and FIG. The figure which shows a connection part with a moving apparatus, FIG. 12 is a figure which shows the 1st member among connection parts, FIG. 13 is a figure which shows the 2nd member among connection parts.
[0039]
As shown in FIG. 8, a wind screen 27 that is inclined toward the rear side of the vehicle body is provided above the upper cowl 19 that covers the front upper portion of the vehicle body. The wind screen 27 can be moved by the moving device 90 so as to substantially follow the inclination direction of the wind screen 27 (see arrow y).
[0040]
A moving device 90 that moves the wind screen 27 substantially in the direction of the arrow y is attached to the upper cowl 19 (front cowl 17), and a guide part 91 that extends in the y direction, and a movable part that is movably supported by the guide part 91. The unit 92 includes an electric motor 93 as a drive device that moves the movable unit 92 along the guide unit 91, and a connecting unit 94 that connects the wind screen 27 and the movable unit 92.
[0041]
As shown in FIG. 9, there are a pair of left and right guide portions 91 supported by both ends of a support member 95 that is a plate-like member. The support member 95 is attached to the inner side of the upper cowl 19 by means of attachment members such as screws via a plurality of attachment portions 95A shown in FIGS. The guide portion 91 is fixed to the inside of the upper cowl 19 via a support member 95.
[0042]
The movable part 92 is slidably supported by the guide part 91. An electric motor 93 that is a driving device is fixed to a central portion of the support member 95. The electric motor 93 and the movable portion 92 slidably supported by the guide portion 91 are connected by a push cable (drive device) 96. The movable portion 92 moves in the vertical direction while being guided by the guide portion 91 via the push cable 96 based on the drive of the electric motor 93. Here, when moving the movable part 92 in the upward direction, for example, plus and minus voltages are applied to the terminals and connectors connected to the electric motor 93, and the electric motor 93 is rotated in a predetermined direction to push the movable part 92. The movable portion 92 moves upward via the cable 96 (see reference numeral 92 ′ in FIG. 9). On the other hand, when moving the movable part 92 in the downward direction, negative and positive voltages are applied to the terminals and connectors connected to the electric motor 93, and the electric motor 93 is rotated in the reverse direction. The movable portion 92 moves downward via the push cable 96 (see reference numeral 92 in FIG. 9).
[0043]
As shown in FIGS. 8 and 11, the connecting portion 94 that connects the wind screen 27 and the movable portion 92 is fixed to the movable portion 92 and extends substantially in the direction of the arrow y (inclined direction). And a second member 98 fixed to the screen 27.
[0044]
As shown in FIGS. 8, 11, and 12, the first member 97 is formed in a substantially long plate shape, is formed on the lower end side (the vehicle body front side), and is an attachment member such as a screw with respect to the movable portion 92. And a first convex portion (fixed portion) 101 and a second convex portion (fixed portion) 102 provided at predetermined intervals in the longitudinal direction of the first member 97. ing. Among these, the 1st convex part 101 is formed in the longitudinal direction substantially center part of the 1st member 97, and the 2nd convex part 102 is formed in the upper end side (vehicle body rear side) of the 1st member 97. FIG. The first member 97 is fixed to the movable part 92 via the hole 99 and the notch 100, and thus moves with the movement of the movable part 92.
[0045]
As shown in FIGS. 8, 11, and 13, the second member 98 is a plate-like member having an L-shape in cross-section, and the first surface 103 connected to the first member 97 and the second surface 98 connected to the wind screen 27. And two surfaces 104.
[0046]
The first surface 103 of the second member 98 has an elongated hole portion 105 provided from the longitudinal central portion to the lower end side, and a first concave portion 106 cut out in the central portion of the end side of the first surface 103. And a second recess 107 cut out at the upper end side of the first surface 103 (the rear side of the vehicle body). Each of the first concave portion 106 and the second concave portion 107 has a locking portion 106A and a locking portion 107A that are groped toward the upper end side. Each of the first and second concave portions 106 and 107 having the locking portions 106A and 107A can be engaged with the first and second convex portions 101 and 102 of the first member 97, respectively. Further, the elongated hole portion 105 of the second member 98 can be engaged with each of the first and second convex portions 101 and 102 of the first member 97.
[0047]
On the other hand, the second surface 104 of the second member 98 has an elongated hole portion 108 formed at the substantially central portion in the longitudinal direction and a plurality of (three in total) hole portions formed on both sides of the elongated hole portion 108. 109. Then, as shown in FIG. 8, the second surface 104 of the second member 98 and the wind screen 27 are brought into contact with each other through the long hole portion 108 and the hole portion 109 formed in the second surface 104 of the second member 98. By connecting the second member 98 and the wind screen 27 using the mounting member 110 such as a screw, the second member 98 and the wind screen 27 are fixed.
[0048]
Here, as shown in FIG. 11, the second member 98 can be fixed to the first member 97 at two different positions in the longitudinal direction (arrow y direction, tilt direction). When the second member 98 is fixed to the first member 97 in the lower position (see FIG. 11A), which is the first position, the first convex portion 101 of the first member 97 is the second member 98. The second convex portion 102 of the first member 97 is engaged with the engaging portion 107 </ b> A of the second concave portion 107 of the second member 98. At this time, none of the first recesses 106 of the second member 98 is engaged. On the other hand, when the second member 98 is fixed to the first member at the upper position (see FIG. 11B), which is the second position, the first convex portion 101 of the first member 97 is the second member. The second convex portion 102 of the first member 97 is engaged with the engaging portion 106 </ b> A of the first concave portion 106 of the second member 98. At this time, none of the second recesses 107 of the second member 98 is engaged.
[0049]
As described above, the first member 97 has a first convex portion (fixed portion) 101 and a second convex portion (which can fix the second member 98 to the first member 97 at two positions substantially different in inclination direction. (Fixed portion) 102.
[0050]
Next, a procedure for moving the wind screen 27 will be described.
When the wind screen 27 is moved upward, for example, an operation switch (not shown) provided in the vicinity of the steering handle 4 is operated to drive an electric motor 93 as a driving device to rotate in a predetermined direction. Then, the push cable 96 moves the left and right movable parts 92 upward along the guide part 91. When the movable portion 92 moves upward along the guide portion 91, the wind screen 27 connected to the movable portion 92 via the connecting portion 94 moves substantially in the inclination direction and is disposed at the upper position (see FIG. 8 (see reference numeral 27 '). Here, as shown in FIGS. 8 and 10, in this embodiment, since the guide portion 91 is set in an arc shape that slightly swells toward the rear side of the vehicle body, the wind screen 27 moved upward is completely inclined. It does not move so as to coincide with the direction, but moves so that its upper end is slightly directed forward (that is, in an upright state).
[0051]
On the other hand, when moving the wind screen 27 downward, the operation switch is operated to rotate the electric motor 93 in the reverse direction. Then, the push cable 96 moves down the left and right movable parts 92 along the guide part 91. When the movable portion 92 moves downward along the guide portion 91, the wind screen 27 is disposed at the lower position.
[0052]
As described above, the wind screen 27 is moved by electric power by moving the movable portion 92 along the guide portion 91 using the electric motor 93.
Furthermore, in this embodiment, the position of the wind screen 27 can also be changed by manually changing the position of the second member 98 with respect to the first member 97 in the connecting portion 94.
[0053]
Hereinafter, a procedure for changing the position of the second member 98 with respect to the first member 97 will be described.
When changing the position of the second member 98 from the lower position (the state of FIG. 11A) to the upper position (the state of FIG. 11B), first, the second member 98 is moved slightly upward. Thus, the engagement between the locking portion 107A of the second concave portion 107 and the second convex portion 102 of the first member 97 is released. Then, the second member 98 is moved upward while sliding the elongated hole portion 105 of the second member 98 with respect to the first convex portion 101 of the first member 97. Then, the second member 98 is fixed at the upper position by hooking the first concave portion 106 of the second member 98 on the second convex portion 102 of the first member 97.
On the other hand, when the position of the second member 98 is changed from the upper position (the state shown in FIG. 11B) to the lower position (the state shown in FIG. 11A), first, the second member 98 is moved slightly upward. It moves to release the engagement between the locking portion 106A of the first concave portion 106 and the second convex portion 102 of the first member 97. Then, the second member 98 is moved downward while sliding the elongated hole portion 105 of the second member 98 with respect to the first convex portion 101 of the first member 97. Then, the second member 98 is fixed at the lower position by hooking the second concave portion 107 of the second member 98 on the second convex portion 102 of the first member 97.
Thus, the position changing operation of the wind screen 27 using the connecting portion 94 formed of the first member 97 and the second member 98 can be performed manually with one touch.
[0054]
At this time, since the wind screen 27 is fixed to the second member 98, the wind screen 27 also moves as the second member 98 moves. Since the convex portions (fixed portions) 101 and 102 of the first member 97 are provided at predetermined intervals so as to be substantially along the tilt direction, a window is formed based on the convex portions 101 and the convex portions 102 arranged along the tilt direction. By moving the screen 27, the wind screen 27 is moved substantially along the tilt direction.
[0055]
As described above, since the position of the wind screen 27 can be changed by the moving device 90, the position of the wind screen 27 can be changed according to the situation such as a change in the driving speed, and the driving wind hits the driver. Can be suppressed. Since the wind screen 27 is moved by the moving device 90 in a direction substantially along the inclination direction of the wind screen 27, the distance between the wind screen 27 and the driver increases even when the wind screen 27 moves. There is no. Therefore, the action of back pressure on the driver can be suppressed. Thus, the driver can drive comfortably by making the wind screen 27 movable in a direction substantially along the tilt direction.
[0056]
Next, the 2nd opening part 23 provided in the front cowl 17 lower part is demonstrated, referring FIG.16 and FIG.17. 16 is an enlarged side view in the vicinity of the second opening 23, and FIG. 17 is a cross-sectional view taken along the line AA in FIG.
The front cowl 17 that covers the periphery of the engine 8 is disposed above the under cowl 21 and the under cowl 21 that covers the lower part of the engine 8 or the exhaust pipe 8A connected to the engine 8. And a middle cowl (upper cowling) 20 to be joined.
[0057]
As shown in FIG. 16, the joint surface of the under cowl 21 to the middle cowl 20 is inclined upward as it goes from the lower part of the vehicle body toward the rear side of the vehicle body. A recess 40 that is recessed with respect to the middle cowl 20 is formed in a part of the joint surface with respect to the middle cowl 20 in the under cowl 21. The concave portion 40 is formed at a substantially central portion of the joint surface of the under cowl 21 to the middle cowl 20. Then, by joining the middle cowl 20 and the under cowl 21 having the recess 40, a long hole-like opening 23 based on the recess 40 is formed between the middle cowl 20 and the under cowl 21.
[0058]
As shown in FIGS. 16 and 17, the under cowl 21 is continuous with the recess 40 and gradually bulges toward the outer side of the cowling (outside the vehicle body) from the recess 40 toward the rear side of the vehicle body. A curved portion 41 is formed on the front side of the vehicle body by the protruding portion. And as shown in FIG. 6, the curved part 41 is formed so that the center part may bulge outside.
[0059]
Further, in the under cowl 21, an inclined portion 43 that is inclined toward the inner side of the cowling (inner side of the vehicle body) is formed through the top portion 42 so as to be continuous with the curved portion 41 from the curved portion 41. ing. As shown in FIG. 17, the inclined portion 43 is formed to be substantially flat, and the vehicle body rear side end portion of the inclined portion 43 is the rear end portion of the under cowl 21.
[0060]
The apex portion 42 between the curved portion 41 and the inclined portion 43, that is, the ridge line between the curved portion 41 and the inclined portion 43, as shown in FIG. Formed). Then, the bending portion 41 inclines toward the cowling inner side (vehicle body inner side) toward the vehicle body lower side with reference to a point T1 (see FIG. 16) in the vicinity of the tip end portion 42a of the apex portion (ridge line) 42 in the bending portion 41. ing. That is, the under cowl 21 is inclined so as to squeeze inside the vehicle body with a line L1 connecting the point T2 and the reference point T1 slightly below the front end of the recess 40 in the under cowl 21 as a ridgeline. Further, the under cowl 21 is inclined so as to squeeze inside the vehicle body with a line L2 connecting the point T3 at the lower end of the top portion 42 and the reference point T1 as a ridgeline. Here, the line L2 is a curve along the bow shape of the top portion 42. As described above, in the under cowl 21, the ridge line L1 and the lower part from the ridge line L2 with respect to the point T1 on the front side of the vehicle body with respect to the front end portion 42a of the arch-shaped top portion 42 are inclined so as to stagnate inside the vehicle body. It is a surface.
[0061]
Next, the flow of traveling wind in the vicinity of the second opening 23 when the motorcycle 1 travels will be described.
When the motorcycle 1 travels, traveling wind is taken into the cowling from the traveling wind inlet 20A in front of the middle cowl 20 and the first opening 22 and the second opening 23. In the second opening 23, FIG. As shown in FIG. 17 and FIG. 17, since the curved portion 41 bulges outward from the opening 23, the traveling wind flowing outside the under cowl 21 strikes the curved portion 41. A part of the traveling wind hitting the curved portion 41 is taken into the cowling (see arrow y1). On the other hand, the rest of the traveling wind hitting the curved portion 41 flows to the lower portion of the vehicle body along the top portion 42 formed on the vehicle body rear side of the curved portion 41 and the inclined surface based on the ridgelines L1 and L2 (see arrow y2). ). Accordingly, the amount of traveling wind that directly strikes the driver's legs located behind the middle cowl 20 is suppressed.
[0062]
In addition, the traveling wind taken into the cowling from the air intake 20A of the middle cowl 20 is cooled to the engine 8 and the exhaust pipe 8A and then discharged to the outside of the cowling through the second opening 23. At this time, hot air discharged from the inside of the cowling to the outside through the second opening 23 flows along the shape of the curved portion 41 to the outside of the cowling, and is formed on the vehicle body rear side of the curved portion 41. It flows to the lower part of the vehicle body along the top portion 42 and the inclined surface based on the ridgelines L1 and L2 (see arrow y3). Therefore, the amount of hot air that directly hits the driver's leg located behind the middle cowl 20 can be suppressed.
[0063]
As described above, the concave portion 40 that is recessed with respect to the middle cowl 20 is provided in the joint surface of the under cowl 21 among the joint surfaces of the middle cowl 20 and the under cowl 21, so that the middle cowl 20 and the under cowl 21 are connected to each other. The opening 23 based on the recess 40 can be easily formed simply by joining. At this time, the recess 40 can also be provided on the middle cowl 20 side, but the joint surface between the middle cowl 20 and the under cowl 21 is an inclined surface that goes upward as it goes from the lower part of the vehicle body toward the rear side of the vehicle body. By providing the recess 40 on the under cowl 21 side, the traveling wind flowing from the front of the vehicle body can enter and exit smoothly. Further, the curved portion 41 that is continuous with the concave portion 40 and gradually bulges toward the outer side of the cowling as it goes from the concave portion 40 toward the rear side of the vehicle body makes it possible for the air to enter and exit between the outside and the inside of the cowling. It is performed along the portion 41 and can maintain good appearance. Then, a bow-like apex (ridgeline) 42 is formed behind the curved portion 41, and the inclined surface is constricted from the ridgelines L1 and L2 to the inside of the vehicle body. Since air flows toward the lower part of the vehicle body along the shape of the curved portion 41 and the inclined surface, it is possible to suppress the amount of traveling wind or hot air that directly hits the driver's legs. Therefore, the driver does not feel uncomfortable.
[0064]
By the way, the driver's seat 10 in the present embodiment is provided so that the seat height can be adjusted. This will be described with reference to FIGS. 18 is an enlarged side view showing the main part of the seat structure according to the present invention, FIG. 19 is a component diagram of the seat structure, and FIG. 20 is a diagram showing the first support part and the second support part in the sheet structure. 20 (a) is a view seen from above, FIG. 20 (b) is a view seen from the side, and FIG. 21 shows respective states of the first, second and third support portions when the height of the seat is adjusted. FIG.
[0065]
The motorcycle 1 includes a driver's seat 10 and an occupant's seat 11, and both the seats 10 and 11 are detachable from the vehicle body. Among these, the height of the driver's seat 10 can be adjusted, and the height of the passenger's seat 11 cannot be adjusted. The seat structure of the motorcycle 1 is engageable with each of the first support portion 51 provided on the vehicle body and having a plurality of groove portions 50 arranged in the height direction, and the groove portions 50. A second support portion 52 that supports a predetermined position on the front portion of the driver's seat 10 in a state, a staircase portion 55 that is provided at a predetermined position on the rear portion of the seat 10 and has a plurality of step portions 54, and The third support portion 53 is provided at a position behind the first support portion 51 and can support the stepped portion 54 of the seat 10.
[0066]
The first support portion 51 is fixed to the seat frame 35 of the vehicle body frame 2 and is disposed behind the fuel tank 9. As shown in FIGS. 18 and 19, the first support portion 51 includes a front cross plate 56 fixed to the seat frame 35, and an adjuster bracket 57 fixed to the front cross plate 56 and having the groove portion 50. Yes. The seat frame 35, the front cross spray 56, and the adjuster bracket 57 are fixed by a fixing member 56a such as a screw.
[0067]
As shown in FIGS. 19 and 20, two adjuster brackets 57 in the first support portion 51 are arranged at a predetermined interval in the width direction of the vehicle body. Each of the two adjuster brackets 57 has a support plate portion 57a facing each other. Each of the support plate portions 57a is provided so that its plate surface is parallel to the vehicle body height direction and parallel to the vehicle body longitudinal direction.
[0068]
Three groove portions 50 are provided on the support plate portion 57a of the adjuster bracket 57 in the height direction with the longitudinal direction of the vehicle body as the longitudinal direction. Each of the three groove portions 50 arranged in the height direction is formed so as to be substantially parallel to each other, and is continuous by a vertical groove on the rear end side of the vehicle body. On the other hand, the front end side of the vehicle body of the groove portion 50 is closed to form a locking portion 50A, and the three groove portions 50 arranged in the height direction have a reverse E-shape as shown in FIG. The groove portion is formed. Here, the groove part 50 is formed in the shape equivalent to each of the support plate part 57a.
[0069]
Of the adjuster bracket 57 of the first support portion 51, a guide groove 58, which is a second groove portion, is formed in the rear portion of the vehicle body from the groove portion 50. Each of the guide grooves 58 is formed in an equal shape to each of the support plate portions 57a with the longitudinal direction of the vehicle body as the longitudinal direction.
[0070]
The second support portion 52 includes an adjuster guide (connecting member) 59 disposed between the support plate portions 57 a facing each other in one adjuster bracket 57, and a pin portion attached to the hole portion 59 a of the adjuster guide 59. 60 and an adjuster bar (bar-shaped member) 61 having both ends connected to adjuster guides 59 disposed in the width direction of the vehicle body. The connection position of the adjuster bar 61 to the adjuster guide 59 is higher than the attachment position of the pin portion 60 to the adjuster guide 59. When the pin portion 60 is disposed in the hole portion 59 a of the adjuster guide 59, both ends of the pin portion 60 protrude outward and are engaged with the groove portion 50 of the adjuster bracket 57. At this time, both ends of the pin portion 60 engaged with the groove portion 50 are prevented from being detached from the groove portion 50 by the flange portion (washer) 60a. The three pin portions 60 are movable along the groove portion 50 arranged in the height direction and continuing on the rear end side, and an adjuster guide fixed to the pin portion 60 as the pin portion 60 moves. 59 and the adjuster bar 61 fixed to the adjuster guide 59 are also movable based on the shape of the groove 50. That is, the second support part 52 is movable along the continuous groove part 50.
[0071]
In the adjuster guide 59, a second hole 59b is formed on the vehicle body rear side of the hole 59a, and a second pin portion 62 is attached to the second hole 59b. When the second pin portion 62 is also disposed in the second hole portion 59 b of the adjuster guide 59, both ends of the second pin portion 62 protrude outward and engage with the guide groove 58 of the adjuster bracket 57. At this time, both ends of the second pin portion 62 engaged with the guide groove 58 are prevented from being detached from the guide groove 58 by a flange portion (washer) 62a. The second pin portion 62 can slide along the guide groove 58. At this time, since the second pin portion 62 is supported by the guide groove 58, the adjuster guide 59 does not rotate but maintains its posture.
[0072]
As shown in FIGS. 18 and 19, a spring (biasing member) 63 is connected to the adjuster bar 61. One end of the spring 63 is connected to the adjuster bar 61, and the other end is connected to the front cross plate 56. At this time, the spring 63 is set to have a force for pulling the adjuster bar 61 forward of the vehicle body. That is, the adjuster bar 61 of the second support portion 52 is biased toward the front end side of the groove portion 50 by the spring 63, and the locking portion 50 </ b> A on the front end side of the groove portion 50 is connected to the adjuster bar 61 via the adjuster guide 59. The pin portion 60 is locked. At this time, the pin portion 60 always presses the locking portion 50 </ b> A on the front end side of the groove portion 50 with a predetermined force based on the biasing force of the spring 63.
[0073]
The staircase portion 55 provided at the rear portion of the seat 10 has three step portions 54. As shown in FIG. 18, each of the step portions 54 is formed in a concave shape facing downward in a side sectional view, and is provided at a higher position toward the rear side of the vehicle body. On the other hand, a third support portion 53 that supports the rear portion of the seat 10 by engaging with the stepped portion 54 of the seat 10 is provided in a position behind the first support portion 51 in the seat frame 35 of the vehicle body. . The third support portion 53 has a convex portion that can be fitted into the concave step portion 54. Here, the 3rd support part 53 in this embodiment is a bar member extended in the width direction of the vehicle body. As shown in FIGS. 18 and 19, a cushioning material 66 such as a rubber pad is interposed between the third support portion 53 and the seat frame 35, and acts on the driver seated on the seat 10. Reduce the impact during running. Further, as shown in FIG. 18, a support member 64 and a cushioning material 65 are also provided between the occupant seat 11 and the vehicle body.
[0074]
As shown in FIG. 19, a protrusion 10 </ b> A that engages with an adjuster bar 61 of a second support 52 provided on the vehicle body is formed at the front of the driver's seat 10. The protrusion 10A protrudes toward the front side of the vehicle body. On the other hand, a rod member 10 </ b> B that engages with the occupant seat 11 is provided at the rear of the driver seat 10. The rod member 10B is supported by a support portion 10c at the rear of the driver's seat 10 and extends in the vehicle body width direction while being separated from the seat 10. In addition, a protrusion 11 </ b> A that engages with the rod member 10 </ b> B of the driver's seat 10 is formed at the front of the passenger's seat 11. The protruding portion 11A protrudes toward the front side of the vehicle body.
[0075]
Next, a procedure for adjusting the position (height adjustment) of the driver's seat 10 will be described.
When adjusting the height of the driver's seat 10, first, each of the driver's seat 10 and the passenger's seat 11 is removed from the vehicle body.
[0076]
Next, the position of the adjuster guide 59 connected to the adjuster bar 61 is set so that the adjuster bar 61 of the second support portion 52 is disposed at a desired height position. In this case, first, the driver or the like grasps the adjuster bar 61 and moves the adjuster guide 59 connected to the adjuster bar 61 to the rear side of the vehicle body against the urging force of the spring 63. And after moving the pin part 60 connected with the adjuster guide 59 along the groove part 50 and arrange | positioning in the continuous part of the rear end of the groove part 50, it selects the desired part selected among the groove parts 50 located in a line in the height direction. It is made to engage with the groove part 50. Then, by releasing the grip of the adjuster bar 61, the adjuster bar 61 is biased forward of the vehicle body by the biasing force of the spring 63, and the pin portion 60 of the adjuster guide 59 is locked to the locking portion 50A. Thus, the positions of the adjuster guide 59 and the adjuster bar 61 are determined and held. Specifically, when it is desired to adjust the seat 10 to a lower position, as shown in FIG. 21A, among the three groove portions 50 arranged in the height direction, the pin portion 60 is engaged with the lower groove portion 50. When the sheet 10 is to be adjusted to a high position, as shown in FIG. 21C, among the three groove parts 50 arranged in the height direction, the pin part 60 is engaged with the upper groove part 50, When it is desired to adjust 10 to the intermediate position, as shown in FIG. 21B, among the three groove portions 50 arranged in the height direction, the pin portion 60 is engaged with the middle groove portion 50.
[0077]
Here, when the pin portion 60 is engaged with any one of the groove portions 50, the adjuster guide 59 tries to rotate around the pin portion 60, but the second pin portion 62 is supported by the elongated hole-like guide groove 58. Therefore, the adjuster guide 59 does not rotate. Therefore, the postures of the adjuster guide 59 and the adjuster bar 61 are maintained. Moreover, since the 2nd pin part 62 is supported by the guide groove 58 so that sliding is possible, the movement operation | movement at the time of moving the pin part 60 to the selected groove part 50 is not prevented.
[0078]
Thus, when the height position of the adjuster bar 61 of the second support portion 52 is determined, the protrusion 10A of the sheet 10 is inserted below the adjuster bar 61, and then, while the protrusion 10A is supported by the adjuster bar 61, the sheet It rotates so that the back of 10 may be tilted down. And the step part 54 currently formed in the back of the sheet | seat 10 is supported by the 3rd support part 53 provided in the vehicle body. At this time, the formation position of the step portion 54 of the seat 10 is set to the selected groove portion 50 when the selected groove portion 50 of the plurality of groove portions 50 of the adjuster bracket 57 and the pin portion 60 of the adjuster guide 59 are engaged. The corresponding step portion 54 is set to be supported by the third support portion 53. That is, as shown in FIG. 21A, when the lower groove portion 50 is selected from the three groove portions 50 arranged in the height direction, the rear portion of the three step portions 54 formed in the seat 10 is selected. The step portion 54 is supported by the third support portion 53. As shown in FIG. 21B, the middle step groove portion 50 is selected from the three groove portions 50 arranged in the height direction. In this case, of the three step portions 54 formed on the sheet 10, the central step portion 54 is supported by the third support portion 53, and as shown in FIG. When the upper groove portion 50 of the three groove portions 50 arranged in the direction is selected, the front step portion 54 of the three step portions 54 formed on the seat 10 is supported by the third support portion 53. It is like that. Thus, by selecting an arbitrary groove portion 50 from among the plurality of groove portions 50, the height position of the adjuster bar 61 changes. Based on the height position of the adjuster bar 61, the position (height position) of the seat 10 is changed. Is set. When the lower groove 50 is selected, the position of the sheet 10 is set low. When the upper groove 50 is selected, the position of the sheet 10 is set high. When the middle groove 50 is selected. The position of the sheet 10 is set to an intermediate position.
[0079]
Thus, when the driver's seat 10 is attached to the vehicle body, the passenger's seat 11 is attached to the vehicle body. At this time, the occupant seat 11 is attached to the vehicle body so that the bar member 10B of the driver seat 10 is pressed by the protrusion 11A of the occupant seat 11. As described above, the mounting operation of the driver's seat 10 and the occupant's seat 11 to the vehicle body is completed.
[0080]
As described above, by providing the stair portion for adjusting the position of the seat on the seat side, the mechanism for adjusting the position of the seat can be made compact and a sufficient space below the seat can be secured. In addition, since the sheet position is adjusted based on a plurality of grooves arranged in the height direction, workability when adjusting the position of the sheet is improved, and the sheet position after the position adjustment is maintained.
[0081]
Next, the support structure of the side trunk 14 will be described with reference to FIGS. 22 is a perspective view showing the support structure of the side trunk 14, FIG. 23 is an enlarged perspective view showing the support structure in an enlarged manner, FIG. 24 is a view of the support structure from the rear, and FIG. 25 is a mechanism of the support structure. It is a figure which shows a part of.
[0082]
The side trunk 14 is detachably attached to the left and right of the rear part of the vehicle body. The support structure of the side trunk 14 includes an engaging portion 150 that engages the side trunk 14 with the vehicle body, and a lock portion 151 that locks the attached state of the side trunk 14 engaged with the engaging portion 150.
[0083]
As shown in FIGS. 23 and 24, the engaging portion 150 includes a base plate 160 and a protrusion 161 provided on the base plate 160. A plate 162 supported by the base plate 160 is provided on the upper side surface of the side trunk 14 so as to protrude laterally. A groove that engages with the protrusion 161 of the base plate 160 is provided on the lower surface of the plate 162. ing. The plate 162 of the side trunk 114 is installed on the base plate 160, and the side trunk 14 is supported by the vehicle body by engaging the groove of the plate 162 with the protrusion 161 of the base plate 160.
[0084]
The lock portion 151 includes a trunk lock lever 165 for locking operation, a pressing plate 166 that presses the plate 162 of the side trunk 14 described above, and a link mechanism 167 that transmits the movement of the trunk lock lever 165 to the pressing plate 166. . In this example, the trunk lock lever 165 is also used as the grab rail 170 that is a grip portion of the occupant, and the link mechanism 167 is disposed inside the grab rail 170. The grab rails 170 are provided on both sides of the occupant seat 11 shown in FIG. 1 and connected to the seat frame 35.
[0085]
As shown in FIG. 25, the pressing plate 166 is supported so as to be rotatable about a fulcrum 171 provided in the engaging portion 150, and the opening / closing operation of the trunk lock lever 165 is transmitted via the link mechanism 167. As a result, the plate 162 of the side trunk 14 is pressed or released. In this example, the trunk lock lever 165 is in a locked state (closed state) when it is in the lower position, and is unlocked (closed state) when it is in the upper position. The link mechanism 167 is provided with an urging member made of a spring or the like, and the unlocked state (open state) of the trunk lock lever 165 is held by the urging force of the urging member.
[0086]
Returning to FIG. 22 and FIG. 23, the lock lever 165 is provided with a locking portion 175, and the locked state (closed state) of the trunk lock lever 165 is achieved by inserting a key into the lock portion 175 and locking it. Retained. Further, by inserting a key into the locking portion 175 to release the locking, the trunk lock lever 165 is pushed upward by the biasing force of the biasing member described above, and the locked state of the trunk lock lever 165 is released. In the locked state (closed state), the trunk lock lever 165 is integrated with the grab rail 170 to form a surface that is substantially continuous with the grab rail 170. That is, the trunk lock lever 165 has substantially the same surface shape as the upper surface shape of the grab rail 170 and is provided so as not to protrude from the surface position of the grab rail 170 in the locked state (closed state).
[0087]
Further, as shown in FIGS. 23 and 24, in this example, a seat lock lever 180 for locking the seat mounting state is disposed inside the trunk lock lever 165, that is, inside the grab rail 170. The seat lock lever 180 is attached to the link mechanism 167 of the lock portion 151 described above, and is connected to a mechanism for locking the seat via a wire 181. The seat lock lever 180 is exposed to the outside when the trunk lock lever 165 is in the unlocked state (open state). That is, by releasing the lock of the trunk lock lever 165 and bringing the trunk lock lever 165 into the unlocked state (open state), the seat lock lever 180 disposed inside the grab rail 170 can be operated. Conversely, when the trunk lock lever 165 is pushed down to bring the trunk lock lever 165 into the unlocked state (open state), the seat lock lever 180 is hidden inside the trunk lock lever 165 and the operation of the seat lock lever 180 becomes impossible. Become.
[0088]
As described above, the trunk lock lever 165 for the side trunk 14 is also used as the grab rail 170, and the other mechanism of the lock portion 151 is disposed inside the grab rail 170, so that the portion protruding from the vehicle body is reduced. In addition, the space near the portion where the side trunk 114 is supported can be effectively used. Further, the trunk lock lever 165 is integrated with the grab rail 170 and forms a substantially continuous surface with the grab rail 170 in the locked state (closed state), thereby improving the appearance. This eliminates the need for forming a side trunk so as to hide the lock portion, or disposing the lock portion on the side trunk side, and avoids a decrease in trunk capacity associated therewith.
[0089]
Next, characteristic portions of the present invention will be described with reference to FIGS. 14 is an enlarged side view of the vicinity of the first opening 22 which is a characteristic part of the present invention, and FIG. 15 is a view of the vicinity of the first opening 22 as viewed from the rear of the vehicle body. 26 and 27 are a perspective view and a front view of the engine 8, respectively.
The front cowl 17 covering the periphery of the engine 8 is disposed below the engine 8 or the exhaust pipe 8A connected to the engine 8 and above the under cowl 21 and joined to the under cowl 21. Middle cowl 20. The middle cowl 20 is disposed so as to cover the side of the engine 8.
[0090]
As shown in FIGS. 26 and 27, the engine 8 is a 90 ° V-type four-cylinder engine, and includes a front cover 200, a water pump 201 that supplies cooling water, a cam pulser 202, a fan cover 203, The chain tensioner 204, the oil filter 205, the crank pulser 206, the thermo housing 207, the fuel injection 208, the exhaust pipe 8A through which the exhaust gas from the engine 8 passes, the engine head cover 70, and the engine head cover 70 are protected. A protective member 71. A passage 73 through which air can flow is formed between the engine head cover 70 and the protection member 71 so as to extend in the longitudinal direction of the vehicle body.
[0091]
As shown in FIG. 14, in the front cowl 17, the first opening 22 that allows air (running wind) to flow between the inside and outside of the cowling is formed on the side of the middle cowl 20 as described above. Yes. The engine head cover 70 of the engine 8 is exposed from the first opening 22. Further, as described above, the protective member 71 for protecting the engine head cover 70 is attached to the exposed portion of the engine head cover 70. Therefore, the engine head cover 70 to which the protective member 71 is attached is exposed from the first opening 22. Here, the protection member 71 is detachable from the engine head cover 70, and the attachment / detachment work of the protection member 71 to the engine head cover 70 is performed through the first opening 22.
[0092]
As shown in FIG. 15, a recess 72 extending in the longitudinal direction of the vehicle body is formed on the outer surface of the engine head cover 70. As described above, a passage 73 through which air can flow is formed between the plate-like protective member 71 attached to the outer surface of the engine head cover 70 and the engine head cover 70 so as to extend in the longitudinal direction of the vehicle body. Yes.
[0093]
A louver (rectifier) 74 is provided at a position on the vehicle body front side of the first opening 22. The louver 74 has a plurality of slit-like flow paths parallel to each other in the vertical direction of the vehicle body with the longitudinal direction of the vehicle body as the longitudinal direction. The shape and direction of the flow path are set so that the louver 74 rectifies traveling wind supplied from the outside of the cowling and supplies it to the engine head cover 70. The overall shape of the louver 74 is along the shape of the front side of the first opening 22, bulges forward as it goes upward from the lower part, and moves upward from a slightly lower position (see point A) in the center in the height direction. Accordingly, it has a shape that inclines toward the rear side of the vehicle body. The size of the louver 74 in the height direction is set larger than the size of the engine head cover 70 in the height direction.
[0094]
The louver 74 is installed at least on the vehicle body front side from the engine head cover 70 and the protective member 71 exposed from the first opening 22 so as to cover a part of the front side of the first opening 22. That is, the engine head cover 70 is arranged on the rear side of the vehicle body from the louver 74.
[0095]
Next, the flow of traveling wind in the vicinity of the first opening 22 when the motorcycle 1 having the above-described configuration has traveled will be described.
When the motorcycle 1 travels, the traveling wind is taken into the cowling from the traveling wind inlet 20A in front of the middle cowl 20 and the first opening 22 and the second opening 23, but is taken into the cowling from the first opening 22. The running wind is rectified by the louver 74 and then taken into the cowling. Here, as described above, the shape and direction of the slit-shaped flow path in the louver 74 are set in advance so that the traveling wind can be supplied to the engine head cover 70. Therefore, the traveling wind via the louver 74 is supplied to the engine head cover 70.
[0096]
At this time, more specifically, the louver 74 is set in advance so as to supply the traveling wind toward the passage 73 formed between the engine head cover 70 and the protection member 71. Therefore, the traveling wind via the louver 74 passes through the passage 73 and flows to the outside from the vehicle body rear side of the passage 73 as indicated by an arrow W in FIG. Here, the traveling wind passing through the passage 73 directly cools the engine head cover 70.
[0097]
As described above, the opening 22 is provided in the side portion of the front cowl 17 that covers the periphery of the engine 8, and the louver 74 that rectifies the traveling wind toward the engine head cover 70 and supplies it to a part of the opening 22. Thus, the traveling wind is reliably supplied to the engine head cover 70. Therefore, the engine head cover 70 is effectively cooled by the traveling wind via the louver 74. Further, since the engine head cover 70 is exposed from the opening 22, a higher cooling effect can be obtained. The louver 74 has a plurality of slit-shaped flow paths and is provided only at a part of the opening 22 on the front side of the vehicle body. The configuration of the apparatus can be simplified.
[0098]
By making the flow path of the louver 74 as a rectifier into a slit shape, it is possible to supply only traveling wind into the cowling, and to suppress the entry of foreign matter such as pebbles into the cowling.
[0099]
Since the engine head cover 70 is disposed on the rear side of the vehicle body with respect to the louver 74, the traveling wind via the louver 74 is uniformly and efficiently supplied to the engine head cover 70. Therefore, an effective cooling effect can be obtained.
[0100]
And since it is the structure which supplies driving | running | working wind directly to the channel | path 73 formed between the engine head cover 70 and the protection member 71 with the louver 74, the cooling effect of the engine head cover 70 by driving | running | working wind can be acquired effectively. it can.
[0101]
【The invention's effect】
According to the present invention, the opening is provided in the side portion of the cowling, and the rectifying device is provided in a part of the opening. Therefore, the traveling wind can be supplied to the engine head cover with a simple device configuration. Further, since the engine head cover is exposed from the opening and the traveling wind is directly supplied to the engine head cover via the rectifier, the cooling effect on the engine head cover can be effectively obtained.
[Brief description of the drawings]
FIG. 1 is an overall schematic side view showing an embodiment of a motorcycle according to the present invention.
FIG. 2 is an enlarged view of a main part of FIG. 1 and shows the vicinity of a headlamp.
FIG. 3 is a view of the vicinity of a headlamp as viewed from the front.
Fig. 4 is a side view of the body frame of the motorcycle according to the present invention.
FIG. 5 is a view of a vehicle body frame as viewed from the front.
FIG. 6 is a view of the body frame as viewed from above.
FIG. 7 is an enlarged side view of the vicinity of a coupling portion between an upper cowl and a middle cowl.
FIG. 8 is an enlarged side view in the vicinity of the wind screen.
FIG. 9 is a diagram of the moving device viewed from the front.
FIG. 10 is a side view of FIG. 9;
FIG. 11 is a view showing a connecting portion.
FIG. 12 is a view showing a first member of the connecting portion.
FIG. 13 is a diagram showing a second member of the connecting portion.
FIG. 14 is an enlarged side view of the vicinity of the first opening of the cowl.
15 is a view of FIG. 14 as seen from the rear of the vehicle body.
FIG. 16 is an enlarged side view of the vicinity of the second opening of the cowl.
17 is a cross-sectional view taken along the line AA in FIG. 16;
FIG. 18 is a side view of the sheet structure.
FIG. 19 is a component configuration diagram of a sheet structure.
20A and 20B are views showing the first support portion and the second support portion in the seat structure, where FIG. 20A is a view seen from above, and FIG. 20B is a view seen from the side.
FIG. 21 is a diagram illustrating a position-adjusted sheet structure.
FIG. 22 is a perspective view showing a support structure of a side trunk.
FIG. 23 is an enlarged perspective view showing a side trunk support structure in an enlarged manner.
FIG. 24 is a view of the side trunk support structure as viewed from the rear.
FIG. 25 is a diagram showing a part of the mechanism of the side trunk support structure.
FIG. 26 is a perspective view of an engine.
FIG. 27 is a front view of the engine.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Motorcycle, 5 ... Front wheel, 7 ... Rear wheel, 8 ... Engine, 8A ... Exhaust pipe, 15 ... Cowling, 17 ... Front cowl, 19 ... Upper cowl, 20 ... Middle cowl, 21 ... Under cowl, 22 ... First 1 opening (opening), 70 ... engine head cover, 71 ... protective member, 73 ... passage, 74 ... louver (rectifier)

Claims (5)

In motorcycles with cowlings that surround the engine,
A protective member that covers and protects the outer surface of the engine head cover is attached,
An opening that allows air to flow between the inside and outside of the cowling is formed on the side of the cowling,
From the opening, an engine head cover said protective member is attached is exposed,
2. A motorcycle according to claim 1, wherein a rectifying device for rectifying traveling wind and supplying the rectified wind to the engine head cover is installed in a part of the opening on the front side of the vehicle body.   2. The motorcycle according to claim 1, wherein the rectifying device has a plurality of slits parallel to each other in the longitudinal direction of the vehicle body, the longitudinal direction being the vehicle body longitudinal direction.   The motorcycle according to claim 1 or 2, wherein the engine head cover is disposed on a rear side of the vehicle body relative to the rectifier.   4. A passage extending in a longitudinal direction of a vehicle body is formed between the engine head cover and the protective member, and the rectifier supplies the traveling wind toward the passage. The motorcycle according to any one of the above. The motorcycle according to any one of claims 1 to 4, wherein the protection member is detachable from the engine head cover through the opening.

Images