JP4661860B2 - Scooter type vehicle - Google Patents

Description

  The present invention relates to a scooter type vehicle, and more particularly to a scooter type vehicle equipped with a fuel injection type intake device.

  As a means for supplying an air-fuel mixture to an engine, there is one using a carburetor. The carburetor is trying to obtain the best setting by combining several jets in order to meet the characteristics of the engine and the driving requirements, but it can respond flexibly to changes in driving conditions and surrounding environment etc. It was impossible.

  Therefore, in recent years, fuel that injects the most appropriate required fuel amount directly into the intake passage of the engine by sensing the throttle opening, engine speed, engine temperature, outside air temperature, atmospheric pressure, etc. with a sensor and processing that information with a computer. The number of engines with injection-type intake devices has increased.

  The fuel injection type intake system has good combustion efficiency and improved output, but also has the advantage that the fuel consumption is small because only the minimum required amount is injected, and the amount of harmful substances in the exhaust gas is small. It is becoming more commonly used in automobiles.

  However, in the case of a small vehicle such as a scooter type vehicle, since it has many parts in a limited narrow space, when a fuel injection type intake device is newly provided, a controller or fuel pump with a built-in computer Sufficient consideration is required for the arrangement of various sensors.

  In particular, since many scooter type vehicles are exposed to the outside, the arrangement of controllers having weak points against heat, moisture, dust, etc. is particularly important when precise control is desired.

  On the other hand, many scooter type vehicles are equipped with a unit swing type engine that swings up and down with the rear wheels as drive wheels, and the fuel injection type intake device is often provided integrally with the swing on the upper surface of the unit swing type engine. It has been. Therefore, the position of the bottom surface of the storage box disposed above the unit swing type engine is restricted.

  If the stroke amount of the rear cushion unit that elastically supports the unit swing type engine is reduced, the capacity of the storage box can be increased to some extent, but the ride comfort is impaired.

  The present invention has been made in consideration of the above-described circumstances, and an object of the present invention is to provide a scooter type vehicle in which a controller is arranged so that a fuel injection type intake device can be accurately controlled.

  Another object of the present invention is to provide a scooter type vehicle that can sufficiently secure the capacity of the storage box without impairing the ride comfort.

In order to solve the above-described problem, a scooter type vehicle according to the present invention is a cylinder in which, as described in claim 1, the cylinder is tilted forward substantially horizontally and its central axis is arranged along the traveling direction of the vehicle. A four-cycle engine main body having an assembly and a transmission case that extends rearward from one side of the four-cycle engine main body and pivotally supports a rear wheel at the rear end thereof are integrally provided, and an engine suspension boss has an engine suspension bracket on the body frame. And a unit swing type engine pivotally attached to the body frame and elastically supported by the vehicle body frame by a rear cushion unit, a throttle body connected to the intake port of the cylinder assembly, and the throttle body An air cleaner, fuel injection means, and a controller for controlling the fuel injection amount of the fuel injection means; A vehicle body cover that covers the vehicle body frame in a scooter type vehicle having a fuel injection type intake device and a storage box capable of storing a helmet under a driving seat and having a fuel tank disposed on the vehicle rear side of the storage box The controller is arranged below the step floor, and a fuel pump is installed in the fuel tank so that the rear cushion unit is most compressed and the rear of the rear of the storage box and the rear of the storage box The engine suspension boss and the engine suspension bracket attached in a substantially horizontal state are disposed below the four-cycle engine main body while bringing the wheel closer, and the step floor is inclined upward toward the vehicle rear side and The bottom of the storage box is diagonally raised toward the rear of the vehicle. Form a continuous gap from Pufuroa lower toward the fuel tank below, bare, almost true of the engine mounting bosses connection between the fuel hose is a pipe by bending from the fuel tank and the fuel injection means when viewed from the side of the vehicle It is characterized by the above.

Further, in order to solve the above-described problem, as described in claim 2, the fuel tank is disposed below the rear carrier, and the fuel storage capacity is set toward the front side of the vehicle from the rotation center axis of the rear wheel. Is larger than the rear side of the vehicle, and the front end of the fuel tank is inserted into the front side of the vehicle below the rear end of the opening of the storage box in a side view of the vehicle .

Furthermore, in order to solve the above problems, as described in claim 3, characterized in that the fuel hose from the fuel tank, connected to said fuel injection means from the transmission case side in the vehicle width direction Is.

And in order to solve the subject mentioned above , as described in Claim 4 , while providing the helmet taking-out space in the vehicle back side of the storage box, it stores with the front side of the helmet facing the vehicle back side in the storage box It is characterized by that.

  In the scooter type vehicle according to the present invention, the capacity of the storage box is sufficiently secured, while the controller can be prevented from the heat, water, dust, etc. of the unit swing type engine, and the fuel injection means can be accurately controlled. Is.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a left side view showing a first example of the first embodiment of the scooter type vehicle to which the present invention is applied. FIG. 2 is a left side view showing the internal structure of the scooter type vehicle. FIG. 3 is a schematic plan view of the scooter type vehicle shown in FIGS. 1 and 2. The scooter type vehicle shown in the first example of the first embodiment is a basic type of the present invention, and has a plurality of embodiments and examples.

  As shown in FIGS. 1 to 3, the scooter type vehicle 1 </ b> A has a body frame 2. The vehicle body frame 2 includes a head pipe 3 at the foremost part, extends from the rear lower part of the head pipe 3 to the rear lower side, and extends substantially horizontally from the middle to the rear, and the down tube 4 A pair of left and right rear frames 5 extending rearward and upward from the rear end side of the tube 4 is configured.

  A storage box 7A capable of storing a helmet 6 and the like is provided above the rear frame 5. An operation seat 8 that also serves as a lid of the storage box 7A is installed above the storage box 7A so as to be openable and closable, and a fuel tank 9A is disposed behind the storage box 7A.

  A substantially horizontal unit swing type engine 10 is disposed at a substantially central lower portion of the rear frame 5. A pair of left and right engine suspension bosses 11 a arranged side by side in the width direction of the vehicle are provided on the upper surface of the unit swing type engine 10, and the pair of left and right engine suspension bosses 11 a provided at a substantially central lower portion of the rear frame 5. The unit swing type engine 10 is swingably supported by being pivotally attached to the engine suspension bracket 12a. 2, the engine suspension boss 11b is provided on the lower surface of the unit swing type engine 10, and the unit swing type engine 10 is attached to the engine suspension bracket 12b provided at the lower rear end of the down tube 4. You may pivot.

  This unit swing type engine 10 is integrally provided with an engine main body 13 and a transmission case 14 extending from one side of the engine main body 13 to the rear from the left side in the traveling direction of the vehicle in this embodiment. The transmission case 14 also serves as a swing arm and is elastically supported by the rear frame 5 by the rear cushion unit 15. A rear wheel 16 as a drive wheel is pivotally supported at the rear end of the transmission case 14.

  The head pipe 3 is provided with a front fork 18 and a handle bar 19 that rotatably support the front wheel 17. Grips 20a and 20b are provided at both ends of the handlebar 19, and the right grip 20a in the traveling direction of the vehicle functions as a throttle grip. Brake levers 21a and 21b are provided on the front sides of both grips 20a and 20b, and are connected to brake devices 22 and 23 provided on the front wheel 17 and the rear wheel 16 via brake wires 24 and 25, respectively. Then, the front wheel 17 is steered by the handle bar 19 so as to be rotatable left and right.

  On the other hand, the vehicle body frame 2 is covered by a vehicle body cover 26, and the vehicle body cover 26 constitutes the appearance of the vehicle. The vehicle body cover 26 is configured by combining a plurality of cover elements. Specifically, the cover element includes, for example, a front leg shield 27, a rear leg shield 28, a lower leg shield 29, a rear frame cover 30, and the like.

  A rear leg shield 28 having a step floor 31 on which the rider puts both feet is disposed at the bottom between the driving seat 8 and the head pipe 3. The rear leg shield 28 is disposed so as to cover the horizontal portion of the down tube 4 from above, and is fixed to the down tube 4. A lower leg shield 29 is arranged below the rear leg shield 28 so as to cover the horizontal portion of the down tube 4 from below. A lower floor storage chamber 32 is provided in a space between the rear leg shield 28 and the lower leg shield 29, and the inside thereof can be accessed by an openable / closable lid 33 provided on the step floor 31. . Further, a front leg shield 27 that rises upward from the front portion of the rear leg shield 28 is disposed so as to cover the front and rear of the head pipe 3, and is fixed to the rising portion of the down tube 4, and the front leg shield 27. A headlight 34 is provided at the front lower part.

  On the other hand, around the rear frame 5, for example, a rear frame cover 30 formed separately from the left and right or integrally is provided so as to surround the left and right of the rear frame 5. A combination lamp 35 is provided at the rear end of the rear frame cover 30. A rear carrier 36 is provided above the combination lamp 35. These cover elements are molded from a plastic resin material such as PP resin or ABS resin.

  The unit swing type engine 10 of the scooter type vehicle 1 shown in the first embodiment includes a general forced air-cooled four-cycle single-cylinder engine body 13. The engine body 13 includes a crankcase 37 having a crankshaft (not shown) that extends mainly in the width direction of the vehicle body, and leans forward substantially horizontally toward the front side of the crankcase 37. And a cylinder assembly 39 arranged along the direction.

  The cylinder assembly 39 includes a cylinder block 40 disposed on the front side of the crankcase 37 and a cylinder head 41 disposed on the front side of the cylinder block 40. In the cylinder block 40, a piston (not shown) is slidably housed, and a valve operating device (not shown) is housed in the cylinder head 41.

  The engine body 13 may be a two-cycle engine, a multi-cylinder engine, or a water-cooled engine cooling system. In the case of the water-cooled type, it is desirable that the radiator be disposed at a position where the traveling wind can easily hit, such as the front of the head pipe 3 (reference numeral 42a) and the front portion of the down tube 4 below the head pipe 3 (reference numeral 42b).

  The unit swing type engine 10 is provided with a normal type exhaust device 43. The exhaust device 43 has a base end connected to an exhaust port 44 on the lower side in the cylinder head 41, and is located on the lower side opposite to the transmission case 14 of the unit swing type engine 10, in the present embodiment, toward the traveling direction of the vehicle. The exhaust pipe 45 extends rearward at the lower right side, and a muffler 46 connected to the downstream end of the exhaust pipe 45 and extending obliquely upward rearward.

  On the other hand, the unit swing type engine 10 is provided with a fuel injection type intake device 47. The intake device 47 injects fuel into an air cleaner 48A that sucks and cleans outside air, a throttle body 49 that adjusts the flow rate of the sucked outside air (hereinafter referred to as intake air), and an intake passage 49a of the throttle body 49. An injector 50 as fuel injection means, and a fuel pump 51 that pumps the fuel in the fuel tank 9A to the injector 50 are provided as main components.

  The flow rate of the intake air is adjusted by opening / closing a throttle valve 52 (described later) provided in the intake passage 49a, and the opening / closing operation is performed by the throttle grip 20a connected via a throttle cable 53 extending from the throttle body 49. .

  Further, the air cleaner 48 </ b> A and the throttle body 49 are connected by a suction pipe 54, and the throttle body 49 and the intake port 55 inside the cylinder head 41 are connected by an intake pipe 56. The suction pipe 54 and the intake pipe 56 constitute an intake path that connects the intake port 55 and the air cleaner 48. The fuel tank 9 </ b> A and the fuel pump 51 and the fuel pump 51 and the injector 50 are connected by a fuel hose 57.

  The amount and timing of fuel injection by the injector 50 are electronically controlled by the controller 58. Hereinafter, the configuration of the fuel injection system will be described with reference to FIG.

  As shown in FIG. 4, this fuel injection system includes a sensor unit, a control unit, and an injection unit. The sensor unit is provided to obtain data necessary for determining and correcting the basic injection amount of fuel, and an intake pressure sensor that detects the intake pressure in the intake passage 49a of the throttle body 49 in order to determine the injection amount. 59, a signal generator 60 (rotational speed sensor) for detecting the rotational speed of the crankshaft, a cam position sensor 62 for detecting the position (bubble timing) of the camshaft 61 in the cylinder head 41 (in the case of a two-cycle engine) Unnecessary), and a throttle position sensor 63 for detecting the opening of the throttle valve 52 in the intake passage 49a.

  Further, in order to correct the injection amount, an atmospheric pressure sensor 64 that detects atmospheric pressure, an intake air temperature sensor 65 that is attached to the air cleaner 48A and detects the temperature of intake air, and an ignition plug mounting seat when the engine body 13 is an air-cooled type A plug seat temperature sensor 66 for detecting the temperature of the water, a water temperature sensor 67 for detecting the temperature of the cooling water attached to the radiator 42 when the engine body 13 is of a water cooling type, and the like are provided. The data obtained by the sensor unit is sent to the controller 58 as a control unit, and the amount and timing of fuel injection are determined.

  On the other hand, the fuel injection amount and timing data determined by the controller 58 are sent to the injection unit to control each device. The injection unit includes the fuel pump 51 and the injector 50 described above. A fuel filter 68 that removes foreign matters in the fuel is provided upstream of the fuel pump 51. Although the fuel pump 51 and the fuel filter 68 are disposed outside the fuel tank 9A in the first embodiment and FIG. 4, these devices may be installed inside the fuel tank 9A.

  Further, of the fuel pressure-fed to the injector 50 by the fuel pump 51, the surplus is returned to the fuel tank 9A by the pressure regulator 69. As auxiliary devices for controlling these injection units, for example, a fuel cut sensor 70, a fuel pump relay 71, and the like are provided and connected to the controller 58.

  A battery 72 is connected to the controller 58 to supply power, and the controller 58 is also connected to the combination meter 73 to display a remaining amount of fuel, a warning related to the fuel injection system, and the like on the meter panel 73a. .

  Next, the arrangement of the intake device 47 will be described. As shown in FIGS. 2 and 3, the air cleaner 48 </ b> A constituting the intake device 47 is disposed on the transmission case 14 of the unit swing type engine 10, and a throttle body 49 including an injector 50 on the cylinder block 40 obliquely forward. Is placed. The air cleaner 48 </ b> A, the throttle body 49, and the suction pipe 54 and the intake pipe 56 that connect them are integrated and fixed to the upper surface of the unit swing type engine 10 integrally with the swing.

  A fuel pump 51 is disposed above the suction pipe 54 and is fixed to the rear frame 5, and a flexible fuel hose 57 extends from the fuel pump 51 toward the fuel tank 9 </ b> A and the injector 50. The fuel hose 57 is fixed to the bottom surface of the storage box 7A in the vicinity of the injector 50 by, for example, a clamp 74, and prevents the fuel hose 57 from coming off the injector 50 when the injector 50 swings together with the unit swing type engine 10.

  On the other hand, the controller 58 and the battery 72 are juxtaposed adjacent to the fuel tank 9 on the side of the fuel tank 9A provided behind the storage box 7A. The side of the fuel tank 9A behind the storage box 7A is separated from the unit swing type engine 10, and the periphery thereof is surrounded by the rear frame cover 30, so if the controller 58 is arranged in this place, the unit swing is made to the controller 58. The heat generated by the mold engine 10 is difficult to be transmitted, and it is suitable for installation of the controller 58 because it is highly waterproof and dustproof. Even if the unit swing type engine 10 includes a water-cooled engine main body, since it is a place away from the radiators 42a and 42b, the influence of the exhaust heat of the radiator on the controller 58 is small.

  FIG. 5 is an enlarged left side view of the fuel tank 9A, and FIG. 6 is an enlarged plan view of the fuel tank 9A. As shown in FIGS. 5 and 6, for example, a left side surface of the fuel tank 9 </ b> A is provided with a step portion 9 a to form an installation space for the controller 58 and the battery 72. In addition, on the installation space, a fixing protrusion 75 is provided which protrudes according to the bottom shape of the controller 58 and the battery 72, and the controller 58 and the battery 72 are positioned and fixed.

  By arranging the controller 58 and the battery 72 in parallel, the wiring 76 between the two 58 and 72 can be shortened. A control cable 77 extends from the controller 58 toward the injector 50. It should be noted that heat from the unit swing type engine 10 and the radiators 42a and 42b is difficult to be transmitted, and other places that satisfy the conditions of the controller 58 placement, which is highly waterproof and dustproof, are, for example, between the rear leg shield 28 and the lower leg shield 29. An example of the controller 78 disposed in the lower floor storage chamber 32 is shown by a two-dot chain line in FIGS. 2 and 3.

  By the way, the storage box 7A disposed above the unit swing type engine 10 is required to have a large storage capacity. On the other hand, an intake device 47 is arranged between the unit swing type engine 10 and the storage box 7A, and these swing up and down, so that the bottom of the storage box 7A is in a state where the rear cushion unit 15 is most compressed. The unit swing type engine 10 and the intake device 47 are formed in a shape that does not contact either.

  Specifically, a line connecting two points of the highest position of the upper profile 79 of the unit swing type engine 10 and the intake device 47 in a state where the rear cushion unit 15 is most compressed, in this embodiment, the cylinder head 41. The bottom surface of the storage box 7A is slanted forward and downward so as to be substantially parallel to the line XX connecting the upper part and the upper part of the throttle body 49 or the line XX'-X 'connecting the upper part of the cylinder head 41 and the upper part of the air cleaner 48. It is formed.

  7 and 8 show a second example of the first embodiment of the scooter type vehicle 1B to which the present invention is applied. FIG. 7 is a left side view showing the internal structure of the scooter type vehicle 1B. FIG. 8 is a schematic plan view of the scooter type vehicle 1B shown in FIG. In addition, the same code | symbol is attached | subjected to the same structural member as 1 A of scooter type vehicles shown to 1st Example, and description is also abbreviate | omitted suitably.

  As shown in FIGS. 7 and 8, the scooter type vehicle 1B is different from the scooter type vehicle 1A shown in the first embodiment in the shape of its storage box 7A. The scooter type vehicle shown in the second embodiment is shown in FIG. The storage box 7B of 1B is provided with a helmet take-out space 80 at the rear part and the rear lower part, and when the user takes out the helmet 6, the user can easily take out the helmet 6 by inserting a hand 81 into the helmet take-out space 80. . The shape of the storage box 7B can also be applied to a vehicle using a conventional carburetor (not shown).

  Further, in the first embodiment, as another place that satisfies the conditions of the arrangement of the controller 58 which is difficult to transmit heat from the unit swing type engine 10 and the radiators 42a and 42b and is highly waterproof and dustproof, for example, the rear leg shield 28 and the lower Although the lower floor storage chamber 32 between the leg shield 29 is shown, an example of the controller 82 arranged in the space behind the helmet 6 in the storage box 7B in this second embodiment as a further possible place. Is shown by a two-dot chain line.

  9 and 10 show a third example of the first embodiment of the scooter type vehicle 1C. FIG. 9 is a left side view showing the internal structure of the scooter type vehicle 1C, and FIG. FIG. 10 is a schematic plan view of the scooter type vehicle 1 </ b> C shown in FIG. 9. In addition, the same code | symbol is attached | subjected to the same structural member as 1 A of scooter type vehicles shown to 1st Example, and description is also abbreviate | omitted suitably.

  As shown in FIGS. 9 and 10, the scooter type vehicle 1C is different from the scooter type vehicle 1A shown in the first embodiment in the location of the air cleaner 48A, and the scooter type vehicle 1C shown in the third embodiment. The air cleaner 48 </ b> C is disposed on the upper portion of the muffler 46. Therefore, the arrangement of the throttle body 49 is also on the opposite side (right side) to that shown in the first embodiment.

  11 and 12 show a first example of the second embodiment of the scooter type vehicle 1D. FIG. 11 is a left side view showing the internal structure of the scooter type vehicle 1D. FIG. FIG. 12 is a schematic plan view of the scooter type vehicle 1 </ b> D shown in FIG. 11. In addition, the same code | symbol is attached | subjected to the same structural member as 1 A of scooter type vehicles shown to the 1st Example of 1st embodiment, and description is also abbreviate | omitted suitably.

  As shown in FIGS. 11 and 12, the scooter type vehicle 1D has basically the same configuration as the scooter type vehicle 1A shown in the first example of the first embodiment, but differs in the following points.

  First, a part of the bottom surface of the storage box 7D is extended in a space formed between the engine suspension boss 11a on the upper surface of the unit swing type engine 10 and the throttle body 49 disposed in front of the engine suspension boss 11D. A portion 83 is formed. By using the deepest portion 83, a long article can be stored. The highest portion of the injector 50 attached to the throttle body 49 is disposed above the deepest portion 83. The fuel hose 57 extending from the fuel pump 51 to the injector 50 and the control cable 77 extending from the controller 58 to the injector 50 are fixed near the deepest portion 83 of the storage box 7D by, for example, a clamp 74.

  An air cleaner 48 </ b> D is disposed in a space formed in front of the transmission case 14 on the left side surface of the cylinder assembly 39. A suction pipe 54 extends from the air cleaner 48D in a direction orthogonal to the traveling direction of the vehicle in plan view, and a throttle body 49 and an intake pipe 56 are connected substantially linearly to the downstream side.

  Thus, by arranging the air cleaner 48D, the suction pipe 54, the throttle body 49, and the intake pipe 56 substantially linearly in a direction orthogonal to the traveling direction of the vehicle, the air resistance is reduced, the intake efficiency is improved, and the output It leads to up.

  The throttle body 49 has a throttle cable 53 connected to the front side of the vehicle and a fuel hose 57 and a control cable 77 connected to the rear side. By connecting hoses and cables in this way, excessive bending is eliminated, durability is improved, and operability of the throttle cable 53 is also improved.

  In the first example of the second embodiment described above, an example in which the scooter type vehicle is applied to a four-cycle engine is shown. However, when the engine body 13 is a two-cycle engine, it is shown by a two-dot chain line in FIG. In addition, the intake pipe 84 extends in the direction of the crankcase 37 and is connected. Further, the suspension position of the unit swing type engine 10 only needs to be on the upper side. Further, the shape of the storage box 7D capable of storing a long object can be applied to a vehicle using a conventional carburetor (not shown).

  13 and 14 show a second example of the second embodiment of the scooter type vehicle 1E. FIG. 13 is a left side view showing the internal structure of the scooter type vehicle 1E. It is a schematic plan view of the scooter type vehicle 1E shown in FIG. In addition, the same code | symbol is attached | subjected to the same component as scooter type vehicle 1D shown in the 1st Example of 2nd embodiment, and description is also abbreviate | omitted suitably.

  As shown in FIGS. 13 and 14, the scooter type vehicle 1E is different from the scooter type vehicle 1D shown in the first embodiment in the arrangement shape of the intake device 47, and the fuel injection direction axis Y− of the injector 50 is shown. The suction pipe 54 is greatly bent so that Y intersects the central axis ZZ of the cylinder assembly 39 at an acute angle (within approximately 90 °) on the front side of the vehicle, and the intake pipe 56 also extends from the front side of the cylinder head 41 to the intake port 55. Bend towards When the engine body 13 is a two-cycle engine, the intake pipe 84 extends to the crankcase 37 and is bent as shown by a two-dot chain line.

  By arranging the injector 50 such that its fuel injection direction axis YY intersects the central axis ZZ of the cylinder assembly 39 at an acute angle on the front side of the vehicle, the fuel injected from the injector 50 is curved in the intake port 55. Is directed in a direction in which the flow rate of the mixed gas is large and is injected linearly by the combustion chamber. As a result, an intake downdraft effect is also obtained, and intake efficiency, charging efficiency, and combustion efficiency are improved, leading to an increase in output.

  The air cleaner 85 may be disposed above the transmission case 14 as indicated by a two-dot chain line. When the air cleaner 85 is disposed above the transmission case 14, the suspension position of the unit swing type engine 10 may be either up or down.

  15 and 16 show a third example of the second embodiment of the scooter type vehicle 1F. FIG. 15 is a left side view showing the internal structure of the scooter type vehicle 1F, and FIG. Fig. 16 is a schematic plan view of the scooter type vehicle 1F shown in Fig. 15. In addition, the same code | symbol is attached | subjected to the same component as scooter type vehicle 1D shown in the 1st Example, and description is also abbreviate | omitted suitably.

  As shown in FIGS. 15 and 16, the scooter type vehicle 1F is different from the scooter type vehicle 1D shown in the first embodiment in that the capacity of the air cleaner 48D shown in FIGS. 11 and 12 is insufficient. Considering this, the second air cleaner 86F is provided in the independent space where the lower floor storage chamber 32 is originally provided at the lower part of the step floor 31. The air cleaner 48F (first air cleaner) and the second air cleaner 86F provided from the beginning are connected by a connecting pipe 87. The first air cleaner 48F swings up and down integrally with the unit swing type engine 10, and Since the two air cleaner 86F is fixed to the vehicle body side, the connecting pipe 87 is formed of a flexible material or a bellows structure. By providing the second air cleaner 86F, the capacity of the entire air cleaner 48F, 86F can be easily adjusted, and if the capacity is increased, the intake sound is lowered and the noise is lowered.

  Further, as an example of the arrangement of the radiator when the engine body 13 is a water-cooled type, an example in which the radiator 42c is arranged in front of the storage box 7F below the operation seat 8 is shown. Further, by arranging the radiator 42c at this position, when the exhaust air from the fan 88 of the radiator 42c passes over the throttle body 49 using the bottom surface of the storage box 7F as a guide, the front wheel 17 or the rear wheel 16 jumps up. As a result, sand, mud, dust, and the like flying around the throttle body 49 are blown off, so that these foreign substances can be prevented from adhering to the throttle body 49 and the injector 50, and durability and reliability are improved.

  On the other hand, as another place that satisfies the conditions of the controller 58 placement, which is difficult to transmit heat from the unit swing type engine 10 and the radiator 42c and is highly waterproof and dustproof, for example, it may be inside the front leg shield 27. An example of the controller 89 and the battery 90 arranged in the front leg shield 27 is indicated by a two-dot chain line.

  When the controller 89 and the battery 90 are disposed in the front leg shield 27, it is desirable to dispose the heavy battery 90 on the lower side and fix them to the head pipe 3, for example. If the controller 89 and the battery 90 are installed adjacent to each other, the wiring 76 between the two 89 and 90 can be shortened.

  FIGS. 17 and 18 show a fourth example of the second embodiment of the scooter type vehicle 1G. FIG. 17 is a left side view showing the internal structure of the scooter type vehicle 1G, and FIG. It is a schematic plan view of the scooter type vehicle 1G shown in FIG. In addition, the same code | symbol is attached | subjected to the same component as scooter type vehicle 1D shown in the 1st Example, and description is also abbreviate | omitted suitably.

  As shown in FIGS. 17 and 18, the scooter type vehicle 1G is different from the scooter type vehicle 1D shown in the first embodiment in that the capacity of the air cleaner 48G (first air cleaner) provided from the beginning is insufficient. In consideration of the case, the second air cleaner 86G is provided above the transmission case 14. Furthermore, both the air cleaners 48G and 86G may be connected by a connecting pipe 87, or both the air cleaners 48G and 86G may be integrally formed. By providing the second air cleaner 86G, the capacity of the entire air cleaner 48G can be easily adjusted, and if the capacity is increased, the intake sound is lowered and the noise is lowered.

  In addition, the bottom of the storage box 7G has a front-lowering shape with a cut, and the front lower portion (jaw portion) or the rear lower portion of the helmet 6 can be fitted into the deepest portion 83 thereof, whereby a helmet take-out space 80 is provided at the rear portion of the storage box 7G. When the user takes out the helmet 6, the user can easily take out the helmet 6 by inserting a hand 81 into the helmet taking-out space 80. The shape of the storage box 7G can also be applied to a vehicle using a conventional carburetor (not shown).

  Needless to say, this embodiment can also be applied to a two-cycle engine or a water-swing engine cooling unit swing engine. In the case of a two-cycle engine, the intake pipe 84 extends in the direction of the crankcase 37 and is connected as shown by a two-dot chain line in FIG. In the case of the water-cooled type, it is desirable that the radiator is disposed at a position where the traveling wind can easily hit, such as the front of the head pipe 3 (reference numeral 42a) and the front part of the down tube 4 below the head pipe 3 (reference numeral 42b). Further, the suspension position of the unit swing type engine 10 may be either up or down.

  FIGS. 19 and 20 show a fifth example of the second embodiment of the scooter type vehicle 1H. FIG. 19 is a left side view showing the internal structure of the scooter type vehicle 1H, and FIG. It is a schematic plan view of the scooter type vehicle 1H shown in FIG. Since this scooter type vehicle 1H basically has the same concept as the scooter type vehicle 1E shown in the second example of the second embodiment, the scooter type vehicle 1E shown in the second example of the second embodiment The same components are denoted by the same reference numerals, and description thereof will be omitted as appropriate.

  As shown in FIGS. 19 and 20, the scooter type vehicle 1H has a fuel injection direction axis YY of the injector 50 at an acute angle (within approximately 90 °) between the central axis ZZ of the cylinder assembly 39 and the front side of the vehicle. Throttle body 49 and intake pipe 56 are arranged so as to intersect.

  In the present embodiment, an air cleaner 48H is disposed in front of the storage box 7H below the operation seat 8, and a suction pipe 54 extends from the lower portion toward the throttle body 49. Here, since the throttle body 49 swings up and down integrally with the unit swing type engine 10 and the air cleaner 48H is fixed to the vehicle body side, the suction pipe 54 is formed of a flexible material or a bellows structure. The The fuel hose 57 is fixed to the rear frame 5 by a clamp 74, for example.

  Further, the controller 58 is disposed in a space between the air cleaner 48H and the storage box 7H as a place where heat from the unit swing type engine 10 and the radiators 42a and 42b is difficult to be transmitted and is highly waterproof and dustproof. Although not shown in detail, a recess may be formed in the wall facing the storage box 7H of the air cleaner 48H, and the controller 58 may be fitted in this recess.

  And the battery 72 is arrange | positioned in the independent space where the lower floor storage chamber 32 was originally provided in the lower part of the step floor 31. If the battery 72 is disposed at this position, the wiring 76 between the controller 58 and the battery 72 can be shortened.

  On the other hand, the total length of the storage box 7H is shortened by arranging the air cleaner 48H in front of the storage box 7H. However, the shapes of the storage box 7H and the rear frame 5 may be changed so that the helmet 6 can be stored substantially vertically. At this time, if the upper end of the front wall of the storage box 7H is set below the front lower part (jaw) of the helmet 6, a helmet takeout space 80 can be provided above the front upper part of the storage box 7H and above the air cleaner 48H. When a person takes out the helmet 6, the user can easily take out the helmet 6 by inserting a hand 81 into the helmet taking-out space 80.

  The shape of the storage box 7H can also be applied to a vehicle using a conventional carburetor (not shown). Further, the suspension position of the unit swing type engine 10 may be either up or down.

  21 and 22 show a first example of the third embodiment of the scooter type vehicle 1J. FIG. 21 is a left side view showing the internal structure of the scooter type vehicle 1J, and FIG. It is a schematic plan view of the scooter type vehicle 1J shown in FIG. In addition, the same code | symbol is attached | subjected to the same structural member as 1 A of scooter type vehicles shown to the 1st Example of 1st embodiment, and description is also abbreviate | omitted suitably.

  As shown in FIGS. 21 and 22, the scooter type vehicle 1J has basically the same configuration as the scooter type vehicle 1A shown in the first example of the first embodiment, but differs in the following points.

  First, the fuel tank 9J is moved from the rear of the storage box 7J to the independent space where the lower floor storage chamber 32 is originally provided, and as described in the description of the configuration of the fuel injection system. The fuel pump 51 is provided inside the fuel tank 9J. Further, an oil supply lid 92 is provided on the step floor 31 directly above the oil supply port 91 of the fuel tank 9J so as to be opened and closed.

  Since the fuel tank 9J is provided at the lower part of the step floor 31, the storage box 7J is extended rearward, and a large capacity can be secured. When the storage box 7J is extended rearward, the upper profile 79 of the air cleaner 48J overlaps the bottom surface of the storage box 7J in a side view with the rear cushion unit 15 being most compressed. When the air cleaner 48J and the bottom surface of the storage box 7J interfere with each other, an upward escape portion 93 may be provided on the bottom surface of the storage box 7J. As a result, even if the stroke amount of the rear cushion unit 15 is sufficiently secured, the capacity of the storage box 7J is not significantly reduced.

  Further, the bottom surface of the storage box 7J is formed in a mountain shape when viewed from the side, and the helmet 6 is stored in front of the apex in a front-lowered state, and the apex is set to the front side of the rear lower part of the helmet 6 so A helmet take-out space 80 can be formed below the lower portion, and when the user takes out the helmet 6, the user can easily take out the helmet 6 by inserting a hand 81 into the helmet take-out space 80. The shape of the storage box 7J can also be applied to a vehicle using a conventional carburetor (not shown).

  Further, as a place where heat from the unit swing type engine 10 and the radiators 42a and 42b is not easily transmitted and is highly waterproof and dustproof, in the present embodiment, at the rear of the storage box 7J, adjacent to the combination lamp 35, the rear storage chamber 94 is formed, and the controller 58 and the battery 72 are stored in the rear storage chamber 94. The rear storage chamber 94 is closed with a maintenance lid 95 that can be freely opened and closed.

  By arranging the controller 58 and the battery 72 adjacent to the combination lamp 35, the respective wirings 76 can be taken out in the same direction, and the wiring arrangement can be simplified. Further, since the controller 58 and the battery 72 are housed in the rear housing chamber 94, both the devices 58 and 72 can be simultaneously maintained by simply opening the maintenance lid 95.

  On the other hand, in the scooter type vehicle 1J, the fuel injection direction axis YY of the injector 50 is cylinder assembly so that the fuel injected from the injector 50 is directed toward the side where the curvature is large and the flow rate of the mixed gas is large in the intake port 55. The throttle body 49 and the intake pipe 56 are arranged so as to intersect the central axis ZZ of the motor 39 substantially at a right angle.

  The suspension position of the unit swing type engine 10 may be either up or down.

  23 and 24 show a second example of the third embodiment of the scooter type vehicle 1K. FIG. 23 is a left side view showing the internal structure of the scooter type vehicle 1K, and FIG. Fig. 24 is a schematic plan view of the scooter type vehicle 1K shown in Fig. 23. In addition, the same code | symbol is attached | subjected to the component same as the scooter type vehicle 1J shown to the 1st Example, and description is also abbreviate | omitted suitably.

  As shown in FIGS. 23 and 24, the air cleaner 48K disposed above the transmission case 14 of the scooter type vehicle 1K has a front portion extending from above the transmission case 14 to above the crankcase 37 so as to be seen in a plan view. It is formed in a substantially L shape. If the capacity of the air cleaner 48K is still insufficient, the extending portion 96 can be extended toward the muffler 46 side. And the capacity | capacitance of the whole air cleaner 48K can be easily adjusted by extending the front part of the air cleaner 48K.

  Further, by extending the front portion of the air cleaner 48K to above the crankcase 37, the suction pipe 54, the throttle body 49 and the intake pipe 56 extending from the air cleaner 48K to the intake port 55 are seen in a plan view along the traveling direction of the vehicle. It can be arranged in a substantially straight line. As a result, an intake downdraft effect is obtained, intake efficiency, charging efficiency, and combustion efficiency are improved, leading to an increase in output.

  25 and 26 show a third example of the third embodiment of the scooter type vehicle 1L, FIG. 25 is a left side view showing the internal structure of the scooter type vehicle 1L, and FIG. Fig. 26 is a schematic plan view of the scooter type vehicle 1L shown in Fig. 25. In addition, the same code | symbol is attached | subjected to the component same as the scooter type vehicle 1J shown to the 1st Example, and description is also abbreviate | omitted suitably.

  As shown in FIGS. 25 and 26, the scooter type vehicle 1L in this embodiment has a space behind the storage box 7L because the fuel tank 9L is provided at the lower part of the step floor 31, so a part of this space is stored. An air cleaner 48L is disposed on the left side of the box 7L. A suction pipe 54 extends substantially straight from the lower portion of the air cleaner 48L toward the throttle body 49. Here, since the throttle body 49 swings up and down integrally with the unit swing type engine 10 and the air cleaner 48L is fixed to the vehicle body side, the suction pipe 54 is formed of a flexible material or a bellows structure. The

  By arranging the suction pipes 54 in a substantially straight line, the intake resistance is reduced and the output is improved. In addition, since the air cleaner 48L is disposed not on the transmission case 14 but behind the storage box 7L, the degree of freedom in determining (designing) the lower line 30a of the rear frame cover 30 provided so as to surround the left and right sides of the rear frame 5 is increased. Increase.

  When the unit swing type engine 10 is suspended on the engine suspension bracket 12a provided on the rear frame 5 by a pair of left and right engine suspension bosses 11a arranged side by side on the upper surface, the suction pipe 54 is connected to the left and right engine suspension bosses. It arrange | positions so that it may pass between 11a and the suspension bracket 12a.

  Further, since only a part of the space behind the storage box 7L is used for the arrangement of the air cleaner 48L, the other part, that is, the right side of the air cleaner 48L can be used as the rear extension 97 of the storage box 7L. Can also be stored. The controller 58 is disposed between the air cleaner 48L and the rear extension 97 of the storage box 7L as a place where heat from the unit swing type engine 10 and the radiators 42a and 42b is not easily transmitted and is highly waterproof and dustproof.

  A helmet take-out space 80 is provided between the rear extension 97 and the rear part of the helmet 6, and when the user takes out the helmet 6, the user removes the helmet 6 by inserting a hand 81 into the helmet take-out space 80. make it easier.

  It should be noted that the shape of the storage box 7L of the present embodiment in which the helmet 6 can be easily taken out and a long object can be stored is also applicable to a vehicle using a conventional carburetor (not shown).

  27 and 28 show a first example of the fourth embodiment of the scooter type vehicle 1M. FIG. 27 is a left side view showing the internal structure of the scooter type vehicle 1M, and FIG. It is a schematic plan view of the scooter type vehicle 1M shown in FIG. In addition, the same code | symbol is attached | subjected to the same structural member as 1 A of scooter type vehicles shown to the 1st Example of 1st embodiment, and description is also abbreviate | omitted suitably.

  As shown in FIGS. 27 and 28, the scooter type vehicle 1M has basically the same configuration as the scooter type vehicle 1A shown in the first example of the first embodiment, but differs in the following points.

  That is, since the unit swing type engine 10 is suspended by the engine suspension boss 11b on the lower surface and the engine suspension bracket 12b on the vehicle body side, the bottom surface of the storage box 7M is made substantially parallel (horizontal) to the ground, and the rear cushion. In the state where the unit 15 is most compressed, the bottom surface of the storage box 7M is lowered to a position where the upper profile 79 of the unit swing type engine 10 and the intake device 47 does not interfere with the bottom surface of the storage box 7M. As a result, the dead space below the storage box 7M is eliminated, and the seat surface of the operation seat 8 can be lowered.

  Accordingly, a suction pipe 54 extending from the throttle body 49 to the air cleaner 48M in a plan view and obliquely rearward of the vehicle can also be arranged substantially parallel to the bottom surface of the storage box 7M and linearly, and intake (ventilation) resistance Will lead to increased output. The fuel pump 51 is attached to the rear wall of the storage box 7M.

  Further, the controller 58 and the battery 72 are installed in an independent space where the lower floor storage chamber 32 is originally provided at the bottom of the step floor 31 which is difficult to transmit heat from the unit swing type engine 10 and the radiators 42a and 42b, and is highly waterproof and dustproof. Are placed side by side. Since the controller 58 and the battery 72 are arranged in parallel, the wiring 76 between the two 58 and 72 can be shortened.

  This embodiment can also be applied to a two-cycle engine or a water-cooled engine body. When the engine body 13 is a two-cycle engine, the throttle body 49 and the intake pipe 84 are oriented in the direction of the crankcase 37 as shown in FIG. To be connected. Further, when the engine body 13 is water-cooled, as shown in FIG. 27, the radiator is used for traveling wind such as the front of the head pipe 3 (reference numeral 42a) and the front part of the down tube 4 below the head pipe 3 (reference numeral 42b). It is desirable to arrange at a position where it can be easily hit. Further, the controller 82 may be disposed below the operation seat 8 and in front of the storage box 7M.

  29 and 30 show a second example of the fourth embodiment of the scooter type vehicle 1N. FIG. 29 is a left side view showing the internal structure of the scooter type vehicle 1N, and FIG. FIG. 30 is a schematic plan view of the scooter type vehicle 1N shown in FIG. 29. In addition, the same code | symbol is attached | subjected to the component same as the scooter type vehicle 1M shown in the 1st Example, and description is also abbreviate | omitted suitably.

  As shown in FIGS. 29 and 30, the scooter type vehicle 1N is also configured such that the unit swing type engine 10 is suspended by the engine suspension boss 11b on the lower surface and the engine suspension bracket 12b on the vehicle body side. The air cleaner 48N is provided in the independent space where the lower storage chamber 32 was originally provided, and the suction pipe 54 extending toward the rear throttle body 49 is formed of a flexible material or a bellows structure. It is. An intake pipe 38 extends upward along the down tube 4 from the front portion of the air cleaner 48N.

  The scooter type vehicle 1N has a throttle body 49 and an injector 50 so that the fuel injection direction axis YY of the injector 50 intersects the central axis ZZ of the cylinder assembly 39 at an acute angle (within approximately 90 °) on the front side of the vehicle. An intake pipe 56 is arranged. As a result, the fuel injected from the injector 50 is directed in a direction in which the curvature is large and the flow rate of the mixed gas is large in the intake port 55, and is injected linearly by the combustion chamber. As a result, an intake downdraft effect is also obtained, and intake efficiency, charging efficiency, and combustion efficiency are improved, leading to an increase in output.

  Further, the layout of the intake device 47 described above eliminates large protrusions other than the intake pipe 56 on the upper surface of the unit swing type engine 10 and allows the storage box 7N to be deep, so that the degree of freedom in storing the helmet 6 is increased. At the same time, the bottom surface of the storage box 7N is lowered to a position where the upper profile 79 of the unit swing type engine 10 and the rear wheel 16 does not interfere with the bottom surface of the storage box 7N when the rear cushion unit 15 is most compressed. The surface can also be lowered.

  The fuel hose 57 is fixed to the bottom surface of the storage box 7N with, for example, a clamp 74. Further, the controller 58 and the battery 72 are disposed in the front leg shield 27 which is a place where heat from the unit swing type engine 10 and the radiator 42b is not easily transmitted and is highly waterproof and dustproof.

  31 and 32 show a third example of the fourth embodiment of the scooter type vehicle 1P. FIG. 31 is a left side view showing the internal structure of the scooter type vehicle 1P, and FIG. Fig. 32 is a schematic plan view of the scooter type vehicle 1P shown in Fig. 31. In addition, the same code | symbol is attached | subjected to the component same as the scooter type vehicle 1M shown in the 1st Example, and description is also abbreviate | omitted suitably.

  As shown in FIG. 31 and FIG. 32, the scooter type vehicle 1P shown in this embodiment is different from what has been described so far, and is assumed to be a medium type vehicle (for example, 100 to 125 cc class) capable of riding two people. .

  This scooter type vehicle 1P is also configured such that the unit swing type engine 10 is suspended by the engine suspension boss 11b on the lower surface thereof and the engine suspension bracket 12b on the vehicle body side, and an inherently lower floor storage chamber 32 is provided below the step floor 31. A fuel tank 9P having a fuel pump 51 is disposed in the independent space. Further, the controller 58 and the battery 72 are also disposed in the front leg shield 27 which is a place where heat from the unit swing type engine 10 and the radiator 42b is not easily transmitted and is highly waterproof and dustproof. From such a layout, it is possible to provide a storage box 7P capable of storing, for example, two full-face helmets 99a and 99b in the rear frame cover 30 on the rear frame 5 in a full manner.

  Further, the helmet 99a disposed on the front side faces the front and the bottom surface thereof is disposed substantially parallel (horizontal) to the ground, and the helmet 99b disposed on the rear side faces rearward above the front helmet 99a. In addition, the shape of the bottom surface of the storage box 7 is formed in a stepped shape in front and back in a side view so that the storage box 7 is disposed upside down in an inverted state.

  As is well known, the flat shape of the helmet is a tapered shape where the width of the front side (jaw) is narrower than the rear side. Therefore, the storage box 7P can be obtained by arranging the front helmet 99a forward and the rear helmet 99b rearward. Can be formed in a substantially oval shape in plan view, and the front-rear width of the operation seat 8 does not widen. Further, the rear portion of the rear frame cover 30 can also be narrowed, and an overall slim streamlined planar shape can be obtained.

  Furthermore, by arranging the helmet 99b arranged on the back side upside down, it becomes possible to arrange the rear parts of the helmets 99a and 99b overlapped with each other, thereby shortening the overall length of the storage box 7P. Can be

  Further, by arranging the helmet 99b arranged on the rear side above the front helmet 99a and at the front lower side, the upper part of the unit swing type engine 10 and the rear wheel 16 even when the rear cushion unit 15 is most compressed. The profile 79 does not interfere with the rear bottom surface of the storage box 7P. Further, a sufficient stroke amount of the rear cushion unit 15 can be secured.

  Further, since the bottom surface of the storage box 7P below the helmet 99a disposed on the front side can be formed substantially parallel (horizontally) to the ground, the seat surface of the front operation seat 8 can be lowered. A fuel hose 57 is fixed by, for example, a clamp 74 to the bottom surface of the storage box 7P below the front helmet 99a.

  The embodiment described above shows an example in which the present invention is applied to a scooter type vehicle 1P having an injector 50 as a fuel injection means, but a conventional carburetor (not shown) is used for the shape of the storage box 7P. It can also be applied to used vehicles. Moreover, when using a carburetor, you may form the escape part 100 dented upwards in the storage box 7P bottom face under the front helmet 99a.

  33, 34 and 35 show a first example of the fifth embodiment of the scooter type vehicle 1Q. FIG. 33 is a left side view showing the internal structure of the scooter type vehicle 1Q. FIG. The right side view and FIG. 35 are schematic plan views of the scooter type vehicle 1Q shown in FIGS. 33 and 34. In addition, the same code | symbol is attached | subjected to the same structural member as 1 A of scooter type vehicles shown to the 1st Example of 1st embodiment, and description is also abbreviate | omitted suitably.

  As shown in FIGS. 33, 34, and 35, the unit swing type engine 10 mounted on the scooter type vehicle 1Q is different from those described in any of the above-described embodiments, and extends along the traveling direction of the vehicle. The crankcase 37 is provided with a crankshaft that is not provided, and a cylinder assembly 39 that is disposed, for example, on the right side of the crankcase 37 substantially horizontally and with its central axis ZZ orthogonal to the traveling direction of the vehicle. A unit swing type engine 10 having an L-shaped four-cycle engine main body 13 in plan view.

  An air cleaner 48Q is disposed on the right side of the vehicle body, in front of the muffler 46, and a throttle body 49 and an intake pipe 56 extend in front of the air cleaner 48Q. An injector 50 is disposed on the storage box 7Q side, that is, the left side of the throttle body 49, and a control that extends from a fuel hose 57 extending from the fuel pump 51 built in the fuel tank 9Q and a controller 58 disposed on the side of the fuel tank 9Q. A cable 77 is connected. A throttle cable 53 is connected to the right side of the throttle body 49.

  On the other hand, the air cleaner 48 </ b> Q has a substantially U-shaped planar shape, and is disposed so that the concave portion surrounds the throttle body 49. As a result, the connecting portion between the injector 50 and the fuel hose 57 is protected.

  As described above, the injector 50 is disposed on the storage box 7Q side of the throttle body 49, and the throttle cable 53 is connected to the opposite side, so that a sufficient space for the throttle cable 53 can be secured. The throttle cable 53 can be easily passed.

  When the engine cooling method is a water cooling type, the radiator is disposed at a position where the traveling wind is easily hit, such as the front of the head pipe 3 (reference numeral 42a) and the front part of the down tube 4 below the head pipe 3 (reference numeral 42b). It is desirable. Further, the radiator 42c may be disposed on the side of the storage box 7Q.

  36 and 37 show a second example of the fifth embodiment of the scooter type vehicle 1R, FIG. 36 is a left side view showing the internal structure of the scooter type vehicle 1R, and FIG. It is a schematic plan view of the scooter type vehicle 1R shown in FIG. In addition, the same code | symbol is attached | subjected to the same structural member as the scooter type vehicle 1Q shown in 1st Example, and description is also abbreviate | omitted suitably.

  As shown in FIGS. 36 and 37, the unit swing type engine 10 mounted on the scooter type vehicle 1R is also provided with an L-shaped engine body 13 in plan view, similar to that shown in the first embodiment. The engine body 13 is a two-cycle engine.

  Since the engine main body 13 is a two-cycle engine, the throttle body 49 and the intake pipe 56 are connected to the crankcase 37, and are arranged in the space in front of the transmission case 14 in this embodiment. Further, an air cleaner 48R having a substantially U-shaped planar shape is disposed in the space, and the recess is disposed so as to surround the throttle body 49. As a result, the connecting portion between the injector 50 and the fuel hose 57 is protected.

  In this embodiment, an example in which the fuel pump 51 is arranged outside the fuel tank 9R is shown.

  In any of the above-described embodiments, the injector 50 is illustrated as being mounted on the throttle body 49. However, the injector 50 may be disposed on the intake pipe 56 or the cylinder head 41. Examples thereof are shown in FIGS. 38 and 39. Show.

  As shown in FIGS. 38 and 39, the cylinder head is provided with an exhaust port 44 on the lower side and an intake port 55 on the upper side, and both ports 44 and 55 are operated via a camshaft 61. And opened and closed by the exhaust valve 102.

  FIG. 38 shows an example in which the intake pipe 56S extends from the rear side of the engine body 13S and is connected to the intake port 55 of the cylinder head 41S, and FIG. 39 conversely shows that the intake pipe 56T extends from the front side of the engine body 13T to the cylinder head 41T. The example connected to the intake port 55 of FIG. In any case, the injectors 50S and 50T can be inserted in the middle of the intake pipes 56S and 56T or the cylinder heads 41S and 41T.

  As described above, according to the scooter type vehicle, the engine main body having the cylinder assembly that is inclined forward substantially horizontally and whose central axis is arranged along the traveling direction of the vehicle, and the rear side from the one side of the engine main body. A unit swing type engine that is integrally provided with a transmission case that extends to the rear end and pivotally supports a rear wheel at the rear end thereof, is pivotally attached to the body frame and is elastically supported by the body frame by a cushion unit; A fuel injection type intake device having a throttle body connected to the intake port of the cylinder assembly, an air cleaner connected to the throttle body, fuel injection means, and a controller for controlling the fuel injection amount of the fuel injection means; A scooter type vehicle including a storage box disposed above the unit swing type engine In the storage box, the storage box is substantially parallel to a line connecting the highest position of the unit swing type engine with the cushion unit being most compressed and the highest position of the fuel injection means or the air cleaner. The bottom is formed diagonally forward and the controller is placed adjacent to the fuel tank arranged in the vehicle longitudinal direction of the storage box, so that the capacity of the storage box can be secured sufficiently, and the controller is equipped with a unit swing type engine. And can be prevented from heat, water, dust, etc. from the radiator.

  In the scooter type vehicle described above, the fuel injection means is disposed adjacent to the storage box, and the highest portion of the fuel injection means is disposed at a position higher than the bottom surface of the storage box. Since the controller is arranged adjacent to the fuel tank arranged in the front-rear direction, a long object can be stored and the controller can be prevented from heat, water, dust, etc. from the unit swing type engine and the radiator.

  Furthermore, in the above-described scooter type vehicle, the fuel injection means is disposed adjacent to the storage box, and the start point of the throttle cable for operating the throttle valve provided in the throttle body for adjusting the flow rate of the intake air is provided in the storage box. Since the controller is disposed adjacent to the fuel tank disposed in the vehicle front-rear direction of the storage box, the operability of the throttle cable is improved and the controller is heated by a unit swing type engine or radiator. Can prevent from water, dust, etc.

  Furthermore, in the scooter type vehicle described above, a fuel tank is disposed in the vehicle body in front of the unit swing type engine, the air cleaner is disposed above the unit swing type engine, and the unit swing type engine swings up and down. In this case, the air cleaner and the storage box overlap with each other when viewed from the side, so that the stroke amount of the rear cushion unit can be sufficiently ensured while ensuring the capacity of the storage box.

  In the scooter type vehicle described above, the fuel injection means is disposed adjacent to the storage box, and the fuel injection direction axis of the fuel injection means intersects the central axis of the cylinder assembly within approximately 90 °. Output is improved.

  In the above-described scooter type vehicle, a suspension boss is provided on the lower surface of the unit swing type engine. The suspension boss is pivotally attached to the body frame, and the bottom surface of the storage box is formed substantially parallel to the ground. Since the intake path connecting the intake port and the air cleaner extends substantially parallel to the bottom surface of the storage box and obliquely rearward of the vehicle in plan view, the seat surface of the driving seat can be lowered and stored. The space below the box can be used effectively.

  Further, in the scooter type vehicle described above, the air cleaner and the storage box are disposed adjacent to each other, and the controller is disposed between the air cleaner and the storage box, so that the controller can be mounted from a unit swing type engine or a radiator. Can prevent from heat, water, dust etc.

  Further, in the scooter type vehicle described above, a helmet in which a user can insert a hand when taking out the helmet between at least one wall before and after the storage box and the helmet stored in the storage box. Since the take-out space is formed, the helmet can be easily taken out from the storage box.

  Furthermore, in the scooter type vehicle described above, a suspension boss is provided on the lower surface of the unit swing type engine, and is pivotally attached to the vehicle body frame via the suspension boss, and the storage box is provided with two full-face helmets. Two helmets because the shape of the bottom of the storage box is formed in a shape that is stepped forward and backward in a side view and the rear part of both helmets are overlapped. Can be stored compactly.

  An engine body having a cylinder assembly that is tilted forward in a substantially horizontal direction and whose central axis is arranged orthogonal to the traveling direction of the vehicle, and extends rearward from one side of the engine body and pivots a rear wheel at the rear end. A unit swing type engine which is integrally provided with a supporting transmission case, is pivotally attached to the body frame and is elastically supported by the body frame by a cushion unit, and is connected to the intake port of the cylinder assembly. A fuel injection type intake device having a throttle body, an air cleaner connected to the throttle body, fuel injection means, and a controller for controlling the fuel injection amount of the fuel injection means, and disposed above the unit swing type engine. In a scooter type vehicle equipped with a storage box, the fuel injection means is stored in the storage box. Arranged adjacent to the box, the highest portion of the fuel injection means is positioned higher than the bottom surface of the storage box, while the controller is positioned adjacent to the fuel tank disposed in the vehicle longitudinal direction of the storage box As a result, long objects can be stored, and the controller can be prevented from heat, water, dust, etc. from the unit swing type engine and radiator.

  Furthermore, since the batteries are arranged adjacent to the controller, the wiring between them can be shortened.

  Furthermore, since the controller fixing protrusion is provided on the fuel tank, it is easy to fix the controller.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a left side view illustrating a first embodiment and a first example of a scooter type vehicle according to the present invention. The left side view which shows the internal structure of the scooter type vehicle shown in FIG. FIG. 3 is a schematic plan view of the scooter type vehicle shown in FIGS. 1 and 2. The block diagram of a fuel-injection system. The enlarged left side view of a fuel tank. The enlarged plan view of a fuel tank. The left view which shows the internal structure of 1st embodiment of a scooter type vehicle to which this invention is applied, and 2nd Example. The schematic plan view of the scooter type vehicle shown in FIG. The left view which shows the internal structure of 1st embodiment of a scooter type vehicle and a 3rd Example. FIG. 10 is a schematic plan view of the scooter type vehicle shown in FIG. 9. The left view which shows the internal structure of 2nd embodiment of a scooter type vehicle and a 1st Example. FIG. 12 is a schematic plan view of the scooter type vehicle shown in FIG. 11. The left view which shows the internal structure of 2nd embodiment of a scooter type vehicle and a 2nd Example. FIG. 14 is a schematic plan view of the scooter type vehicle shown in FIG. 13. The left view which shows the internal structure of 2nd embodiment of a scooter type vehicle, and 3rd Example. FIG. 16 is a schematic plan view of the scooter type vehicle shown in FIG. 15. The left view which shows the internal structure of 2nd embodiment of a scooter type vehicle and 4th Example. FIG. 18 is a schematic plan view of the scooter type vehicle shown in FIG. 17. The left view which shows the internal structure of 2nd embodiment of a scooter type vehicle and 5th Example. FIG. 20 is a schematic plan view of the scooter type vehicle shown in FIG. 19. The left side view which shows the internal structure of 3rd embodiment of a scooter type vehicle and a 1st Example. The schematic plan view of the scooter type vehicle shown in FIG. The left view which shows the internal structure of 3rd embodiment of a scooter type vehicle and a 2nd Example. The schematic plan view of the scooter type vehicle shown in FIG. The left view which shows the internal structure of 3rd Embodiment of a scooter type vehicle, and 3rd Example. Fig. 26 is a schematic plan view of the scooter type vehicle shown in Fig. 25. The left side view showing the internal structure of the fourth embodiment of the scooter type vehicle, the first example. The schematic plan view of the scooter type vehicle shown in FIG. The left view which shows the internal structure of 4th Embodiment of a scooter type vehicle, and 2nd Example. The schematic plan view of the scooter type vehicle shown in FIG. The left view which shows the internal structure of 4th Embodiment of a scooter type vehicle, and 3rd Example. FIG. 32 is a schematic plan view of the scooter type vehicle shown in FIG. 31. The left view which shows the internal structure of 5th embodiment of a scooter type vehicle and a 1st Example. The right side view of the scooter type vehicle shown in FIG. FIG. 35 is a schematic plan view of the scooter type vehicle shown in FIGS. 33 and 34. The left view which shows the internal structure of 5th Embodiment of a scooter type vehicle, and 2nd Example. The schematic plan view of the scooter type vehicle shown in FIG. It is the figure which arranged the injector between the throttle body and the intake port, and the intake pipe extended from the rear of the engine body. It is the figure which arranged the injector between the throttle body and the intake port, and the intake pipe extends from the front of the engine body.

Explanation of symbols

1A to 1R Scooter type vehicle 2 Body frame 6, 99a, 99b Helmet 7A to 7R Storage box 9A to 7R Fuel tank 10 Unit swing type engine 11a, 11b Suspension boss 13 Engine body 14 Transmission case 15 Rear cushion unit 16 Rear wheel 39 Cylinder Assembly 47 Intake device 48A to 48R, 86 Air cleaner 49 Throttle body 50 Injector (fuel injection means)
52 Throttle valve 53 Throttle cable 54 Suction pipe (intake path)
55 Intake port 58, 82, 89 Controller 72, 90 Battery 75 Fixing projection 80 Helmet take-out space OL Overlap XX Line X′-X ′ connecting the highest position of the unit swing type engine and the highest position of the injector Line connecting the highest position of the unit swing type engine and the highest position of the air cleaner YY Injector fuel injection direction axis ZZ Cylinder assembly central axis

Claims (4)

A four-cycle engine main body having a cylinder assembly that is tilted forward substantially horizontally and whose central axis is arranged along the traveling direction of the vehicle, and a rear wheel that extends rearward from one side of the four-cycle engine main body and has a rear wheel at the rear end. A unit swing type integrally provided with a transmission case that supports the shaft, and an engine suspension boss is pivotally attached to the vehicle body frame via an engine suspension bracket and elastically supported by the vehicle body frame by a rear cushion unit A fuel injection type intake device having an engine, a throttle body connected to the intake port of the cylinder assembly, an air cleaner connected to the throttle body, fuel injection means, and a controller for controlling the fuel injection amount of the fuel injection means And a storage box that can store a helmet under the driving seat For example, in the scooter-type vehicle in which a fuel tank is disposed vehicle rear side of the storage box,
The controller is disposed below a step floor constituting a vehicle body cover that covers the vehicle body frame, and a fuel pump is installed in the fuel tank so that the rear cushion unit is most compressed and the bottom of the fuel tank and the storage are stored. While the rear wheel is brought close to the bottom of the box rear portion, the engine suspension boss and the engine suspension bracket attached in a substantially horizontal state are arranged below the four-cycle engine body , and the step floor faces the vehicle rear side. The storage box is inclined upward and the bottom of the storage box is inclined upward toward the rear of the vehicle, and a continuous gap is formed from the lower part of the step floor to the lower part of the fuel tank. When empty, the fuel injection means and the fuel tank The connection with the fuel hose that is bent from the side is Scooter type vehicle is characterized in that substantially directly above gin suspension boss. The fuel tank is disposed below the rear carrier, and has a fuel storage capacity that is greater on the vehicle front side than the vehicle rear side than the rotation center axis of the rear wheel, and in the vehicle side view, the opening of the storage box. The scooter type vehicle according to claim 1, wherein a front end portion of the fuel tank is inserted into a front side of the vehicle below a rear end of the vehicle. The scooter type vehicle according to claim 1 or 2, wherein the fuel hose from the fuel tank is connected to the fuel injection means from the transmission case side in the vehicle width direction. The scooter according to any one of claims 1 to 3, wherein a helmet take-out space is provided on the vehicle rear side of the storage box, and the helmet box is stored in the storage box with the front side of the helmet facing the vehicle rear side. Type vehicle.

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