• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    To provide a fuel supply line arrangement for a motorcycle, which can improve the assembly capability and serviceability of the fuel supply line. Fuel suction ports (115a) and (124a) as respective seal portions of a first (115) and a second (124) fuel injection valve, the portions being connected to a pipeline of fuel supply (131), are oriented towards a side in a direction of the width of the vehicle, a T-shaped gasket (186) and a second L-shaped gasket (187), the connecting portions being connected at the fuel suction ports, are directed to another side in the direction of the width of the vehicle towards the fuel suction ports, and the fuel supply line (131) is arranged along a device admission (47).
    公开号:FR3018061A1
    申请号:FR1551526
    申请日:2015-02-23
    公开日:2015-09-04
    发明作者:Yusaburo Tani
    申请人:Honda Motor Co Ltd;
    IPC主号:
    专利说明:

    [0001] FIELD OF THE INVENTION The present invention relates to a fuel supply line arrangement structure for a motorcycle, which structure includes a fuel supply line for supplying fuel to a motorcycle. fuel from a fuel tank A pair of fuel injection valves provided in an intake air passage. Related Art A conventional motorcycle is known which has a pair of fuel injection valves disposed in an intake air passage (see for example patent document 1). A fuel supply line extending from a fuel tank is connected to each of the 15 fuel injection valves. Prior Art Document Patent Document 1 Japanese Patent Laid-open No. 2011-137428 Summary of the Invention Problems to be Solved by the Invention In Patent Document 1, when the plurality of 20 fuel are arranged in the intake air passage, the arrangement of the fuel supply line extending from the fuel tank to each of the fuel injection valves can become complex, and it can be difficult attaching or detaching the fuel supply line at the time of assembly or at the time of maintenance. An object of the present invention is to provide a fuel supply line arrangement for a motorcycle, which structure can improve the assembly capability and serviceability of the fuel supply line. Means for Solving Problems In order to solve the above problems, the present invention provides a fuel supply line arrangement structure for a motorcycle, the fuel supply line arrangement structure comprising: an engine internal combustion engine 14 fixed to a main frame 22; an air filter 113 attached to a seat slide 27; an intake air passage 166 connecting the internal combustion engine 14 and the air filter 113 to each other; a pair of fuel injection valves 115, 124 attached on a downstream side and an upstream side, respectively, to an intake system 47 including the air filter 113 and the intake air passage 166; and a fuel supply line 131 having one end connected to a fuel tank 127 disposed on the main frame 22, and having another end side connected to each of the fuel injection valves 115, 124, wherein respective gasket portions 115a, 124a of the pair of fuel injection valves 115, 124, the gasket portions 115a, 124a being connected to the fuel supply pipe 131, are oriented towards one side in a direction of the width of the vehicle, connecting portions 186, 187 of the fuel supply line 131, the connecting portions 186, 187 being connected to the joint portions 115a, 124a, are directed to another side in the direction of the width of the vehicle to the seal portions 115a, 124a, and the fuel supply line 131 is disposed along the intake system 47 and connected to the pair of carburettor injection valves t 115, 124 from one side in the direction of the width of the vehicle. In the above constitution, the connecting portions may be formed by a T-shaped joint 186 connected to the fuel injection valve 115 on the downstream side and an L-shaped seal 187 connected to the fuel injection valve 115 on the downstream side. fuel injection 124 on the upstream side, and respective connecting portions 186b, 187b from the T-joint 186 and the L-shaped gasket 187 may be directed to the joint portions 115a, 124a. Moreover, in the above constitution, the fuel supply line 131 may be disposed on an opposite side of the intake system 47 in the width direction of the vehicle from a throttle pulley 163 opening and closing. closing a throttle valve 176 formed in the intake air passage 166. In addition, in the above constitution, the fuel supply line arrangement structure may further include a cross member 92 which couples a frame. left and a straight frame 23 to one another and to which a rear shock absorber end 91 is attached, wherein the intake system 47 can be arranged to pass in a fore-aft direction, a central portion in the width direction of the vehicle above the cross member 92, the fuel injection valves 115, 124 may be attached to a central line of the intake system 47, the center line of the system of admission 47 extending longitudinally, and the fuel supply line 131 may be attached to be offset to one side in the direction of the width of the vehicle relative to the intake air passage 166, and may be arranged between the left and right frames 23. In addition, in the above constitution, one end of the fuel supply line 131 may be connected to a fuel pump 128 attached to a lower portion within the fuel tank. 127, and a position of the fuel supply line 131 may be regulated by a portion of the fuel tank 127 via an elastic member 167.
    [0002] Moreover, in the above constitution, the fuel injection valve 124 on the upstream side may be attached to an air filter housing 118 forming the air filter 113, and a positioning portion 116b positioning the fuel supply 131 may be formed in the air filter housing 118. In addition, in the above constitution, a protective cover 125 may cover the fuel injection valve 124 on the upstream side from above, and the fuel supply line 131 can be held between the protective cover 125 and the positioning portion 116b of the air filter housing 118. Effects of the invention According to the present invention, the respective gasket portions of the pair of valves of fuel injection, the seal portions being connected to the fuel supply line, are oriented towards one side in the direction of the width of the vehicle, the connecting portions of the fuel supply line, the connecting portions being connected to the joint portions, are directed to another side in the direction of the width of the vehicle towards the joint portions, and the fuel supply line is arranged along the intake system and connected to the pair of fuel injection valves from one side in the direction of the width of the vehicle. As a result, the fuel supply line can be shortened, and the fuel supply line connected to the two fuel injection valves can be detached from and attached to one side of the vehicle fairing. Thus, the assembly capacity and the maintenance capacity can be improved. In addition, the connecting portions are formed by the T-joint connected to the fuel injection valve on the downstream side and the L-shaped seal connected to the fuel injection valve on the side. upstream, and the respective connection portions from the T-shaped gasket and the L-shaped gasket are oriented towards the gasket portions. Thus, the connecting portions of the fuel supply line can be directed to the seal portions easily with a simple constitution. In addition, the fuel supply line is disposed on the opposite side of the intake system in the direction of the width of the vehicle from the throttle pulley which opens and closes the throttle valve in the air passage. 20 admission. As a result, the fuel supply line can be detached and secured without interfering with the throttle pulley and throttle cables connected to the throttle pulley. In addition, the fuel supply arrangement structure further includes the cross member which couples the left and right frames to one another and to which one end of the rear shock absorber unit is attached. the intake system is arranged to pass the center portion in the direction of the width of the vehicle in the fore-and-aft direction, above the cross-member, the fuel injection valves are fixed on the center line of the intake system, the central line of the intake system extending longitudinally, and the fuel supply line is fixed so as to be shifted to one side in the direction of the width of the vehicle by relative to the intake air passage, and is arranged between the left and right frames. Accordingly, while the fuel supply line is disposed on the central side of the vehicle fairing, the fuel supply line can be easily detached from and attached to the fuel injection valves without interfering with the fuel system. 'admission. In addition, the fuel supply line can be protected by the left and right frames. In addition, one end of the fuel supply line is connected to the fuel pump attached to the lower portion within the fuel tank, and the position of the fuel supply line is regulated by a portion of the fuel supply line. fuel tank via the elastic member. The elastic member can therefore suppress the vibration of the fuel supply line. In addition, the upstream side fuel injection valve is attached to the air filter housing forming the air filter, and the positioning portion positioning the fuel supply line is formed in the air filter housing. . The positioning portion can therefore further suppress the vibration of the fuel supply line.
    [0003] In addition, the protective cover covers the fuel injection valve on the upstream side from above, and the fuel supply line is held between the protective cover and the positioning portion of the air filter housing. The positioning portion and the protective cover can therefore further suppress the vibration of the fuel supply line. BRIEF DESCRIPTION OF THE DRAWINGS Other characteristics and advantages of the invention will emerge more clearly on reading the following description, made with reference to the following appended drawings: FIG. 1 is a right-side view of a motorcycle having a fuel supply line arrangement structure according to an embodiment of the present invention. Figure 2 Figure 2 is a plan view of a central portion in a front-rear direction of the motorcycle. Figure 3 is a partial plan view of a motorcycle intake device and its periphery.
    [0004] Figure 4 is a partial perspective view of the motorcycle intake device and its periphery. Figure 5 Figure 5 is a partial left side view of the motorcycle intake device and its periphery. Figure 6 Figure 6 is a partial perspective view of the arrangement of the fuel supply line. Figure 7 Figure 7 is a partial perspective view of portions from the front of the vehicle fairing of the motorcycle to the center of the vehicle fairing. Figure 8 Figure 8 is an aid diagram for explaining the fuel supply line and vehicle fairing side assembly portions for the fuel supply line. Figure 9 is a sectional view of a locating portion for the upstream side of the fuel supply line.
    [0005] Figure 10 Figure 10 is a block diagram showing a procedure for assembling the fuel supply line. Embodiment of the Invention An embodiment of the present invention will be described below with reference to the drawings. It should be noted that directions such as forward direction, backward direction, leftward direction, rightward direction, upward direction, downward direction, and the like in the description are the same as the relative directions to the fairing. a vehicle unless otherwise specified. Moreover, a reference character FR shown in the figures indicates the forward direction of the vehicle fairing, a reference character UP indicates the upward direction of the careenage, and a reference character LE indicates the direction towards the left of the vehicle fairing. Figure 1 is a right side view of a motorcycle 10 having a fuel supply line arrangement structure according to one embodiment of the present invention. The motorcycle 10 is a saddle type vehicle in which a front wheel 13 is drivably supported by the forward end portion of a vehicle fairing frame 11 via a front fork 12, a motor 14 is supported by the lower portion of the vehicle fairing frame 11, and a rear wheel 17 is supported by the lower rear portion of the vehicle fairing frame 11 via an oscillating arm 16. The vehicle fairing frame 11 includes a steering head 21, a pair of left and right main frames 22, a pair of left and right pivot plates 23, a bottom frame 24, a pair of left and right bottom frames 26, a pair of left and right seat rails 27 and a pair of left and right subframes 28.
    [0006] The steering head 21 forms the forward end portion of the vehicle fairing frame 11. The main frames 22 extend from the steering head 21 rearward and obliquely downward to the left and right. The pivot plates 23 extend from the rear end portions of the left and right main frames 22 downwards and obliquely backwards and then downwards and obliquely forwards. The bottom frame 24 extends downwardly and obliquely rearward from portions where the left and right main frames 22 are attached to the steering head 21. The bottom frames 26 extend from the lower end of the bottom frame 24 downwards on the left and the right, extend rearwardly below the engine 14, and are coupled to the pivot plates 23. The rear end portions of the seat rails 27 ' extend from the lower end portions of the main frames 22 rearward and obliquely upward, and are coupled to the rear end portions of the sub-frames 28 which extend from the pivot plates 23 rearwardly; and oblique upwards. The front fork 12 is formed by a pair of left and right fork tubes 35, a high deck 36, a low deck 37 and a fork shaft (not shown). The fork tubes 35 are formed by a shock absorber. The front wheel 13 is supported by the lower end portions of the left and right fork tubes 35 via an axle 38. The top bridge 36 and the bottom deck 37 extend over the left and right fork tubes 35. A handlebar 41 is attached to the top deck 36. The fork axle is rotatably supported by the steering head 21, and is vertically attached to the respective centers of the top deck 36 and the bottom deck 37. The engine 14 is supported by the pivot plates 23, the bottom frame 24 and the bottom frames 26. The motor 14 includes a crankcase 43 and a cylinder portion 44 extending upwardly from the upper front portion of the crankcase 43. By way of reference, a numeral 45 designates a motor hanger secured to the upper end portions of the pivot plates 23 to support the motor 14. A transmission 46 is integrally attached to the rear portion of the crankcase 43. The cylinder portion 44 includes a rear portion connected with an intake device 47 and a front portion connected with an exhaust device 48. The exhaust device 48 includes: an exhaust pipe 51 protruding from the cylinder portion 44 to the right side of the vehicle fairing, extending rearwardly bending, and further ramifying and extending rearward to the left and to the right; and a pair of left and right silencers 52 connected to the rear end portions of the exhaust pipe 51.
    [0007] The oscillating arm 16 is supported vertically by a pivot shaft 54 formed in the lower portions of the pivot plates 23. The rear end portion of the oscillating arm 16 supports the rear wheel 17 via an axle 56. A seat 57 is supported by the upper portions of the main frames 22 and the seat rails 27. In this regard, a numeral 61 designates a front fender covering the front wheel 13 from above. A numeral 62 designates a pair of left and right baffles covering the left and right sides of the front portion of the vehicle fairing frame 11. A numeral 63 designates a chain that transmits energy from the transmission 46 to the rear wheel 17. A numeral 64 denotes a rear fender covering the rear wheel 17 from above. FIG. 2 is a plan view of a central portion in a front-rear direction of the motorcycle 10.
    [0008] The intake device 47 extends from the rear portion of the cylinder portion 44 (specifically a cylinder head (not shown)) of the engine 14 toward the rear of the vehicle fairing. The intake device 47 is disposed on a center line 60 of a vehicle fairing extending longitudinally in the center in a direction of the width of the vehicle. The intake device 47 includes a throttle body 111 provided with a butterfly valve (not shown) and an air filter 113 connected to the rear end of the throttle body 111 via a connecting tube 112. A first fuel injection valve 115 which injects fuel into an intake air passage within the throttle body 111 is fixed at a center in the vehicle width direction 10 of the throttle body 111. The filter The air filter housing 118 includes an air filter housing 118, a housing intake pipe portion 121, and an air filter element 122. The air filter 113 is attached to the left and right seat rails 27. The housing Air filter 118 includes a front housing 116 and a rear housing 117 of a structure divided into the two front and rear portions. The housing inlet pipe portion 121 is formed in the front housing 116 so as to protrude forwardly and obliquely downwardly. The air filter element 122 is formed in the rear portion of the rear housing 117. A second fuel injection valve 124 which injects the fuel into the intake air passage within the air filter housing 118 is attached to the upper portion of the rear housing 117. The forward end portion of the housing inlet pipe portion 121 is connected to the connecting pipe 112. In this regard, a numeral 125 denotes a side cover. intake which covers the periphery of the air filter 113 and the second fuel injection valve 124. The intake-side cover is attached to the upper portions of the seat rails 27. The fuel supply line 131 which extends from a fuel pump 128 formed in the lower portion of a fuel tank 127 is connected to the first fuel injection valve 115 and the second fuel injection valve 1 24. The fuel supply line 131 extends substantially linearly in the front-rear direction. In this regard, a numeral 126 denotes a tank cap that covers the fuel fill portion of the fuel tank 127.
    [0009] The exhaust pipe 51 connected to the front portion of the cylinder portion 44 of the engine 14 includes a front exhaust pipe 73 bending backward, a branch pipe 74 connected to the rear end of the exhaust pipe before 73, and a left rear exhaust pipe 76 and a right rear exhaust pipe 77 connected to the rear end of the branch pipe 74. The left rear exhaust pipe 76 and the right rear exhaust pipe 77 are connected to the left and right mufflers 52 (see Figure 1). The left rear exhaust pipe 76 passes below the intake device 47, and extends inward in the vehicle width direction of the left pivot plate 23.
    [0010] Figure 3 is a partial plan view of the intake device 47 of the motorcycle 10 and its periphery. The upper left portions of the first fuel injection valve 115 and the second fuel injection valve 124 are provided with fuel suction ports 115a and 124a, respectively, for sucking the fuel. The fuel suction ports 115a and 124a are oriented to the left in the direction of the width of the vehicle. These fuel suction ports 115a and 124a are connected with a T-shaped gasket 186 and a second L-shaped gasket 187, respectively, formed in the fuel supply line 131, via a pipe made of rubber . The fuel supply line 131 is disposed along the center line 60 of the vehicle fairing on the left side of the center line 60 of the vehicle fairing, and is held downward from above in a position at the front of the vehicle fairing. rear of the T-joint 186 via a rubber member 167 formed on the rear of a flange portion 127a of the fuel tank 127. Accordingly, the fuel supply line 131 is positioned in one direction. upwards so that the vibration of the fuel supply line 131 can be suppressed. A butterfly pulley 163 to which two throttle cables 161 and 162 are coupled is disposed in the right-hand portion of the throttle body 111. The throttle pulley 163 is secured, together with a throttle valve, to a positively supported throttle shaft. by means of the main body of the throttle body 111. In this regard, a reference numeral 165 designates a coupling formed in the second fuel injection valve 124 for connecting a harness which provides the energy to actuate the second valve. 124. An intake air passage 166 which communicates via the constituent parts of the intake device 47 and which is connected to the intake port of the engine 14 is formed in the device Figure 4 is a partial perspective view of the intake device 47 of the motorcycle 10 and its periphery. The cylinder portion 44 of the engine 14 includes: a cylinder block 66 attached to the front upper portion of the crankcase 43; a yoke 67 attached to the upper portion of the cylinder block 66; and a breech cover 68 which covers the upper portion of the breech 67. A tubular cross member 92 extends and is secured between the left and right pivot plates 23. The intake device 47 is disposed over the The fuel supply line 131 is disposed above the left side of the intake device 47. The fuel supply line 131 flexes greatly so as to protrude downwardly from the side of the fuel line 131. fuel pump 128, flexes upwardly at the rear of the portion held down by the rubber member 167, flexes downwardly near the second L-shaped seal 187, and extends along the a high surface 117a of the rear housing 117 of the air filter housing 118.
    [0011] In addition, the fuel supply line 131 between the T-shaped gasket 186 and the second L-shaped gasket 187 is disposed within a recessed portion 116b formed in a high surface 116a of the front housing 116 of the housing. air filter 118, and is held down by the intake side cover 125 (see Figure 2) which covers the left and right of the air filter 113 from above. Namely, the fuel supply line 131 is held between the front housing 116 and the intake side cover 125. Therefore, a vertical vibration of the fuel supply line 131, which is also held down by the above by the rubber piece 167, can be omitted, and further a displacement and vibration in the direction of the vehicle width of the fuel supply line 131 can be suppressed as the fuel supply line 131 is disposed within the recessed portion 116b of the front housing 116.
    [0012] Here, a numeral 168 designates a connector on the first fuel injection valve 115 for connecting a harness that provides the energy to operate the first fuel injection valve 115.
    [0013] Figure 5 is a partial left side view of the intake device 47 of the motorcycle 10 and its periphery, the main frames 22 and the pivot plates 23 being omitted. The left rear exhaust pipe 76 passes beneath the intake device 47, and extends to the left in the vehicle width direction of a rear damper unit 91. An upper end portion 91a of the rear damper unit 91 is secured by a bolt 101 and a nut 102 to a rear damper support portion 92a which protrudes rearwardly and obliquely upwardly from a central portion in the direction of the vehicle width of the cross member 92 extending between the left and right pivot plates 23. The rear shock unit 91 extends substantially in the up-down direction. An oil reservoir tank 91b is integrally provided with the upper rear portion of the rear damper unit 91 to store a portion of the oil flowing to and from the interior of the rear damper unit 91. The intake device 47 extends downwardly and obliquely upwards from an intake pipe 67c integrally provided with the rear portion of the cylinder head 67. A main air passage 170 forming part of the passage The intake air 166 is formed in the throttle body 111. A throttle shaft 175 is rotatably supported by the throttle body 111 so as to intersect the main air passage 170 in the width direction. of the vehicle. A throttle valve 176 which opens and closes the main air passage 170 is attached to the throttle shaft 175. The intake device 47 is disposed above the left rear exhaust pipe 76 of the throttle unit. rear damper 91 and cross member 92. The front side of the intake device 47, namely the throttle body 111 and the connecting tube 112 are disposed below the fuel tank 127. Because the tank of the fuel tank 91b oil exceeds 10 of the upper rear portion of the rear shock absorber unit 91, a lower front surface 116c of the front housing 116 of the air filter housing 118 is recessed to avoid interference with the oil tank tank 91b. The upper front end portion of the intake side cover 125 is located at a position higher than the second fuel injection valve 124. Thus, the intake side cover 125 can protect the second fuel injection valve 124. even when the saddle 57 (see Fig. 1) disposed above the intake side cover 125 and the rear of the fuel tank 127 is bent down due to the presence of an occupant. The fuel supply line 131 includes a first L-shaped gasket 185, a front-end flexible pipe 131D, the T-joint 186, a rear-end flexible pipe 131E, and the second L-shaped gasket 187. in this order from the front. The first L-shaped gasket 185 is connected to the fuel pump 128. The T-shaped gasket 186 is connected to the first fuel injection valve 151. The second L-shaped gasket 187 is connected to the second fuel injection valve 124.
    [0014] The 131E rear hoses are longer than the 131D front hoses. The rearward-side hose 131E is arranged to overlap the connecting tube 112, the housing inlet pipe portion 121 and the air filter housing 118 in side view. Therefore, an upward protrusion amount of the rearward-side hose 131E from the intake device 47 can be reduced, and thus the rear-side hose 131E can be protected from above against interfering objects . Fig. 6 is a partial perspective view of the arrangement of the fuel supply line 131. The rubber front end flexible pipe 131D has a front end connected to the first L-shaped gasket 185, and has a rear end. connected to the T-joint 186. The rubber-backed flexible pipe 131E has a front end connected to the T-joint 186, and has a rear end connected to the second L-shaped gasket 187. Because the rubber 167 now down the 131E rearward-side flexible hose is attached to the flange portion 127a of the fuel tank 127, no special member is required to support the rubber piece 167, so that the number of coins does not increase. Thus, we can achieve a cost reduction. The fuel supply line 131 passes through narrow spaces in the vehicle fairing, for example between the cylinder head cover 68 and the fuel tank 127, between the left pivot plate 23 and the first fuel injection valve. 115, and between the throttle body 111 and the connecting tube 112 and the fuel tank 127. Accordingly, an arrangement structure which will be described in the following is adopted so as not to complicate the assembly at the time of manufacture or assembly and disassembly at the time of maintenance.
    [0015] Figure 7 is a partial perspective view of portions from the front of the vehicle fairing of the motorcycle 10 to the center of the vehicle fairing. The butterfly pulley 163 attached to the throttle shaft is disposed on the right-hand portion of the throttle body 111. The two throttle cables 161 and 162 are connected to the throttle pulley 163. The throttle cables 161 and 162 extend from the inside of the throttle housing 172 adjacent an accelerator handle 171 formed at the right end of the handlebar 41 along the front fork 12 (see Figure 1) and the vehicle fairing frame 11, and reach the butterfly pulley 163. A disk-shaped rotatable portion formed integrally with the throttle grip 171 is disposed within the throttle housing 172. An end portion of each of respective inner wires forming the throttle cables 161 and 162 is coupled to the outer periphery of the rotatable portion. Another end portion of each of the respective internal threads of the throttle cables 161 and 162 is also coupled to the outer periphery of the throttle pulley 163. Accordingly, when the throttle grip 171 is rotated, the throttle pulley 163 is rotated via the throttle cables 161 and 162 to open and close the throttle valve via the throttle shaft. In the present embodiment, the fuel supply line 131 is disposed on the side of the left side portion which is opposite in the direction of the width of the vehicle from the throttle pulley 163 of the throttle body 111. Therefore the butterfly pulley 163 and the throttle cables 161 and 162 do not become obstacles when the fuel supply line 131 is detached or attached at the time of assembly and at the time of maintenance. FIG. 8 is an explanation diagram of the fuel supply line 131 and the vehicle fairing side assembly portions for the fuel supply line 131. The fuel pump 128 has a fuel evacuation light 128a arranged to protrude to the left in the direction of the width of the vehicle. The first fuel injection valve 115 and the second fuel injection valve 124 have the respective fuel intake ports 115a and 124a arranged to protrude to the left in the width direction of the vehicle. One end of a pump connection hose 181 is connected to the fuel discharge lumen 128a. One end of a first injection valve connecting hose 182 is connected to the fuel suction port 115a. One end of a second injection valve hose 183 is connected to the fuel suction port 124a. The pump connection hose 181, the first injection valve connection hose 182 and the second injection valve connection hose 183 are made of rubber. The fuel supply line 131 includes the first L-shaped gasket 185, the front-end flexible pipe 131D, the T-shaped gasket 186, the rear-side flexible pipe 131E, the second L-shaped gasket 187 and flexible hose tapes (not shown) which secure connection portions of the respective parts. The first L-shaped gasket 185 includes a suction pipe portion 185a connected to the other end of the pump connection hose 181 and a drain pipe portion 185b connected to one end of the front pipe. 131D. The suction pipe portion 185a and the drain pipe portion 185b communicate with each other to form a fuel passage such that the suction pipe portion 185a and the drain pipe 185b form an angle of 90 ° or an angle close to 90 ° with each other. The T-joint 186 includes a suction pipe portion 186a connected to the other end of the front-end flexible pipe 131D, a first discharge pipe portion 186b connected to the other end of the first flexible pipe of the injection valve connection 182, and a second discharge portion 186c connected to one end of the rearward-side hose 131E. The suction pipe portion 186a and the second discharge portion 186c are present on an identical line. The suction pipe portion 186a, the second exhaust portion 186c and the first exhaust pipe portion 186b communicate with each other to form a fuel passage such that the suction pipe portion 186a and the second discharge portion 186c and the first discharge pipe portion 186b form an angle of 90 ° or an angle close to 90 ° to each other. The second L-shaped gasket 187 includes a suction pipe portion 187a connected to the other end of the rearward-side hose 131E and a drain pipe portion 187b connected to the other end of the second flexible pipe of the Injection valve connection 183. The suction pipe portion 187a and the drain pipe portion 187b communicate with each other to form a fuel passage such that the pipe portion of the suction 187a and the discharge pipe portion 187b form an angle of 90 ° or an angle close to 90 ° to each other. The first L-shaped gasket 185, the T-shaped gasket 186 and the second L-shaped gasket 187 are connected to the front-end flexible pipe 131D and the rear-side flexible pipe 131E so that the pipe portion of the suction 185a of the first L-shaped gasket 185, the first exhaust pipe portion 186b of the T-shaped gasket 186, and the exhaust pipe portion 187b of the second L-shaped gasket 187 each protrude to the right in the direction of the width of the vehicle. As described above, the use of the first L-shaped gasket 185, the T-shaped gasket 186 and the second L-shaped gasket 187 as L-shaped or T-shaped gasket allows the respective connecting portions of the first L-shaped gasket 185, the T-shaped gasket 186 and the second L-shaped gasket 187 to be easily oriented to the fuel pump 128, the first fuel injection valve 115 and the second fuel injection valve 124 on the side of the vehicle fairing while the longitudinal direction of the fuel supply pipe 131 is oriented in the front-rear direction of the vehicle. Figure 9 is a sectional view of a locating portion for the upstream side of the fuel supply line 131, and shows a state in which the upstream side of the fuel supply line 131 and its periphery. have their section in the direction of the width of the vehicle and in a substantially vertical direction. The fuel supply line 131 is disposed in the recessed portion 116b in the front housing 116 of the air filter housing 118, and is held downward from above by a leading edge portion 125a of the inlet side cover 125. attached to the left and right seat rails 27. Namely, the fuel supply line 131 is held and positioned between the front housing 116 and the intake side cover 125. Accordingly, the position of the fuel supply line 131 is regulated in the up-down direction by the front housing 116 and the intake side cover 125, and is further regulated in the vehicle width direction by the recessed portion 116b. In this regard, a reference numeral 195 denotes a cover bracket attached to the seat rail 27. A numeral 196 denotes a nut attached to the cover bracket 195. A numeral 197 designates a bolt for securing the intake side cover. 125 to the cover bracket 195, the bolt being screwed into the nut 196. FIG. 10 is a block diagram showing a procedure for assembling the fuel supply line 131. The pump connection hose 181 the first injection valve connecting hose 182 and the second injection valve connecting hose 183 are respectively connected in advance to the fuel discharge lumen 128a of the fuel pump 128, the fuel suction light 115a of the first fuel injection valve 115, and the fuel suction light 124a of the second injection valve In this regard, reference numerals 191 denote flexible hose tapes which secure the pump connection hose 181, the first injection valve connection hose 182 and the second valve connection hose. injection nozzle 183 to prevent the pump connection hose 181, the first injection valve connection hose 182 and the second injection valve connection hose 183 from falling. The suction pipe portion 185a, the first exhaust pipe portion 186b, and the exhaust pipe portion 187b in the first L-shaped gasket 185, the T-shaped gasket 186, and the second gasket L 187 of the fuel supply line 131 are oriented to the right in the direction of the width of the vehicle. In this regard, reference numerals 192 designate flexible pipe tapes which secure the front-end flexible pipe 131D and the rear-end flexible pipe 131E to prevent the front-end flexible pipe 131D and the rear-end flexible pipe 131E from falling out of the first gasket. L-shaped 185, T-joint 186 and second L-shaped seal 187.
    [0016] Then, the suction pipe portion 185a is inserted into the pump connection hose 181, the first discharge pipe portion 186b is inserted into the first injection valve connection hose 182 and the portion of discharge pipe 187b in the second injection valve connecting hose 183. Then, flexible pipe tapes 193 which have been fitted to the pump connection hose 181, the first flexible connection pipe Injection valve 182 and the second injection valve connecting hose 183 in advance are secured. This completes the assembly of the fuel supply line 131 on the side of the fuel pump 128, the side of the first fuel injection valve 115 and the side of the second fuel injection valve 124. Next, the fuel supply line 131 including the suction pipe portion 185a, the first exhaust pipe portion 186b, and the exhaust pipe portion 187b oriented to the right in the vehicle width direction. can be easily assembled on the pump connection hose 181, the first injection valve connecting hose 182 and the second injection valve connecting hose 183 facing to the left in the width direction of the vehicle from the fuel pump 128, the first fuel injection valve 115 and the second fuel injection valve 124. Accordingly, the ability to assemble or the ability to Maintenance at the time of an interview involving assembly and disassembly after assembly can be improved even in a narrow space in the motorcycle.
    [0017] As shown in FIG. 1, FIG. 3 and FIG. 6 described above, a fuel supply line arrangement structure for a motorcycle 10 includes: a motor 14 as an internal combustion engine attached to the frames main 22; an air filter 113 attached to the seat rails 27; an intake air passage 166 connecting the motor 14 and the air filter 113 to each other; a pair of a first fuel injection valve 115 and a second fuel injection valve 124 attached on a downstream side and an upstream side, respectively, to an intake device 47 as a fuel injection system. inlet including the air filter 113 and the intake air passage 166; and the fuel supply line 131 having an end connected to a fuel tank 127 disposed on the main frames 22, and having another end side connected to each of the first fuel injection valve 115 and the second fuel injection valve 124, wherein the fuel suction ports 115a and 124a as respective seal portions of the pair of the first fuel injection valve 115 and the second fuel injection valve 124, the seal portions being connected to the fuel supply line 131, are oriented to one side in a width direction of the vehicle, a T-shaped gasket 186 and a second L-shaped gasket 187 as that connecting portions of the fuel supply line 131, the coupling portions being connected to the fuel suction ports 115a and 124a, are directed to another side in the direction of the width of the vehicle to the fuel suction ports 115a and 124a, and the fuel supply line 131 is disposed along the intake device 47 and connected to the pair of the first injection valve 115 and the second fuel injection valve 124 from one side in the direction of the width of the vehicle. According to this constitution, the fuel supply line 131 can be arranged substantially linearly along the intake device 47, so that the fuel supply line 131 can be shortened, and the fuel supply line 131 connected to the two fuel injection valves, namely to the first fuel injection valve 115 and the second fuel injection valve 124, can be detached from and attached to one side of the vehicle fairing. Thus, the assembly capacity and the maintenance capacity can be improved. In addition, as shown in FIG. 8 and FIG. 10, the connecting portions are formed by a T-shaped seal 186 connected to the first fuel injection valve 115 on the downstream side and a second shaped seal. L 187 connected to the second fuel injection valve 124 on the upstream side, and a first exhaust pipe portion 186b and a discharge pipe portion 187b as respective connecting portions from the gasket. T-shaped 186 and second L-shaped gasket 187 are oriented toward the fuel suction ports 115a and 124a. Thus, the seal portions of the fuel supply piping 131 can be directed to the fuel suction ports 115a and 124a easily with a simple constitution.
    [0018] In addition, as shown in FIG. 3, FIG. 5 and FIG. 7, the fuel supply line 131 is disposed on the opposite side of the intake device 47 in the direction of the width of the vehicle from a butterfly pulley. 163 which opens and closes a throttle valve 176 formed in the intake air passage 166. Accordingly, the fuel supply line 131 can be detached and secured without interfering with the throttle pulley 163 and the throttle cables 161 and 162 connected to the butterfly pulley 163. Thus, the maneuverability can be improved. In addition, as shown in FIG. 3 and FIG. 4, the fuel supply line arrangement structure further includes a cross member 92 which couples the pivot plates 23 as a left frame and a right frame one to the other and to which one end of a rear damper unit 91 is attached, the intake device 47 is arranged to pass, in a fore-aft direction, a central portion in the width direction of the vehicle above the cross member 92, the first fuel injection valve 115 and the second fuel injection valve 124 are attached to a central line of the intake device 47, the central line of the intake device 47 extending longitudinally, and the fuel supply line 131 is fixed so as to be shifted to one side in the direction of the width of the vehicle with respect to the intake air passage 166, and is disposed between the plate As a result, while the fuel supply line 131 is disposed on the central side of the vehicle fairing, the fuel supply line 131 can be easily detached from and attached to the first one. the fuel injection valve 115 and the second fuel injection valve 124 without interfering with the intake device 47. In addition, the fuel supply line 131 may be protected by the left and right pivot plates 23. In addition, as shown in FIG. 5 and FIG. 6, one end of the fuel supply line 131 is connected to a fuel pump 128 attached to a lower portion within the fuel tank 127, and a position of the fuel supply line 131 is regulated by a portion of the fuel tank 127 via a rubber member 167 as an elastic member. The rubber piece 167 can therefore suppress the vibration of the fuel supply line 131.
    [0019] In addition, as shown in FIG. 4 and FIG. 9, the second fuel injection valve 124 on the upstream side is attached to an air filter housing 118 forming the air filter 113, and a recessed portion 116b to As a positioning portion positioning the fuel supply line 131 is formed in the air filter housing 118. The recessed portion 116b can therefore further suppress the vibration of the fuel supply line 131. In addition, as the Figure 2, Figure 5 and Figure 9, an intake side cover 125 as a protective cover covers the second fuel injection valve 124 on the upstream side from above, and the fuel supply line 131 is held between the intake side cover 125 and the recessed portion 116b of the air filter housing 118. The recessed portion 116b and the intake side cover 125 may therefore further suppress the vibration of The preceding embodiment merely represents a mode of the present invention, and modifications and applications can be made arbitrarily without departing from the spirit of the present invention. In addition, the present invention is not limited to the application to the motorcycle 10, but is also applicable to saddle-type vehicles other than motorcycles. In this respect, the saddle-type vehicles include vehicles in general which are astride the vehicle fairings, and are vehicles which include not only motorcycles (also including motor-assisted bicycles) but also three-wheeled vehicles. wheels and four-wheeled vehicles classified as ATVs (All Terrain Vehicles). Description of reference symbols Motocycle 14 Engine (internal combustion engine) 10 22 Main frame 23 Swivel plate (frame) 27 Seat slide 47 Intake device (intake system) 91 Rear shock absorber unit 92 Traverse 113 Fuel filter air 115 First fuel injection valve (fuel injection valve) 115a Fuel intake light (seal portion) 116b Recess portion (positioning portion) 118 Air filter housing 124 Second fuel injection valve fuel (fuel injection valve) 124a Fuel suction light (seal portion) 125 Inlet-side cover (protective cover) 127 Fuel tank 131 Fuel supply line 163 Butterfly pulley 166 Air passage inlet 167 Rubber piece (elastic member) 175 Throttle shaft 176 Throttle valve 186 T-joint 186b First discharge pipe portion (connecting portion) 187 Second join L-shaped (L-shaped gasket) 187b Drain pipe portion (connection portion)
    权利要求:
    Claims (7)
    [0001]
    REVENDICATIONS1. A fuel supply line arrangement structure for a motorcycle, the fuel supply line arrangement structure comprising: an internal combustion engine (14) attached to a main frame (22); an air filter (113) attached to a seat rail (27); an intake air passage (166) connecting the internal combustion engine (14) and the air filter (113) to each other; a pair of fuel injection valves (115, 124) attached, on a downstream side and an upstream side, respectively, to an intake system (47) including the air filter (113) and the passage of intake air (166); and a fuel supply line (131) having an end connected to a fuel tank (127) disposed on the main frame (22), and having another end side connected to each of the fuel injection valves fuel (115, 124), characterized in that respective seal portions (115a, 124a) of the pair of fuel injection valves (115, 124), the seal portions (115a, 124a) being connected to the fuel supply line (131) are oriented towards one side in a direction of the width of the vehicle, connecting portions (186, 187) of the fuel supply line (131), connector (186, 187) being connected to the joint portions (115a, 124a), are directed to another side in the width direction of the vehicle towards the joint portions (115a, 124a), and the fuel supply line (131) is arranged along the intake system (47) and connected e to the pair of fuel injection valves (115, 124) from one side in the direction of the width of the vehicle.
    [0002]
    A fuel supply line arrangement for the motorcycle according to claim 1, characterized in that the connecting portions are formed by a T-shaped joint (186) connected to the fuel injection valve. (115) on the downstream side and an L-shaped gasket (187) connected to the fuel injection valve (124) on the upstream side, and respective connecting portions (186b, 187b) from the gasket T-shape (186) and L-shaped seal (187) are oriented towards the joint portions (115a, 124a).
    [0003]
    A fuel supply line arrangement for the motorcycle according to claim 1 or 2, characterized in that the fuel supply line (131) is disposed on an opposite side of the intake system (47). ) in the width direction of the vehicle from a throttle pulley (163) opening and closing a throttle valve (176) in the intake air passage (166).
    [0004]
    A fuel supply line arrangement for the motorcycle according to any one of claims 1 to 3, further comprising a cross member (92) which couples a left frame and a right frame (23) one to the other and to which a rear shock absorber end (91) is attached, characterized in that the intake system (47) is arranged to pass a central portion in a fore-aft direction in the direction of the width of the vehicle above the cross member (92), the fuel injection valves (115, 124) are attached to a central line of the intake system (47), the center line of the fuel system longitudinally extending inlet (47), and the fuel supply line (131) is fixed so as to be offset to one side in the direction of the width of the vehicle relative to the intake air passage (166), and is disposed between the left and right frames (23). 25
    [0005]
    A fuel supply line arrangement for the motorcycle according to any one of claims 1 to 4, characterized in that one end of the fuel supply line (131) is connected to a a fuel pump (128) attached to a lower portion within the fuel tank (127), and a position of the fuel supply line (131) is regulated by a portion of the fuel tank (127) via an elastic member (167).
    [0006]
    A fuel supply line arrangement for the motorcycle according to any one of claims 1 to 5, characterized in that the fuel injection valve (124) on the upstream side is attached to a the air filter housing (118) forming the air filter (113), and a positioning portion (116b) positioning the fuel supply line (131) is formed in the air filter housing (118).
    [0007]
    A fuel supply line arrangement for the motorcycle according to claim 6, characterized in that a protective cover (125) covers the fuel injection valve (124) on the upstream side by the above, and the fuel supply line (131) is held between the protective cover (125) and the positioning portion (116b) of the air filter housing (118).
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    同族专利:
    公开号 | 公开日
    US20150246702A1|2015-09-03|
    US9352796B2|2016-05-31|
    FR3018061B1|2019-11-15|
    AU2015200736B2|2016-04-07|
    AU2015200736A1|2015-09-17|
    JP2015160559A|2015-09-07|
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    JP3721626B2|1996-01-25|2005-11-30|株式会社デンソー|Intake duct and intake device for internal combustion engine|
    JP3970725B2|2002-09-11|2007-09-05|本田技研工業株式会社|Engine fuel injection system|
    JP4290948B2|2002-09-11|2009-07-08|本田技研工業株式会社|Engine fuel injection system|
    JP4032232B2|2002-09-18|2008-01-16|株式会社ケーヒン|Fuel distribution pipes in fuel injectors|
    JP2005343213A|2004-05-31|2005-12-15|Yamaha Motor Co Ltd|Vehicle|
    JP2006193026A|2005-01-12|2006-07-27|Yamaha Motor Co Ltd|Motorcycle|
    JP4334493B2|2005-03-17|2009-09-30|株式会社ケーヒン|Fuel supply pipe structure in a multiple throttle body with two fuel injection valves|
    RU2365779C2|2005-03-18|2009-08-27|Тойота Дзидося Кабусики Кайся|Motor with fuel injection by two sprayers|
    JP4613114B2|2005-08-26|2011-01-12|本田技研工業株式会社|Fuel hose mounting structure|
    JP2007177688A|2005-12-28|2007-07-12|Honda Motor Co Ltd|Fuel injection device for engine|
    JP4782030B2|2007-01-31|2011-09-28|川崎重工業株式会社|Engine and motorcycle equipped with the engine|
    EP1953379B1|2007-02-01|2012-12-19|Yamaha Hatsudoki Kabushiki Kaisha|Vehicle|
    JP5364524B2|2009-09-30|2013-12-11|本田技研工業株式会社|Motorcycle|
    JP5352567B2|2009-11-10|2013-11-27|株式会社ミクニ|Fuel injection device|
    JP5543772B2|2009-12-29|2014-07-09|川崎重工業株式会社|Air intake duct and vehicle|
    JP5835685B2|2011-03-22|2015-12-24|本田技研工業株式会社|Evaporative fuel treatment equipment for motorcycles|
    JP5837314B2|2011-03-22|2015-12-24|本田技研工業株式会社|Evaporative fuel treatment equipment for motorcycles|
    US9371786B2|2011-08-24|2016-06-21|Walbro Llc|Fuel injected engine system|
    JP2013108361A|2011-11-17|2013-06-06|Suzuki Motor Corp|Bi-fuel engine for vehicle|
    JP5905256B2|2011-12-28|2016-04-20|川崎重工業株式会社|Fuel supply structure|
    JP6089405B2|2012-01-23|2017-03-08|スズキ株式会社|Fuel supply device for internal combustion engine|
    JP6107381B2|2013-04-25|2017-04-05|スズキ株式会社|Fuel injection device for motorcycle engine|JP6255611B2|2015-05-29|2018-01-10|本田技研工業株式会社|Piping connection structure|
    JP2017106322A|2015-12-07|2017-06-15|スズキ株式会社|Fuel supply device for engine|
    JP2018123766A|2017-02-01|2018-08-09|トヨタ自動車株式会社|Fuel pipeline support structure|
    法律状态:
    2016-02-29| PLFP| Fee payment|Year of fee payment: 2 |
    2017-02-28| PLFP| Fee payment|Year of fee payment: 3 |
    2018-02-26| PLFP| Fee payment|Year of fee payment: 4 |
    2019-02-15| PLSC| Publication of the preliminary search report|Effective date: 20190215 |
    2019-02-28| PLFP| Fee payment|Year of fee payment: 5 |
    2020-02-28| PLFP| Fee payment|Year of fee payment: 6 |
    2021-11-12| ST| Notification of lapse|Effective date: 20211005 |
    优先权:
    申请号 | 申请日 | 专利标题
    JP2014037933A|JP6175013B2|2014-02-28|2014-02-28|Motorcycle fuel supply piping arrangement structure|
    JP2014037933|2014-02-28|
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