JP2024007621A - Air guiding structure of motorcycle - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air guiding structure capable of efficiently guiding travelling air to an intake port opened toward the back side of a motorcycle.

SOLUTION: An air guiding structure 94 of a motorcycle which guides travelling air to an intake port 92 of an air cleaner 90 includes an inclined portion 96, a first air guiding rib 98 and a second air guiding rib 100. The intake port 92 is opened toward the back side of the motorcycle. The inclined portion 96 is provided at a rear end portion 120 of a tank cover 80 and is inclined downwardly in the vertical direction of the motorcycle. The first air guiding rib 98 is placed backwardly relative to the inclined portion 96 and protrudes downwardly from the back surface of a seat 38. The second air guiding rib 100 is placed backwardly relative to the first air guiding rib 98 and the intake port 92 and protrudes upwardly from a rear fender 34.

SELECTED DRAWING: Figure 4

COPYRIGHT: (C)2024,JPO&INPIT

Description

The present invention relates to a wind guide structure for a motorcycle.

Patent Document 1 discloses a wind guide structure for a motorcycle that guides running wind to an air intake port of an air cleaner. In the motorcycle disclosed in Patent Document 1, a seat is arranged above the engine and the air cleaner. Further, a rear fender is arranged below the rear of the seat and behind the air cleaner. Further, an intake air introduction passage extending in the front-rear direction is formed by the rear lower surface of the seat and the upper surface of the rear fender. The front end of the intake air introduction passage is communicated with an air intake introduction passage that opens at the top of the air cleaner, and the rear end of the intake air introduction passage is communicated with a groove formed on the upper surface of the rear fender.

Japanese Patent Application Publication No. 05-238459

However, in the motorcycle of Patent Document 1, if the direction of the intake port of the air cleaner that opens above the motorcycle is changed to the rear of the motorcycle, a problem may arise that the running wind cannot be efficiently guided.

The present invention aims to solve the above-mentioned problems.

An aspect of the present invention is a wind guide structure for a motorcycle that guides running wind to an air intake port of an air cleaner, wherein the air intake port is connected to a rear fender disposed above a rear wheel of the motorcycle, and a rear fender disposed above a rear wheel of the motorcycle. The tank cover is disposed between the seat disposed above, opens toward the rear of the motorcycle, and covers a fuel tank disposed forward of the air cleaner, and is provided at the rear end of the tank cover of the motorcycle. an inclined part that slopes downward in the vertical direction; a first air guide rib that is arranged behind the inclined part and projects downward from the back surface of the sheet; and a first air guide rib that is arranged behind the first air guide rib and the air intake; A second air guide rib is provided behind the mouth and protrudes upward from the rear fender.

According to the aspect of the present invention, running wind can be efficiently guided to the intake port that opens toward the rear of the motorcycle.

That is, in the air guide structure for a motorcycle according to an aspect of the present invention, the inclined portion provided at the rear end of the tank cover is inclined downward in the vertical direction of the motorcycle, so that the lower side of the fuel tank is Suppresses the blow-through of flowing driving wind. Therefore, the inclined portion can adjust the traveling wind flowing along the lower part of the fuel tank in the direction toward the intake port arranged at the rear lower side of the fuel tank. Further, the first air guide ribs arranged rearward from the inclined portion protrude downward from the back surface of the seat, thereby suppressing the blow-through of the traveling wind flowing under the seat. Therefore, the first wind guiding rib can adjust the traveling wind flowing rearward between the seat and the rear fender from the inclined portion in the direction toward the intake port. Furthermore, the second air guide rib, which is disposed behind the first air guide rib and rearward of the air intake port, projects upward from the rear fender, thereby suppressing the blow-by of the traveling wind flowing above the rear fender. Therefore, the second wind guide rib collides with a portion of the traveling wind that is adjusted in the direction toward the intake port, and directs a portion of the collided traveling wind to the air cleaner from the intake port that opens toward the rear of the motorcycle. can lead.

FIG. 1 is a left side view of the motorcycle. FIG. 2 is a plan view of the motorcycle. FIG. 3 is a top view of the motorcycle with the seat removed. 4 is a sectional view taken along the line IV-IV in FIG. 2. FIG. FIG. 5 is a perspective view showing the tank cover. FIG. 6 is a rear view showing the back surface of the sheet. FIG. 7 is a perspective view showing the rear fender. FIG. 8 is a diagram conceptually showing the flow of running wind due to the wind guide structure of a motorcycle.

FIG. 1 is a left side view of a motorcycle 10 (straddle type vehicle). FIG. 2 is a plan view of the motorcycle 10. In the following description, the direction in which the motorcycle 10 moves forward is defined as the front, and the front-rear, left-right, and up-down directions will be described.

The motorcycle 10 includes a body frame 12 (vehicle body). The vehicle body frame 12 includes a head pipe 14, a main frame 16, a center frame 18, a down frame 20, a pair of left and right seat frames 22, a pair of left and right subframes 24, and a pair of left and right step frames 26. .

The head pipe 14 is a part of the front end of the vehicle body frame 12. The main frame 16 extends rearward and diagonally downward from the head pipe 14. The center frame 18 extends downward from the rear end of the main frame 16. A pivot support portion (not shown) is provided at the bottom of the center frame 18. The down frame 20 is below the main frame 16 and extends rearward and diagonally downward from the head pipe 14.

Each of the left and right seat frames 22 extends rearward from the rear end of the main frame 16. Each of the left and right subframes 24 connects the lower part of the center frame 18 and the seat frame 22. Each of the left and right step frames 26 extends rearward from the bottom of the center frame 18.

The motorcycle 10 further includes a front wheel 28, a rear wheel 30, a front fender 32, a rear fender 34, an engine 36, a seat 38, and a fuel tank 40. As shown in FIG. 2, the seat 38 and the fuel tank 40 are located on the central axis 41 of the motorcycle 10 along the front-rear direction.

As shown in FIG. 1, a front fork 42 is swingably supported by the head pipe 14. The front fork 42 includes a steering shaft (not shown), a pair of left and right fork pipes 44, a top bridge 46, and a bottom bridge 48.

The steering shaft is rotatably supported by the head pipe 14. The left and right fork pipes 44 are arranged on both left and right sides of the front wheel 28. The front wheel 28 is rotatably supported at the lower ends of the left and right fork pipes 44. The top bridge 46 is fixed to the upper end of the steering shaft. The top bridge 46 connects the upper ends of the left and right fork pipes 44. A handle 50 is fixed to the top of the top bridge 46. The bottom bridge 48 is fixed to the lower end of the steering shaft. The bottom bridge 48 connects the left and right fork pipes 44. Therefore, the front wheel 28 is steerably supported by the front end of the vehicle body frame 12 via the front fork 42. The front fender 32 covers the front wheel 28 from above.

A pivot shaft 52 is connected to the pivot support portion. A front end portion of a swing arm 54 is supported on the pivot shaft 52 . The swing arm 54 has a front end swingably supported by the pivot shaft 52. Swing arm 54 extends rearwardly from pivot shaft 52 . The swing arm 54 extends to the left side of the rear wheel 30. A rear end portion of the swing arm 54 rotatably supports the rear wheel 30. A rear carrier 55 is attached to the swing arm 54. The rear carrier 55 may be removed or replaced with a sari guard.

The rear fender 34 extends rearward from the rear end portions of the left and right seat frames 22. The rear fender 34 is arranged above the rear wheel 30 and covers the rear wheel 30 from above.

The engine 36 is disposed below the main frame 16 and between the center frame 18 and the down frame 20. Engine 36 has a crankcase 56 and a cylinder section 58. The crankcase 56 supports a crankshaft (not shown) that extends in the left-right direction (vehicle width direction). A transmission (not shown) is built into the rear part of the crankcase 56.

The cylinder portion 58 extends forward and diagonally upward from the front portion of the crankcase 56 . An intake device (not shown) and an exhaust device 60 are connected to the cylinder portion 58 . The intake device is connected to the rear part of the cylinder section 58. The exhaust device 60 is connected to the front part of the cylinder section 58. The exhaust device 60 has an exhaust pipe 62 and a muffler 64. The exhaust pipe 62 extends downward from the front surface of the cylinder portion 58, is bent below the crankcase 56, and extends rearward. The muffler 64 is connected to the rear end of the exhaust pipe 62 and extends rearward. The muffler 64 extends to the right side of the rear wheel 30 (see FIG. 2).

The seat 38 is fixed to the left and right seat frames 22. The seat 38 includes a front seat 66 and a rear seat 68. The front seat 66 is arranged in front of the left and right seat frames 22. A driver is seated on the front seat 66. The rear seat 68 is provided behind the front seat 66. The rear seat 68 is arranged on the rear side of the left and right seat frames 22. A fellow passenger is seated on the rear seat 68.

A step 70 is provided at the front end of each of the left and right step frames 26. A driver seated on the front seat 66 places his left and right feet on each step 70. A pillion step 72 is provided at the rear end of each of the left and right step frames 26. A fellow passenger seated on the rear seat 68 places his left and right feet on each pillion step 72. A main stand 74 is provided at the bottom of the center frame 18.

The fuel tank 40 is arranged between the head pipe 14 and the seat 38. Specifically, the fuel tank 40 is arranged in front of the front seat 66 and behind the head pipe 14. The fuel tank 40 is attached to the top of the main frame 16.

The motorcycle 10 further includes a body cover 76 that covers the body frame 12, the fuel tank 40, and the like. The vehicle body cover 76 includes a front cover 78, a tank cover 80, a pair of left and right center covers 82, a rear cover 84, an under cover 86, and a pair of left and right shrouds 88.

The front cover 78 covers the upper portions of the head pipe 14 and the left and right fork pipes 44 from the front. Tank cover 80 covers fuel tank 40. Each of the left and right center covers 82 covers the lower part of the front seat 66. The rear cover 84 covers the lower part of the seat 38 behind the left and right center covers 82. The undercover 86 covers the lower part of the crankcase 56 from the front, sides, and bottom.

Each of the left and right shrouds 88 is connected to the tank cover 80 and the down frame 20. Each of the left and right shrouds 88 covers a part of the side surface of the fuel tank 40, a part of the head pipe 14, the front part of the main frame 16, and the upper part of the down frame 20.

Next, the air guide structure 94 of the motorcycle 10 that guides running air to the intake port 92 of the air cleaner 90 will be described with reference to FIGS. 3 to 8. The running wind is air that flows from the front to the rear of the motorcycle 10 when the motorcycle 10 is running.

The air cleaner 90 and the intake port 92 are arranged between the seat 38, which is arranged above the rear fender 34, and the rear fender 34 (see FIGS. 3 and 4). The intake port 92 opens toward the rear of the motorcycle 10 (see FIGS. 3 and 4). The air intake port 92 is unevenly located on either the left or right side of the motorcycle 10 from the central axis 41 of the motorcycle 10 . In the case of this embodiment, the intake port 92 is unevenly distributed on the left side of the motorcycle 10 from the central axis 41 of the motorcycle 10 (see FIG. 3).

The air guide structure 94 of the motorcycle 10 includes an inclined portion 96, a first air guide rib 98, and a second air guide rib 100 (see FIGS. 3 and 4).

The inclined portion 96 is provided on the tank cover 80. FIG. 5 is a perspective view showing the tank cover 80. Tank cover 80 covers fuel tank 40 located in front of air cleaner 90. The tank cover 80 includes a center cover 104 and a pair of left and right side covers 106.

The center cover 104 is a plate-shaped member that is curved so as to cover the surface of the fuel tank 40 near the central axis 41 of the motorcycle 10. The center cover 104 extends in the front-rear direction on the central axis 41 of the motorcycle 10 and is curved along the top of the fuel tank 40. The center cover 104 has an opening 108 formed through which a tank cap (not shown) of the fuel tank 40 can be inserted.

A rear end portion 110 of the center cover 104 extends rearward and diagonally downward. The rear end portion 110 has a narrow portion 112, a mounting portion 114, and a pair of left and right reinforcing portions 116. The narrow portion 112 is a portion where the width in the left-right direction is narrow, and includes the rear end of the center cover 104. The attachment portion 114 is a portion extending rearward from the rear end of the narrow width portion 112 and has a through hole 118. The through hole 118 is a hole that passes through the mounting portion 114 in the vertical direction. The through hole 118 is formed so that a fastening member for attaching the center cover 104 to the fuel tank 40 can be inserted therethrough. In addition, a bolt etc. are mentioned as a fastening member. The reinforcing portions 116 are provided on both left and right sides of the narrow portion 112 . The left reinforcing portion 116 connects the left side of the narrow portion 112 and the left side of the attachment portion 114. The right reinforcing portion 116 connects the right side of the narrow portion 112 and the right side of the attachment portion 114.

Each of the pair of left and right side covers 106 is connected to the center cover 104. The left side cover 106 is a plate-like member curved to cover the left side surface of the fuel tank 40. The right side cover 106 is a plate-shaped member curved to cover the right side surface of the fuel tank 40.

The rear end portions 120 of the left and right side covers 106 extend rearward and obliquely downward. The rear end portion 120 has a pair of flanges 122 . Each flange 122 has a through hole 124. The through hole 124 is a hole that passes through the flange 122 in the vertical direction. The through hole 124 is formed so that a fastening member for attaching the side cover 106 to the fuel tank 40 can be inserted therethrough.

Of the pair of flanges 122, the flange 122 closest to the center cover 104 has a mounting portion 126 and an inclined portion 96. The attachment portion 126 is a main body portion for attaching the side cover 106 to the fuel tank 40. The attachment portion 126 extends substantially straight rearward without being inclined. The inclined portion 96 is formed integrally with the attachment portion 126. The inclined portion 96 is inclined downward in the vertical direction of the motorcycle 10. The inclined portion 96 extends rearward and diagonally downward from the rear end of the attachment portion 126. In other words, the height of the inclined portion 96 from the ground contact surfaces of the front wheels 28 and rear wheels 30 decreases toward the rear. The inclined portion 96 directs the traveling wind flowing along the lower portion of the fuel tank 40 toward the air intake port 92 arranged at the rear lower portion of the inclined portion 96 . In other words, the inclined portion 96 suppresses the blow-by of the traveling wind flowing under the fuel tank 40 .

The first wind guiding rib 98 is arranged rearward of the inclined portion 96 (see FIGS. 3 and 4). The first air guiding rib 98 is provided on the sheet 38. FIG. 6 is a rear view showing the back surface of the sheet 38. The sheet 38 has a plurality of bosses 128 and a plurality of first air guiding ribs 98 .

Each of the plurality of bosses 128 is arranged corresponding to a seat mounting portion (not shown) provided on the left and right seat frames 22. The seat 38 is fixed to the seat frame 22 by fastening the fastening members to the plurality of bosses 128.

Each of the plurality of first air guiding ribs 98 projects downward from the back surface of the sheet 38. The plurality of first air guide ribs 98 guide the course of the traveling wind flowing under the seat 38 to the air intake port 92 of the air cleaner 90 .

One of the plurality of first air guide ribs 98 is provided on the front left side of the seat 38. The first air guide rib 98 provided on the front left side of the seat 38 may be referred to as a left side first air guide rib 98L. The left first air guiding rib 98L is disposed rearward from the inclined portion 96 and disposed in front of the air intake port 92 of the air cleaner 90 (see FIGS. 3 and 4). The left first air guiding rib 98L is arranged on the left side above the air cleaner 90 (see FIGS. 3 and 4). The left first air guide rib 98L is located between the air cleaner 90 and the left center cover 82 (see FIG. 3). The left first air guide rib 98L directs the wind flowing along the lower part of the seat 38 toward the vicinity of the central axis 41 of the motorcycle 10 between the seat 38 and the rear fender 34. In other words, the left first air guide rib 98L suppresses the traveling wind flowing below the seat 38 from blowing through from the left side.

One of the plurality of first air guide ribs 98 is provided on the front right side of the seat 38. The first air guide rib 98 provided on the front right side of the seat 38 may be referred to as a right side first air guide rib 98R. The first right air guiding rib 98R is disposed rearward from the inclined portion 96 and disposed forward from the intake port 92 of the air cleaner 90 (see FIGS. 3 and 4). The right first air guide rib 98R is arranged on the right side above the air cleaner 90 (see FIGS. 3 and 4). The right first air guiding rib 98R is located between the air cleaner 90 and the right center cover 82 (see FIG. 3). The right side first wind guide rib 98R directs the wind flowing along the lower part of the seat 38 toward the vicinity of the central axis 41 of the motorcycle 10 between the seat 38 and the rear fender 34. In other words, the right side first air guide rib 98R suppresses the traveling wind flowing below the seat 38 from blowing through from the right side.

One of the plurality of first air guide ribs 98 is provided at the front center of the seat 38. The first air guide rib 98 provided at the front center of the seat 38 may be referred to as a front center first air guide rib 98CF. The front center first air guide rib 98CF is arranged rearward from the inclined portion 96 and above the main body of the air cleaner 90 (see FIGS. 3 and 4). The front center first air guide rib 98CF is disposed between the left side first air guide rib 98L and the right side first air guide rib 98R, and extends in the width direction (horizontal direction) of the motorcycle 10 (see FIG. 3). The front central first air guiding rib 98CF directs the direction of the traveling wind flowing along the lower part of the seat 38 toward the vicinity of the center axis 41 of the motorcycle 10 between the seat 38 and the rear fender 34. In other words, the front center first air guiding rib 98CF suppresses the traveling wind flowing under the seat 38 from blowing straight through to the rear.

One of the plurality of first air guiding ribs 98 is provided on the left side of the center of the sheet 38. The first air guide rib 98 provided on the left side of the center of the seat 38 may be referred to as a left center first air guide rib 98LF. The left center first air guide rib 98LF is unevenly distributed on the left side of the motorcycle 10 from the central axis 41 of the motorcycle 10, which is the same as the air intake port 92 (see FIG. 3). The left center first air guide rib 98LF is arranged above between the air intake port 92 and the second air guide rib 100 (see FIGS. 3 and 4). The left center first air guide rib 98LF suppresses the blow-by of the traveling wind flowing along the lower part of the seat 38. Furthermore, the left center first air guide rib 98LF guides the traveling wind flowing along the lower part of the seat 38 between the air intake port 92 and the second air guide rib 100 below the left center first air guide rib 98LF. .

The left center first air guiding rib 98LF has a curved portion 102 that curves from the front-rear direction of the motorcycle 10 toward the width direction of the motorcycle 10. Due to this curved portion 102, the left central first air guiding rib 98LF directs a portion of the traveling air from the front-rear direction to the width direction of the motorcycle 10. In this case, compared to the case where there is no curved portion 102, the left center first air guiding rib 98LF increases the amount of air in the traveling wind that stagnates near the intake port 92.

The second air guide rib 100 is arranged at the rear of each first air guide rib 98. The second air guiding rib 100 is arranged behind the air intake port 92 . The second wind guiding rib 100 is provided on the rear fender 34. FIG. 7 is a perspective view showing the rear fender 34. The rear fender 34 has a main body portion 34P and a tail portion 34T. The main body portion 34P is arranged above the rear wheel 30. The tail portion 34T extends rearward and downward from the rear end of the main body portion 34P.

The second wind guiding rib 100 is provided on the main body portion 34P of the rear fender 34. The second wind guiding rib 100 projects upward from the main body portion 34P. The second air guide rib 100 is unevenly distributed on the left side of the motorcycle 10 from the center axis 41 of the motorcycle 10, which is the same as the air intake port 92 (see FIG. 3). The second wind guiding rib 100 extends in the width direction of the motorcycle 10 (see FIGS. 3 and 7). A portion of the second air guide rib 100 faces the air intake port 92 (see FIGS. 3 and 4).

The vertical gap GP between the second air guide rib 100 and the first left center air guide rib 98LF is narrower than that between the seat 38 and the rear fender 34 (see FIG. 4). Therefore, the second air guide rib 100, together with the left center first air guide rib 98LF, increases the amount of air in the traveling wind that stagnates near the air intake port 92.

A part of the second air guide rib 100 and a part of the front central first air guide rib 98CF overlap in the front-rear direction in the motorcycle 10 where the vehicle body is not inclined (see FIG. 4). In other words, when looking at the motorcycle 10 with no body inclination from the rear, focusing only on the second air guide rib 100 and the front center first air guide rib 98CF, a part of the second air guide rib 100 is It partially overlaps with the central first air guiding rib 98CF. In this case, the front central first air guide rib 98CF can cause the traveling wind flowing from the front between the seat 38 and the rear fender 34 to collide with the second air guide rib 100. Furthermore, the second wind guiding rib 100 guides the colliding running wind to the intake port 92 that opens toward the rear of the motorcycle 10.

FIG. 8 is a diagram conceptually illustrating how the wind blowing structure 94 of the motorcycle 10 generates airflow while the motorcycle 10 is running. When the motorcycle 10 is traveling, a portion of the traveling wind flows from the front under the fuel tank 40. The wind flowing along the lower part of the fuel tank 40 flows between the seat 38 and the rear fender 34. In this case, a portion of the traveling air is adjusted in the direction toward the intake port 92 by the inclined portion 96 provided at the rear end portion 120 of the tank cover 80 that covers the upper and side surfaces of the fuel tank 40 .

The traveling wind flowing rearward from the inclined portion 96 between the seat 38 and the rear fender 34 is adjusted in the direction toward the intake port 92 by a plurality of first wind guiding ribs 98 that protrude downward from the back surface of the seat 38. A portion of the traveling wind adjusted in the direction toward the intake port 92 collides with the second air guiding rib 100 at the rear of the intake port 92 that projects upward from the rear fender 34 . A portion of the traveling air that has collided with the second wind guiding rib 100 flows into the air cleaner 90 through an intake port 92 that opens toward the rear of the motorcycle 10.

In this way, according to the air guide structure 94 of the motorcycle 10 of the present embodiment, the running wind can be efficiently guided to the intake port 92 that opens toward the rear of the motorcycle 10.

In this embodiment, the inclined portion 96 is provided on the flange 122 for attaching the tank cover 80 to the fuel tank 40. Therefore, the number of parts can be reduced compared to the case where the inclined portion 96 is provided separately from the flange 122. In addition, the space below the fuel tank 40 can be saved.

Further, in the present embodiment, the left center first air guide rib 98LF, which is one of the plurality of first air guide ribs 98, is arranged between the air intake port 92 and the second air guide rib 100. The vertical gap GP between the left center first air guide rib 98LF and the second air guide rib 100 is narrower than that between the seat 38 and the rear fender 34. Therefore, compared to the case where the gap GP is about the same as that between the seat 38 and the rear fender 34, the traveling wind can be made to collide more actively with the second wind guide rib 100. As a result, it is possible to increase the amount of traveling air guided from the intake port 92 to the air cleaner 90.

Further, in the present embodiment, the left center first air guide rib 98LF has a curved portion 102 that curves from the front-rear direction of the motorcycle 10 toward the width direction of the motorcycle 10. Therefore, the direction of a portion of the traveling wind can be directed from the longitudinal direction to the width direction of the motorcycle 10. Therefore, compared to the case where there is no curved portion 102, the amount of air in the running wind that stagnates near the intake port 92 can be increased. As a result, it is possible to increase the amount of traveling air guided from the intake port 92 to the air cleaner 90.

Further, in the present embodiment, the air intake port 92, the left center first air guide rib 98LF, and the second air guide rib 100 are unevenly distributed on the left side of the motorcycle 10 from the central axis 41 of the motorcycle 10. Therefore, compared to the case where the air intake port 92, the first left center air guide rib 98LF, and the second air guide rib 100 are located on the central axis 41 of the motorcycle 10, the occurrence of turbulence in the traveling wind can be suppressed. Can be done.

In this embodiment, the plurality of first air guide ribs 98 include a left side first air guide rib 98L and a right side first air guide rib 98R in addition to the left center first air guide rib 98LF. Therefore, the traveling wind flowing backward from the inclined portion 96 between the seat 38 and the rear fender 34 can be suppressed from blowing outward from the left and right sides of the motorcycle 10. As a result, the amount of traveling air that collides with the second air guide rib 100 can be increased compared to the case where the first left air guide rib 98L and the first right air guide rib 98R are not provided.

Moreover, in this embodiment, a part of the front center first air guide rib 98CF, which is one of the plurality of first air guide ribs 98, and a part of the second air guide rib 100 overlap in the front-rear direction. Therefore, compared to a case where a part of the front central first air guide rib 98CF and a part of the second air guide rib 100 do not overlap in the front-rear direction, the amount of traveling air directed from the front toward the second air guide rib 100 is reduced. can be increased. As a result, it is possible to increase the amount of traveling air guided from the intake port 92 to the air cleaner 90.

Further, in this embodiment, the second wind guiding rib 100 extends in the width direction of the motorcycle 10. Therefore, the wind coming from the front can be actively caused to collide with the second wind guiding rib 100. As a result, it is possible to increase the amount of traveling air guided from the intake port 92 to the air cleaner 90.

Further, in this embodiment, a portion of the second air guiding rib 100 faces the air intake port 92. Therefore, compared to the case where the second air guide rib 100 does not have a portion facing the intake port 92, the amount of traveling air guided to the intake port 92 can be increased.

The above embodiment may be modified as follows.

For example, the intake port 92 may be unevenly located on the right side of the motorcycle 10 from the center axis 41 of the motorcycle 10. In this case, the left center first air guide rib 98LF and the second air guide rib 100 are unevenly located on the right side of the motorcycle 10 from the central axis 41 of the motorcycle 10, similarly to the air intake port 92. Alternatively, the intake port 92 may be arranged on the central axis 41 of the motorcycle 10. In this case, the left center first air guide rib 98LF and the second air guide rib 100 are arranged on the center axis 41 of the motorcycle 10, similarly to the air intake port 92.

Further, some of the plurality of first air guide ribs 98 may be removed. For example, at least one of the front center first air guide rib 98CF and the left center first air guide rib 98LF is arranged, and the left side first air guide rib 98L and the right side first air guide rib 98R are removed.

Further, the inclined portion 96 may be provided on the motorcycle 10 separately from the flange 122. Even in this case, the running wind can be efficiently guided to the intake port 92 that opens toward the rear of the motorcycle 10.

The invention that can be understood from the above embodiments will be described below.

(1) An aspect of the present invention is a wind guide structure (94) for a motorcycle (10) that guides running wind to an intake port (92) of an air cleaner (90), the intake port (92) comprising: The motorcycle (10) is disposed between a rear fender (34) disposed above the rear wheel (30) and a seat (38) disposed above the rear fender (34). The tank cover (80) is provided at the rear end (120) of a tank cover (80) that opens toward the rear of the motorcycle (10) and covers the fuel tank (40) located in front of the air cleaner (90). a sloped part (96) that slopes downward in the vertical direction; a first air guiding rib (98) that is arranged rearwardly of the sloped part (96) and projects downward from the back surface of the sheet (38); A second air guide rib (100) is provided behind the first air guide rib (98) and rearward of the air intake port (92), and projects upward from the rear fender (34).

According to the aspect of the present invention, running wind can be efficiently guided to the intake port that opens toward the rear of the motorcycle.

That is, in the air guide structure for a motorcycle according to an aspect of the present invention, the inclined portion provided at the rear end of the tank cover is inclined downward in the vertical direction of the motorcycle, so that the airflow flowing under the fuel tank is Prevents wind from blowing through. Therefore, the inclined portion can adjust the traveling wind flowing along the lower part of the fuel tank in the direction toward the intake port arranged at the rear lower side of the fuel tank. Further, the first air guide ribs arranged rearward from the inclined portion protrude downward from the back surface of the seat, thereby suppressing the blow-through of the traveling wind flowing under the seat. Therefore, the first wind guiding rib can adjust the traveling wind flowing rearward between the seat and the rear fender from the inclined portion in the direction toward the intake port. Further, the second air guide rib, which is disposed behind the first air guide rib and rearward of the air intake port, projects upward from the rear fender, thereby suppressing the blow-by of the traveling wind flowing above the rear fender. Therefore, the second wind guide rib collides with a portion of the traveling wind that is adjusted in the direction toward the intake port, and directs a portion of the collided traveling wind to the air cleaner from the intake port that opens toward the rear of the motorcycle. can lead.

(2) An aspect of the present invention is a wind guide structure (94) for a motorcycle (10), wherein the inclined portion (96) is a fastening member for attaching the tank cover (80) to the fuel tank (40). The flange (122) may have a through hole (124) through which the flange (122) can be inserted. Thereby, the number of parts can be reduced compared to the case where the inclined part is provided separately from the flange. In addition to this, it is possible to save space below the fuel tank.

(3) An aspect of the present invention is an air guide structure (94) for a motorcycle (10), in which the first air guide rib (98) is connected to the air intake port (92) and the second air guide rib (94). 100), and a vertical gap (GP) between the first air guide rib (98) and the second air guide rib (100) is arranged between the seat (38) and the rear fender. It may be narrower than (34). As a result, compared to a case where the gap is about the same as that between the seat and the rear fender, the traveling wind can be caused to more actively collide with the second wind guiding rib. As a result, it is possible to increase the amount of traveling air guided from the intake port to the air cleaner.

(4) An aspect of the present invention is a wind guide structure (94) for a motorcycle (10), in which the first wind guide rib (98) extends from the front and back direction of the motorcycle (10) to the motorcycle (10). 10) may have a curved portion (102) that curves in the width direction. Thereby, the direction of a portion of the traveling wind can be directed from the longitudinal direction to the width direction of the motorcycle. Therefore, compared to the case where there is no curved portion, it is possible to increase the amount of running wind that stagnates near the intake port. As a result, it is possible to increase the amount of running air guided from the intake port to the air cleaner.

(5) An aspect of the present invention is a wind guide structure (94) for a motorcycle (10), in which the air intake port (92) extends from a central axis (41) of the motorcycle (10) to the motorcycle (10). 10), and the first air guide rib (98) and the second air guide rib (100) are located on the left and right sides of the motorcycle (10) where the air intake port (92) is unevenly located. may be placed on one side. This makes it possible to suppress the occurrence of turbulence in the traveling wind compared to the case where it is located on the center axis of the motorcycle.

(6) An aspect of the present invention is an air guide structure (94) for a motorcycle (10), in which the first air guide rib (98) has a plurality of first air guide ribs (98). ) are arranged on the left and right sides above the air cleaner (90), and one of the plurality of first air guide ribs (98) is located between the air intake port (92) and the second air guide rib (98). It may be arranged between the rib (100). Thereby, the amount of traveling air that collides with the second air guiding rib can be increased.

(7) An aspect of the present invention is an air guide structure (94) for a motorcycle (10), wherein one of the plurality of first air guide ribs (98) is arranged above the air cleaner (90). In the motorcycle (10) with no body inclination, a part of the first air guide rib (98) and a part of the second air guide rib (100) arranged above the air cleaner (90) are arranged above the air cleaner (90). may overlap in the front-back direction. As a result, compared to a case where a part of the first wind guide rib and a part of the second wind guide rib do not overlap in the front-rear direction, it is possible to increase the amount of traveling air directed from the front toward the second wind guide rib. can. As a result, it is possible to increase the amount of traveling air guided from the intake port to the air cleaner.

(8) An aspect of the present invention is an air guide structure (94) for a motorcycle (10), wherein the second air guide rib (100) extends in the width direction of the motorcycle (10). Good too. Thereby, the traveling wind coming from the front can be positively caused to collide with the second wind guiding rib. As a result, it is possible to increase the amount of traveling air guided from the intake port to the air cleaner.

(9) An aspect of the present invention is an air guide structure (94) for a motorcycle (10), in which a portion of the second air guide rib may face the air intake port (92). Thereby, the amount of traveling air guided to the intake port can be increased compared to the case where the second air guiding rib does not have a portion facing the intake port.

Note that the present invention is not limited to the disclosure described above, and may take various configurations without departing from the gist of the present invention.

10... Motorcycle (straddle type vehicle) 30... Rear wheel 34... Rear fender 38... Seat 40... Fuel tank 80... Tank cover 90... Air cleaner 92... Intake port 94... Air guide structure 96... Inclined part 98... First air guide Rib 100...Second wind guide rib 102...Curved portion 122...Flange

Claims (9)

A wind guide structure (94) for a motorcycle (10) that guides running wind to an intake port (92) of an air cleaner (90),
The intake port (92) is located between a rear fender (34) located above the rear wheel (30) of the motorcycle (10) and a seat (38) located above the rear fender (34). located at the rear of the motorcycle (10), and opening toward the rear of the motorcycle (10);
A slope that is provided at a rear end (120) of a tank cover (80) that covers a fuel tank (40) located forward of the air cleaner (90) and is inclined downward in the vertical direction of the motorcycle (10). Department (96) and
a first air guide rib (98) that is arranged rearward from the inclined part (96) and projects downward from the back surface of the sheet (38);
a second air guide rib (100) that is disposed behind the first air guide rib (98) and rearward of the air intake port (92) and protrudes upward from the rear fender (34);
A wind guide structure (94) for a motorcycle (10), comprising: A wind guide structure (94) for a motorcycle (10) according to claim 1, comprising:
The inclined portion (96) is provided on a flange (122) of the motorcycle (10) having a through hole (124) through which a fastening member for attaching the tank cover (80) to the fuel tank (40) can be inserted. Wind guide structure (94). A wind guide structure (94) for a motorcycle (10) according to claim 1, comprising:
The first air guide rib (98) is arranged between the air intake port (92) and the second air guide rib (100),
The vertical gap (GP) between the first air guide rib (98) and the second air guide rib (100) is larger than that between the seat (38) and the rear fender (34). A narrow wind guide structure (94) for a motorcycle (10). A wind guide structure (94) for a motorcycle (10) according to claim 3,
The first air guide rib (98) is a guide for the motorcycle (10), which has a curved portion (102) that curves from the front-rear direction of the motorcycle (10) toward the width direction of the motorcycle (10). Wind structure (94). A wind guide structure (94) for a motorcycle (10) according to claim 4,
The intake port (92) is unevenly located on one of the left and right sides of the motorcycle (10) from the central axis (41) of the motorcycle (10),
The first air guide rib (98) and the second air guide rib (100) are arranged in a motorcycle ( 10) Wind guiding structure (94). A wind guide structure (94) for a motorcycle (10) according to claim 1, comprising:
The first air guide ribs (98) have a plurality of them, and two of the plurality of first air guide ribs (98) are arranged on the left and right sides above the air cleaner (90), and two of the plurality of first air guide ribs (98) are arranged on the left and right sides above the air cleaner (90). One of the first air guide ribs (98) is the air guide structure (94) of the motorcycle (10), which is disposed between the air intake port (92) and the second air guide rib (100). A wind guide structure (94) for a motorcycle (10) according to claim 6,
One of the plurality of first air guide ribs (98) is arranged above the air cleaner (90),
In a motorcycle (10) with no body tilt, a part of the first air guide rib (98) and a part of the second air guide rib (100) arranged above the air cleaner (90) are: Air guide structures (94) of a motorcycle (10) overlap in the front-rear direction. A wind guide structure (94) for a motorcycle (10) according to claim 1, comprising:
The second wind guide rib (100) is a wind guide structure (94) of the motorcycle (10) that extends in the width direction of the motorcycle (10). A wind guide structure (94) for a motorcycle (10) according to claim 7,
A part of the second air guide rib is an air guide structure (94) of the motorcycle (10) that faces the air intake port (92).

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