JP2023118226A - shroud - Google Patents

Abstract

To provide a shroud, which is installed on a vehicle body or a fuel tank of a saddle-riding type vehicle, the shroud having a structure capable of suppressing cracking caused by vibration when vibration of a vehicle body of a saddle-riding type vehicle transmits to the shroud while the vehicle is operating.SOLUTION: An inner shroud 154 of a shroud 88 includes an uneven part 176 formed with at least one recessed part 178 recessed toward the vehicle width direction and a plurality of protrusion parts 180 protruding toward the vehicle width direction. The at least one protrusion part 180 of the uneven part 176 is formed at a front end part 158 of the inner shroud 154.SELECTED DRAWING: Figure 5

Description

The present invention relates to shrouds.

Patent Literature 1 discloses covering at least part of the side surface of a fuel tank provided in a straddle-type vehicle with a shroud.

JP 2014-210485 A

The shroud is attached to the body or fuel tank of the straddle-type vehicle. During operation of a saddle-type vehicle, when vibrations of the vehicle body are transmitted to the shroud, the vibrations can cause cracks in the shroud.

An object of the present invention is to solve the problems described above.

An aspect of the present invention is a shroud that covers at least a portion of a side surface of a fuel tank provided in a straddle-type vehicle, wherein the shroud is an inner shroud that is disposed inside the straddle-type vehicle in the vehicle width direction. and an outer shroud arranged outside in the vehicle width direction and connected to the inner shroud, wherein the inner shroud includes at least one recess recessed in the vehicle width direction and a recess in the vehicle width direction. The inner shroud has an uneven portion formed with a plurality of convex portions protruding toward the inner shroud.

In the present invention, by providing the inner shroud with the uneven portion, the durability of the inner shroud against vibration can be improved. Thereby, the occurrence of cracks in the shroud can be suppressed.

FIG. 1 is a left side view of a motorcycle. FIG. 2 is a plan view of the motorcycle. FIG. 3 is a perspective view of the tank cover and shroud. FIG. 4 is a perspective view of the tank cover and shroud. FIG. 5 is a front view of the tank cover and shroud. FIG. 6 is a rear view of the tank cover and shroud. FIG. 7 is a plan view of the tank cover and shroud. FIG. 8 is a perspective view of the center cover. FIG. 9 is a perspective view of the center cover. FIG. 10 is a perspective view of the center cover. FIG. 11 is an enlarged perspective view of the rear end portion of the center cover. FIG. 12 is a cross-sectional view taken along line XII-XII in FIG. FIG. 13 is a perspective view of the inner shroud. FIG. 14 is a front view of the inner shroud. FIG. 15 is a left side view of the inner shroud.

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

The motorcycle 10 includes a body frame 12 (body). The 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 sub-frames 24, and a pair of left and right step frames 26. .

The head pipe 14 is part of the front end of the body frame 12 . The main frame 16 extends rearward and obliquely downward from the head pipe 14 . The center frame 18 extends downward from the rear end of the main frame 16 . A pivot support (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 obliquely downward from the head pipe 14 .

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

Motorcycle 10 further includes front wheels 28 , rear wheels 30 , front fenders 32 , rear fenders 34 , engine 36 , seat 38 , and fuel tank 40 . As shown in FIG. 2, the seat 38 and the fuel tank 40 are positioned on the central axis 41 of the motorcycle 10 along the longitudinal direction.

As shown in FIG. 1, a front fork 42 is swingably supported on the head pipe 14 . The front fork 42 has 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 . A 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 . A 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 portion 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 of a swing arm 54 is supported on the pivot shaft 52 . The swing arm 54 is swingably supported by the pivot shaft 52 at its front end. A swing arm 54 extends rearward from the 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 . The rear fender 34 extends rearward from the rear end portions of the left and right seat frames 22 . The rear fender 34 covers the rear wheel 30 from above.

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

The cylinder portion 58 extends forward and obliquely 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 portion of the cylinder portion 58 . The exhaust device 60 is connected to the front portion of the cylinder portion 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, bends 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 has a front seat 66 and a rear seat 68 . The front seat 66 is arranged on the front side of the left and right seat frames 22 . A driver sits 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 sits 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 puts 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 legs on the pillion steps 72 . A main stand 74 is provided below the center frame 18 .

A 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 . A fuel tank 40 is attached to the upper portion of the main frame 16 .

The motorcycle 10 further includes a vehicle body cover 76 that covers the vehicle body frame 12, the fuel tank 40, and the like. The body cover 76 has 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. A tank cover 80 covers the fuel tank 40 . The left and right center covers 82 each cover the front seat 66 below. The rear cover 84 covers the lower side of the seat 38 behind the left and right center covers 82 . The undercover 86 covers the lower portion of the crankcase 56 from the front, sides and below.

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 part of the side surface of the fuel tank 40 , part of the head pipe 14 , the front part of the main frame 16 and the upper part of the down frame 20 . Detailed configurations of the tank cover 80 and the left and right shrouds 88 will be described later.

Next, the characteristic configuration of this embodiment will be described with reference to FIGS. 3 to 15. FIG. The characteristic configuration is the configuration of the tank cover 80 and the left and right shrouds 88 .

The fuel tank 40 (see FIG. 12) is made of resin. The fuel tank 40 has a tank upper portion 90 and a tank lower portion 92 .

The tank lower portion 92 has a bowl-like shape with a downward recess and an open top. A flange 94 is formed on the outer edge of the tank lower portion 92 . The tank lower portion 92 is inclined along the front-rear direction.

The tank upper portion 90 has a bowl-like shape that bulges upward and is open downward. A flange 96 is formed on the outer edge of the tank upper portion 90 . The fuel tank 40 is configured by overlapping the flange 96 of the tank upper portion 90 and the flange 94 of the tank lower portion 92 . It should be noted that the upper surface 98 of the tank upper portion 90 forms the upper surface 100 of the fuel tank 40 . In the following description, the upper surface 100 of the fuel tank 40 may be referred to as the upper surface 98 of the tank upper portion 90 . An upper surface 98 of the tank upper portion 90 is provided with a filler port 102 . The fuel filler port 102 is closed by a tank cap 104 . A stay 106 extends forward and obliquely upward at the front portion of the tank upper portion 90 .

The tank cover 80 and the left and right shrouds 88 (see FIG. 3) are made of resin. Specifically, the tank cover 80 and the left and right shrouds 88 are made of ABS resin.

As shown in FIG. 7, the tank cover 80 includes a center cover 108 and a pair of left and right side covers 110. As shown in FIG.

The center cover 108 covers at least a portion of the upper surface 100 (see FIG. 12) of the fuel tank 40. As shown in FIG. As shown in FIG. 2 , the center cover 108 extends in the front-rear direction on the central axis 41 of the motorcycle 10 . The center cover 108 is located above the fuel tank 40 and covers a portion of the upper surface 98 of the tank upper portion 90 (see FIG. 12) around the central axis 41 .

As shown in FIG. 8, the center cover 108 is a plate-shaped member curved so as to cover the tank upper portion 90 (see FIG. 12). Center cover 108 has a front end 112 , a body portion 114 and a rear end 116 .

The body portion 114 extends in the front-rear direction. The body portion 114 curves along the upper surface 98 (see FIG. 12) of the tank upper portion 90 . The body portion 114 is formed with an opening 118 through which the tank cap 104 (see FIG. 12) can be inserted.

The front end portion 112 extends forward and obliquely downward from the front end of the body portion 114 . Mounting portions 120 are formed on both left and right sides at the joint between the body portion 114 and the front end portion 112 . The left and right mounting portions 120 are recesses that are recessed downward. A hole 122 penetrating vertically is formed in each of the left and right mounting portions 120 . A bolt 124 (see FIG. 12) is inserted through each of the two holes 122 . A semicircular notch 126 is formed at the tip of the front end portion 112 to avoid interference with the main frame 16 (see FIG. 1).

As shown in FIG. 9 , the rear end portion 116 extends rearward and obliquely downward from the rear end of the main body portion 114 . The rear end portion 116 has a connecting portion 128 , a narrow portion 130 , a mounting portion 132 , and a pair of left and right reinforcing portions 134 .

The connecting portion 128 is connected to the rear end of the body portion 114 . The connecting portion 128 is formed by bending the rear portion of the main body portion 114 downward. Therefore, the width of the connecting portion 128 in the left-right direction is substantially the same as the width of the main body portion 114 in the left-right direction.

As shown in FIG. 11 , the narrow portion 130 is connected to the rear end of the connecting portion 128 . The width of the narrow portion 130 in the left-right direction becomes narrower as the distance from the connecting portion 128 increases. The mounting portion 132 is connected to the rear end of the narrow portion 130 . Therefore, the width of the narrow portion 130 in the left-right direction becomes narrower as it approaches the mounting portion 132 .

The mounting portion 132 extends rearward from the rear end of the narrow portion 130 . A hole 136 is formed through the mounting portion 132 in the vertical direction. A bolt 138 (see FIG. 12) is inserted through the hole 136 . The bolts 138 are threaded into bolt holes (not shown) formed in the flanges 94, 96 of the tank top 90 and tank bottom 92, respectively. Thereby, the rear end portion 116 of the center cover 82 is fixed to the fuel tank 40 .

Two notches 140 are formed in the rear portion of the mounting portion 132 . At least one cutout portion 140 may be formed in the attachment portion 132 . The reinforcing portions 134 are provided on both left and right sides of the rear end portion 116 . The left reinforcing portion 134 connects the left side of the narrow portion 130 and the left side of the mounting portion 132 . The right reinforcing portion 134 connects the right side of the narrow portion 130 and the right side of the mounting portion 132 . The left and right reinforcing portions 134 are substantially trapezoidal wall portions. Note that the rear end portion 116 may have at least one reinforcing portion 134 . Moreover, the reinforcement part 134 should just be formed in wall shape.

As shown in FIG. 9 , a plurality of connecting portions 142 projecting outward in the vehicle width direction are formed on both left and right sides of the body portion 114 . A plurality of connecting portions 142 are formed on both left and right sides of the main body portion 114 at arbitrary intervals along the front-rear direction. The plurality of connecting portions 142 are connected to a plurality of connecting portions (not shown) formed on the left and right side covers 110 (see FIG. 4). Thereby, the center cover 82 and the left and right side covers 110 are connected.

As shown in FIG. 12, the tank cover 80 covers the fuel tank 40 with an arbitrary clearance. The bottom surface 144 of the center cover 82 faces the top surface 98 of the tank top 90 . As shown in FIG. 10 , a plurality of rib portions 146 (first rib portion 148 and second rib portion 150 ) are formed on the bottom surface 144 of the center cover 108 . The plurality of rib portions 146 are plate-like portions protruding from the bottom surface 144 of the center cover 108 toward the upper surface 98 of the tank upper portion 90 .

The first rib portion 148 is a relatively tall rib. The first rib portion 148 is formed between the mounting portions 120 and 132 (see FIG. 7) on the bottom surface 144 of the center cover 108 . Specifically, the first rib portion 148 is formed on the bottom surface 152 of the body portion 114 at a location where the clearance between the bottom surface 152 of the body portion 114 and the top surface 98 of the tank upper portion 90 is relatively narrow. More specifically, first rib portion 148 is formed on bottom surface 152 of body portion 114 between opening 118 and the rear end of body portion 114 . The location where the first rib portion 148 is formed is the location facing the driver when the driver is seated on the front seat 66 (see FIG. 1).

The first rib portion 148 is formed in a grid pattern on the bottom surface 152 of the body portion 114 . As shown in FIG. 12 , the first rib portion 148 is formed on the bottom surface 152 of the body portion 114 so as to contact the top surface 98 of the tank upper portion 90 .

The second rib portion 150 is a rib that is lower than the first rib portion 148 . As shown in FIG. 10 , the second rib portion 150 is formed on the bottom surface 144 of the center cover 82 so as to surround at least a portion of the first rib portion 148 . Specifically, the second rib portion 150 is formed between the opening 118 of the body portion 114 on the bottom surface 144 of the center cover 82 and the narrow portion 130 of the rear end portion 116 .

The second rib portion 150 is formed in a grid pattern on the bottom surface 144 of the center cover 82 . The lattice-shaped second rib portion 150 surrounds the lattice-shaped first rib portion 148 . Also, a portion of the second rib portion 150 is connected to the first rib portion 148 .

As shown in FIG. 12, the second rib portion 150 is formed at a location where the clearance between the bottom surface 144 of the center cover 108 and the top surface 98 of the tank upper portion 90 is relatively wide. Also, the second rib portion 150 is formed on the bottom surface 144 of the center cover 108 so as not to contact the top surface 98 of the tank upper portion 90 .

In this embodiment, the first rib portion 148 may be formed at a location where the clearance between the bottom surface 144 of the center cover 108 and the top surface 98 of the tank upper portion 90 is relatively wide. The second rib portion 150 may be formed at a location where the clearance between the bottom surface 144 of the center cover 108 and the top surface 98 of the tank upper portion 90 is relatively narrow. Even in this case, the first rib portion 148 is formed on the bottom surface 144 of the center cover 108 so as to contact the top surface 98 of the tank upper portion 90 .

As shown in FIG. 3 , the left and right side covers 110 are connected to the center cover 108 . The left side cover 110 is a curved plate-like member that covers the left side surface of the fuel tank 40 (see FIG. 2). The right side cover 110 is a curved plate-like member that covers the right side surface of the fuel tank 40 . Rear ends of the left and right side covers 110 are fixed to the main frame 16 (see FIG. 1) with bolts (not shown).

As shown in FIG. 7 , each of the left and right shrouds 88 is connected to side covers 110 . As shown in FIG. 1 , each of the left and right shrouds 88 extends forward and obliquely downward from the side cover 110 . That is, as shown in FIG. 2, the shrouds 88 are arranged on both left and right sides of the tank cover 80 with the central axis 41 of the motorcycle 10 interposed therebetween. The left and right shrouds 88 have the same configuration. Therefore, in the following description, one shroud 88 will be described as a representative.

As shown in FIG. 3, shroud 88 has an inner shroud 154 and an outer shroud 156 . The inner shroud 154 is arranged in front of the side cover 110 and inside in the vehicle width direction. The outer shroud 156 is arranged outside the inner shroud 154 in the vehicle width direction. As shown in FIG. 7, the outer shroud 156 is arranged from the front end 158 of the inner shroud 154 to the center of the side cover 110 along the front-rear direction. Outer shroud 156 is connected to inner shroud 154 and side cover 110 . Specifically, outer shroud 156 is connected to inner shroud 154 and side cover 110 while being sandwiched between inner shroud 154 and side cover 110 .

As shown in FIG. 5, the inner shroud 154 is a plate-shaped member that curves inward in the vehicle width direction as it approaches the rear fuel tank 40 (see FIG. 12). That is, the inner shroud 154 curves toward the fuel tank 40 as it approaches the rear portion of the inner shroud 154 . As shown in FIG. 15, the width of the inner shroud 154 in the vertical direction increases as the rear portion of the inner shroud 154 is approached. Therefore, as shown in FIG. 14, the upper end portion 160 and the lower end portion 162 of the inner shroud 154 are positioned at the rear portion of the inner shroud 154 .

As shown in FIG. 13, mounting portions 164 and 166 are provided at an upper end portion 160 and a lower end portion 162 of the inner shroud 154, respectively.

A mounting portion 164 provided at the upper end portion 160 of the inner shroud 154 is a plate-like portion extending in the horizontal direction. The mounting portion 164 is formed with a hole 168 through which the bolt 124 is inserted. The bolt 124 is inserted through the hole 122 of the mounting portion 120 of the center cover 108 (see FIG. 8) and the hole 168 of the mounting portion 164 of the inner shroud 154 . Thereby, the bolt 124 is screwed into a bolt hole (not shown) formed in the stay 106 of the tank upper portion 90 . By screwing the bolts 124 into the bolt holes, the center cover 108 and the inner shroud 154 are fastened together and fixed to the tank upper portion 90 (see FIG. 12).

A mounting portion 166 provided at the lower end portion 162 of the inner shroud 154 is a concave portion 178 recessed rearward. A hole 172 through which the bolt 170 is inserted is formed in the recess 178 . The bolt 170 is inserted through the hole 172 and screwed into a bolt hole (not shown) of a stay 174 provided on the down frame 20 . The inner shroud 154 is thereby fixed to the down frame 20 .

As shown in FIG. 5 , the inner shroud 154 has uneven portions 176 . The concave-convex portion 176 is composed of at least one concave portion 178 and a plurality of convex portions 180 . The recess 178 is formed by recessing a portion of the inner shroud 154 in the vehicle width direction. The convex portion 180 is formed by causing a portion of the inner shroud 154 to protrude in the vehicle width direction.

Specifically, as shown in FIG. 14 , two recesses 178 are formed by recessing outward in the vehicle width direction on the upper and lower sides of the inner shroud 154 . As a result, as shown in FIG. 15 , the periphery of the two recesses 178 protrudes relatively inward in the vehicle width direction with respect to the two recesses 178 . As a result, a plurality of protrusions 180 are formed so as to surround the recesses 178 . Accordingly, the front end portion 158 of the inner shroud 154 is formed as a convex portion 180 . As shown in FIG. 14 , the inner shroud 154 has a front end portion 158 , an upper portion, a lower portion, a rear portion, and a central portion formed as protrusions 180 surrounding two recesses 178 .

As shown in FIG. 13, each of the two recesses 178 is formed along the front-rear direction. Each of the two recesses 178 becomes wider in the vertical direction as it approaches the rear portion of the inner shroud 154 (see FIG. 15). Also, each of the two recessed portions 178 becomes deeper in the vehicle width direction as it approaches the rear portion of the inner shroud 154 (see FIG. 13). In addition, in this embodiment, at least one recessed part 178 should just be formed along the front-back direction. Further, it is sufficient that at least one recessed portion 178 becomes wider in the vertical direction and deeper in the vehicle width direction as it approaches the rear portion of the inner shroud 154 .

As shown in FIG. 13, among the plurality of protrusions 180, the protrusions 180 other than the front end portion 158 and the rear portion of the inner shroud 154 are formed along the front-rear direction. Each of these protrusions 180 becomes wider in the vertical direction as it approaches the rear portion of the inner shroud 154 . Further, each of these protrusions 180 increases in height in the vehicle width direction as it approaches the rear portion of the inner shroud 154 .

As described above, the two concave portions 178 are recessed outward in the vehicle width direction, so that the plurality of protrusions 180 relatively protrude inward in the vehicle width direction. Therefore, the height of the plurality of protrusions 180 along the vehicle width direction is the height from the bottom surface of the recess 178 on the outside in the vehicle width direction. Moreover, in this embodiment, at least one convex part 180 should just be formed along the front-back direction. Also, the closer the at least one protrusion 180 is to the rear portion of the inner shroud 154, the wider the width in the vertical direction and the higher the height in the vehicle width direction.

As shown in FIG. 3, the shroud 88 is formed with an internal space 182 (see FIG. 5) by connecting the inner shroud 154 and the outer shroud 156 together. A radiator, a canister, various electrical components (not shown), and the like are arranged in the internal space 182 . An inlet 184 is formed at the rear of each of the two recesses 178 . The inlet 184 introduces outside air into the internal space 182 of the shroud 88 . Specifically, while the motorcycle 10 (see FIG. 1) is running, the introduction port 184 introduces running wind, which is outside air, into the internal space 182 . As a result, the radiator, canister, and electrical components are suitably cooled by the running wind.

As shown in FIG. 6 , a plurality of discharge ports 186 are formed in the rear portion of the outer shroud 156 . Running air introduced into the internal space 182 through the inlet 184 (see FIG. 5) is warmed by heat from the radiator, canister, and electrical components. Each discharge port 186 discharges the heated running wind (air) to the outside.

It should be noted that the present invention is not limited to the above-described embodiments, and can take various configurations without departing from the gist of the present invention.

Inventions that can be grasped from the above embodiments will be described below.

An aspect of the present invention is a shroud (88) that covers at least part of a side surface of a fuel tank (40) provided in a straddle-type vehicle (10), wherein the shroud (88) is the straddle-type vehicle. (10), an inner shroud (154) arranged on the inner side in the vehicle width direction, and an outer shroud (156) arranged on the outer side in the vehicle width direction and connected to the inner shroud (154), The inner shroud (154) has an uneven portion (176) formed with at least one recess (178) recessed in the vehicle width direction and a plurality of protrusions (180) projecting in the vehicle width direction. ), and at least one of the projections (180) of the projections (176) is formed at the front end (158) of the inner shroud (154).

In the present invention, by providing the inner shroud with the uneven portion, the durability of the inner shroud against vibration can be improved. Thereby, the occurrence of cracks in the shroud can be suppressed.

That is, it is possible to prevent the shroud from being damaged due to vibration of the vehicle body or the like that accompanies running of the straddle-type vehicle. Thereby, the durability of the shroud can be improved.

In this aspect of the present invention, at least one of the concave portions (178) of the concave and convex portions (176) is formed along the longitudinal direction of the straddle-type vehicle (10), and the straddle-type vehicle ( 10) becomes wider as it approaches the rear portion of the inner shroud (154).

As a result, the uneven portion can be reliably set on the inner shroud (in front of and below the shroud). As a result, the durability of the shroud can be further improved.

In this aspect of the present invention, at least one of the concave portions (178) among the uneven portions (176) is formed along the longitudinal direction of the straddle-type vehicle (10) and has a depth in the vehicle width direction. depth increases as it approaches the rear of said inner shroud (154).

Also in this case, it is possible to reliably set the uneven portion on the inner shroud (in front of and below the shroud). As a result, the durability of the shroud can be further improved.

In the aspect of the present invention, at least one convex portion (180) of the uneven portions (176) is formed along the longitudinal direction of the saddle-ride type vehicle (10), and the straddle-type vehicle ( 10) becomes wider as it approaches the rear portion of the inner shroud (154).

Also in this case, it is possible to reliably set the uneven portion on the inner shroud (in front of and below the shroud). As a result, the durability of the shroud can be further improved.

In this aspect of the present invention, at least one convex portion (180) of the uneven portions (176) is formed along the longitudinal direction of the straddle-type vehicle (10) and has a height in the vehicle width direction. increases as it approaches the rear of said inner shroud (154).

Also in this case, it is possible to reliably set the uneven portion on the inner shroud (in front of and below the shroud). As a result, the durability of the shroud can be further improved.

In an aspect of the present invention, at least one concave portion (178) of said uneven portions (176) is surrounded by a plurality of said convex portions (180).

Thereby, the durability of the shroud can be further improved.

In an aspect of the present invention, the inner shroud (154) is formed at the rear of at least one of the recesses (178) of the recesses (176), and is an introduction for introducing outside air into the shroud (88). It has a mouth (184).

Thereby, the parts arranged inside the shroud can be effectively cooled. Further, it is possible to improve the aerodynamic performance of the straddle-type vehicle.

In an aspect of the present invention, said inner shroud (154) curves closer to said fuel tank (40) as it approaches the rear of said inner shroud (154), and an upper end (160) of said inner shroud (154) curves. ) and the lower end (162) are positioned at the rear portion of the inner shroud (154) and attached to the vehicle body (12) of the straddle-type vehicle (10) or the fuel tank (40).

Conventionally, the front and lower sides of the shroud and the vehicle body were connected via support rods. Alternatively, the front and lower sides of the shroud and the vehicle body are connected via a vehicle component such as a radiator. However, if such a connection structure is visible from the outside, the design of the straddle-type vehicle is degraded. Also, the number of parts of the straddle-type vehicle is increased.

In contrast, in the present invention, as described above, the upper and lower ends of the inner shroud are positioned at the rear portion of the inner shroud and attached to the vehicle body or the fuel tank. As a result, the mounting portion of the inner shroud cannot be seen from the outside, thereby improving the design of the straddle-type vehicle. Also, the number of parts of the straddle-type vehicle can be reduced, and the cost can be reduced. Further, the shroud can be easily extended forward and downward without relying on support bars or vehicle parts. This makes it possible to avoid design restrictions on the shroud. As a result, it is possible to improve the design of the shroud.

DESCRIPTION OF SYMBOLS 10... Motorcycle (straddle-type vehicle) 40... Fuel tank 80... Tank cover 82... Center cover 88... Shroud 98, 100... Upper surface 110... Side cover 112... Front end part 144... Bottom surface 146... Rib part 148... First rib Part 150... Second rib part 154... Inner shroud 156... Outer shroud 176... Concave and convex part 178... Concave part 180... Convex part

Claims (8)

A shroud (88) covering at least part of a side surface of a fuel tank (40) provided in a straddle-type vehicle (10),
an inner shroud (154) disposed inside the straddle-type vehicle (10) in the vehicle width direction;
an outer shroud (156) arranged outside in the vehicle width direction and connected to the inner shroud (154);
with
The inner shroud (154) has an uneven portion (176) formed with at least one recess (178) recessed in the vehicle width direction and a plurality of protrusions (180) projecting in the vehicle width direction. ),
A shroud (88) wherein at least one of said projections (180) of said projections (176) is formed at a front end (158) of said inner shroud (154). The shroud (88) of claim 1, wherein
At least one recessed portion (178) of the uneven portions (176) is formed along the longitudinal direction of the saddle-ride type vehicle (10) and extends in the vertical direction of the saddle-ride type vehicle (10). A shroud (88) whose width increases toward the rear of said inner shroud (154). A shroud (88) according to claim 1 or 2, wherein
At least one recessed portion (178) of the uneven portions (176) is formed along the front-rear direction of the straddle-type vehicle (10) and has a depth in the vehicle width direction of the inner shroud ( 154), the shroud (88) deepening as it approaches the aft portion. A shroud (88) according to any one of claims 1 to 3, wherein
At least one convex portion (180) of the uneven portions (176) is formed along the longitudinal direction of the saddle-ride type vehicle (10) and extends in the vertical direction of the saddle-ride type vehicle (10). A shroud (88) whose width increases toward the rear of said inner shroud (154). A shroud (88) according to any one of claims 1 to 4, wherein
At least one convex portion (180) of the uneven portions (176) is formed along the longitudinal direction of the straddle-type vehicle (10) and has a height in the vehicle width direction that is equal to that of the inner shroud (180). 154), the shroud (88) being taller towards the rear. A shroud (88) according to any one of claims 1 to 5, wherein
A shroud (88) wherein at least one recess (178) of said projections (176) is surrounded by a plurality of said projections (180). A shroud (88) according to any one of claims 1 to 6, wherein
The inner shroud (154) has an inlet (184) that is formed in the rear portion of at least one of the recesses (178) of the recesses (176) and that introduces outside air into the shroud (88). , shroud (88). A shroud (88) according to any one of claims 1 to 7, wherein
the inner shroud (154) curves toward the fuel tank (40) as it approaches a rear portion of the inner shroud (154);
An upper end (160) and a lower end (162) of the inner shroud (154) are located at the rear of the inner shroud (154) and are mounted on the vehicle body (12) of the straddle-type vehicle (10) or the fuel. A shroud (88) attached to the tank (40).

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