JP3943889B2 - Fuel supply device for small vehicles - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention suspends a power unit having an engine with a cylinder portion tilted forward in a body frame behind a step floor so as to be swingable in the vertical direction, and a rear wheel driven by the rear end portion of the power unit. In addition, the present invention relates to a small vehicle in which a luggage box and an occupant seat are disposed above the power unit, and a fuel tank having a fuel filler opening on the ceiling wall is disposed directly below the step floor, and in particular, the fuel in the fuel tank is engine. The present invention relates to an improvement of a fuel supply device for supplying to a fuel injection valve.
[0002]
[Prior art]
Such small vehicles are already known as disclosed in, for example, Japanese Patent Application Laid-Open No. 2001-138759.
[0003]
[Problems to be solved by the invention]
In the small vehicle disclosed in the above publication, an opening for inserting the fuel supply unit is provided in the rear end wall of the fuel tank, and a gap between the fuel take-out pipe arranged in the opening and the fuel injection valve of the engine is provided. They are connected by a flexible fuel conduit. In such a case, since the distance between the fuel take-out pipe and the fuel injection valve is relatively short, in order to avoid an excessive deflection angle of the fuel pipe when the power unit is swung up and down, the fuel pipe is lengthened. In this case, it is necessary to provide a slack portion. In this case, if the radius of curvature of the slack portion is set large in order to minimize the flow resistance of the fuel conduit, interference between the fuel conduit and the adjacent member occurs. If the radius of curvature of the slack portion is set to be small in order to avoid interference with adjacent members, the flow resistance of the fuel conduit increases, and it is difficult to form the slack portion.
[0004]
The present invention has been made in view of such circumstances, and in order to reduce the flow resistance of the fuel conduit, while avoiding interference with adjacent members while setting the radius of curvature of the slack portion large, It is an object of the present invention to provide a fuel supply device for a small vehicle that can suppress a deflection angle of a fuel conduit to be small when swinging up and down.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, the invention according to claim 1 sways a power unit having an engine in which a cylinder portion is tilted forward in a body frame behind a step floor having an upper raised portion in a central portion in the left-right direction. Suspension is possible, and a rear wheel driven by the rear end of the power unit is pivotally supported. A luggage box and a passenger seat are arranged above the power unit, and the ceiling wall is directly below the step floor. In a small vehicle having a fuel tank having a fuel filler port, the fuel supply unit for supplying fuel to the outside is located closer to the front of the vehicle than the fuel filler port and does not overlap with the fuel filler port in a side view of the vehicle. collision with the fuel outlet tube of the fuel supply unit, a fuel tank, the fuel tank upper surface upward at a point of the vehicle front portion from the fuel supply port provided By disposed, between the fuel injection valve of the fuel outlet tube and the engine, passing Ri and overall fuel tank side of the fuel supply port in the vehicle width direction outer side of the fuel tank has a curved slack portion It is characterized by being connected by a flexible fuel conduit located outside .
[0006]
According to this feature, the fuel conduit is led out of the fuel tank from the fuel outlet tube at the front position of the fuel filler port to the rear of the vehicle while passing the side of the fuel filler port on the outer side in the vehicle width direction of the fuel tank , and the curvature. Bending forward while forming a slack portion with a large radius and heading toward the fuel injection valve, it is possible to reduce its flow resistance and avoid interference with adjacent members, and even when the power unit swings up and down The bending angle of the conduit can be kept small.
[0007]
According to a second aspect of the invention, in addition to the feature of the first aspect, the fuel injection valve is provided with a fuel connector that is positioned and fixed to the engine, and the fuel injection valve is fixedly connected to the fuel injection valve to communicate with the fuel injection valve. The fuel conduit is connected to a pipe.
[0008]
According to this feature, the connecting direction of the fuel conduit to the fuel connector attached to the fuel injection valve is constant, and the piping of the fuel conduit can be easily performed while preventing the displacement of the fuel conduit.
[0009]
Furthermore, the invention of claim 3 is characterized in that, in addition to the features of claim 1 or 2, the fuel supply unit in the fuel tank includes a fuel pump that pumps fuel to the fuel outlet cylinder side, and an excessive discharge pressure of the fuel pump. A third feature is that a pressure regulator for releasing the minute is provided.
[0010]
According to this feature, the fuel released from the pressure regulator can be returned to the fuel tank as it is, so that no special piping for returning the fuel is required, which can contribute to the simplification of the configuration.
[0011]
Furthermore, the invention of claim 4 is characterized in that, in addition to any of the features of claims 1 to 3, the fuel outlet tube of the fuel supply unit is detachably coupled with a fuel take-out pipe connected to the fuel conduit via a joint. It is characterized by that.
[0012]
According to this feature, by removing the fuel take-off pipe from the fuel outlet cylinder of the fuel supply unit, the fuel conduit can be easily connected to and connected to the fuel injection valve, and maintenance of the fuel supply unit can be performed. Can also be done easily without being disturbed by the fuel conduit. In addition, the fuel take-out pipe can be easily and quickly connected to the fuel supply unit, which can contribute to an improvement in assembly.
[0013]
Furthermore, in the invention of claim 5, in addition to any one of the features of claims 1 to 4, the fuel supply unit includes a fuel filter for filtering the fuel discharged from the fuel pump, close to the inner end of the fuel outlet cylinder. The fifth feature is that the upper end plate of the fuel filter is provided with a recess facing the inner end of the fuel take-out pipe.
[0014]
According to this feature, since the fuel take-out pipe can be disposed close to the fuel filter, the amount of protrusion of the fuel take-out pipe above the fuel tank can be reduced, and the interference with the step flow of the fuel conduit can be easily avoided. It can be carried out.
[0015]
According to a sixth aspect of the present invention, in addition to the feature of any one of the first to fifth aspects, the slack portion includes a fuel conduit that extends from the fuel injection valve while passing through the side of the fuel filler port on the outer side in the vehicle width direction of the fuel tank. characterized in that is also formed by further connecting to extend out and fuel injection valve and a U-turn forward from its extending portion at the rear.
[0016]
According to a seventh aspect of the invention, in addition to the feature of any of the first to sixth aspects, the fuel conduit extends linearly from the fuel outlet tube to the side of the fuel filler port.
[0017]
According to an eighth aspect of the present invention, in addition to the feature of any one of the first to seventh aspects, the body frame includes a floor support portion into which a fuel tank is inserted at a central portion, and the fuel conduit includes the floor support of the body frame . and along a part, characterized in that to extend the side of the cylinder portion of the engine, the fuel supply device in the small vehicle.
[0018]
According to a ninth aspect of the present invention, in addition to any one of the features of the first to eighth aspects, the fuel injection valve is disposed offset from the center line in the vehicle longitudinal direction toward the left and right sides. It is characterized by being arranged offset from the longitudinal center line of the tank in the same direction as the offset direction of the fuel injection valve with respect to the longitudinal center line of the vehicle.
[0019]
According to a tenth aspect of the present invention, in addition to any one of the features of the first to ninth aspects, the upper raised portion of the step floor has a fuel outlet cylinder and an upstream end of the fuel conduit coupled to the fuel outlet cylinder. A fuel take-out pipe for connecting the fuel tank and a tank cap for opening and closing the fuel filler opening are arranged.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below based on one embodiment of the present invention shown in the accompanying drawings.
[0021]
1 is a side view of a motorcycle, FIG. 2 is an enlarged view taken along arrow 2 in FIG. 1, FIG. 3 is a sectional view taken along line 3-3 in FIG. 1, FIG. 4 is a plan view of the fuel supply unit, and FIG. FIG. 6 is a sectional view taken along line 6-6 in FIG. 2, FIG. 7 is a sectional view taken along line 7-7 in FIG. 6, and FIG. 8 is a sectional view taken along line 8-8 in FIG. 9 is a cross-sectional view taken along line 9-9 of FIG. 6, and FIG. 10 is an enlarged cross-sectional view taken along line 10-10 of FIG.
[0022]
In the following description, front and rear and left and right are based on the vehicle.
[0023]
First, in FIGS. 1 to 3, reference numeral 1 denotes a scooter type motorcycle as a small vehicle, and its body frame 2 includes a head pipe 2a and a down tube portion extending downward at a steep angle from the rear surface of the head pipe 2a. 2b, a floor support portion 2c that extends horizontally from the lower end of the down tube portion 2b, a pillar portion 2d that rises vertically from the rear end of the floor support portion 2c, and an inclination that is inclined rearward upward from the upper end of the pillar portion 2d. The rear rail portion 2e extends, and a steering stem of the front fork 4 that pivotally supports the front wheel 3f is supported on the head pipe 2a so as to be steerable. A suspension link 5 is elastically supported on the upper end portion of the pillar portion 2d, and a power unit 6 is suspended on the suspension link 5 via a pivot 7 so as to be vertically swingable. And the rear cushion 8 is attached between the power unit 6 and the rear rail part 2e.
[0024]
The power unit 6 includes an engine 9 in which a cylinder portion 9a is tilted forward in a horizontal state, and a continuously variable transmission 10 in which a transmission case 10a extending backward is integrally connected to one side portion of the engine 9. The rear wheel 3r, which is a driving wheel, is pivotally supported at the rear end of the transmission case 10a.
[0025]
On the rear rail portion 2e, a luggage box 15 capable of storing a large baggage such as a helmet is attached, and an occupant seat 16 serving also as a lid of the box 15 can be opened and closed at an upper front end portion of the luggage box 15. To be hinged. .
[0026]
As shown in FIGS. 2 and 3, a fuel tank 18 is inserted into a large opening 17 provided at the center of the floor support portion 2c, and a flange 18a protruding from the peripheral wall of the fuel tank 18 has a floor support portion. It is fixed to the upper surface of 2c by a plurality of bolts 19. In this way, the fuel tank 18 is arranged such that the front-rear direction center line Y coincides with the front-rear direction center line of the motorcycle 1. A tank cap 21 that opens and closes a fuel filler opening 20 that opens there and a fuel supply unit 22 that supplies fuel to the engine 9 are attached to a ceiling wall 18 b that is disposed substantially horizontally on the fuel tank 18. At that time, the fuel supply unit 22 is disposed at the front portion of the fuel tank 18, that is, at a position closer to the front than the tank cap 21.
[0027]
The step floor 12 supported by the floor support portion 2c is arranged so as to cover the fuel tank 18, and the tank cap 21 and the fuel supply unit 22 are disposed in the upper raised portion 12a formed at the center in the left-right direction. A protrusion from the upper surface of the fuel tank 18 is accommodated. As shown in FIGS. 2 and 6, the fuel supply unit 22 is provided at a position closer to the front of the vehicle than the fuel filler opening 20 and does not overlap with the fuel filler opening 20 in a side view of the vehicle.
[0028]
Next, the fuel supply unit 22 will be described with reference to FIGS.
[0029]
The fuel supply unit 22 includes an electric fuel pump 25 immersed in the fuel oil to pump up fuel in the fuel tank 18, a fuel strainer 26 connected to the intake port 25 a of the fuel pump 25, and a fuel pump 25. A fuel filter 27 communicating with the discharge port 25b, a pressure regulator 28 for adjusting the discharge pressure of the fuel pump 25, a remaining fuel sensor 29, a pump holder 30 for housing and holding the fuel pump 25, and supporting the pump holder 30. The support bracket 31 is attached to the ceiling wall 18 b of the fuel tank 18, and the filter housing 32 is held between the support bracket 31 and the pump holder 30 and accommodates the fuel filter 27. These components will be described in detail sequentially.
[0030]
4 to 7 and 9, the support bracket 31 is made of a synthetic resin disc-shaped mounting flange 35, and a fuel outlet cylinder 36 formed integrally with the mounting flange 35 and projecting from both upper and lower surfaces thereof. A plurality (a pair in the illustrated example) of the first support arms 37 and 37 projecting integrally on the lower surface of the mounting flange 35 and a plurality of steel plates (a pair in the illustrated example) that are mold-bonded to the lower surface of the mounting flange 35. The elbow-shaped fuel take-out pipe 39 is detachably coupled to the fuel outlet cylinder 36 from above through the joint 40. An annular seal groove 41 is provided on the lower surface of the mounting flange 35 in the vicinity of the outer peripheral edge thereof, and a seal member 42 is attached thereto.
[0031]
On the other hand, the ceiling wall 18b of the fuel tank 18 is provided with an opening 43 having a smaller diameter than the annular seal groove 41 at a position offset by a predetermined distance A from the center line Y in the front-rear direction of the fuel tank 18 to the left and right sides. An annular and shallow recess 44 surrounding the opening 43 is formed on the upper surface of the ceiling wall 18b, and an annular body having a plurality of lock claws 45, 45 projecting radially inward from the periphery of the recess 44 is provided on the ceiling. It is welded to the wall 18b. Thus, when the first and second support arms 37 and 38 are inserted into the opening 43 and the mounting flange 35 is received in the recess 44 and the lock ring 46 that presses the upper surface of the mounting flange 35 is rotated by a predetermined angle, the lock ring The locking claws 45, 45,... Engage with the plurality of engaging portions 46a, 46a,..., And the mounting flange 35 is fixed at a fixed position of the fuel tank 18 while the seal member 42 is in close contact with the ceiling wall 18b. 43 can be closed.
[0032]
As clearly shown in FIG. 9, when the mounting flange 35 is fixed at a fixed position of the fuel tank 18, the fuel outlet cylinder 36 opens from the center line of the flange 35 to the center line Y of the fuel tank 18. Are offset by a predetermined distance B in the same direction as the offset direction.
[0033]
The plurality of first support arms 37, 37 are arranged at equal intervals on a concentric circle E surrounding the fuel outlet cylinder 36, and the plurality of second support arms 38, 38 include the first support arm 37, 37 are arranged at equal intervals on a concentric circle F passing through the outside of 37 and with the mounting flange 35. The first and second support arms 37 and 38 are provided with locking holes 37a and 38a.
[0034]
As shown in FIGS. 7 and 8, the joint 40 protrudes from an elastic cylindrical portion 49 made of synthetic resin that is locked to an annular protrusion 48 on the outer peripheral surface of the fuel take-out pipe 39 and an upper end of the cylindrical portion 49. It consists of a pair of shooting parts 50, 50 and locking claws 61, 61 projecting from the outer peripheral surface of the cylindrical part 49 in the vicinity of these shooting parts 50, 50, while the fuel outlet cylinder A pair of locking holes 62 and 62 corresponding to the locking claws 61 and 61 are provided in the upper part of 36, and an annular seal member 63 is mounted on the inner periphery of the fuel outlet cylinder 36. When the fuel take-out pipe 39 is inserted into the fuel outlet cylinder 36 from above, the outer peripheral surface of the tip of the fuel take-out pipe 39 comes into close contact with the seal member 63 and the engaging claw of the joint 40 fitted in the fuel outlet cylinder 36. The fuel take-out pipe 39 is coupled to the fuel outlet tube 36 by elastically engaging 61 and 61 with the locking holes 62 and 62 of the fuel outlet tube 36. If the photographing portions 50, 50 are compressed inward in the radial direction, the locking claws 61, 61 are detached from the locking holes 62, 62, so that the fuel take-out pipe 39 can be pulled out from the fuel outlet cylinder 36. Become.
[0035]
7 and 8, the filter housing 32 that accommodates the fuel filter 27 has a cylindrical upper housing half 32a in which an upper communication cylinder 65 is integrally formed at the upper end surface, and a lower communication cylinder 66 at the lower end surface. The upper housing half body 32a is welded to the lower housing half body 32b. The outer peripheral surface of the upper housing half body 32a has locking holes 37a, 37a in the first support arms 37, 37a. A plurality of corresponding locking claws 67, 67 are projected. The upper communication cylinder 65 is fitted to the outer peripheral surface of the lower end portion of the fuel outlet cylinder 36 via a seal member 71, and at the same time, the locking claws 67 and 67 are locked to the locking holes 37 a and 37 a of the first support arms 37 and 37. Are elastically engaged with each other.
[0036]
The fuel filter 27 in the filter housing 32 is configured by joining upper and lower end plates 69 and 70 to both end faces of a hollow cylindrical filter element 68. The upper and lower end plates 69, 70 are formed with recesses 69a, 70a that are recessed toward the filter element 68, and the lower end plate 70 is provided with a through hole 73 that communicates the inside and outside of the recess 70a. ing. Further, the recess 69a of the upper end plate 69 is disposed so that the inner end of the fuel take-out pipe 39 coupled to the fuel outlet cylinder 36 via the joint 40 faces.
[0037]
The fuel filter 27 is sandwiched between the bottom surface of the lower housing half 32 b and a plurality of ribs 74, 74... Formed radially on the ceiling surface of the upper housing half 32 a, and passes through the lower communication cylinder 66. The fuel that has flowed into the filter element 68 through the hole 73 passes through the filter element 68 radially outward, and passes through the fuel passage defined between the plurality of ribs 74, 74. It is like that. At this time, the upper end plate 69 has a recess 69a facing the inner end of the fuel take-out pipe 39 coupled to the fuel outlet cylinder 36, thereby narrowing the fuel passage between the fuel take-out pipe 39 and the fuel filter 27. Instead, they can be placed close to each other.
[0038]
As shown in FIGS. 4 and 6, the pump holder 30 includes a cylindrical pump holding cylinder 75 that houses and holds the cylindrical electric fuel pump 25, and a flange portion that is connected to one end of the pump holding cylinder 75. 76 and a plurality (a pair in the illustrated example) of connecting arms 77 and 77 projecting from the flange portion 76 toward the second support arms 38 and 38. While the connecting arms 77 and 77 are inserted into the inner side surfaces of the second support arms 38 and 38, the locking claws 77 a and 77 a protruding from the outer side surface of the connecting arm 77 are engaged with the second support arms 38 and 38. By elastically engaging the stop holes 38a, 38a, the support bracket 31 and the pump holder 30 are connected to each other.
[0039]
On the upper surface of the flange portion 76 of the pump holder 30, a communication passage 80 connected to the discharge port 25 b of the fuel pump 25 is opened, and the lower communication tube 66 of the filter housing 32 is fitted through the seal member 72 to the opening. Thus, the fuel discharged from the fuel pump 25 is received. Thereby, the communication path 80 between the fuel pump 25 and the fuel filter 27 can be shortened, and the pressure loss can be reduced.
[0040]
The pump holding cylinder 75 is disposed so as to extend substantially horizontally from one side of the flange portion 76 toward the rear of the vehicle. Therefore, the electric fuel pump 25 held by the pump holding cylinder 75 also takes the same posture, and the fuel supply unit 22. Is L-shaped as a whole. Further, as clearly shown in FIG. 4, the axis of the pump holding cylinder 75 is the same as that of the fuel outlet cylinder 36 in the plan view, and the same distance from the center line Y of the fuel tank 18 from the center line Y of the fuel tank 18. It is arranged offset so as to move away from the side.
[0041]
As shown in FIGS. 4 and 6, the fuel strainer 26 is connected to an inlet 25 a that opens at the rear end of the fuel pump 25. The fuel strainer 26 is housed in a wave-dissipating box 82 that is attached to the outer periphery of the pump holding cylinder 75 and has an open upper surface. This wave-dissipating box 82 is installed at the bottom of the fuel tank 18 and has an inlet 82a at the front opposite to the opening side of the intake port 25a of the fuel pump 25. A maze wall 83 extending to the vicinity of the rear wall of the box 82 is erected at the bottom of the wave-cancelling box 82 so that the fuel that has entered the inlet 82a is attenuated and sucked into the fuel pump 25.
[0042]
2, 4, and 7, an upper support cylinder 85 that communicates with the inside of the lower housing half 32 b of the filter housing 32 is integrally formed, and an upper end is formed on the outer peripheral surface of the upper support cylinder 85. A lower support cylinder 86 for fitting the parts is formed integrally with the pump holder 30, and a cylindrical pressure regulator 28 is attached to these support cylinders 85, 86 from below. At this time, the support cylinders 85 and 86 and the pressure regulator 28 are arranged with their axes offset from the center of the mounting flange 35 by a predetermined distance C on the opposite side of the offset direction of the fuel outlet cylinder 36. The pressure regulator 28 discharges the excess fuel downward when the pressure in the filter housing 32, that is, the discharge pressure of the fuel pump 25 exceeds a predetermined value. The fuel pump 25 disposed in a substantially horizontal state is disposed at substantially the same height as the pressure regulator 28.
[0043]
The fuel remaining amount sensor 29 includes a sensor housing 90 attached to one side wall of the pump holding cylinder 75, a float support arm 91 that is swingably supported by the sensor housing 90 and extends rearward of the vehicle, and the float support arm 91. A float 92 attached to the distal end portion 91 a and a potentiometer 93 that is housed in the sensor housing 90 and converts the rotation angle of the float support arm 91 into the amount of electricity as the remaining fuel in the fuel tank 18. At that time, the sensor housing 90 is attached to the side wall opposite to the offset direction with respect to the center of the attachment flange 35 of the pump holding cylinder 75. The float support arm 91 extends from the outer wall of the sensor housing 90 by being bent rearward and is bent in an L shape so that the distal end portion 91a is moved away from the pump holding cylinder 75 in the lateral direction. A long float 92 is attached to the portion 91a in the bending direction.
[0044]
2 and 3 again, the mounting flange 35 includes first and second wiring couplers 95 and 96 that protrude from the upper and lower surfaces of the flange 35 at locations offset from the center line in the direction opposite to the fuel outlet tube 36. Are formed adjacent to each other, and the inner ends of both the wiring couplers 95 and 96 are disposed in a space above the pressure regulator 28. Both wiring couplers 95 and 96 have connection terminals 97 and 98 penetrating them vertically, and lead wire connectors (not shown) connected to the electric fuel pump 25 and the remaining fuel amount sensor 29 are provided. The wiring couplers 95 and 96 are connected to lower portions of the first and second wiring couplers 95 and 96, and external wiring couplers (not shown) connected to the power switch and the fuel remaining amount indicator are connected to the upper portions of the wiring couplers 95 and 96. It has become.
[0045]
In the above, the fuel outlet cylinder 36, the filter housing 32, and the upper and lower support cylinders 85 and 86 are disposed within the range of the projection surface of the opening 43 so as to be able to be inserted into the opening 43 of the fuel tank 18. The
[0046]
2 and 10, an intake passage member 102 having an intake passage 101 following the intake port 100 is bolted to the upper surface of the cylinder portion 9 a of the engine 9. A fuel injection valve 103 for injecting fuel toward the downstream side of the intake port 100 is attached to the intake path member 102, and a cup-shaped fuel connector 105 is fitted to the upper end portion where the fuel inlet opens. In the fuel connector 105, a stay 105 a protruding from the wall is fixed to a fixed position of the intake passage member 102 with a bolt 106. The fuel connector 105 is provided with a connecting pipe 105b that protrudes rearward or obliquely rearward of the vehicle, and both ends of the flexible fuel conduit 107 are firmly connected to the connecting pipe 105b and the fuel take-out pipe 39 of the fuel supply unit 22. Connected to. In this way, the fuel conduit 107 extends linearly from the fuel take-out pipe 39 to the rear of the vehicle while passing the side of the tank cap 21 outside the fuel tank 18 in the vehicle width direction , and once passes the position of the fuel connector 105 to the rear. Then, it is arranged so as to make a U-turn forward and reach the fuel take-out pipe 39. The fuel conduit 107 extends to the side of the cylinder portion 9a of the engine 9 along the body frame 2 as is apparent from FIGS.
[0047]
Next, the operation of this embodiment will be described.
[0048]
In assembling the fuel supply unit 22, first, the fuel pump 25, the fuel strainer 26, the pressure regulator 28, and the remaining fuel sensor 29 are attached to the pump holder 30, while the pair of first support arms 37, 37 of the support bracket 31. A filter housing 32 is mounted therebetween. If the pair of connecting arms 77, 77 of the pump holder 30 are inserted inside the pair of second supporting arms 38, 38, the connecting arms 77 are locked in the locking holes 38a, 38a of the second supporting arms 38, 38. By engaging the claws 77a and 77a, the support bracket 31 and the pump holder 30 can be coupled to each other and the filter housing 32 can be sandwiched therebetween. As described above, since no special fixing member is required for the connection of the support bracket 31 and the pump holder 30, the assemblability of the fuel supply unit 22 is extremely good.
[0049]
The assembled fuel supply unit 22 is inserted into the opening 43 of the ceiling wall 18b of the fuel tank 18 from the pump holding cylinder 75 side, and the fuel strainer 26 is directed toward the rear wall side of the fuel tank 18 with the pump holding cylinder 75 facing the rear wall side. It is installed on the bottom wall of the fuel tank 18. At this time, the mounting flange 35 of the support bracket 31 is accommodated in the recess 44 on the upper surface of the fuel tank 18, and a lock ring 46 that holds this from above is engaged with the lock claws 45, 45. And the opening 43 is closed.
[0050]
On the other hand, the connecting pipe 105b of the fuel connector 105 and the fuel take-out pipe 39 are connected to both ends of the fuel conduit 107 in advance. First, the fuel connector 105 is fitted into the fuel injection valve 103 of the engine 9 and is fixed to a fixed position of the intake passage member 102 with a bolt 106. When the fuel connector 105 is thus positioned by the bolt 106, the connecting pipe 105b faces a predetermined rear side or diagonally rear side, so that the fuel conduit 107 is disposed on the side of the tank cap 21 while the fuel take-out pipe 39 is pulled forward. Then, a predetermined U-turn part is naturally formed at the rear part of the fuel conduit 107. Therefore, the fuel take-out pipe 39 is connected to the fuel outlet cylinder 36 of the fuel supply unit 22 previously attached to the fuel tank 18 via the joint 40. Thus, the fuel conduit 107 can be easily piped without being displaced.
[0051]
Thus, the fuel conduit 107 is guided to the rear of the vehicle while passing through the side of the tank cap 21 from the fuel take-out pipe 39 at the front position of the tank cap 21, and bends forward while forming a slack portion having a large curvature radius. By heading toward the fuel injection valve 103, the flow resistance can be lowered, interference with adjacent members can be avoided, and the deflection angle of the fuel conduit 107 can be kept small even when the power unit 6 swings up and down. , It is advantageous in ensuring its durability.
[0052]
During assembly, the joint 40 is removed from the fuel outlet cylinder 36 of the fuel supply unit 22 as described above, so that the fuel conduit 107 can be easily connected to and connected to the fuel injection valve 103. Maintenance of the fuel supply unit 22 can also be easily performed without being obstructed by the fuel conduit 107. In addition, the connection of the fuel take-out pipe 39 to the fuel supply unit 22 can be easily and quickly made through the joint 40, and the assemblability can be improved.
[0053]
In the fuel supply unit 22, the upper end plate 69 of the fuel filter 27 disposed immediately below the fuel outlet cylinder 36 has a recess 69 a that faces the inner end of the fuel take-out pipe 39. 27 can be disposed close to the fuel tank 27, and the amount of the fuel take-out pipe 39 protruding above the fuel tank 18 can be reduced, so that the interference with the step flower 12 of the fuel conduit 107 can be easily avoided.
[0054]
During operation of the engine 9, the fuel pump 25 sucks the fuel in the fuel tank 18 through the fuel strainer 26 and discharges it to the fuel filter 27. The fuel is filtered by the fuel filter 27, and then supplied to the fuel injection valve 103 through the fuel take-out pipe 39, the fuel conduit 107, and the fuel connector 105 in order. In the meantime, when the discharge pressure of the fuel pump 25 exceeds a predetermined value, the pressure regulator 28 is actuated to discharge the excess pressure fuel directly into the fuel tank 18. Therefore, it is not necessary to connect a special fuel return pipe to the fuel tank 18 to the pressure regulator 28, and the configuration can be simplified.
[0055]
By the way, the fuel supply unit 22 has the fuel filter 27 placed vertically, the fuel pump 25 placed horizontally, and the fuel pump 25 placed at the same height as the pressure regulator 28 disposed below one side of the fuel filter 27. And since it is formed in a substantially L shape as a whole, the overall height can be effectively set low, and it can be effectively applied to the flat fuel tank 18 disposed below the step floor 12. .
[0056]
Further, the fuel outlet cylinder 36 and the filter housing 32 that are lined up and down, and the wiring couplers 95 and 96 and the pressure regulator 28 that are disposed vertically are disposed offset from each other in the opposite direction from the center line of the mounting flange 35. Further, the fuel pump 25 and the remaining fuel sensor 29 are also offset from the center line of the mounting flange 35 so as to be opposite to each other, so that the mounting flange 35 can be inserted into the fuel tank 18 of the fuel supply unit 22. Thus, the diameter of the opening 43 of the fuel tank 18 can be reduced, and the fuel supply unit 22 can be easily mounted even on the comparatively narrow ceiling wall 18 b of the fuel tank 18. Further, the load on the mounting flange 35 can be reduced.
[0057]
Further, the mounting flange 35 of the fuel supply unit 22 is fixed at a position offset to the left and right side from the center line Y in the front-rear direction of the fuel tank 18, and the fuel outlet cylinder 36 is offset in the same direction from the center line of the mounting flange 35. Furthermore, a fuel remaining amount sensor 29 is attached to the side wall of the pump holding cylinder 75 opposite to the offset direction, and the tip of the float support arm 91 of the sensor 29 is opposite to the offset direction. Since the float 92 is bent into an L-shape and supports the float 92, the float 92 is disposed close to the longitudinal center line of the fuel tank 18, and the float 92 is long in the left-right direction of the vehicle. As a result, the fuel in the fuel tank 18 is hardly affected by the fluctuation of the fuel oil level in the fuel tank 18 due to the rolling of the motorcycle 1. It is possible to detect the remaining amount relatively precisely.
[0058]
The present invention is not limited to the above embodiments, and various design changes can be made without departing from the scope of the invention.
[0059]
【The invention's effect】
As described above, according to the present invention, the power unit having the engine with the cylinder portion tilted forward is suspended on the body frame behind the step floor so as to be swingable in the vertical direction, and at the rear end portion of the power unit, In a small vehicle in which a rear wheel driven by a shaft is pivotally supported, a luggage box and an occupant seat are disposed above the power unit, and a fuel tank having a fuel filler opening on the ceiling wall is disposed immediately below the step floor. A fuel supply unit for supplying fuel to the outside is provided at a position nearer to the front of the vehicle than the fuel filler port and does not overlap the fuel filler port in a side view of the vehicle, and a fuel outlet cylinder of the fuel supply unit is provided in the fuel tank. of, is projected upward from the fuel tank upper surface at a point of the vehicle front portion from the fuel supply port is disposed, the fuel injection of the fuel outlet tube and the engine Between, so passing Ri and entire side of the fuel supply port in the vehicle width direction outer side of the fuel tank has a curved slack portion is connected by a flexible fuel conduit located outside the fuel tank, fuel conduit, outside the fuel tank, the fuel outlet tube of the front of the filler opening, while passing the outer side of the fuel supply port in the vehicle width direction outer side of the fuel tank is guided toward the rear of the vehicle, and the slack portion of a large radius of curvature Bending forward while forming and heading toward the fuel injection valve, it is possible to reduce the flow resistance, avoid interference with adjacent members, and reduce the deflection angle of the fuel conduit even when the power unit is swung up and down it can be suppressed, that Do is advantageous in the durability ensured.
[0060]
In particular, according to the invention of claim 2, a fuel connector that is positioned and fixed to the engine is attached to the fuel injection valve, and the fuel conduit is connected to a connection pipe that is fixed to the fuel connector and communicates with the fuel injection valve. Since the connection is made, the connecting direction of the fuel conduit to the fuel connector attached to the fuel injection valve is constant, and the piping of the fuel conduit can be easily performed while preventing the displacement of the fuel conduit.
[0061]
In particular, according to the invention of claim 3, the fuel supply unit in the fuel tank is provided with a fuel pump that pumps fuel to the fuel outlet cylinder side, and a pressure regulator that releases excess discharge pressure of the fuel pump. Therefore, the fuel discharged from the pressure regulator can be returned to the fuel tank as it is, and no special piping for returning the fuel is required, which can contribute to the simplification of the configuration.
[0062]
In particular, according to the invention of claim 4, the fuel outlet pipe of the fuel supply unit is detachably coupled to the fuel outlet pipe of the fuel supply unit via a joint. By removing from the outlet tube, the fuel conduit can be easily connected to the fuel injection valve and piping, and maintenance of the fuel supply unit can also be easily performed without being obstructed by the fuel conduit. it can. In addition, the fuel take-out pipe can be easily and quickly connected to the fuel supply unit, which can contribute to an improvement in assembly performance.
[0063]
Furthermore, according to the fifth aspect of the present invention, the fuel supply unit is provided with a fuel filter for filtering the fuel discharged from the fuel pump in the vicinity of the inner end of the fuel outlet cylinder, and the upper end of the fuel filter is arranged. Since the recess is formed on the plate so that the inner end of the fuel take-off pipe faces, the fuel take-off pipe can be disposed close to the fuel filter, and the amount of protrusion of the fuel take-up pipe to the upper side of the fuel tank is reduced. Interference with the step floor can be easily avoided.
[Brief description of the drawings]
FIG. 1 is a side view of a motorcycle.
FIG. 2 is an enlarged view taken along arrow 2 in FIG.
3 is a cross-sectional view taken along line 3-3 in FIG.
FIG. 4 is a plan view of a fuel supply unit.
FIG. 5 is an exploded perspective view of a structure for attaching a fuel supply unit to a fuel tank.
6 is a cross-sectional view taken along line 6-6 of FIG.
7 is a cross-sectional view taken along line 7-7 in FIG.
8 is a cross-sectional view taken along line 8-8 in FIG.
9 is a cross-sectional view taken along line 9-9 in FIG.
10 is an enlarged sectional view taken along line 10-10 in FIG. 2;
[Explanation of symbols]
1 ... Small vehicle (motorcycle)
2 ... Body frame 3r ... Rear wheel 6 ... Power unit 9 ... Engine 9a ... Cylinder 12 ... Step floor 15 ... Luggage box 16 .... Seat 18 for passengers ... Fuel tank 18a ... Ceiling wall 20 ... Fuel supply port 22 ... Fuel supply unit 25 ... Fuel pump 27 ... Fuel filter 28 ... Pressure regulator 36a ... Fuel outlet tube 39 ... Fuel take-out pipe 40 ... Joint 69 ... Upper end plate 69a of fuel filter ... Recess 103 ... Fuel injection Valve 105 ... Fuel connector

Claims (10)

A power unit (6) having an engine (9) with a cylinder portion (9a) tilted forward is mounted on a body frame (2) behind a step floor (12) having an upper raised portion (12a) at the center in the left-right direction. A rear wheel (3r) driven by the rear end of the power unit (6) is supported on the rear end of the power unit (6), and a luggage box (15) and an occupant are placed above the power unit (6). A small vehicle in which a fuel tank (18) having a fuel filler opening (20) on a ceiling wall (18b) is disposed immediately below a step floor (12).
A fuel supply unit (22) for supplying fuel to the outside is provided in the fuel tank (18) at a position closer to the front of the vehicle than the fuel filler port (20) and not overlapping the fuel filler port (20) in a side view of the vehicle. At the same time, the fuel outlet cylinder (36) of the fuel supply unit (22) is arranged so as to protrude above the upper surface of the fuel tank (18) at a location closer to the front of the vehicle than the fuel filler port (20) of the fuel tank (18). Set up
Between the fuel outlet cylinder (36) and the fuel injection valve (103) of the engine (9), a curved slack portion is provided on the fuel supply port (20) side outside the fuel tank (18) in the vehicle width direction. whole person through Ri and the is characterized in that it is connected by a fuel tank (18) a flexible fuel conduit located outside (107), a fuel supply device in the small vehicle. The fuel supply device for a small vehicle according to claim 1,
A fuel connector (105) that is positioned and fixed to the engine (9) is attached to the fuel injection valve (103), and a connection pipe (fixed to the fuel connector (105) that communicates with the fuel injection valve (103) ( A fuel supply device for a small vehicle, characterized in that the fuel conduit (107) is connected to 105b). In the fuel supply apparatus in the small vehicle according to claim 1 or 2,
The fuel supply unit (22) in the fuel tank (18) includes a fuel pump (25) that pumps fuel to the fuel outlet cylinder (36) side, and a pressure that releases excess discharge pressure of the fuel pump (25). A fuel supply device for a small vehicle, comprising a regulator (28). In the fuel supply apparatus in the small vehicle in any one of Claims 1-3,
A fuel outlet pipe (36) of the fuel supply unit (22) is detachably coupled with a fuel take-off pipe (39) connected to the fuel conduit (107) via a joint (40). A fuel supply device for a vehicle. In the fuel supply apparatus in the small vehicle in any one of Claims 1-4,
In the fuel supply unit (22), a fuel filter (27) for filtering the fuel discharged from the fuel pump (25) is disposed close to the inner end of the fuel outlet cylinder (36). A fuel supply device for a small vehicle, wherein a recess (69a) facing the inner end of the fuel take-out pipe (39) is formed in the upper end plate (69). In the fuel supply apparatus in the small vehicle in any one of Claims 1-5,
The slack portion is extended out and that extends further to the rear than the fuel injection valve (103) while passing through the side of the vehicle width direction outer side at the fuel supply port (20) of the fuel conduit (107) is a fuel tank (18) A fuel supply device for a small vehicle, wherein the fuel supply device is formed by making a U-turn forward from the section and connecting to the fuel injection valve (103). In the fuel supply apparatus in the small vehicle in any one of Claims 1-6,
The fuel supply device in a small vehicle, wherein the fuel conduit (107) extends linearly from the fuel outlet tube (36) to the side of the fuel filler port (20). In the fuel supply apparatus in the small vehicle in any one of Claims 1-7,
The body frame (2) includes a floor support part (2c) into which a fuel tank (18) is inserted at the center, and the fuel conduit (107) is arranged along the floor support part (2c) of the body frame (2). A fuel supply device for a small vehicle, wherein the fuel supply device extends to the side of the cylinder portion (9a) of the engine (9). In the fuel supply apparatus in the small vehicle in any one of Claims 1-8,
The fuel injection valve (103) is arranged offset from the vehicle longitudinal center line (Y) to the left and right sides, and the fuel outlet cylinder (36) is disposed from the longitudinal center line (Y) of the fuel tank (18). A fuel supply device for a small vehicle, wherein the fuel injection valve (103) is arranged offset to the same side as the offset direction with respect to the vehicle front-rear direction center line (Y). In the fuel supply apparatus in the small vehicle in any one of Claims 1-9,
The upper raised portion (12a) of the step floor (12) has a fuel outlet pipe (36) and a fuel outlet pipe (36) connected to the fuel outlet pipe (36) and connected to the upstream end of the fuel conduit (107). 39) and a tank cap (21) for opening and closing the fuel filler opening (20) are disposed.

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