JP5601883B2 - Motorcycle - Google Patents

Description

  The present invention relates to a motorcycle including a fuel tank that stores liquid fuel.

  Vehicles such as motorcycles and automobiles that use liquid fuel as an energy source include a fuel tank that stores liquid fuel. In this type of four-wheeled vehicle, a member that suppresses fuel shaking is arranged in the fuel tank, or the side plate of the fuel tank is formed in a wavy shape so that the fuel that shakes forward when the vehicle suddenly stops There has been proposed one that converges swinging (see, for example, Patent Document 1).

JP 2006-321335 A

By the way, in a motorcycle, a situation in which the vehicle body tilts in the left-right direction often occurs when turning or parking. At this time, as the vehicle body tilts, the fuel in the fuel tank is biased to the left and right, and when the vehicle body tilts from one side to the other, the fuel moves to the other side. In the motorcycle formed as described above, the driver's handling of the vehicle body may be affected, or the driver whose head is located in the vicinity of the fuel tank may hear a fuel rocking noise.
In addition, since a motorcycle is a small vehicle in which the fuel tank is located at a high position and has an external design, and the layout space is restricted, it is necessary to change the outer shape of the fuel tank. It is difficult to adopt the fuel tank structure of the above-mentioned four-wheeled vehicle that requires the installation of these parts.

  The present invention has been made in view of the above-described circumstances, and an object of the present invention is to provide a motorcycle that moderately suppresses left-right movement of fuel and is excellent in layout efficiency.

In order to solve the above-described problems, the present invention provides a motorcycle including a vehicle body frame (2) and a fuel tank (32) mounted on the vehicle body frame (2). In addition, a bulging portion (131) that bulges upward is formed between the left and right sides, and is erected upward from the fuel tank bottom plate (111) between the other side and the left and right sides of the fuel tank bottom plate (111). A fuel pump (101) is fixed, and a partition wall (151) extending in the front-rear direction is provided between at least a part above the bulging portion (131) and the fuel pump (101) and between the left and right sides. 111).
According to this configuration, the bulging portion that bulges upward is formed between one side and the left and right sides of the fuel tank bottom plate, and is directed upward from the fuel tank bottom plate between the other side and the left and right sides of the fuel tank bottom plate. The fuel pump to be erected is fixed, and a partition wall extending in the front-rear direction is provided from the fuel tank bottom plate between at least a part above the bulging portion and the fuel pump and between the left and right sides. The fuel pump and the partition wall can be easily laid out in the fuel tank while securing a part arrangement space under the fuel tank by the portion, and the fuel pump and the partition wall can suppress the lateral movement of the fuel. Therefore, the lateral movement of the fuel can be moderately suppressed, the layout efficiency can be improved, and the influence on the handling of the vehicle body and the generation of the fuel rocking noise can be suppressed.

In the above configuration, the vehicle body frame (2) includes a head pipe (11) that holds the front wheel (19) in a steerable manner, and a main frame (12) that extends rearward from the head pipe (11) in a pair of left and right directions. The fuel tank (32) is disposed behind the head pipe (11) and above the main frame (12), and an occupant seat (41) is disposed behind the fuel tank (32). Good.
According to this configuration, the fuel tank is disposed behind the head pipe and above the main frame, and the fuel tank, fuel, Since the pump and the partition wall are configured as described above, the left-right movement of the fuel can be moderated in the vehicle configuration.

Further, in the above configuration, an engine (31) and an air cleaner case (66) for supplying fresh air to the engine (31) are disposed below the fuel tank (32), and the air cleaner case (66) The upper part may enter the bulging part (131) of the fuel tank bottom plate (111).
According to this configuration, the engine and the air cleaner case can be arranged close to each other, the engine output can be increased, and an arrangement space for the air cleaner case can be secured below the fuel tank. Further, since the partition wall is erected using the bulging portion that secures the arrangement space, the lower surface space and the upper surface of the bulging portion can be effectively used. Therefore, it is possible to make the motorcycle excellent in high engine output, easy handling, and layout efficiency.

Further, in the above configuration, a side stand (53) for tilting the vehicle body to one side in the left-right direction is provided, and the partition wall (151) is curved and formed to be concave on the one side in the left-right direction in plan view. You may do it.
According to this configuration, it is possible to effectively suppress the left-right movement of the fuel when the side stand is released and the side stand is released from the tilted state, and the vehicle body is handled from the parked state to the standing state. Can be improved.

Moreover, the said structure WHEREIN: You may make it the said partition (151) arrange | position above the lowest part of the said fuel tank bottom plate (111). According to this configuration, the left-right movement of the fuel can be moderated while preventing the partition wall from obstructing the flow of fuel in the lowest part of the fuel tank 32.
In the above configuration, the portion of the fuel tank bottom plate (111) where the fuel pump (101) is disposed may be formed in a flat plate shape. According to this configuration, a seat surface for fixing the fuel pump can be secured, the flow of fuel around the fuel pump can be made good, and the fuel supply to the fuel pump can be made good. Therefore, it is possible to achieve both fuel supply to the fuel pump while slowing the left-right movement of the fuel.

The present invention forms a bulging portion that bulges upward between one side and the left and right of the fuel tank bottom plate, and stands upward from the fuel tank bottom plate between the other side and the left and right of the fuel tank bottom plate. The fuel pump to be installed is fixed, and a partition wall extending in the front-rear direction is provided between the fuel pump and at least a part above the bulging portion and between the left and right sides. Can be moderately suppressed and the layout efficiency can be improved, and the influence on the handling of the vehicle body and the generation of the fuel oscillation noise can be suppressed.
The vehicle body frame includes a head pipe that holds the front wheels in a steerable manner and a main frame that extends rearward from the head pipe in a pair of left and right sides, and a fuel tank is disposed behind the head pipe and above the main frame. If the occupant seat is arranged at the rear, the left-right movement of the fuel can be moderated in a vehicle configuration in which the left-right movement of the fuel tends to be quicker with the inclination of the vehicle body left-right with the wheel as a fulcrum. it can.

In addition, an engine and an air cleaner case that supplies fresh air to the engine are arranged below the fuel tank, and the upper part of the air cleaner case is placed in the bulging part of the bottom plate of the fuel tank. The motorcycle can be excellent in performance and layout efficiency.
If the vehicle is provided with a side stand that tilts the vehicle body to one side in the left-right direction, and the partition wall is curved so as to be concave on one side in the left-right direction in plan view, the parking state changes to the standing state. The handleability of the vehicle body can be improved.
In addition, if the partition wall is arranged above the lowest part of the fuel tank bottom plate, the left and right movement of the fuel can be moderated while preventing the partition wall from obstructing the flow of fuel in the lowest part of the fuel tank. Can do.
Further, if the portion of the fuel tank bottom plate where the fuel pump is disposed is formed in a flat plate shape, it is possible to achieve both fuel supply to the fuel pump while slowing the left-right movement of the fuel.

1 is a left side view of a motorcycle according to an embodiment of the present invention. It is the enlarged view which looked at the motorcycle from the left side. It is the figure which looked at the motorcycle from the upper part. It is the figure which looked at the engine intake system from the left side with the fuel tank. It is the figure which looked at the engine intake system from the left side with the fuel tank bottom plate. It is a perspective view which shows a fuel tank bottom plate with a periphery structure. (A) is a top view of a partition, (B) is a side view of a partition. It is a perspective view which shows a fuel filler opening with a periphery structure. It is the figure which looked at the fueling inlet from the lower part with the periphery composition.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In the description, descriptions of directions such as front and rear, right and left and up and down are the same as directions relative to the vehicle body unless otherwise specified.
FIG. 1 is a left side view of a motorcycle 1 according to an embodiment of the present invention, FIG. 2 is an enlarged view of the motorcycle 1 as viewed from the left side, and FIG. 3 is a view of the motorcycle 1 from above. FIG. FIG. 3 shows the vehicle width center line L0.
As shown in FIGS. 1 to 3, the motorcycle 1 includes an engine (also referred to as a power unit) 31 that is an internal combustion engine in the front and rear center of a body frame 2, and is located in front of an occupant seat 41 on which an occupant (driver) sits. In addition, the vehicle is a saddle-ride type vehicle provided with a fuel tank 32 above the engine 31.

The body frame 2 of the motorcycle 1 is formed by integrally joining a plurality of metal parts by welding or the like, and includes a head pipe 11 provided at the front end portion thereof and a left and right extending from the upper part of the head pipe 11 to the rear lower side. A pair of main frames 12, a pair of left and right down frames (also referred to as cradle frames) 13 extending downward and downward from the lower portion of the head pipe 11 and a pair of left and right pivots extending downward from the rear of the main frame 12. A plate 14, a pair of left and right seat rails 15 (see FIG. 2) extending rearward and upward from the rear portion of the main frame 12, and a pair of left and right rear stays 16 extending downward and rearward from the upper portion of the pivot plate 14 to the rear of the seat rail 15. I have. The pair of left and right seat rails 15 and the rear stay 16 constitute a rear frame.
A plurality of reinforcing frames 18 (see FIG. 2) are bridged between the main frame 12 and the down frame 13, and the front part of the vehicle body frame is formed in the truss frame by these.

The frame (head pipe 11, main frame 12, down frame 13, seat rail 15, rear stay 16) other than the pivot plate 14 of the vehicle body frame 2 is formed of a metal pipe made of a metal material such as a steel material. It is formed of a plate member made of a metal material such as steel.
The head pipe 11 supports a steering device 20 that steers the front wheels 19. The steering device 20 supports a pair of left and right front forks 24 via a bridge member 22 on a steering pipe (not shown) that is rotatably supported by the head pipe 11, and a handle 25 that a driver steers on the bridge member 22. Is fixed. As a result, the front wheel 19 rotatably supported at the lower ends of the left and right front forks 24 is steered left and right by the driver's handle operation.

  The main frame 12 supports the fuel tank 32 above the front portion thereof, and supports the engine 31 below the fuel tank 32. The fuel tank 32 stores liquid fuel, has a hollow box shape whose front-rear length is larger than the left-right length (= width) (see FIG. 3), and straddles the left and right main frames 12 above the main frame 12. It is arranged and arranged behind the head pipe 11 and in front of the passenger seat 41. The fuel tank 32 has a built-in fuel pump 101 (see FIG. 2) that feeds the fuel in the tank 32.

The pivot plate 14 supports a pivot shaft 36 that rotatably supports the front end portions of the pair of left and right swing arms 35 in parallel with the vehicle width direction, and the pair of left and right swing arms 35 are moved up and down via the pivot shaft 36. Supports swingable. A rear wheel 26 is rotatably supported at the rear end of the swing arm 35, and a rear cushion 37 with a link is interposed between the swing arm 35 and the vehicle body frame 2.
A pair of left and right main step holders 52 for supporting a main step 51 on which a driver's foot is placed are attached to the left and right pivot plates 14.
Further, a side stand 53 for parking in a posture in which the vehicle body is tilted to the left is attached to the pivot plate 14 on one of the left and right sides (left side in this configuration) so as to be retractable.

The seat rail 15 has one end connected to the main frame 12 in a side view and the other end extending relatively rearward and upward toward the rear, and is a passenger seat (hereinafter referred to as a main seat) on which a driver is seated. 41) and an occupant seat (hereinafter referred to as a pillion seat) 42 on which the passenger is seated are supported at an interval in the front-rear direction.
The rear stay 16 has one end connected to the rear ends of the pair of pivot plates 14, and the other end connected to the rear portions of the pair of seat rails 15 with a relatively steep slope extending rearward and upward. A pair of left and right pillion steps 55 for mounting the passenger's feet through 54 are attached.
Further, a rear rear fender (also referred to as a fender hanging portion) 56 extending rearward and rearward of the rear wheel 26 and a rear lamp are formed at the rear of the pillion seat 42, that is, at the rear portion of the seat rail 15 and the rear stay 16. A tail lamp unit 57, a rear blinker 58, and the like are attached.

The engine 31 is a four-cycle single-cylinder water-cooled engine, and a forward-tilt engine in which a cylinder portion 62 is erected upward from the front upper part of the crankcase 61 and a cylinder shaft LC (see FIG. 2) is tilted forward. It is mounted at a substantially central portion in the front-rear direction of the body frame 2.
In the engine 31, the front portion of the crankcase 61 is supported by the lower portion of the down frame (cradle frame) 13, and the rear portion of the crankcase 61 is supported by the pivot plate 14 at a plurality of locations and the vehicle body frame 2 around it. . As a result, the engine 31 is supported in a space below the main frame 12, behind the down frame 13 and in front of the pivot plate 14.

The cylinder part 62 includes a cylinder block 62A connected to the front upper part of the crankcase 61, a cylinder head 62B connected to the upper part of the cylinder block 62A, and a cylinder head cover 62C covering the upper part of the cylinder head 62B. Arranged in a space between the main frame 12 and the down frame 13 in a side view.
As shown in FIG. 2, an engine output gear 61A is provided at the rear portion of the crankcase 61, and a drive chain (hereinafter referred to as a chain) that constitutes a power transmission member between the engine output gear 61A and the rear wheel 26 is provided. 34) is wound, and the power of the engine 31 is transmitted to the rear wheel 26 provided behind the engine 31 via the chain 34.

The engine 31 is water-cooled, and as shown in FIG. 2, a radiator 63 for cooling the engine 31 is supported by the down frame 13 at the front upper side of the engine 31, and engine cooling water is generated by traveling wind from the front of the vehicle body. Cool down.
A throttle body 65 and an air cleaner case 66 constituting an engine intake system are sequentially connected to the back surface of the cylinder portion 62 (the back surface of the cylinder head 62B).
The throttle body 65 has a valve unit that adjusts the amount of air supplied to the engine 31, and an injector (not shown) that injects fuel from the fuel tank 32. Air (fresh air), fuel, Supply. The air cleaner case 66 is a unit that cleans the outside air and supplies fresh air to the throttle body 65, and is disposed on the rear upper side of the throttle body 65.

In the motorcycle 1, the throttle body 65 and the air cleaner case 66 are arranged in the front-rear direction so as to form an intake passage along an inclined line LD extending linearly rearward and upward from the cylinder head 62B of the cylinder portion 62 in a side view. They are arranged side by side. As a result, a straight intake passage is formed, and the intake layout is advantageous for improving the intake efficiency. The inclined line LD is a line that is substantially perpendicular to the cylinder axis LC in a side view.
A single exhaust pipe 70 is connected to the front surface of the cylinder portion 62 (front surface of the cylinder head 62B). The exhaust pipe 70 extends downward from the cylinder portion 62 and extends rearward below the engine 31 to provide a rear wheel. 26 is connected to a single muffler 71 disposed on one side of the left and right sides (the right side in this configuration). The exhaust pipe 70 and the muffler 71 constitute an engine exhaust system.

The motorcycle 1 includes a vehicle body cover 80 that covers substantially the entire vehicle body. The vehicle body cover 80 includes a front cowl 81 that covers the front of the vehicle body and a pair of left and right front side cowls that cover the left and right of the vehicle body front. 82, an under cowl 83 that covers the lower side of the vehicle body, a side cover 84 that covers the left and right sides of the vehicle body at an intermediate position in the longitudinal direction of the vehicle body, and a pair of left and right rear cowls 85 that cover the rear part of the vehicle body.
The front cowl 81 has a cowl shape that covers the head pipe 11 from the front, and a headlight 86 and a pair of left and right rearview mirrors 87 are attached to the front cowl 81.

The front side cowls 82 are provided on the left and right sides of the front cowl 81 and have a substantially triangular shape in a side view in which the vertical width increases from the front to the rear. Cover. A pair of left and right front winkers 88 are attached to the front end of the front side cowl 82. The under cowl 83 is provided below the front side cowl 82 and covers the lower side of the engine 31.
The side cover 84 has a cover shape that covers the space between the fuel tank 32 and the main seat 41 and the vehicle body frame 2 (the main frame 12 and the seat rail 15), and covers the left and right sides of the engine intake system. The rear cowl 85 covers the left and right sides of the seat rail 15 and the rear stay 16 behind the side cover 84.
In FIG. 1, reference numeral 89 is a pair of left and right grab bars provided on the left and right of the pillion seat 42, and 90 is a front fender that is fixed to the front fork 24 and covers the front wheel 19. Reference numeral 91 denotes a front rear fender that is attached to the swing arm 35 and covers the front upper portion of the rear wheel 26.

4 is a view of the engine intake system as viewed from the left side with the fuel tank 32, and FIG. 5 is a view of the engine intake system as viewed from the left side together with the fuel tank bottom plate 111.
The air cleaner case 66 includes a box-shaped upper air cleaner case 67 having an open bottom surface and a box-shaped lower air cleaner case 68 having an open top surface, and the upper air cleaner case 67 and the lower air cleaner case 68 are aligned with each other. It is formed in the box shape of the upper and lower halves assembled.
The upper air cleaner case 67 has a bulging shape that bulges upward, and a concave portion 67A that is recessed rearward and downward is provided in the front upper portion of the case 67, and an opening is formed in a front wall 67B that constitutes a part of the concave portion 67A. The throttle body 65 is connected to the air outlet portion via a connecting part (connecting tube) 69. An intake duct (not shown) is connected to the lower rear portion of the lower air cleaner case 68, and outside air is introduced into the case 68 through the intake duct.

An air filter (not shown) is disposed between the upper and lower air cleaner cases 67 and 68, and the air (outside air) introduced into the lower air cleaner case 68 is cleaned while flowing into the upper air cleaner case 67. In this case, the air flowing upward from the lower air cleaner case 68 is cleaned and enters the upper air cleaner case 67, so that clean air flows upward into the upper air cleaner case 67 to form the upper surface 67C of the case 67. The air is smoothly guided forward along the upwardly convex curved surface, and the clean air smoothly flows toward the throttle body 65.
That is, in this configuration, the upper surface 67C of the air cleaner case 66 is formed as an upward convex curved surface (bulged surface), so that the upper surface 67C functions as a guide surface for guiding clean air toward the engine 31.

A maintenance opening 68A (see FIG. 3) that allows the air filter to be taken in and out is provided at the rear upper part of the lower air cleaner case 68 to facilitate attachment and detachment of the air filter. The maintenance opening 68A is closed by a maintenance lid (not shown).
The upper air cleaner case 67 is integrally provided with a plurality of feet 67D placed on the upper surface of the vehicle body frame 2 (seat rail 15), and these feet 67D are fastened by fastening members from above. As a result, the air cleaner case 66 is fixed to the vehicle body frame 2.

Between the pair of left and right seat rails 15, a gate-shaped tank support stay 93 is fixed by a fastening member 94 so as to straddle the rear portion of the air cleaner case 66 from above, and the fuel tank 32 is attached to the tank support stay 93. The rear part is fixed by a pair of left and right fastening members 94. The front portion of the fuel tank 32 is fixed to a fastening portion 12F provided at the front end portion of the main frame 12 of the vehicle body frame 2 with a single fastening member 96.
The fuel tank 32 includes a fuel tank bottom plate 111 and a fuel tank outer wall body 112 that covers the fuel tank bottom plate 111 from above and forms a fuel space between the fuel tank bottom plate 111 and the vehicle width center line L0. Are formed symmetrically.

FIG. 6 is a perspective view showing the fuel tank bottom plate 111 together with the peripheral configuration.
The fuel tank bottom plate 111 includes a front bottom 121 formed on a substantially flat flat surface, and a rear bottom (bulging portion) 131 formed on a bulging surface that is continuous with the rear edge of the front bottom 121 and bulges upward. Are formed as a single flat plate. More specifically, the front bottom 121 has a central portion 121A located at the front and rear center and the left and right center formed on a flat surface that constitutes the deepest portion of the fuel tank 32, and the periphery of the front bottom 121 is gently forward and left and right outside. It is formed in the inclined surface 121B which inclines upwards.

As shown in FIG. 5, the fuel pump 101 includes a cylindrical pump body 101A that is long in the vertical direction, and a flange portion 101B that is integrally provided at a lower portion of the pump body 101A. The flange portion 101B is fastened to the central portion 121A of the front bottom portion 121 by a fastening member (not shown), whereby the fuel pump 101 is fixed to the fuel tank bottom plate 111.
The pump main body 101A is erected upward in the fuel tank 32. The pump main body 101A sucks the fuel in the fuel tank 32 and supplies it to the injector at a predetermined pressure via a fuel hose (not shown). Parts are arranged. The pump body 101A is provided with a sender (also referred to as a fuel level unit) 101C that detects the remaining amount of fuel in the fuel tank 32.

As shown in FIG. 6, the rear bottom portion 131 of the fuel tank 32 is connected to the front inclined surface 131 </ b> A that is inclined rearward and upward from the rear edge of the front bottom portion 121 and the rear portion of the front inclined surface 131 </ b> A. , And a rear inclined surface 131C that is inclined rearward and downward from the uppermost surface 131B. These are arranged along the upper surface 67C of the air cleaner case 66 disposed below the fuel tank 32. A bulging portion (curved surface) that bulges out is formed, so that a space for arranging a large-capacity air cleaner case 66 on the fuel tank bottom plate 111 is secured.
In this configuration, a partition wall 151 is attached to the left and right center portion of the rear bottom portion 131 so as to stand upward and extend in the front-rear direction.

7A shows a top view of the partition 151, and FIG. 7B shows a side view of the partition 151. FIG.
The partition wall 151 is formed by bending a single plate member. The partition wall plate portion 151A has a substantially triangular shape as viewed from the side and extends upward in the front-rear direction from the rear bottom portion 131, and the partition wall plate portion 151A. A plurality of legs 151B, 151C, and 151D that are bent from the lower edge to either the left or right are integrally provided.
As shown in FIG. 5, the partition plate 151 </ b> A has a front edge LF positioned behind the fuel pump 101 and an upper edge LU substantially the same as the upper surface of the fuel pump 101. Located at the height, the rear edge LR is located on the uppermost surface 131 </ b> B of the rear bottom portion 131.
Further, as shown in FIG. 7A, the partition plate portion 151A is divided into three partition plates, that is, a front partition plate PF, an intermediate partition plate PM, and a rear partition plate PR with a space in the front-rear direction. The front and rear partition plates PF and PR with respect to the partition plate PM are bent to the side stand 53 side (the side that is lowered during parking), and the shape of the partition plate portion 151A is convexly curved to the right in top view, in other words, It is formed in a shape that curves concavely on the left side. In place of the bending method, the entire surface may be curved so as to be concavely curved to the left in top view.

A separate foot 161B is joined to the front partition plate PF on the opposite side of the foot 151B formed by bending the lower portion of the front partition plate PF, thereby providing a pair of left and right feet 151B and 161B. .
The intermediate partition plate PM is also provided with a separate foot portion 161C on the opposite side of the foot portion 151C formed by bending the lower portion of the intermediate partition plate PM, and a pair of left and right foot portions 151C and 161C.
The separate foot portion 161C is integrally formed with a base plate 161D joined to the foot portion 161B of the front partition plate PF and the foot portion 151C of the intermediate partition plate PM. The pedestal plate 161D extends in the front-rear direction on the right side of the partition wall 151 to increase the contact area and the joining area with the fuel tank bottom plate 111, and effectively avoids the partition wall 151 from falling to the right side and to the front-rear direction.

Further, only the foot portion 151D formed by bending the lower portion of the rear partition plate PR is formed on the rear partition plate PR. That is, each partition plate PF, PM, PR is formed with legs 151B to 151D that are integral with the partition plates PF, PM, PR, and apart from the rear partition plate PR having the lowest height, it is separately provided on the other side. The foot portions 161B and 161C are provided as members, and thus, for the partition plates PF and PM having a high height, the foot portions 151B, 161B, 151C, and 161C are provided on the left and right sides, and the left-right falling is effectively prevented. The
Further, the left foot portions 151B and 151D of the partition wall 151 are provided with a pair of front and rear pedestal plates 162A and 162B that extend in the front-rear direction and expand the contact area and the joint area with the fuel tank bottom plate 111, and these pedestal plates 162A, 162B and the leg portion 161C between the base plates 162A and 162B effectively prevent the partition wall 151 from falling to the left side and from falling back and forth.
In FIG. 7, symbols RA and RB are reinforcing ribs that protrude from the partition plate portion 151A to the left or right and extend in the vertical direction. These reinforcement ribs RA and RB include the partition plate portion 151A and the foot portion. 151B, 161B, and 151C are provided in the connection part, and the rigidity of this part is improved.

As shown in FIG. 6, the right pedestal plate 161D is joined to the front inclined surface 131A of the rear bottom 131 of the fuel tank bottom plate 111, and the left front pedestal plate 162A and foot 161C are also connected to the front inclined surface 131A. Be joined.
Further, the left rear pedestal plate 162B is joined from the uppermost surface 131B of the rear bottom 131 to the rear inclined surface 131C. As a result, the left and right sides of the partition wall 151 are joined to the fuel tank bottom plate 111 in a wide range, and the support strength of the partition wall 151 can be sufficiently secured.

By the way, in this type of motorcycle 1, since the vehicle body tilts in the left-right direction when parking using the side stand 53 or turning, the fuel in the fuel tank 32 moves to the tilted side along with the left-right tilt. This left and right movement of the fuel may affect the handling of the vehicle body when the driver raises the vehicle body from the parked state, or may affect the driving operation when turning.
Further, in the present vehicle 1, since the fuel tank 32 is located at the front upper side of the vehicle body and is close to the driver, the influence of the left and right movement of the fuel on the vehicle body is likely to increase, and the driver does not shake the fuel. There is also a risk of moving sounds.
As described above, in this configuration, as shown in FIGS. 4 and 5, the fuel pump 101 is provided between the front left and right sides of the fuel tank 32 so as to stand upward from the fuel tank bottom plate 111. In addition, since the partition wall 151 extending in the front-rear direction is erected from the fuel tank bottom plate 111, the fuel in the fuel tank 32 is moved along the left-right direction by the fuel pump 101 and the partition wall 151 when the vehicle body is tilted in the left-right direction. The movement is hindered, and the fuel pump 101 and the partition wall 151 are bypassed and moved to the left and right sides.

For this reason, the left-right movement of the fuel in the fuel tank 32 becomes gentle, and the left-right movement speed can be slowed down. Therefore, when the vehicle body is tilted in the left-right direction, it is possible to suppress the influence on the handling of the vehicle body and the generation of fuel rocking noise.
In addition, since the fuel pump 101 and the partition wall 151 behind the fuel pump 101 suppress the lateral movement of the fuel, the partition wall 151 is not enlarged in the front-rear direction, and the fuel pump 101 and the partition wall 151 are efficiently installed in the fuel tank 32. Can be placed well.
In addition, since the partition wall 151 is curved so as to be concave toward the side stand 53 side, the left and right sides of the fuel when the side stand 53 is released from the tilted state with the side stand 53 and the side stand 53 is released to the upright state. The movement can be efficiently suppressed. Therefore, the handleability of the vehicle body from the parking state to the standing state can be improved.

  Further, the partition wall 151 is provided across the front inclined surface 131A and the uppermost surface 131B of the rear bottom portion (bulged portion) 131 that bulges upward in the fuel tank bottom plate 111, so that the vehicle body tilts left and right. At this time, the partition wall 151 prevents the fuel in the fuel tank 32 from climbing up to a high position of the bulging portion (rear bottom portion 131) and moving left and right at a relatively high speed with a difference in height. it can. Accordingly, it is possible to avoid a situation in which the fuel moves left and right at a high speed due to a difference in height while securing the arrangement space for the parts under the fuel tank 32 (in this configuration, the air cleaner case 66). In addition, generation of fuel oscillation noise can be further suppressed.

Further, in this configuration, when the vehicle body tilts to the left and right, the fuel flows around the fuel pump 101, so that the fuel can always be collected around the fuel pump 101, and the partition wall 151 is formed from the front bottom 121. Since it is provided on the rear bottom portion 131 at a higher position, the left and right movement of the fuel can be prevented from being hindered by the partition wall 151 when the remaining amount of fuel is small.
In other words, the present configuration is configured such that the path of the left-right movement of the fuel varies depending on the remaining amount of fuel in the fuel tank 32. Hereinafter, as shown in FIG. 5, when the fuel remaining amount is substantially full level L1 (hereinafter referred to as “full level L1”), the fuel level is lower than the full level L1, and the rear bottom portion (bulging portion) 131 In the case of the level L2 higher than the uppermost surface 131B (hereinafter referred to as “intermediate level L2”) and the level lower than the intermediate level L2 and the fuel remaining amount higher than the reserve level L4 having the minimum amount (hereinafter referred to as “low level L3”). And the case of the reserve level L4 will be described.

First, in the case of the full level L1, the fuel does not easily move in the fuel tank 32, so that the fuel is not biased. In this case, since it is not necessary to particularly suppress the lateral movement of the fuel, as shown in FIG. 5, the partition wall 151 of this configuration is set to a height that is about the lower limit value of the full level L1, and is within the range of the full level L1. It is not particularly involved in the movement of fuel. In this case, the partition 151 can be prevented from increasing in size upward, the partition 151 can be reduced in size, and a decrease in tank capacity due to the partition 151 can be suppressed.
Next, in the case of the intermediate level L2, when the vehicle body tilts to the left and right, the fuel may move left and right, which may affect the handling of the vehicle body and generate fuel oscillation noise. In this configuration, as shown in FIG. 5, the height of the partition wall 151 is set to a height that covers the intermediate level L2.
For this reason, when the vehicle body tilts left and right, the fuel on the front side of the fuel tank 32 moves in the left and right direction while bypassing the periphery of the fuel pump 101 back and forth, and the fuel on the rear side of the fuel tank 32 bypasses the front and rear of the partition wall 151. However, the fuel flows in the left-right direction, so that the left-right movement of the fuel can be moderated. In other words, when a relatively large amount of fuel is stored, although the tank is not full, the fuel is bypassed in the front and rear spaces (detours) S1 and S2 of the fuel pump 101 and the rear space (detour) S3 of the partition wall 151, The moving length of the fuel can be lengthened to efficiently suppress the left-right moving speed of the fuel.

Even in the case of the low level L3, when the vehicle body tilts to the left and right, the fuel moves left and right, which may cause an influence on the handling of the vehicle body and generation of a fuel rocking noise. At this low level L3, most of the fuel is stored in front of the uppermost surface 131B in the fuel tank 32. Therefore, when the vehicle body tilts to the left and right, the fuel is pumped by the fuel pump 101 in the space before and after the fuel pump 101 (bypassing). Road) S1 and S2 are guided, and the partition 151 is guided to the rear space S2 of the fuel pump 101. That is, when the amount of fuel is relatively small, the fuel is allowed to flow slowly by flowing the fuel only in the front and rear spaces (detours) S1 and S2 of the fuel pump 101, and relatively little fuel is always supplied around the fuel pump 101. I keep it in the pool.
Further, in the case of the reserve level L4, since the amount of fuel is small, it is considered that there is almost no influence on the handling of the vehicle body and the generation of fuel oscillation noise even if the fuel moves left and right. In this configuration, since the partition wall 151 is provided at a position higher than the reserve level L4, the partition wall 151 does not hinder the movement of fuel at the reserve level L4. Therefore, the partition wall 151 does not increase in size downward, the partition wall 151 can be reduced in size, and the tank capacity (particularly, reserve capacity) can be prevented from being lowered by the partition wall 151. Can be stored.

Next, the fuel filler port 33 of the fuel tank 32 will be described.
As shown in FIG. 4, in the motorcycle 1, a fuel filler port 33 is provided directly above the fuel pump 101, and below the fuel filler port 33, a gap is formed between the fuel filler port 33 and a gap. A substantially U-shaped bridging member 171 is provided to cover from above.
Here, FIG. 8 is a perspective view showing the fuel filler port 33 together with the peripheral configuration, and FIG. 9 is a view of the fuel filler port 33 viewed from below together with the peripheral component.
As shown in FIG. 8, the bridging member 171 includes a plate member 171 </ b> A disposed with a space in the vertical direction between the lower opening 33 </ b> A of the fuel filler port 33, and a pair that bends upward from both ends of the plate member 171 </ b> A. The upper portion of the foot portion 171B is joined to a substantially disk-shaped plate member 33B that forms a lower opening 33A of the fuel filler port 33. As shown in FIG. 9, the plate member 171 </ b> A is formed in a shape covering the opening of the fuel filler port 33 in a plan view so that the fuel pump 101 cannot be seen from above the fuel filler port 33.
Further, the plate member 171A has a bulging shape that bulges upward in a cross-sectional view, and the fuel supplied to the fuel filler port 33 is distributed to the left and right by the plate member 171A so that the fuel is smoothly fed into the fuel tank 32. It also functions as a guide member for sending to In the figure, reference numerals 172 and 173 are pipes connected to the periphery of the fuel filler 33.

As described above, according to this configuration, the rear bottom portion (bulging portion) 131 that bulges upward is formed between the rear and left and right of the fuel tank bottom plate 111, and the front and left and right of the fuel tank bottom plate 111. The fuel pump 101 standing upward from the fuel tank bottom plate 111 is fixed therebetween, and at least a part (the front inclined surface 131A and the uppermost surface 131B) above the rear bottom portion (bulging portion) 131 and the fuel pump 101. Since the partition wall 151 extending in the front-rear direction is provided upright from the fuel tank bottom plate 111 between the right and left sides of the fuel tank 101, the left and right movement of the fuel is suppressed, and the components under the fuel pump 101, the partition wall 151, and the fuel tank 32 are suppressed. The layout efficiency of the air cleaner case 66 or the like can be improved. Therefore, it is possible to suppress the influence on the handling of the vehicle body and the generation of the fuel rocking noise.
In this configuration, the fuel pump 101 is disposed in front of the rear bottom portion (bulging portion) 131 and on the side of the detour S3 by the partition wall 151, so that the fuel suction into the fuel pump 101 is not affected.
Further, since the partition wall 151 is formed between at least a part (the front inclined surface 131A and the uppermost surface 131B) above the rear bottom portion (bulging portion) 131 and the fuel pump 101, the longitudinal length and the vertical length of the partition wall 151 are increased. It can suppress as much as possible, and can achieve weight reduction by size reduction of the partition 151, and prevention of the fall of a tank capacity | capacitance.

The motorcycle 1 has a vehicle configuration in which a fuel tank 32 is disposed behind the head pipe 11 and above the main frame 12, and an occupant seat 41 is disposed behind the fuel tank 32. However, the fuel pump 101 and the partition wall 151 are configured as described above with respect to the fuel tank 32. With the above vehicle configuration, the left-right movement of the fuel can be moderated.
An engine 31 and an air cleaner case 66 for supplying fresh air to the engine 31 are disposed below the fuel tank 32, and the upper portion of the air cleaner case 66 is located in the rear bottom portion (bulging portion) 131 of the fuel tank bottom plate 111. Therefore, the engine 31 and the air cleaner case 66 can be disposed close to each other. Therefore, it is possible to increase the output of the engine 31 and to secure an arrangement space for the air cleaner case 66 below the fuel tank 32. In addition, since the partition wall 151 is erected by using the rear bottom portion (bulging portion) 131 that secures the arrangement space, the lower surface space and the upper surface of the rear bottom portion (bulging portion) 131 can be effectively used. It becomes possible to provide a motorcycle that is superior in engine output, handleability, and layout efficiency.

Further, in this configuration, the vehicle is provided with a side stand 53 that tilts the vehicle body to one side in the left-right direction, and the partition wall 151 is formed so as to be concave on one side in the left-right direction in plan view. Thus, the left-right movement of the fuel when the side stand 53 is released from the tilted state to the standing state can be effectively suppressed, and the handleability of the vehicle body from the parking state to the standing state can be improved.
In addition, since the partition wall 151 is disposed above the front bottom portion 121 which is the lowest portion of the fuel tank bottom plate 111, the fuel flow in the lowest portion of the fuel tank 32 is prevented from being hindered by the partition wall 151. The movement can be made gradual.

  Further, the portion of the fuel tank bottom plate 111 where the fuel pump 101 is disposed is formed in a flat plate shape, so that a seating surface for fixing the fuel pump 101 can be secured and the flow of fuel around the fuel pump 101 is improved. The fuel supply to the fuel pump 101 can be improved. Therefore, it is possible to achieve both fuel supply to the fuel pump 101 while slowing the left-right movement of the fuel.

The above-described embodiment is merely an aspect of the present invention, and can be arbitrarily modified and applied without departing from the gist of the present invention.
For example, in the above embodiment, the case where the partition wall 151 is arranged across the front inclined surface 131A and the uppermost surface 131B of the rear bottom portion (bulging portion) 131 that bulges upward is not limited thereto. You may make it arrange | position to at least one part between 131 A of front side inclined surfaces and 131 C of back side inclined surfaces.
In the above embodiment, a rear bottom portion (bulging portion) 131 bulging upward is formed between the rear and left and right of the fuel tank bottom plate 111, and the fuel tank is disposed between the front and left and right of the fuel tank bottom plate 111. Although the case where the fuel pump 101 erected upward from the bottom plate 111 is fixed and the partition wall 151 is provided above the rear bottom portion (bulging portion) 131 has been described, the present invention is not limited thereto.

For example, when vehicle parts such as the air cleaner case 66 are arranged close to the lower part of the front part of the fuel tank 32, the vehicle parts are arranged in front of the fuel tank bottom plate 111 and between the left and right sides in order to secure an arrangement space for the vehicle parts. A bulging front bottom portion (bulging portion) 121 is formed, and a fuel pump 101 erected upward from the fuel tank bottom plate 111 is fixed to the rear and between the left and right sides of the fuel tank bottom plate 111 to fix the front bottom portion (bulging portion). A partition wall 151 may be provided above the exit portion 121.
In short, a bulging portion that bulges upward is formed between one side and the left and right sides of the fuel tank bottom plate 111, and is directed upward from the fuel tank bottom plate 111 between the other side and the left and right sides of the fuel tank bottom plate 111. The fuel pump 101 standing upright may be fixed, and the partition wall 151 may be provided above the bulging portion.

  In the above embodiment, the case where the present invention is applied to the fuel tank structure of the motorcycle 1 shown in FIG. 1 has been described. be able to. The saddle-ride type vehicle includes all vehicles that ride on the vehicle body, and includes not only motorcycles (including bicycles with motors) but also three-wheeled vehicles and four-wheeled vehicles classified as ATVs (rough terrain vehicles). It is a vehicle including.

1 Motorcycle (saddle-ride type vehicle)
2 body frame 11 head pipe 12 main frame 19 front wheel 31 engine 32 fuel tank 41 passenger seat 53 side stand 66 air cleaner case 101 fuel pump 111 fuel tank bottom plate 131 rear bottom portion (bulging portion)
151 Bulkhead

Claims (6)

In a motorcycle including a vehicle body frame (2) and a fuel tank (32) mounted on the vehicle body frame (2),
A bulging portion (131) that bulges upward is formed between one side and the left and right of the fuel tank bottom plate (111), and the fuel tank bottom plate (111) is formed between the other side and the left and right of the fuel tank bottom plate (111). 111) and fix the fuel pump (101) standing upward from
A partition wall (151) extending in the front-rear direction is provided upright from the fuel tank bottom plate (111) between at least a part above the bulging portion (131) and the fuel pump (101) and between the left and right. A characteristic motorcycle. The vehicle body frame (2) includes a head pipe (11) that holds the front wheels (19) in a steerable manner, and a main frame (12) that extends rearward from the head pipe (11) in a pair of left and right directions,
The fuel tank (32) is disposed behind the head pipe (11) and above the main frame (12), and an occupant seat (41) is disposed behind the fuel tank (32). Item 2. The motorcycle according to item 1.   An engine (31) and an air cleaner case (66) for supplying fresh air to the engine (31) are arranged below the fuel tank (32), and the upper portion of the air cleaner case (66) is the fuel tank bottom plate. The motorcycle according to claim 1 or 2, wherein the motorcycle (111) enters the bulging portion (131).   A side stand (53) for tilting the vehicle body to one side in the left-right direction is provided, and the partition wall (151) is formed to be curved so as to be concave on one side in the left-right direction in plan view. Item 4. The motorcycle according to any one of Items 1 to 3.   The motorcycle according to any one of claims 1 to 4, wherein the partition wall (151) is disposed above a lowest part of the fuel tank bottom plate (111).   The motorcycle according to any one of claims 1 to 5, wherein a portion of the fuel tank bottom plate (111) where the fuel pump (101) is disposed is formed in a flat plate shape.

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