JP2001138975A - Motorcycle and motor tricycle - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent interference between the respective parts of an intake system and vibration isolating links while increasing the storage capacity of an article storage part without interfering of the article storage part with a throttle body and a fuel injection device. SOLUTION: In this motorcycle, a swing type power unit 16 provided with an engine 110 with a cylinder extending frontward almost horizontally, is disposed below a seat and the article storage part 21 and supported to a body frame 11 by a lateral pair of vibration isolating links 93. An air cleaner 131, a connecting tube 132, a throttle body 133 and an inlet pipe 134 constituting the intake system of the engine 110 are arranged almost horizontally from the rear toward the front of the body and connected to the engine 110. The fuel injection device 140 is mounted to the engine 110 from the front upper part toward the rear lower part in a position frontward from a joint part between the engine 110 and the inlet pipe 134. The inlet pipe 134 is passed in a space between the lateral vibration isolating links 98.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] The present invention relates to a motorcycle.

[0002]

2. Description of the Related Art As a motorcycle, for example, Japanese Patent Application Laid-Open No. Hei 3-213482, entitled "Motorcycle Inlet Arrangement Structure" is known. In the above prior art, as shown in FIG. 1 of the publication, a cylinder is provided substantially horizontally forward below a seat 13 (numbers quoted in the publication; the same applies hereinafter) and a helmet storage chamber 12. A scooter-type motorcycle V in which a swing-type power unit P having an engine E extending to the vehicle is arranged and supported on a vehicle body frame F by an anti-vibration link L.

Further, in the above-mentioned prior art, as shown in FIG. 2 of the publication, an air cleaner 38 is attached to the upper rear portion of the power unit P.
The intake air taken in from 8 is introduced into the engine E via the con tube 42 and the carburetor 39. The air cleaner 3 is located below the helmet storage room 12.
8, an intake system consisting of the con tube 42 and the carburetor 39 was passed through, and the engine E was arranged below the intake system. Furthermore, in the above prior art, as shown in FIG. 2 and FIG. 4 of the publication, the carburetor 39 and the con tube 42, which are part of the intake system, are overlapped with the anti-vibration link L in a side view. It is arranged.

[0004]

In the above prior art, as shown in FIG. 2 of the publication, the helmet storage chamber 12 (corresponding to an article storage section) is provided so that the helmet storage chamber 12 does not interfere with the carburetor 39. ) Has the lower surface recessed upward. This is because the height of the single carburetor 39 is large. However, the storage capacity of the helmet storage room 12 is preferably as large as possible.

For this purpose, instead of the carburetor 39,
It is conceivable to employ a throttle body having a relatively small height. When using a throttle body,
A fuel injection device is attached to an inlet pipe or a throttle body connecting the throttle body and the engine E, and a fuel supply pipe is connected to the fuel injection device. Generally, the height dimension of the fuel supply pipe of the fuel injection device is relatively large. Therefore, it is necessary to secure a wide space around the engine E. This has restricted the mounting of the throttle body and the fuel injection device on small vehicles such as motorcycles and three-wheeled vehicles.

Further, a vibration isolating link L is attached to the body frame F.
, The power unit P is swingably mounted via the, so that it is necessary to take care to prevent interference between the carburetor 39 and the con tube 42, which are a part of the intake system, and the anti-vibration link L, which is a design constraint. I was

Furthermore, since the fuel injection device is attached to the inlet pipe or the throttle body of the engine E, the vibration of the power unit P is transmitted to the fuel injection device.
Care must be taken to prevent the vibration of the power unit P from affecting the operation of the fuel injection device.

Accordingly, an object of the present invention is to (1) use a throttle body or a fuel injection device instead of a conventional carburetor in a small vehicle such as a motorcycle or a three-wheeled vehicle, and the article storage portion interferes with these members. (2) Prevent interference between each component of the intake system and the vibration-proof link, and (3)
The object is to prevent the vibration of the power unit from affecting the operation of the fuel injection device.

[0009]

According to a first aspect of the present invention, there is provided a swing type power unit having an engine having a cylinder extending substantially horizontally forward below a seat and an article storage unit. In the motorcycles and tricycles supported on the body frame with anti-vibration links, the air cleaner, connecting tube, throttle body, and inlet pipe that constitute the intake system of the engine are arranged almost horizontally from the rear of the vehicle body to the front to the engine. connection,
A fuel injection device was attached to the engine from the upper front to the lower rear at a position forward of the vehicle body from the junction between the engine and the inlet pipe, and the inlet pipe was passed through the space between the pair of left and right anti-vibration links. It is characterized by the following.

Generally, the height of a single throttle body is smaller than the height of a single carburetor. The conventional carburetor was replaced with a throttle body and a fuel injection device. The fuel injection device was connected to the throttle body via a substantially horizontal inlet pipe, and the inlet pipe was passed through a space sandwiched between a pair of left and right anti-vibration links. Since the inlet pipe is an elongated pipe through which intake air passes, it is relatively smaller than a throttle body or a fuel injection device. Since a small inlet pipe was passed between the left and right anti-vibration links, it was always possible to maintain a fixed gap between the pair of left and right anti-vibration links and the inlet pipe regardless of the swing amount of the anti-vibration link. it can. For this reason, the degree of freedom in design increases.

A fuel injection device was attached to the engine at a position away from the throttle body. For this reason, the height of the uppermost part of the throttle body incorporated in the intake system can be suppressed as compared with the case where a conventional carburetor is arranged.
Further, the fuel injection device was attached to the engine from the upper front to the lower rear at a position forward of the vehicle body from a joint portion between the engine and the inlet pipe, the cylinder extending substantially horizontally forward. For this reason, the mounting height of the fuel injection device can be suppressed. For this reason, it is easy to secure a space between the throttle body or the fuel injection device and the bottom of the article storage portion disposed above the throttle body or the fuel injection device. Therefore, the storage capacity of the article storage section can be ensured while suppressing the height of the sheet.

According to a second aspect of the present invention, there is provided a two- or three-wheeled motor vehicle in which a swing type power unit having an engine having a cylinder extending substantially horizontally forward is disposed below a seat and an article storage portion, and supported on a vehicle body frame by an anti-vibration link. A frame-side pivot is provided on the vehicle body frame between the bottom of the article storage section and the upper surface of the engine and toward the bottom of the article storage section, at a height substantially equal to the uppermost portion of the engine and from the frame-side pivot. Also at the rear position, an engine-side pivot is provided on the engine, the engine-side pivot is swingably supported on the frame-side pivot via an anti-vibration link, and the fuel injection device is mounted on the engine at the vehicle body front side of the frame-side pivot The distance between the fuel injection device and the frame-side pivot in the front-rear direction is Set backward distance and smaller equal to or than, characterized in that set between the frame side pivot and the engine-side pivot mounting height of the fuel injector.

The linear distance from the frame-side pivot to the fuel injection device is smaller than the linear distance from the frame-side pivot to the engine-side pivot. As a result, when the engine-side pivot swings together with the power unit, the displacement of the fuel injection device is smaller than the displacement of the engine-side pivot. Therefore, when the power unit swings, it is easy to secure a gap between the bottom of the article storage unit and the fuel injection device.

According to a third aspect of the present invention, there is provided a two- or three-wheeled motor vehicle in which a swing type power unit having an engine having a cylinder extending substantially horizontally forward is disposed below a rear half of the body frame and supported on the body frame by a vibration-proof link. A frame-side pivot is provided on the body frame above the upper surface of the engine, and an engine-side pivot is provided on the engine at a height substantially equal to the uppermost portion of the engine and at a position rearward of the frame-side pivot. The engine-side pivot is swingably supported via an anti-vibration link, and a fuel injection device is attached to the engine at the front of the vehicle body with respect to the frame-side pivot, and the axis of the fuel injection device is aligned with the frame-side pivot and the engine-side pivot. Characterized by being arranged substantially parallel to a straight line passing through.

The direction of vibration of the power unit (engine vibration, road surface vibration, etc.) is substantially perpendicular to a straight line passing through the frame-side pivot and the engine-side pivot. On the other hand, the valve of the fuel injection device opens and closes in the direction of the axis of the fuel injection device, and this axis is substantially parallel to a straight line passing through the frame-side pivot and the engine-side pivot. From this, it can be said that the direction of the vibration transmitted from the power unit to the fuel injector is substantially perpendicular to the axis of the fuel injector in the vertical direction. If the direction of vibration transmitted from the power unit to the fuel injection device matches the direction of the axis of the fuel injection device, the vibration is amplified and transmitted to or interferes with the fuel injection device,
It can affect the operation of the fuel injector. On the other hand, according to the present invention, since the direction of the vibration transmitted from the power unit to the fuel injection device is substantially perpendicular to the axis of the fuel injection device, the vibration of the power unit does not affect the operation of the fuel injection device. I can say.

[0016]

Embodiments of the present invention will be described below with reference to the accompanying drawings. Note that "before", "after",
“Left”, “right”, “up”, and “down” follow the direction seen from the driver, and Fr is the front side, Rr is the rear side, L is the left side, R is the right side, and CL is the vehicle width center (body center). Is shown. Also, the drawings should be viewed in the direction of reference numerals.

FIG. 1 is a left side view of a motorcycle according to the present invention. The motorcycle 10 includes a body frame 11, a front fork 13 attached to a head pipe 12 of the body frame 11, and a front wheel 1 attached to the front fork 13.
4 and handle 15 connected to front fork 13
A swing type power unit 16 attached to the rear upper part of the body frame 11, a rear wheel 17 attached to the rear part of the power unit 16, a rear suspension 18 for suspending the power unit 16 at the upper rear part of the body frame 11, Article storage part 21 attached to the upper rear part
And a seat 22 attached to an upper portion of the article storage section 21, a fuel tank 23 attached to an upper rear portion of the body frame 11 behind the article storage section 21, and a body cover 30 covering the body frame 11. It is a scooter type vehicle.

The power unit 16 is disposed below the article storage section 21 and the seat 22. The article storage section 21 is a storage box for storing various articles P such as a helmet. The body cover 30 includes a front cover 31 that covers the front portion of the head pipe 12, a leg shield 32 that covers the legs of the driver, a step floor 33 for placing the driver's feet, and a lower part of the step floor 33. An under cover 34 that is disposed to cover the lower portion of the body frame 11
And a rear side cover 35 that covers the rear half of the body frame 11. In the figure, 41 is a front suspension, 42 is a headlamp, 43 is a meter, 44 is a front fender, 45 is a handle cover, 46 is a main stand, and 47 is a rear fender.

FIG. 2 is an enlarged rear side view of the motorcycle according to the present invention. The body frame 11 is a step floor 3
3 is a divided frame that is divided into two parts, a front frame 60 at the front and a rear frame 70 at the rear, below the front frame 3. The rear frame 70 is formed by bolting a subframe 80 to the rear end.

The power unit 16 is provided with the front engine 1.
This is a combination structure of the CVT 10 and the continuously variable transmission 161 at the rear.
The engine (internal combustion engine) 110 is a single-cylinder four-cycle water-cooled engine in which cylinders are arranged substantially horizontally toward the front of the vehicle body. The continuously variable transmission 161 is, for example, a belt-type transmission. This figure shows that the air cleaner 131 is disposed on the left side of the rear wheel 17 and this air cleaner 131 is mounted on the upper rear part of the power unit 16. 51 is an exhaust pipe for the engine, and 52 is a muffler.

FIG. 3 is a rear enlarged plan view of the motorcycle according to the present invention, and shows that an engine radiator 53 is integrally provided on the right side of the power unit 16. The sub-frame 80 includes left and right upright article storage section posts 81 and 8.
1 and a connecting stay 82 connecting the article storage unit posts 81, 81. 54 is a spark plug.

FIG. 4 is an exploded perspective view of the vehicle body frame according to the present invention. The front frame 60 includes the head pipe 12,
Down frame portion 6 extending downward from head pipe 12
1, a pair of left and right floor support frame portions 62, 62 extending bifurcated rearward from the lower end of the down frame portion 61;
It is an integral casting frame of a substantially rectangular frame in plan view, comprising a cross member 63 spanned between the rear ends of the floor support frame portions 62, 62.

The down frame portion 61 is a groove-shaped frame whose front and lower parts are opened, and a plurality of ribs 61a are provided in the groove.
... (... shows a plurality, the same applies hereinafter). Left and right floor support frame portions 62, 62
Is a groove-shaped frame which opens upward and extends straight. The rear end portions of the left and right floor support frame portions 62, 62 are formed as inclined surfaces inclined forward and downward, and these inclined surfaces are used as front connecting surfaces 64, 64. These front connecting surfaces 6
4 and 64, two front and rear bolt holes 64a are formed. Further, one fitting concave portion 64b is formed on the left front connecting surface 64, and two front and rear fitting concave portions 64b, 64b are formed on the right front connecting surface 64. The cross member 63 is an open U-shaped member when viewed from the front, and the height of the center portion of the vehicle width is set lower than the floor support frame portions 62.

The rear frame 70 includes a pair of left and right main frame portions 71, 71, and a front cross member 72 extending between intermediate portions of the left and right main frame portions 71, 71 in the front-rear direction.
This is an integrally cast frame including a left and right main frame portions 71 and a rear cross member 73 spanned between rear ends of the main frames 71. The left and right main frame portions 71, 71 are members that are substantially horizontal at the front end, extend upward from the rear end, and further extend rearward and upward from the upper end, so as to be inclined upward as a whole. The front ends of these main frame portions 71, 71 are formed on inclined surfaces inclined forward and downward, and these inclined surfaces are used as rear connecting surfaces 74, 74, and these front connecting surfaces 6
4 and 64, two front and rear bolt holes 74a are formed. Furthermore, three fitting projections 74b that fit into the fitting recesses 64b.
・ ・ Was formed.

The front connecting surfaces 64, 64 are connected to the rear connecting surfaces 74, 64, respectively.
74 are overlapped, and the fitting projections 74
.. are fitted to each other, and are connected by bolts 75A... and nuts 75B. To the rear frame 70. The front frame 60 and the rear frame 70 are, for example, cast products of an aluminum alloy. In the figure, reference numeral 76 denotes a rear suspension mounting portion, and 77 ... denote subframe mounting portions.

FIG. 5 is a left side sectional view of a main part of the power unit mounting structure according to the present invention.
This shows that the front portion of the power unit 16 (see FIG. 2) is attached to the rear frame 70 via a vibration isolating link mechanism 90 having a vibration isolating function so as to be able to swing up and down.

FIG. 6 is a sectional view taken along the line 6-6 in FIG. 5, showing the article storage unit 21 mounted on the rear frame 70. The article storage unit 21 is configured such that the left and right front legs 21 which incline the bottom 21a from the left to the right of the vehicle body and bulge downward from the bottom 21a.
b and 21b are integrally formed. By placing the left and right front legs 21b, 21b on the front cross member 72 and fixing them with bolts / nuts 78, 78, the front lower part of the article storage unit 21 can be attached to the rear frame 70.

The anti-vibration link mechanism 90 is provided with a pair of left and right frame-side pivots 92, 92 on the left and right main frame portions 71, 71 of the rear frame 70, and at a position rearward below the frame-side pivots 92, 92, An engine-side pivot 95 is provided on the engine 110, and the engine-side pivot 95 is swingably (swingably) supported by the left and right frame-side pivots 92, 92 via a pair of left and right anti-vibration links 93, 93. is there.

More specifically, the left and right main frame portions 71, 71
Are provided with a pair of left and right support holes 79, 79 coaxially at an intermediate portion, and rubber bushes 91, 9 formed in these support holes 79, 79.
1 by press fitting, and these rubber bushes 91, 91
A pair of left and right frame-side pivots (first pivot shaft) 9
2, 92, and these frame-side pivots 92,
The upper end of a pair of left and right anti-vibration links 93, 93 is attached to the upper and lower portions 92 so as to freely swing up and down.

On the other hand, the engine 110 includes a pair of left and right hanger portions 112a, 112a on a cylinder block 112 (see FIG. 2).
112a are integrally formed, and these hanger portions 112a,
A pair of left and right support holes 112b, 112b are coaxially opened in 112a, and rubber bushes 94, 94 are attached to these support holes 112b, 112b by press fitting, and one long engine-side pivot ( The second pivot 95) is inserted through the engine-side pivot 95.
The lower end portions of the left and right anti-vibration links 93 are mounted so as to freely swing up and down. 96 is a tubular spacer.

The left and right frame-side pivots 92, 92
Bolts and nuts arranged on the same axis in the vehicle width direction. Since the left and right frame-side pivots 92, 92 are separated to be shorter, these frame-side pivots 92, 92
92 is a front cross member 72 and left and right front legs 21b,
There is no interference with 21b. Left and right anti-vibration links 93,
Reference numeral 93 denotes a link plate (plate) extending in a direction orthogonal to the axis of the frame-side pivots 92, 92. The engine-side pivot 95 is a bolt / nut arranged in parallel with the frame-side pivots 92.

As is clear from the above description, (1) the rubber bushes 91, 9 are attached to the left and right main frame portions 71, 71.
1 and the upper ends of the left and right anti-vibration links 93, 93 are vertically slidably attached via the frame-side pivots 92, 92, and (2) the left and right anti-vibration links 93, 93
The left and right hanger portions 112a of the engine 110 can be attached to the lower end portion via the rubber bushes 94, 94 and the engine-side pivot 95 so as to freely swing up and down. In addition, the vibration of the engine 110 is
1,91,94,94 can be absorbed by elastic deformation.

Returning to FIG. 5 once, the left or right anti-vibration link 93 has a front stopper rubber 1 at the front end.
02 and a rear stopper rubber 1 at the rear end.
04. Specifically, one of the right and left anti-vibration links 93
Are the frame-side pivot 92 and the engine-side pivot 95
A box-shaped front rubber mounting portion 101 is attached to the front of a straight line A1 passing through the front rubber mounting portion 101.
A front stopper rubber 102 made of a resilient member is mounted on the rear rubber mounting section 103, and a box-shaped rear rubber mounting section 103 is mounted on the rear side of the straight line A1.
3 is provided with a rear stopper rubber 104 made of a resilient member.

The main frame portion 71 has a front stopper surface 71a for applying a front stopper rubber 102 and a rear stopper surface 71 for applying a rear stopper rubber 104.
b. Therefore, the swing motion of the left and right anti-vibration links 93 (only the left is shown in this figure; the same applies hereinafter) is resilient by the front and rear stopper surfaces 71a and 71b and the front and rear stopper rubbers 102 and 104. Is regulated. That is, the front and rear stopper rubber 1
Numerals 02 and 104 serve as a buffering function when the left and right anti-vibration links 93 swing up and down, and perform a restoring action to the neutral position shown in the figure.

FIG. 7 is a side view around a swing type power unit according to the present invention. The engine 110 extends the cylinder block 112 and the cylinder (not shown) in the cylinder block 112 and the cylinder (not shown) from the crankcase 111 to the front of the vehicle body substantially horizontally forward, and joins the cylinder head 115 to the front end of the cylinder block 112 by bolting. The head cover 117 is joined to the front end of the cylinder head 115 by bolting.

This figure shows an air cleaner 131, a connecting tube (connection tube) 132 connected to the outlet of the air cleaner 131, and a connecting tube 1.
An intake system 130 of the engine 110 is formed by a throttle body 133 connected to a downstream end of the throttle body 32, an inlet pipe 134 connected to a downstream end of the throttle body 133, and an intake passage 122 connected to a downstream end of the inlet pipe 134. Is shown. Of such an intake system 130, the air cleaner 131 and the connecting tube 1
32, throttle body 133 and inlet pipe 13
4 was disposed above the engine 110 in a substantially horizontal state from the rear to the front of the vehicle body, and the downstream end of the inlet pipe 134 was connected to the intake passage 122 of the engine 110.

The throttle body 133 is connected to the upstream end of the inlet pipe 134 and is disposed substantially above the crankcase 111, and has a built-in throttle valve 135. The throttle valve 135 is a valve arranged on the upstream side of the intake passage 122 to adjust the cross-sectional area of the intake passage 122.

A pair of left and right frame-side pivots 92 (only the left side in this figure; the same applies hereinafter) is provided between the bottom 21a of the article storage section 21 and the upper surface U1 of the engine 110 and at the bottom 21a of the article storage section 21. The height H1 of the pair of left and right engine-side pivots 95 is
The height is substantially the same as that of the uppermost portion U2 of the tenth portion and at a position behind the frame-side pivot 92. That is, the engine-side pivot 9 is located at the rear lower position of the frame-side pivot 92.
5 was arranged.

The fuel injection device 140 is arranged on the vehicle body front side with respect to the frame-side pivot 92, and the distance X1 between the fuel injection device 140 and the frame-side pivot 92 in the front-rear direction is defined as
It is set equal to or smaller than the front-rear distance X2 from the frame-side pivot 92 to the engine-side pivot 95, and the mounting height H2 of the fuel injection device 140 is set between the frame-side pivot 92 and the engine-side pivot 95. did.

FIG. 8 is a plan view of a swing type power unit according to the present invention.
This shows that the inlet pipe 134 has passed through the space S sandwiched between the holes 93. The inlet pipe 134 is an intake pipe arranged substantially parallel to the cylinder axis O and having an upstream end directed toward the rear of the vehicle body.

FIG. 9 is a side cross-sectional view around the cylinder head of the engine according to the present invention. The engine 110 moves from the crankcase 111 (see FIG. 2) to the front of the vehicle body,
A cylinder 113 in the cylinder block 112 extends substantially horizontally, a piston 114 is inserted into the cylinder 113, a combustion chamber 116 is provided in the cylinder head 115, and a valve operating chamber 118 is formed by the cylinder head 115 and the head cover 117. The valve operating mechanism 150 is housed in the valve operating chamber 118.

The cylinder head 115 is formed by integrally forming an intake passage 122 connected to the combustion chamber 116 and having an intake valve 121 and an exhaust passage 126 connected to the combustion chamber 116 and having an exhaust valve 125. The intake valve 121 is disposed between the combustion chamber 116 and the intake passage 122 to open and close between the two. The exhaust valve 125 is disposed between the combustion chamber 116 and the exhaust passage 126 and A valve that opens and closes the gap. The valve operating mechanism 150 includes a camshaft 151, two rocker shafts 152, 152, two rocker arms 153, 153, and a valve stem 12 of the intake valve 121.
1a and a valve stem 125a of the exhaust valve 125. 154 and 154 are valve springs, 155 and 15
5 is a retainer.

The intake passage 122 extends from the downstream side of the combustion chamber 116 to the upstream side in a direction substantially parallel to the axis O of the cylinder 113 and away from the combustion chamber 116 from the position of the intake valve 121 (left side in this figure). , Is bent outward at a substantially right angle to the axis O of the cylinder 113, and extends again substantially parallel to the cylinder axis. This is a substantially U-shaped passage. And is convex toward the front of the vehicle body (left side in this figure). In the intake passage 122 having such a shape, the upstream end 122a is disposed in the vicinity of an extension line C of the joint surface B between the cylinder 113 and the cylinder head 115. Here, the vicinity of the extension line C includes on the extension line C. The upstream end 122a opens to the upper part of the cylinder head 115 toward the rear of the vehicle body (right side in this figure), and a flange 122b formed at the opening is connected to the downstream end of the inlet pipe 134 by bolting. is there.

The cylinder block 112 is connected to the coolant passage 11.
2c, and the cylinder head 115 is also provided with a coolant passage 128. At least the coolant passage 128 provided in the cylinder head 115 mainly
6, which is also provided around the U-shaped bottom of the intake passage 122. Specifically, the periphery of the bent bottom of the intake passage 122 is formed around the coolant passage 128.
It was surrounded by.

In the present invention, a fuel injection device 140 is disposed between a throttle valve 135 (see FIG. 7) on the upstream side of the inlet pipe 134 and the intake valve 121 in the intake system. The fuel injection device 140 is attached to the engine 110 in a state where the fuel injection device 140 is directed from the upper front to the lower rear.
4, the flange 1 of the intake passage 122
It is a position in front of the vehicle body with respect to a connection portion between the downstream end of the inlet pipe 134 and the downstream end of the inlet pipe 22b.

More specifically, a substantially U-shaped intake passage 122
The attachment opening 129 is formed at the bent bottom portion of the intake passage 122, that is, at the front end portion (the left side in the drawing) of the intake passage 122, and the fuel injection device 140 is inserted into the attachment opening 129, and the intake passage 1
22 was attached to the downstream side. That is, the fuel injection device 140 is attached at an angle so as to inject the fuel Fu from the upper front fuel injection device 140 toward the intake valve 121.
More specifically, the fuel injection device 140 is arranged on the outer side of the substantially U-shape of the intake passage 122, that is, on the inner wall side b of the bent bottom portion of the intake passage 122 having a large bending radius. The fuel injection device 140 is connected to the fuel inlet 14 at the upper end.
1, a feed pipe 142 is attached by fitting, and a fuel hose 146 (see FIG. 7) is connected via the feed pipe 142.

FIGS. 10A and 10B are diagrams showing the construction of the fuel injection device according to the present invention, wherein FIG.
0 shows the side configuration, and (b) shows the configuration in the direction of arrow b in (a). The fuel injection device 140 is an injector that injects fuel based on an injection signal calculated by an electronic control unit (not shown), and includes, for example, a solenoid valve type nozzle. 143 is an injection nozzle, 144 is a terminal, 1
45 is a coupler.

FIG. 11 is a left side view showing the relationship between the anti-vibration link mechanism and the fuel injection device according to the present invention, and shows the fuel injection device 140 in a schematic cross section. The present invention
When the motorcycle 10 (see FIG. 2) is viewed from the side, the engine 11 is located on the vehicle body front side with respect to the frame-side pivot 92.
0, the fuel injection device 140 is attached.
The forty axis A2 is arranged substantially parallel to a straight line A1 passing through the frame-side pivot 92 and the engine-side pivot 95. Here, the axis A2 of the fuel injection device 140 is a straight line passing through the center of the valve 149 in the fuel injection device 140. Valve 149 operates in the direction of axis A2.

The fuel injection device 140 is supplied from the fuel inlet portion 141 by the solenoid 147 being excited based on the injection signal, causing the plunger 148 to slide by suction, and the valve 149 being opened in accordance with the sliding of the plunger 148. The injected fuel can be injected from the injection nozzle 143.

Next, the operation of the above configuration will be described with reference to FIGS. 7 to 9 and FIG. As shown in FIG. 7, the cylinder head 115 located downstream of the throttle body 133
A substantially U-shaped intake passage 1 protruding toward the front of the vehicle body.
The fuel injection device 140 is disposed at the front end of the intake passage 122. That is, the throttle body 13
3 and the fuel injection device 1
40 was attached. In general, the height of a single item of the throttle body 133 is smaller than the height of a single item of the carburetor. The height of the uppermost portion U3 of the throttle body 133 incorporated in the intake system 130 can be suppressed as compared with the case where a conventional carburetor is arranged.

Further, a fuel injection device 140 is mounted on the engine 110 from the upper front to the lower rear at a position forward of the vehicle body from a joint between the engine 110 having a cylinder extending substantially forward and the inlet pipe 134 and the inlet pipe 134. . That is, the throttle body 133 and the inlet pipe 134
The cylinder head 115 is disposed at a lower position than the front side of the substantially U-shaped intake passage 122 provided in the cylinder head 115, and the fuel injection device 140 is directed from the upper front to the downstream side of the intake passage 122. Installed. Therefore, the mounting height H2 of the fuel injection device 140 can be further reduced.

The linear distance from the frame-side pivot 92 to the fuel injector 140 can be made smaller than the linear distance from the frame-side pivot 92 to the engine-side pivot 95. As a result, when the engine-side pivot 95 swings together with the power unit 16, the displacement of the fuel-
The displacement amount of 0 is small. Therefore, the power unit 1
6 swings, the bottom 21a of the article storage section 21
It is easy to secure a gap δ between the fuel injection device 140 and the fuel injection device 140.

As described above, the power unit 16
The throttle body 13
3, the fuel supply pipes such as the intake system 130, the fuel injection device 140, and the fuel hose 146 connected to the fuel injection device 140 can be reduced in total height. The space δ between the bottom 21a of the portion 21 and the bottom 21a can have a margin. Therefore, it is not necessary to dent the bottom 21a of the article storage section 21 upward. As a result, it is easy to increase the storage capacity of the article storage section 21. Further, the storage capacity of the article storage section 21 can be ensured while lowering the height of the sheet 22 (see FIG. 1).

As shown in FIG. 7 and FIG.
Regardless of the swing amount of the third and third swings 93, a constant gap can always be ensured between the pair of left and right anti-vibration links 93 and 93 and the inlet pipe 134. Therefore, the degree of freedom in design can be increased.

As shown in FIG. 9, since the fuel injection device 140 is disposed at the bent bottom of the substantially U-shaped intake passage 122, it is not possible to inject the fuel Fu from the fuel injection device 140 toward the intake valve 121. Easy.

Further, the upstream end 122 a of the substantially U-shaped intake passage 122 is connected to the cylinder 113 and the cylinder head 11.
Since the cooling liquid passage 128 for cooling the combustion chamber 116 is arranged near the extension line C of the joining surface B with
The intake passage 122 can also be cooled. As a result,
Heating of the intake air by heat conduction from engine 110 can be further suppressed.

The flow of the intake air in the intake passage 122 is turbulent. At the inner side a and the outer side b in the substantially U-shaped intake passage 122 (on the inner wall side a having a small bending radius and the inner wall side b having a large bending radius), a large amount of intake air flows along the outer side b. Since the fuel injection device 140 is disposed on the inner wall side b having a large bending radius through which a relatively large amount of intake air flows to inject the fuel Fu, the large amount of intake can further enhance the atomization promoting action of the fuel Fu. .

Further, as shown in FIG. 7, the engine 110 of the swing type power unit 16 has a cylinder block 112 and a cylinder inside the cylinder block 112 extending substantially horizontally forward. The primary vibration of the engine 110 occurs in the direction of the cylinder axis O extending substantially horizontally forward (in the direction of the arrow). In order to reduce the primary vibration, the engine 11
The zero crankshaft 119 has a balance weight (not shown). The crankshaft 119 is horizontally arranged in the vehicle width direction (the direction of the front and back of the figure). As a result, secondary vibration may occur in the engine 110 in a substantially vertical direction (the direction of the arrow) orthogonal to the cylinder axis O.

The vibration obtained by combining the primary and secondary vibrations, that is, the main vibration of the engine 110 of the motorcycle 10 is generally set so as to be generated in the rearward upward direction (the direction of the arrow) with respect to the cylinder axis O. . Therefore, the vibration direction of the main vibration of the engine 110 is a direction substantially orthogonal to the straight line A1 passing through the frame-side pivot 92 and the engine-side pivot 95. With this setting, main vibration of the engine 110 transmitted to the body frame 11 (hereinafter, simply referred to as “engine vibration”) can be reduced.

Further, the vibration direction of the power unit 16 (hereinafter, simply referred to as “road surface vibration”) due to the unevenness of the road surface during traveling of the motorcycle 10 is also determined by the frame-side pivot 92 and the engine-side pivot 95. The vertical direction is substantially perpendicular to the passing straight line A1.

On the other hand, the valve 149 of the fuel injection device 140 shown in FIG. 10 opens and closes in the direction of the axis A2. The axis A2 is substantially parallel to a straight line A1 passing through the frame-side pivot 92 and the engine-side pivot 95. From this, it can be said that the direction of the vibration (engine vibration, road surface vibration, etc.) transmitted from the power unit 16 to the fuel injection device 140 shown in FIG. 7 is substantially perpendicular to the axis A2 of the fuel injection device 140 in the up-down direction.

If the direction of the vibration transmitted from the power unit 16 to the fuel injector 140 coincides with the direction of the axis A2 of the fuel injector 140, the vibration is amplified and transmitted to the valve 149 of the fuel injector 140. The interference can affect the opening and closing operation of the valve 149. On the other hand, in the present invention, the direction of the vibration transmitted from the power unit 16 to the fuel injection device 140 is substantially orthogonal to the axis A2, so that the vibration of the power unit 16 affects the operation of the valve 149 of the fuel injection device 140. It has no effect. Therefore, the fuel injection device 140 can be reliably operated.

In the above embodiment of the present invention,
(1) The invention is not limited to motorcycles, but may be motorcycles. (2) The body frame 11 is not limited to the front and rear two-part frame, but may be an integral frame. (3) The anti-vibration link mechanism 90 of claim 2 and claim 3
At least one frame-side pivot 92 is provided on the body frame 11, and at least one engine-side pivot 95 is provided on the engine 110.
What is necessary is just to support the engine-side pivot 95 swingably via at least one anti-vibration link 93.

[0064]

According to the present invention, the following effects are exhibited by the above configuration. Claim 1 employs a throttle body having a smaller height than a carburetor, and arranges an air cleaner, a connecting tube, a throttle body, and an inlet pipe constituting an intake system of an engine substantially horizontally from a rear side of the vehicle body to a front side. Attach the fuel injection device to the engine from the upper front to the lower rear at the front of the vehicle body from the joint between the engine and the inlet pipe, and sandwich it between the pair of left and right anti-vibration links Since a relatively small inlet pipe is passed through the space, a fixed gap can always be secured between the pair of left and right anti-vibration links and the inlet pipe regardless of the swing amount of the anti-vibration link. For this reason, the degree of freedom in design can be increased.

Further, since the fuel injection device is mounted on the engine at a position distant from the throttle body, the height of the uppermost portion of the throttle body incorporated in the intake system can be made higher than when a conventional carburetor is arranged. Can be suppressed. Furthermore, since the fuel injection device is mounted on the engine from the upper front to the lower rear at a position forward of the vehicle body from the junction of the engine and the inlet pipe in which the cylinder extends substantially horizontally forward, the mounting height of the fuel injection device is high. Can be suppressed. For this reason, it is easy to secure a space between the throttle body or the fuel injection device and the bottom of the article storage unit disposed above the throttle body or the fuel injection device. Therefore, it is possible to secure the storage capacity of the article storage unit while lowering the height of the sheet.

A second aspect of the present invention provides a frame-side pivot provided on the body frame between the bottom of the article storage section and the upper surface of the engine and near the bottom of the article storage section, and has a height substantially equal to the uppermost portion of the engine. And, at a position rearward from the frame-side pivot, an engine-side pivot is provided on the engine, the engine-side pivot is swingably supported on the frame-side pivot via a vibration-isolating link, and is located on the vehicle body front side relative to the frame-side pivot. Attach the fuel injection device to the engine, set the front-rear distance from this fuel injection device to the frame-side pivot equal to or smaller than the front-rear distance from the frame-side pivot to the engine-side pivot, and install the fuel injection device. Since the height is set between the frame-side pivot and the engine-side pivot, the height from the frame-side pivot to the fuel injector is set. Linear distance, and it can be made smaller than the linear distance from the frame side pivot until the engine side pivot. As a result, when the engine-side pivot swings together with the power unit, the displacement of the fuel injection device can be smaller than the displacement of the engine-side pivot. Therefore, when the power unit swings, it is easy to secure a gap between the bottom of the article storage unit and the fuel injection device. For this reason, even when the power unit swings, the total height of the fuel injection device and the fuel supply pipe connected to the fuel injection device can be suppressed, and each of these components and the article storage section disposed thereabove. There is room in the space between the bottom of the car. Therefore, it is not necessary to dent the bottom of the article storage section upward, and as a result, it is easy to increase the storage capacity of the article storage section.

A frame-side pivot is provided on the body frame above the upper surface of the engine, and the engine-side pivot is provided at substantially the same height as the uppermost portion of the engine and at a position rearward of the frame-side pivot. Is established,
The engine-side pivot is swingably supported on the frame-side pivot via an anti-vibration link, and a fuel injection device is mounted on the engine at the front side of the vehicle body with respect to the frame-side pivot, and the axis of the fuel injection device is aligned with the frame-side pivot. It is characterized by being arranged substantially parallel to a straight line passing through the engine-side pivot.

The vibration direction of the vibration of the power unit (engine vibration, road surface vibration, etc.) is substantially perpendicular to a straight line passing through the frame-side pivot and the engine-side pivot. On the other hand, the valve of the fuel injection device opens and closes in the direction of the axis of the fuel injection device, and this axis is substantially parallel to a straight line passing through the frame-side pivot and the engine-side pivot. From this, it can be said that the direction of the vibration transmitted from the power unit to the fuel injector is substantially perpendicular to the axis of the fuel injector in the vertical direction. If the direction of vibration transmitted from the power unit to the fuel injection device matches the direction of the axis of the fuel injection device, the vibration is amplified and transmitted to or interferes with the fuel injection device,
It can affect the operation of the fuel injector. On the other hand, in the present invention, the direction of the vibration transmitted from the power unit to the fuel injection device is substantially orthogonal to the axis of the fuel injection device, so that the vibration of the power unit does not affect the operation of the fuel injection device. It can be said. Therefore, the fuel injection device can be reliably operated.

[Brief description of the drawings]

FIG. 1 is a left side view of a motorcycle according to the present invention.

FIG. 2 is a rear enlarged side view of the motorcycle according to the present invention.

FIG. 3 is an enlarged rear plan view of the motorcycle according to the present invention.

FIG. 4 is an exploded perspective view of a vehicle body frame according to the present invention.

FIG. 5 is a left side view showing a cross section of a main part of the power unit mounting structure according to the present invention.

FIG. 6 is a sectional view taken along line 6-6 in FIG. 5;

FIG. 7 is a side view around a swing type power unit according to the present invention.

FIG. 8 is a plan view around a swing type power unit according to the present invention.

FIG. 9 is a side cross-sectional view around the cylinder head of the engine according to the present invention.

FIG. 10 is a configuration diagram of a fuel injection device according to the present invention.

FIG. 11 is a left side view showing the relationship between the vibration isolating link mechanism and the fuel injection device according to the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 10 ... Motorcycle, 11 ... Body frame, 16 ... Swing type power unit, 21 ... Article storage part, 21a ... Bottom part of article storage part, 22 ... Seat, 92 ... Frame side pivot, 93 ... Anti-vibration link, 95 ... Engine side Pivot, 1
10 ... internal combustion engine (engine), 113 ... cylinder, 14
0: fuel injector, A1: straight line passing through the frame-side pivot and engine-side pivot, A2: axis of the fuel injector, C: joint between engine and inlet pipe (extension line of joint surface between cylinder and cylinder head) ), H1: height of the engine-side pivot, H2: mounting height of the fuel injection device, S: space interposed between a pair of left and right anti-vibration links, U
1 top surface of engine, U2 top part of engine, X1
... Front-rear distance from the fuel injection device to the frame-side pivot, X2... Front-rear distance from the frame-side pivot to the engine-side pivot

Claims (3)

[Claims] 1. A two- or three-wheeled motor vehicle in which a swing type power unit having an engine whose cylinder extends substantially horizontally forward is disposed below a seat and an article storage part, and is supported by a body frame by a pair of left and right vibration-proof links. An air cleaner, a connecting tube, a throttle body, and an inlet pipe constituting an intake system of the engine are disposed substantially horizontally from the rear of the vehicle body toward the front and connected to the engine, and a connection portion between the engine and the inlet pipe is formed. At the front of the vehicle body, a fuel injection device is mounted on the engine from the upper front to the lower rear, and the inlet pipe is passed through a space sandwiched between the pair of left and right anti-vibration links. Tricycle. 2. A two- or three-wheeled motor vehicle in which a swing-type power unit having an engine whose cylinder extends substantially horizontally forward is disposed below a seat and an article storage section, and is supported on a vehicle body frame by an anti-vibration link. A frame-side pivot is provided on the body frame between the bottom of the part and the upper surface of the engine and toward the bottom of the article storage unit, at a height substantially equal to the uppermost portion of the engine and behind the frame-side pivot. In this position, the engine-side pivot is provided on the engine, the engine-side pivot is swingably supported on the frame-side pivot via an anti-vibration link, and the fuel injection device is mounted on the engine on the vehicle body front side with respect to the frame-side pivot. The distance in the front-rear direction from the fuel injector to the frame-side pivot is the same as the distance from the frame-side pivot to the engine-side pivot. Set direction distance and smaller equal to or than, automatic two-tricycle, characterized in that set between the mounting height of the fuel injection system and the frame side pivot and the engine side pivot. 3. A two- or three-wheeled motor vehicle in which a swing-type power unit having an engine whose cylinder extends substantially horizontally forward is disposed below a rear half of a vehicle body frame and supported on the vehicle body frame by a vibration-proof link. A frame-side pivot is provided on the body frame above the upper surface of the engine, and an engine-side pivot is provided on the engine at a height substantially equal to an uppermost portion of the engine and at a position rearward of the frame-side pivot. The engine-side pivot is swingably supported via a vibration-isolating link, and a fuel injection device is mounted on the engine at the front of the vehicle body with respect to the frame-side pivot. The axis of the fuel injection device is aligned with the frame-side pivot and the engine-side pivot. Motorcycles characterized in that they are arranged substantially parallel to a straight line passing through.