JP2011074768A - Fuel supply device for motorcycle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fuel supply device which is used for a motorcycle having a fuel pump unit and a fuel filter device outside a fuel tank, reinforced at a fuel pipe installation part, and enables the installation space to be saved. <P>SOLUTION: This fuel supply device for a motorcycle 1 includes a power unit 30, a fuel injection device 45, the fuel tank 50, the fuel pump unit 51 which is installed outside the fuel tank and supplies the fuel to the fuel injection device, and the fuel filter device 55 joined to the downstream side of the fuel pump unit. The fuel tank includes three joints comprising a feed joint 70 joined to the fuel pump unit through a fuel feed pipe 52, a breather joint 71 joined to the fuel pump unit through a fuel breather pipe 53, and return joint 72 joined to a pressure regulator 58 through a fuel return pipe 59. These joints extend through a single reinforcement plate 73, and are fixed to the fuel tank. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a fuel supply device for a motorcycle, and more particularly, to a fuel supply device in which a fuel pipe mounting portion is reinforced and space-saving.

  In a motorcycle fuel supply device, a fuel pump unit arranged in a fuel tank is shown in Patent Document 1 below. Since the fuel filter device is attached to the fuel tank in addition to the fuel pump unit, the one disclosed in Patent Document 1 includes a suction pipe for connecting the fuel pump unit to the fuel filter device, and the fuel pump unit as a fuel. A discharge pipe for connecting to the injection device and a suction pipe for connecting the fuel tank to the fuel filter device are respectively connected to the fuel tank.

Japanese Patent No. 4188969 (FIGS. 1 to 4, 10, and 11)

Unlike the one disclosed in Patent Document 1 above, when the fuel pump unit and the fuel filter device are arranged outside the fuel tank, there is no flange for attaching them to the fuel tank. It is necessary to ensure the rigidity of the piping part.
In particular, in the case of a motorcycle using a mixed fuel of gasoline and ethanol, it is highly necessary to provide a fuel filter device on the downstream side of the fuel pump unit in order to remove dust in the ethanol. May be required to be installed outside the fuel tank.

  The present invention provides a fuel pipe mounting portion even in a motorcycle in which the fuel pump unit is provided outside the fuel tank due to restrictions from the fuel tank and the fuel filter device needs to be provided on the downstream side of the fuel pump unit. An object of the present invention is to provide a fuel supply device for a motorcycle that can be reduced in size and space-saving, with no problems in connection and arrangement of fuel pipes between the fuel tank and the fuel tank. .

  In order to achieve the above object, an invention according to claim 1 is provided in a power unit including an internal combustion engine, a fuel injection device attached to the power unit, a fuel tank, and an outside of the fuel tank, Fuel supply in a motorcycle comprising a fuel pump unit for supplying fuel in the fuel tank to the fuel injection device via a fuel passage, and a fuel filter device connected to the downstream side of the fuel passage from the fuel pump unit A fuel feed unit connected to the fuel pump unit by a fuel feed pipe, a feed joint through which fuel sent from the fuel tank to the fuel pump unit passes, and a fuel breather pipe connected to the fuel pump unit; Breather through which fuel or vapor recirculated from the fuel pump unit to the fuel tank passes The fuel is connected to the fuel by a fuel return pipe connected to a pressure regulator provided on the downstream side of the fuel pump unit, and a return joint through which fuel recirculated from the pressure regulator to the fuel tank passes. The fuel supply device for a motorcycle is provided in a tank, wherein the three joints are fixed to the fuel tank through a single reinforcing plate.

  According to a second aspect of the present invention, in the fuel supply device for a motorcycle according to the first aspect, the three joints are collectively arranged at a lowermost part of the bottom of the fuel tank. To do.

  According to a third aspect of the present invention, in the fuel supply device for a motorcycle according to the first or second aspect, the fuel tank has a vehicle width so as to straddle a vehicle body frame oriented in a longitudinal direction of the vehicle body at the bottom thereof. A concave portion extending in the longitudinal direction of the vehicle body and recessed upward is formed in the center of the direction and a side bottom portion sandwiching the concave portion is formed, and the concave portion is formed to be narrow toward the rear of the vehicle body, The three joints are collectively provided on the side bottom at a position where the side bottom overlaps with the vehicle body frame when viewed in the vehicle width direction.

  According to a fourth aspect of the present invention, in the fuel supply device for a motorcycle according to the third aspect, the reinforcing plate is formed so as to follow the shape of the side bottom portion.

  According to a fifth aspect of the present invention, in the fuel supply device for a motorcycle according to the third or fourth aspect, the three joints are arranged side by side in the vehicle front-rear direction.

  According to a sixth aspect of the present invention, in the fuel supply device for a motorcycle according to any one of the first to fifth aspects, the return joint of the three joints is higher than the other joints at the fuel. It is arranged so as to open in the tank.

  According to a seventh aspect of the present invention, in the fuel supply device for a motorcycle according to any one of the first to sixth aspects, the fuel tank is provided for positioning the reinforcing plate on the inner surface of the bottom portion thereof. A protrusion is formed, the reinforcing plate is attached, and a clip for fixing wiring and piping is provided at a position of a recess on the outer surface of the bottom formed by molding the protrusion. To do.

  According to the fuel supply device for a motorcycle of the first aspect of the invention, the three joints of the feed joint, the breather joint, and the return joint provided in the fuel tank are reinforced by the single reinforcing plate. Is reduced and it becomes easy to fix to the fuel tank. In addition, the rigidity of the piping outside the fuel tank of a motorcycle having a fuel pump unit and a fuel filter device provided outside the fuel tank is ensured, and compact piping can be arranged, thereby saving space in the fuel supply device. It is done.

  According to the invention of claim 2, in addition to the effect of the invention of claim 1, it is possible to reinforce a plurality of joints with a small reinforcing plate, and to reduce the remaining amount of fuel in the fuel tank.

  According to the invention of claim 3, in addition to the effect of the invention of claim 1 or 2, the bottom of the fuel tank is compactly formed, and a space for fixing the reinforcing plate is secured at the bottom of the fuel tank. Thus, space saving of the fuel supply device can be achieved.

  According to the invention of claim 4, in addition to the effect of the invention of claim 3, positioning of the reinforcing plate is facilitated, and the mutual distance of each joint can be secured.

  According to the invention of claim 5, in addition to the effect of the invention of claim 3 or claim 4, the side bottom part of the fuel tank can be narrowed, and the entire bottom part can be formed narrower.

  According to the invention of claim 6, in addition to the effect of the invention of any one of claims 1 to 5, the end opening of the return joint for the return fuel from the pressure regulator is the uppermost part of the three joints. It is possible to improve the protection against the inflow of dust in the fuel tank to the pressure regulator.

  According to the invention of claim 7, in addition to the effect of the invention of any one of claims 1 to 6, positioning of the reinforcing plate on the inner surface of the bottom of the fuel tank and the fuel tank by the recess formed on the outer surface of the bottom of the fuel tank Two functions of wiring by a clip on the outer surface of the bottom portion and fixing of piping can be achieved.

1 is a side view showing a main part of a motorcycle provided with a fuel supply device for a motorcycle according to an embodiment of the present invention. FIG. 2 is an enlarged side view of a power unit peripheral portion in the side view of FIG. 1. FIG. 3 is a bird's-eye perspective view showing a device arrangement around a power unit, as viewed in the direction of arrow III in FIG. 2. FIG. 4 is a perspective view looking up at the rear part of the power unit and the fuel pump, as viewed in the direction of arrow IV in FIG. 2. FIG. 4 is a device arrangement explanatory view showing the left side surface around the power unit, as viewed from the direction of arrow V in FIG. 3. FIG. 6 is a device arrangement explanatory diagram showing the power unit as viewed in the direction of arrow VI in FIG. 5. FIG. 7 is an explanatory view of device arrangement, excluding the power unit, as viewed in the direction of arrow VII in FIG. FIG. 8 is a perspective view of the fuel filter device as viewed in the direction of arrow VIII in FIG. 7. FIG. 9 is a perspective view of the fuel filter device as viewed in the direction of arrow IX in FIG. (A) is a side view of the fuel tank of this embodiment, (b) is a fuel tank bottom face whole view by the Xb arrow in this figure (a). (A) is side surface sectional drawing of the reinforcement plate periphery part of the XI part in FIG. 10, (b) is a fuel tank bottom face partial view of the reinforcement plate periphery part by the XIb arrow in this figure (a). is there. In addition, this figure (a) becomes side surface sectional drawing by the XIa arrow in this figure (b).

A fuel supply device for a motorcycle according to an embodiment of the present invention will be described with reference to FIGS.
In each figure, a part of each device and member is cut out, and devices, members, fenders, covers and the like outside the main part of the present invention are not shown.
The small arrows attached to the equipment and piping in each figure schematically indicate the fuel flow direction.
Further, the directions such as front, rear, left, right, up and down in the description of the present specification shall follow the direction of the vehicle (motorcycle) in a state in which the motorcycle fuel supply device of the present embodiment is provided in the motorcycle. In the figure, arrow FR indicates the front of the vehicle, LH indicates the left side of the vehicle, RH indicates the right side of the vehicle, and UP indicates the upper side of the vehicle.
Further, in the present specification, the “vertical direction” is not limited to a strict vertical direction, and includes a direction having a larger vertical direction component than a horizontal direction component.

FIG. 1 shows a main part of a left side surface of a motorcycle 1 according to an embodiment of the present invention.
The body frame 2 of the motorcycle 1 extends downward from the head pipe 3, one main frame 4 extending obliquely downward and rearward from the head pipe 3 and oriented in the vehicle front-rear direction, and the rear end of the main frame 4. A center frame 5, a down frame 6 extending downward from the head pipe 3, a pair of left and right seat stays 7 extending obliquely upward and rearward from the main frame 4, and a pair of left and right connecting the seat stay 7 near the lower end of the center frame 5. And a reinforcing frame 9 that connects the down frame 6 and the main frame 4 to each other.

The center frame 5 branches downward from the joint with the main frame to form a pair of left and right left center frames 5a and 5b, and the down frame 6 extends downward to attach a front bracket 25 for supporting the power unit 30. Branching below the section, bent to the rear as a pair of left and right left down frames 6a and 6b, extending substantially horizontally and joined to the lower ends of the left and right center frames 5a and 5b, respectively. Yes.
In the following description, when there is no need to point out the left and right, the left and right are simply referred to as “center frame 5” and “down frame 6”.

  A front fork 11 that pivotally supports the front wheel 10 is supported by a steering stem (not shown) provided in the head pipe 2, a top bridge 12, and a bottom bridge 13 so as to be steerable. A steering handle 14 is connected to the top bridge 12, and a meter device 15 is attached to the front side of the top bridge 12. A headlight 17 covered with a cowl 16 is attached to the top bridge 12 and the bottom bridge 13. A seat 18 is attached on the seat stay 7.

A swing arm 20 that pivotally supports the rear wheel 19 is supported at the rear portion of the center frame 5, and a front end side thereof is pivotally supported by a pivot bracket 21 provided on the center frame 5 by a pivot shaft 22 in the vehicle width direction. .
Further, a rear cushion 23 is provided in the vertical direction in front of the rear wheel 19 between the seat stay bracket 7a provided on the attachment portion of the seat stay 7 to the main frame 4 and the swing arm 20. The swing arm 20 is supported by the rear cushion 23 so as to swing up and down around the pivot shaft 22.

  The power unit 30 includes a front internal combustion engine 31 and a rear power transmission device (not shown) provided in the crankcase 32. The internal combustion engine 31 is a single-cylinder four-stroke cycle internal combustion engine, and a cylinder portion 33 is provided so as to protrude upward from the front portion of the crankcase 32 with a slight forward inclination. That is, the crankcase 32 constitutes a so-called power unit case.

  The power unit 30 is suspended and supported by an engine hanger boss 24 provided on the reinforcing frame 9, and front and rear are supported by a front bracket 25 provided on the down frame 6 and a rear bracket 26 provided on the center frame 5. The crankshaft 34 of the internal combustion engine 31 is supported in the vehicle width direction and mounted on the motorcycle 1.

  The power of the power unit 30 is extracted from the crankshaft 34 via the output shaft 35 protruding from the left side of the rear portion of the crankcase 32 via a clutch, speed reduction mechanism, etc. of a power transmission device (not shown) and attached to the output shaft 35 It is transmitted to the rear wheel 19 through a wheel drive sprocket 36, a rear wheel drive chain 37, and a rear wheel driven sprocket 38 attached to the rear wheel 19.

  Hereinafter, based on FIG. 2 which is an enlarged side view of the periphery of the power unit 30 and FIG. 3 which is an overhead perspective view of the periphery of the power unit 30 as viewed in the direction of arrow III in FIG. 2, the power unit and fuel of the motorcycle according to the present embodiment The arrangement and configuration of the supply device will be described.

A throttle body 41 connected to the intake port via an intake pipe 40 and an air cleaner (not shown) connected to the throttle body 41 via a connection pipe 42 are provided at the rear of the cylinder portion 33 of the internal combustion engine 31 of the power unit 30. The throttle body 41 is equipped with a fuel injection device 45 (FIG. 3) for injecting fuel.
An exhaust pipe 43 extending from the exhaust port is provided at the front portion of the cylinder portion 33, extends rearward, and is connected to the rear muffler 44. A spark plug 46 (FIG. 3) is provided on the right side surface of the cylinder portion 33.

  The main frame 4 is mounted on the main unit 4 so that the fuel tank 50 straddles the power unit 30. The fuel pump unit 51 is provided outside the fuel tank 50, is fixed between the left and right center frames 5a and 5b, and serves as a fuel feed pipe 52 serving as a fuel passage for supplying fuel from the fuel tank 50 to the fuel pump unit 51. A fuel breather pipe 53 for returning surplus fuel or vapor from the fuel pump unit 51 to the fuel tank 50 is connected.

  The fuel pump unit 51 is disposed behind the crankcase 32, that is, behind the output shaft 35 of the power unit 30 and in front of the rear cushion 21. A fuel filter device 55 is connected to the downstream side of the fuel discharge pipe 54 that serves as a fuel passage for fuel that is pressurized and discharged by the fuel pump unit 51. The fuel filter device 55 is located below the fuel tank 50, Arranged above the crankcase 32.

The fuel pump unit 51 is disposed substantially in the center in the vehicle width direction (see FIG. 4), and is located on the vehicle inner side in the vehicle width direction from the swing arm 20, and wraps with the swing arm 20 when viewed in the vehicle width direction. It is arranged at the position to do.
The fuel pump unit 51 is disposed at a position overlapping the left and right center frames 5a and 5b located behind the power unit 3 when viewed in the vehicle width direction.

  In the present embodiment, the fuel pump unit 51 can be efficiently laid out by arranging the fuel pump unit 51 behind the crankcase 32, that is, behind the output shaft 35 and in front of the rear cushion 23. While arranging the unit 51 outside the fuel tank 50, the fuel filter device 55 connected to the downstream side of the fuel passage from the fuel pump unit 51 can be arranged above the crankcase 32, and the arrangement space of the fuel supply device Was saved.

  In particular, in the case of a motorcycle using a mixed fuel of gasoline and ethanol, it is highly necessary to provide a fuel filter device on the downstream side of the fuel pump unit in order to remove dust in ethanol. However, the fuel pump unit can be installed outside the fuel tank, and the degree of freedom in design is improved.

  Further, the fuel pump unit 51 is easily protected by the swing arm 20, and the fuel pump unit 51 is easily protected by the vehicle body such as the left and right center frames 5a and 5b.

Further, as shown in FIG. 2, the fuel pump unit 51 has a cylindrical shape, and is adjacent to the cylindrical rear cushion 23, and the cylindrical axis Y of the fuel pump unit 51 and the cylindrical axis S of the rear cushion 23. However, since it is oriented in the vertical direction substantially in parallel, the space in front of the rear cushion 23 is effectively utilized, and the fuel pump unit 51 is arranged in a compact manner.
In the internal combustion engine 31, the crankshaft 34 is oriented in the vehicle width direction, and the center axis X of the cylinder portion 33 is inclined slightly forward from the upright position, so that the cylinder axis Z and the fuel of the cylindrical fuel filter device 55 are formed. The cylinder axis Y of the pump unit 51 is oriented substantially parallel to the cylinder axis X.
Since the cylinder part 33, the fuel filter device 55, and the fuel pump unit 51 are arranged in this way, in this embodiment, the power unit 30, the fuel filter device 55, and the fuel pump unit 51 can be laid out compactly without dead space. .

  2, the fuel pump unit 51 includes an annular portion 27a surrounding the fuel pump unit 51, and an annular portion 27a. Is supported by a fuel pump mounting stay 27 having left and right arm portions 27b, 27c extending in the vehicle longitudinal direction. The right arm portion 27c is supported by a support member 28 provided on the center frame 5 side as shown in FIG.

Since the fuel filter device 55 is disposed above the crankcase 32 as described above, the lower bracket of the fuel filter device 55 is a rear bracket that supports the rear portion of the crankcase 32 as shown in FIG. Supported by 26.
Since the fuel pump unit 51 is disposed at a position below the fuel filter device 55, as shown in FIG. 2, the left arm portion 27b is attached to the rear bracket 26 by attaching the left arm portion 27b. The crankcase 32 supports the rear bracket 26.
The rear bracket 26 is supported by a rear bracket support member 29 provided on the center frame 5 side.

  In the present embodiment as described above, the fuel pump unit 51 is easily protected by the annular portion 27a of the fuel pump mounting stay 27, and the fuel pump unit 51 is supported in a space-saving and firm manner. Further, the fuel pump mounting stay 27 that supports the fuel pump unit 51 is downsized, and the fuel pump unit 51 can be supported in a space-saving manner.

  The fuel supply device of the present embodiment includes a fuel tank 50 shown in FIGS. 1 and 2, a fuel pump unit 51 connected to the fuel tank 50 by a fuel feed pipe 52 and a fuel breath pipe 53, a fuel filter device 55, Fuel is supplied to a fuel injection device 45 (FIG. 3), which is composed of the pressure regulator 58 shown in FIG.

  The fuel pump unit 51 is connected to an inlet 55a at the lower end of the fuel filter device 55 by a fuel discharge pipe 54, and pressurized fuel is sent to the fuel filter device 55 to remove dust in the fuel. Is done.

  The fuel filter device 55 has a cylindrical main body (not shown) housed in an outer case 56, and the cylinder axis Z is oriented in the vertical direction. The outer case 56 includes a support part side case 56a and a cover part 56b as will be described later.

  The outlet 55b at the top of the fuel filter device 55 is connected by a fuel pipe 57 to an inlet 58a (see FIGS. 6 and 7) not shown in FIG. The pressurized fuel is fed into the pressure regulator 58, and the pressure of the fuel supplied to the fuel injection device 45 is adjusted.

  The pressure regulator 58 is located immediately below the fuel tank 50 (see FIG. 6), and is located above the rear portion of the crankcase 32 as shown in FIG. It wraps and is arranged between the throttle body 41 and the fuel filter device 55.

  As shown in FIGS. 6 and 7, the pressure regulator 58 has a cylindrical main body portion 58 b with its cylindrical axis R oriented in the vertical direction, and the outer side of the support portion side case 56 a of the outer case 56 of the fuel filter device 55. The outer case 56 is covered with a cover member 58d attached to the outer case 56 and covered with a cover member 58d attached to the outer case 56. It is fixed to. 3 shows a state in which the main body 58b is covered with a cover member 58d, and the main body 58b itself is not shown, but the main body 58b is a cover member 58d in FIGS. Indicates the uncovered state.

  Further, the pressure regulator 58 has an inclination of an angle α (a small angle of 45 ° or less) in a plane obtained by cutting the cylinder axis R with respect to the cylinder axis Z of the fuel filter device 55 in the vehicle width direction. Thus, it is attached to the outer side portion of the fuel filter device 55. That is, when viewed in the vehicle front-rear direction, the cylinder axes Z and R intersect each other at an angle α (see FIG. 6) with respect to the parallel state.

The excess fuel due to the pressure adjustment is returned from the top of the pressure regulator 58 into the fuel tank 50 via the fuel return pipe 59. The outlet pipe 58 c provided at the lower part of the pressure regulator 58 is connected to the fuel injection device 45 via the fuel pipe 60, and the pressure-adjusted fuel is supplied to the fuel injection device 45.
As shown in FIGS. 5 to 7, the fuel pipe 60 is disposed so as to wind the outer case 56 of the fuel filter device 55.

  In such a fuel supply device of this embodiment, since the pressure regulator 58 is not incorporated in the fuel filter device 55, the outlet pipe 58c of the pressure regulator 58 is arranged in the fuel pipe 60 of the fuel whose pressure has been adjusted. Since the cylinder axis R of the pressure regulator 58 is inclined with respect to the cylinder axis Z of the fuel filter device 55, the fuel pipe 60 can be easily wound. Thus, the length of the fuel pipe 60 can be easily optimized. In addition, since the pressure regulator 58 is attached to the outside of the fuel filter device 55, the pressure regulator 58 is disposed in a space-saving manner while being installed outside the fuel filter device 55.

  In particular, in the case of a motorcycle using a mixed fuel of gasoline and ethanol, the fuel injection control device appropriately recognizes the change in the fuel component supplied to the fuel injection device when the ethanol concentration is changed according to the driving situation. Therefore, it is necessary to optimize the length of the fuel pipe between the fuel filter device and the fuel injection device so as to have a buffer capacity therefor. According to this embodiment, the pressure regulator 58 and the fuel injection device 45 By optimizing the length of the fuel pipe 60 between them, an effective buffer effect can be obtained. In addition, because of space saving, in the case of mixed fuel, in addition to the highly demanded fuel filter device 55 installed outside the fuel tank 50 in order to improve maintainability, a fuel pump unit can also be installed outside the fuel tank 50 Thus, the degree of freedom in design increases.

On the other hand, the pressure regulator 58 is sandwiched between the fuel filter device 55 and the throttle body 41 and arranged so as to be hidden from the outside when viewed in the vehicle width direction, thereby facilitating protection of the pressure regulator 58. The appearance of the motorcycle 1 is improved.
The pressure regulator 58 can be supported on the outer side of the fuel filter device 55 by a simple structure of the base portion 56c of the outer case 56 of the fuel filter device 55 and the cover member 58d covering the pressure regulator 58. Can protect.

  Further, since the pressure regulator 58 is directly below the fuel tank 50, its cylindrical axis R is oriented in the vertical direction, the fuel return pipe 59 is arranged on the upper side, and the outlet pipe 58c is arranged on the lower side. A fuel return pipe 59 between 50 and a fuel pipe 60 between the pressure regulator 58 and the fuel injection device 45 are disposed in a space-saving manner, and the length of the fuel pipe 60 is secured.

  FIG. 5 is a device arrangement explanatory view showing the left side surface around the power unit 30 as viewed from the arrow V in FIG. 3, FIG. 6 is a device arrangement explanatory view taken along the VI arrow in FIG. 5, and VII in FIG. The arrangement of the devices of the fuel supply device according to the present embodiment, based on FIG. 7 that is an explanatory view of the arrangement of devices by arrows and FIG. 8 that is a perspective view of the fuel filter device 55 by the arrow VIII in FIG. The configuration will be further described in detail.

As shown in FIG. 2, the fuel filter device 55 is disposed on the left side of the vehicle so as to wrap with the throttle body 41 when viewed in the vehicle width direction.
Further, as shown in FIGS. 5 to 7, the upper part of the outer case 56 is supported by an engine hanger boss 24 for fixing the power unit 30 to the vehicle body frame 2 (reinforcing frame 9) via an auxiliary bracket 63. ing.
The auxiliary bracket 63 is fixed to the engine hanger boss 24 and hangs down, and the upper portion of the outer case 56 is fastened by the upper support bolt 64.

  The lower portion of the outer case 56 is supported by the crankcase 32 by being fastened to the rear bracket 26 that fixes the rear portion of the crankcase 32 to the center frame 5 by lower support bolts 65. The rear bracket 26 is fixed to the center frame 5 via a rear bracket support member 29 (FIG. 2).

  That is, the outer case 56 is configured by a support portion side case 56a on the inner side in the vehicle width direction and a cover portion 56b on the outer side in the vehicle width direction that covers the support portion side case 56a in an attached state. The support part side case 56a is supported by the engine hanger boss 24 and the crankcase 32 by fastening the upper part and the lower part on the support part side case 56a side as described above.

  Further, as shown in FIG. 8, the cover portion 56b is provided with a claw portion 66 on one end side thereof. A claw portion 66 is inserted into an engagement hole 67 provided on one end side of a support portion side case 56a that houses a fuel filter main body (not shown), and the other end side of the cover portion 56b is connected to the support portion side case 56a. The cover portion 56b is fixed to the support portion side case 56a, and a fuel filter main body (not shown) is also fixed in the outer case 56 by fastening to the other end side of the other end with a fastening bolt 68.

  In addition, as shown in FIG. 9, the base part 56c mentioned above is formed in the outer side part (vehicle width direction inner side) of the support part side case 56a. The pedestal portion 56c is inclined so that the main body portion 58b of the pressure regulator 58 is seated at an angle α with respect to the cylinder axis Z of the fuel filter device 55 as shown in FIG. Is formed.

According to such this embodiment, the fuel filter device 55 is disposed in a space-saving manner in the space next to the throttle body 41, and the upper and lower portions of the outer case 56 are supported. Strongly supported.
In particular, since the support portion side case 56a on the inner side in the vehicle width direction is supported by the engine hanger boss 24 and the crankcase 32, the fuel filter device 55 is firmly supported, and the cover portion 56b is attached to the support portion side case 56a. However, since the claw portion 66 and the fastening bolt 68 are fixed on the outer side in the vehicle width direction, the cover portion 56b can be easily attached and detached, and maintenance and replacement work of the fuel filter element and the like of the fuel filter main body portion are facilitated.
This is particularly effective in a fuel supply device for a motorcycle using a mixed fuel of gasoline and ethanol, which is highly demanded to improve the maintainability of the fuel filter device 55.

  In the present embodiment, the fuel pipe 60 connecting the outlet pipe 58c of the pressure regulator 58 to the fuel injection device 45 is provided so as to wind the outer case 56 of the fuel filter device 55.

  Therefore, the pipe length of the fuel pipe 60 from the outlet pipe 58c of the pressure regulator 58 to the fuel injection device 45 is secured, and the fuel pipe 60 is adapted to the fuel filter device 58 while the pipe length is optimized. Space-saving arrangement.

  Further, the fuel pipe 60 wound around the outer case 56 of the fuel filter device 55 is supported by the outer case 56 by a pipe support part 56d provided in the support part side case 56a of the outer case 56, and at the same time, the cover part 56b. Is positioned so as to be adjacent in the bolt axial direction T to the head of the fastening bolt 68 that fastens to the support portion side case 56a.

  For this reason, the fuel pipe 60 wound around the outer case 56 is supported by the pipe support portion 56d so as to be adjacent to the head of the fastening bolt 68 in the bolt axial direction T. Even if it is loosened, it is held down by the fuel pipe 60, and the fastening bolt 68 is prevented from falling off.

As described above, it is necessary to optimize the length of the fuel pipe between the fuel filter device and the fuel injection device so as to have an appropriate buffer capacity. For example, a mixed fuel of gasoline and ethanol is used. The demand is particularly high in the case of a motorcycle to be used.
When there is a limit to the adjustment of the fuel pipe between the fuel filter device and the pressure regulator, for example, when the pressure regulator 58 is attached to the outer portion of the fuel filter device 55 as in this embodiment, the fuel filter device 55 There is a limit on the length of the fuel pipe 57 between the fuel regulator 57 and the pressure regulator 58, and not all of the fuel pipe connecting the fuel filter device 55 to the fuel injection device 45 but part of the pressure regulator 58 and the fuel injection It is effective to optimize the length of the fuel pipe 60 between the apparatus 45.

As described above, the fuel tank 50 in the present embodiment is attached so as to straddle the main frame 4 (body frame 2) oriented in the vehicle front-rear direction.
As shown in FIG. 10, the fuel tank 50 includes three joints: a feed joint 70, a breather joint 71, and a return joint 72.
As shown in FIG. 11 (see FIG. 2), the feed joint 70 is connected to the fuel pump unit 51 (see FIG. 2) by a fuel feed pipe 52, and the fuel is sent from the fuel tank 50 to the fuel pump unit 51. Pass through. The breather joint 71 is connected to the fuel pump unit 51 by a fuel breather pipe 53, and the fuel recirculated from the fuel pump unit 51 to the fuel tank 50 passes therethrough. The return joint 72 is connected to a pressure regulator 58 (see FIG. 6) provided on the downstream side of the fuel pump unit 51 by a fuel return pipe 59, and the fuel recirculated from the pressure regulator 58 to the fuel tank 50 passes therethrough.
Further, as shown in FIGS. 10 and 11, these three joints are fixed to the fuel tank 50 through the single reinforcing plate 73, and the lowest part of the bottom 74 of the fuel tank 50. Are arranged in an aggregate.

In the fuel supply device of the present embodiment as described above, the three joints of the feed joint 70, the breather joint 71, and the return joint 72 provided in the fuel tank 50 are reinforced by the single reinforcing plate 73. As a result, the number of parts is reduced, and fixing to the fuel tank 50 is facilitated. Further, the motorcycle 1 having the fuel pump unit 51 and the fuel filter device 55 provided outside the fuel tank 50 can secure the rigidity of the piping section outside the fuel tank and can arrange a compact piping. Space can be achieved.
In particular, in order to facilitate the maintenance of the fuel filter device 55, in a fuel supply device for a motorcycle using gasoline and ethanol mixed fuel, which is highly requested to provide the fuel filter device 55 outside the fuel tank 50, by space saving, Further, the fuel pump unit 51 can also be arranged outside the fuel tank, and the degree of freedom in design is improved.
In addition, the plurality of joints 70, 71, 72 can be reinforced by the small reinforcing plate 73, and the dead fuel amount in the fuel tank 50 can be reduced.

  The fuel tank 50 according to the present embodiment includes an upper plate portion 75 that forms an upper surface in a face-down shape, and a bottom plate portion 76 that closes the lower side of the upper plate portion 75 and forms a bottom portion 74. , 76 are welded to each other at the lower edge 77 in a liquid-tight manner. The bottom plate portion 76 is formed with a concave portion 78 extending in the vehicle front-rear direction and recessed in a tunnel shape upward at the center in the vehicle width direction so as to pass the main frame 4 oriented in the vehicle front-rear direction. A side bottom portion 79 is formed by a bottom plate portion 76 that extends downward, and the fuel tank 50 is a tank having an inverted U-shaped cross section in the vehicle width direction as a whole.

As shown in FIG. 10B, the recess 78 is formed so as to become narrower toward the rear of the vehicle. Therefore, at the bottom 74a on the rear side of the vehicle, at least one side bottom of the left and right sides is formed. 79 is formed flat with the required width. 10A, the feed joint 70, the breather joint 71, and the return joint 72 are arranged at a position where the side bottom 79 wraps with the main frame 4 (body frame 2) when viewed in the vehicle width direction. Are jointed to the side bottom 79 and fixed to the fuel tank 50 by a single reinforcing plate 73.
A fuel injection port 81 is provided in the upper portion of the upper plate portion 75 of the fuel tank 50, and is substantially at the center in the vehicle longitudinal direction of the flange portion 82 inside the fuel tank 50 formed by the recess 78 of the bottom plate portion 76. A support member 83 of a fuel remaining amount detection device (not shown) is provided.

  Therefore, in the present embodiment, a space for fixing the reinforcing plate 73 can be secured in the bottom portion 74 of the fuel tank 50 while forming the bottom portion 74 of the fuel tank 50 in a compact manner, and space saving of the fuel supply device can be achieved. Figured.

  Further, as shown in FIG. 10B, since the reinforcing plate 73 is formed along the shape of the side bottom 79, the reinforcing plate 73 can be easily positioned and the joints 70, 71, 72 can be easily positioned. The mutual distance of was able to be secured. In addition, since the three joints 70, 71, 72 are arranged side by side in the vehicle front-rear direction, the side bottom 79 of the fuel tank 50 can be narrowed, and the entire bottom 74 can be further narrowed.

Also, as shown in FIG. 10 (a), among the three joints 70, 71, 72, the return joint 72 is disposed so as to open into the fuel tank 50 at a position higher than the other joints 70, 71. The terminal opening 72a (see FIG. 11) of the return joint 72 for the return fuel from the pressure regulator 58 can be the uppermost part of the three joints, so that the waste in the fuel tank 50 flows into the pressure regulator 58. The defense can be increased.
This is particularly effective in the case of the gasoline and ethanol mixed fuel described above.

As shown in detail in FIG. 11, the reinforcing plate 73 of this embodiment is formed with reinforcing ribs 73 a around the reinforcing plate 73, and the reinforcing ribs 73 a are brazed to the inner surface of the fuel tank 50 with the reinforcing ribs 73 a facing the inside of the fuel tank 50. Fixed with etc. In order to attach the reinforcing plate 73, the bottom plate portion 76 forming the bottom portion 74 is formed with a convex portion 84 for positioning the reinforcing plate 73 on the inner surface of the bottom portion 74.
The reinforcing plate 73 is attached and fixed to the convex portion 84 as a guide, but the above-mentioned fuel residue (not shown) is placed at the position of the depression 85 on the outer surface of the bottom portion 74 formed by molding the convex portion 84 by press molding or the like. A clip 87 for fixing the wiring 86 or the pipe from the quantity detection device or the like is provided.

Accordingly, the recess 85 formed on the outer surface of the bottom portion 74 of the fuel tank 50 positions the reinforcing plate 73 on the inner surface of the bottom portion 74 of the fuel tank 50, and the wiring 86 or piping by the clip 87 on the outer surface of the bottom portion 74 of the fuel tank 50. Two functions can be achieved.
Further, the uppermost portion of the feed joint 70 is set to be lower than the reinforcing rib 73a in order to reduce the fuel remaining amount in the fuel tank 50.

  As described above, the fuel supply device for the motorcycle 1 according to the embodiment of the present invention has been described. However, the present invention is not limited to the fuel supply device for the motorcycle 1 as described in the above embodiment, and includes a power unit including an internal combustion engine. A fuel injection device attached to the power unit, a fuel tank, a fuel pump unit provided outside the fuel tank, and supplying fuel in the fuel tank to the fuel injection device via a fuel passage, and a fuel pump unit The present invention can also be applied effectively as a fuel supply device in various aspects of a motorcycle including a fuel filter device connected to the downstream side of the fuel passage.

  DESCRIPTION OF SYMBOLS 1 ... Motorcycle, 2 ... Body frame, 4 ... Main frame, 5 ... Center frame, 27 ... Fuel pump mounting stay, 30 ... Power unit, 31 ... Internal combustion engine, 32 ... Crankcase, 33 ... Cylinder part, 34 ... Crankshaft , 35 ... output shaft, 41 ... throttle body, 45 ... fuel injection device, 50 ... fuel tank, 51 ... fuel pump unit, 52 ... fuel feed piping, 53 ... fuel breather piping, 54 ... fuel discharge piping, 55 ... fuel filter Equipment: 57 ... Fuel piping, 58 ... Pressure regulator, 59 ... Fuel return piping, 60 ... Fuel piping, 70 ... Feed joint, 71 ... Breather joint, 72 ... Return joint, 72a ... Terminal opening, 73 ... Reinforcement plate, 73a ... Reinforcing ribs, 74 ... Bottom part, 74a ... Bottom part on the vehicle rear side, 75 ... Upper plate part, 76 ... Bottom plate part, 77 ... Lower edge, 78 ... Recess, 79 ... Side bottom part, 82 ... Ring part, 83 ... Support member , 84 ... convex part, 85 ... hollow, 8 6 ... wiring, 87 ... clip

Claims (7)

A power unit including an internal combustion engine, a fuel injection device attached to the power unit, a fuel tank, and a fuel tank, and the fuel in the fuel tank is supplied to the fuel injection device via a fuel passage. A fuel supply device for a motorcycle, comprising: a fuel pump unit that connects to a fuel filter device connected to a downstream side of the fuel passage from the fuel pump unit;
A feed joint connected to the fuel pump unit by a fuel feed pipe, through which fuel or vapor fed from the fuel tank to the fuel pump unit passes;
A breather joint connected to the fuel pump unit by a fuel breather pipe, through which fuel recirculated from the fuel pump unit to the fuel tank passes;
The fuel tank is provided with three joints including a return joint connected to a pressure regulator provided on the downstream side of the fuel pump unit by a fuel return pipe and through which fuel recirculated from the pressure regulator to the fuel tank passes. ,
The fuel supply device for a motorcycle, wherein the three joints are passed through a single reinforcing plate and fixed to the fuel tank.   The fuel supply device for a motorcycle according to claim 1, wherein the three joints are arranged at the bottom of the bottom of the fuel tank. The fuel tank has, at its bottom, a recess extending in the longitudinal direction of the vehicle body and extending in the vehicle longitudinal direction so as to straddle a vehicle body frame oriented in the vehicle longitudinal direction, and a side bottom portion sandwiching the recess. And the recess is formed to become narrower toward the rear of the vehicle body,
3. The automatic according to claim 1, wherein the three joints are collectively provided on the side bottom portion at a position where the side bottom portion overlaps with the vehicle body frame when viewed in the vehicle width direction. Motorcycle fuel supply system.   The fuel supply device for a motorcycle according to claim 3, wherein the reinforcing plate is formed so as to follow a shape of the side bottom portion.   The motorcycle fuel supply device according to claim 3 or 4, wherein the three joints are arranged side by side in a vehicle front-rear direction.   The motorcycle according to any one of claims 1 to 5, wherein, of the three joints, the return joint is disposed so as to open into the fuel tank at a position higher than the other joints. Fuel supply device.   The fuel tank has a convex portion for positioning the reinforcing plate formed on the inner surface of the bottom portion, and the reinforcing plate is attached to the outer surface of the bottom portion formed by molding the convex portion. The fuel supply device for a motorcycle according to any one of claims 1 to 6, wherein a clip for fixing wiring and piping is provided at the position of the recess.

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