Title of Invention	A VEHICLE
Abstract	A bottom-front left part 21c and a bottom-front right part 21d which project downward from a bottom-front central part 21e, and an uppermost part 21e are provided at the front of a fuel tank 20. Accordingly, a sufficient height in a vertical direction can be provided without increasing the outside dimensions of the fuel tank 20. A fuel gauge 20 is disposed on a flat portion 21b in the rear central part lower than the bottom-front central part 21a of the fuel tank 20. Accordingly, the fuel gauge 28 can be disposed without increasing the outside dimensions of the fuel tank 20. The fuel gauge 28 is disposed such that a float 28c can rise and fall at the bottom-front left part 21c in the fuel tank 20, where a sufficient downward height can be provided. This provides a large pivot angle of an arm 28b, allowing accurate fuel measurement without increasing the outside dimensions of the fuel tank 20.

Title of Invention

A VEHICLE

Abstract

A bottom-front left part 21c and a bottom-front right part 21d which project downward from a bottom-front central part 21e, and an uppermost part 21e are provided at the front of a fuel tank 20. Accordingly, a sufficient height in a vertical direction can be provided without increasing the outside dimensions of the fuel tank 20. A fuel gauge 20 is disposed on a flat portion 21b in the rear central part lower than the bottom-front central part 21a of the fuel tank 20. Accordingly, the fuel gauge 28 can be disposed without increasing the outside dimensions of the fuel tank 20. The fuel gauge 28 is disposed such that a float 28c can rise and fall at the bottom-front left part 21c in the fuel tank 20, where a sufficient downward height can be provided. This provides a large pivot angle of an arm 28b, allowing accurate fuel measurement without increasing the outside dimensions of the fuel tank 20.

Full Text	VEHICLE BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicle that makes a motion such as turning while tilting the body, and in particular, it relates to a vehicle including a fuel pump inside a fuel tank. 2. Description of the Related Art A motorcycle fuel tank disclosed in JP-A-2002-160665 uses the rear half of the fuel tank as the main chamber, in which a fuel pump is mounted. The fuel tank has a float fuel level gauge on the top of the fuel pump, in which an arm pivotally attached to the body of the gauge is disposed such that the free end pivots above the fuel pump. This eliminates the need for a gauge insertion opening in the fuel Lank separate from that for the fuel pump, reducing the limitation to the place of installation of the fuel pump. SUMMARY OF THE INVENTION However, since the foregoing motorcycle fuel tank has a float fuel level gauge at the top of the fuel pump, and the arm pivotally attached to the body of the gauge is disposed such that the free end pivots above the fuel pump, the pivot nge of the float at the free end of the arm does not reach - 1 - the bottom of the main chamber, making it impossible to measure the amount of fuel in the main chamber eccurately. In order to solve the above problem, the present invention has as an object the provision of a vehicle capable of accurate fuel measurement without increasing the ontside dimensions of a fuel tanl in which the shape of the fuel tank is devised so that the float of the fuel gauge can pivot from the bottom to the top of the fuel tank, and in which the fuel gauge is disposed in the rear center of the bottom of the fuel tank. A vehicle according to the invention includes: a body frame; a fuel tank supported by the body frame; and a fuel gauge having pivotally an arm that supports a float rising and falling depending on the amount of fuel in the fuel tank. The fuel tank is disposed such that the front right part and the front left part of the bottom are located in positions lower than the front central part, the uppermost part of the upper surface is located in a position higher than the front of the bottom, and the rear central part of the bottom is located in a position lower than the front central part. The fuel gauge is disposed in the rear central part of the bottom in the fuel tank such that the float rises and falls at the front right part or the front left part. The invention allows accurate fuel measurement without increasing the outside dimensions of a fuel tank by devising the shape of the fuel tank so that the float of the fuel gauge -2- can pivot from the bottom to the top of the fuel tank, end disposing the fuel gauge in the rear center of the bottom of the fuel tank. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a left side view of a motorcycle according to an embodiment of the invention; Fig. 2 is an enlarged left side view of the interior of the fuel tank and its periphery of Fig. 1; Fig. 3 is a sectional view taken along line A-A of Fig. 2; Fig. 4 is a sectional view taken along line B-B of Fig. 2; Fig. 5 is an enlarged left side view of the interior of the fuel tank; Fig. 6 is a plan view showing the mounting position for a- fuel gauge in the fuel tank of Fig. 3; Fig. 7 is a left side view of the structure of another fuel pump and a fuel gauge; Fig. 8 is a plan view of Fig. 7; and Fig. 9 is a left side view of the structure of another fuel pump and a fuel gauge. DETAILED DESCRIPTION OF THE PREFFERD EMBODIMENTS The main point of the invention is to allow accurate fuel - 3 - measurement without increasing the outside dimensions of a fuel tank by devising the shape of the fuel tank so that the float can pivot from the bottom to the top of the fuel tank, and disposing the fuel gauge in the rear center of the bottom of the fuel tank. The present invention is described in detail below based on embodiments, with reference to the attached drawings. The embodiments are described for a case in which the invention is applied to a motorcycle. Figs. 1 to 9 are diagrams for describing a motorcycle according to embodiments incorporating the invention. Fig. 1 is a left side view of the motorcycle; Fig. 2 is an enlarged left side view of the interior of the fuel tank and its periphery of Fig. 1; Fig. 3 is a sectional view taken along line A-A of Fig. 2; Fig. 4 is a sectional view taken along line B-B of Fig. 2; Fig. 5. is an enlatged left side view of the interior of the fuel tank; Fig. 6 is a plan view showing the mounting position for a fuel gauge in the fuel tank of Fig. 3; Fig. 7 is a left side view of the structure of another fuel pump and a fuel gauge; Fig. 8 is a plan view of Fig. 7; and Fig. 9 is a left side view of the structure of another fuel pump and a fuel gauge. Referring first to Fig. 1, the structure of the motorcycle will be described. In Fig. 1, the motorcycle 1 includes a head pipe 2, to which a main frame 4 extending backward and diagonally downward and a down tube 5 extending downward are - 4 - connected. To the main frame 4 is connected a subframe 6 extending backward substantially in parallel therewith at a given angle. A space surrounded by the main frame 4, the down tube 5, and the subframe 6 encloses a transmission-integrated engine unit 7 . The main frame 4 and the subframe 6 are located in the center of the breadth of the vehicle and construct a body frame 3. The engine unit 7 is constructed such that the cylinder axis of a cylinder block 8 inclines slightly toward the front of the vehicle, and a transmission case 9, which is located under the cylinder block 8 and encloses a crankshaft and a transmission, is suspended by the main frame 4 and the down tube 5 along the breadth of the vehicle. The upper end of the engine unit 7 is fixed to a bracket 10 fixed to the main frame 4. Engine power is transmitted to a rear wheel 11 via a drive sprocket (not shown) firmly fixed to the drive shaft of the engine unit 7 and a chain (not shown) wound around the drive sprocket. To the cylinder block 8 is connected an injector 12, an intake pipe 13, and an exhaust pipe 14. The injector 12, whose upper end is connected to a fuel feed pipe 15, emits a jet of fuel into the cylinder under the control of a control unit 40. The intake pipe 13 connects to a throttle body 16, through which the air supplied from an air cleaner (not shown) is drawn into the cylinder with the amount controlled by a throttle - 5 - valve (not shown) in the throttle body 16. An intake port (not shown) in the intake pipe 13 connects to an intake pressure sensor 17. The intake pressure sensor 17 has the function of sensing the intake pressure in the intake port and outputting its intake-pressure signal to the control unit 40. A steering shaft (not shown) rotatably passes through the head pipe 2. To the upper end of the steering shaft is mounted a steering handle (not shown). The upper end of a front fork 18 is attached to the steering shaft. The lower end of the front fork 18 rotatably supports a front wheel 19. A fuel tank 20 is provided on the main frame 4 and the subframe 6. A tandem seat 30. is provided behind the fuel tank 20. As shown in the enlarged left side view of the fuel tank and the body frame in Fig. 2, the bottom 21 of the fuel tank 20 has a bottom-front central part 21a in the front center, and a flat portion 21b in the rear center of the bottom, in a position lower than the bottom-front central part 21 a, and in parallel with the parallel part of the subframe 6, in the side view of the vehicle in the drawing. As shown in Fig. 3, on the front left and right sides of the bottom-front central part 21a are provided a bottom-front left part 2lc and a bottom-front right part 21d which project downward from the bottom-front central part 21a. The fuel tank 20 is disposed such that the uppermost portion 21e of the upper surface is located above the front of the bottom. The "side view of the - 6 - vehicle" means a view in which the left is the front (or the rear) of the vehicle and the right is the rear (or the front) as viewed from the side, which also applies to the following. The bottom-front left part 21c and the bottom-front right part 21d of the fuel tank 20 have laterally U-shaped guide brackets 22 which are open forward (leftward in the drawing) and which project from the side walls facing the main frame 4. The main frame 4 has positioning members 23 projecting from the side walls facing the guide brackets 22. The front of the fuel tank 20 is supported by the main frame 4 by inserting the guide brackets 22 projecting from the side walls of the bottom-front left part 21c and the bottom-front right part 21d into the positioning members 23 projecting from the corresponding positions of the main frame 4. The bottom-front left part 21c and the bottom-front right part 21d of the fuel tank 20 and the projecting positions of the positioning members 23 of the main frame 4 are determined so as to form a clearance A between the bottom-front central part 21a of the fuel tank 20 and the upper surface of the main frame 4 when the front of the fuel tank 20 is positioned. A bracket 24 for fixing the rear end of the fuel tank 20 to the subframe 6 is mounted to the rear end (on the right in the drawing) of the flat portion 21b of the fuel tank 20. The subframe 6 has a positioning member 25 projecting from the position facing the bracket 24. The rear end of the fuel - 7 - tank 20 is supported by the subframe 6 by fixing the bracket 24 to the positioning member 25 of the subframe 6 via a rubber damper 26 with a bolt 31. Since the rear end of the fuel tank 20 is supported by the subframe 6 with the bracket 24 and the positioning member 25 of the subframe 6, a clearance B is formed between the flat portion 21b of the fuel tank 20 and the upper surface of the subframe 6, as shown in the cross-sectional view in Fig. 4 taken on line B-B of Fig. 2. The clearance A and the clearance B are connected with each other by supporting the front of the fuel tank 20 by the main frame 4 and supporting the rear end of the fuel tank 20 by the subframe 6. As a result, the continuous clearances A and B formed between the bottom 21 of the fuel tank 20 and the upper surfaces of the main frame 4 and the subframe 6 can enclose multiple components. The Fuel tank 20 can be maintained by taking off the bracket 24 at the rear end from the positioning member 25 and lifting the rear end with the guide brackets 22 and the positioning members 23 at the front as the pivot center. As shown in the enlarged left side view showing the structure of the interior of the fuel tank of Fig. 5, a fuel pump 27 for feeding the fuel in the fuel tank 20 to the fuel feed pipe 15 is provided upright from the flat portion 21b such that the part except a fuel delivery portion 27a and a power supply - 8 - portion 27c mounted to the lower end thereof is enclosed in the fuel tank 20. The fuel pump 27 stands upright such that its fuel intake port (not shown) is exposed upward from the flat portion 21b in the fuel tank 20 and the fuel delivery portion 27a and the power supply portion 27c are exposed downward from the flat portion 21b outside the fuel tank 20. To the side 27b of the fuel pump 27 is integrated a fuel gauge 28 for measuring the amount of fuel in the fuel tank 20. The fuel gauge 23 includes an arm 28b whose base end is pivotally attached to a pivot shaft 28a and a float 28c attached to the end of the arm 28b. The fuel gauge 28 measures the amount of fuel in such a way that the arm 28b that supports the float 28c pivots depending on the change in fuel level in the range from the vicinity of the bottom of the bottom-front left part 21c on the front left side of the fuel tank 20 to the vicinity of the uppermost part 2le of the upper surface, shown in Fig. 3, and the change of the pivot position is converted to a change in the angle of the pivot shaft 28a. The fuel gauge 28 has a signal/power cable (not shown) that is connected from the flat portion 21b of the fuel tank 20 to the power supply portion 27c mounted outside the flat portion 21b. The signal/power cable is connected to an inner contact terminal (not shown) of the power supply portion 27c inside the fuel tank 20 and is connected to a main harness 50 via a harness 51 connected to an outer -9 - contact terminal (not shown) of the power supply portion 27c outside the fuel tank 20. The signal/power cable outputs a fuel measurement signal to the control unit 40 via the harness 51 and the main harness 50. The signal /power cable slso supplies power supplied from a relay 45 to the fuel pump 27 via the harness 51 and the main harness 50. As shown in the plan view of Fig . 6 which shows the position of the fuel gauge in the fuel tank shown in Fig. 3, the fuel gauge 28 is mounted on the left of the fuel tank 20, with the pivot shaft 28a inclined backward at an angle a relative to the center line C that passes through the center of the fuel pump 27 in the drawing, or relative to the width of the vehicle in plan view. The fuel gauge 28 is thus mounted to the fuel pump 27. Accordingly, when the float 28c rises and falls at the bottom-front left part 21c in the fuel tank 20, the float 28c moves toward the center when rising and pivots in arc shape along the side of the botto-front left part 21c. As a result, the pivot range of the float 28c becomes larger than that of conventional one, from the vicinity of the bottom of the bottom-front left part 21c to the vicinity of the uppermost part 21e of the upper surface, allowing accurate fuel measurement. The "plan view of the vehicle" means a view in which the left is the front (or the rear) of the vehicle and the right is the rear (or the front), as viewed from the top, which also applies to the following. - 10 - As shown in Fig. 4, the cross section taken along B-B of Fig. 2, the fuel feed pipe 15 is mounted to the fuel delivery portion 27a of the fuel pump 27. The fuel feed pipe 15 passes through the bottom 21 of the fuel tank 20 while using the clearance B, extends from the bottom 21 to the front left upper position outside the fuel tank 20, forms a bent portion 15a in the vicinity of the pivot center of the fuel tank 20, and connects to the injector 12. The fuel feed pipe 15 also has a bent portion 15b on the side from the fuel delivery portion 27a to the bottom of the fuel tank 20. The connections of the fuel feed pipe 15 with the fuel delivery portion 27a and the injector 12 are made of metal; the intermediate portions of the fuel feed pipe 15 that construct the bent portions 15a and 15b are made of plastics such as rubber. The control unit 40 for controlling the direction of the motorcycle 1 is fixed to the upper surface of the main frame 4 in the clearance A between the bottom-front central part 21a of the bottom 21 of the fuel tank 20 and the upper surface of the main frame 4. The control unit 40 connects to a harness 52 via the main harness 50 across the injector 12, the throttle body 16, the intake pressure sensor 17, the fuel gauge 28, and so forth, and controls the operation of various actuators for the engine unit 7 on the basis of the detection signals from various senses. In the clearance A, the relay 45 for - 11 - controlling power supply to the control system of the motorcycle 1 is fixed to the upper surface of the main frame 4 with a mounting member 46. The relay 45 connects to a harness 53. The harness 53 connects to the main harness 50. The relay 45 supplies power to the injector 12, the throttle body 16, the intake pressure sensor 17, the fuel gauge 28, the control unit 40, and so forth via the harness 53 and the main harness 50. The main harness 50 is disposed along the side of the main frame 4 and the subframe 6. Since the bottom-front left part 21c and the bottom-front right part 21d, which project downward from the bottonrt-front central part 21a, and the uppermost part 21e are provided at the front of the fuel tank 20, a sufficient height of the fuel tank 20 can be provided without increasing the outside dimensions. Since the fuel gauge 28 is disposed on the flat portion 21b in the rear center, in a position lower than the bottom-front central part 21a of the fuel tank 20, the fuel gauge 28 can be disposed without increasing the outside dimensions of the fuel tank 20. Since the fuel gauge 28 is disposed so that the float 28c can move vertically at the bottom-front left part 21c in the fuel tank 20, where a sufficient downward height is provided, a large pivotal angle of the arm 28b can be provided, allowing accurate fuel measurement without increasing the outside dimensions of the fuel tank 20. Since the fuel gauge 28 is disposed on the flat portion - 12 - 21b at the rear center such that the pivot shaft 28a of the arm 28b is inclined backward at an angle a relative to the width of the vehicle in plan view, the float 28c moves close to the center when rising or falling, allowing the pivot angle of the arm 28b to be increased over conventional one to permit accurate fuel measurement without increasing the outside dimensions of the upper or lower part of the fuel tank 20. Since the fuel gauge 28 is disposed on the left of the fuel pump 27, and the fuel gauge 26 and the fuel pump 27 are united to one, the pivot shaft 28a of the fuel gauge 28 can be disposed in a desired position without increasing the outside dimensions of the fuel tank 20 and with a simple structure, allowing more accurate fuel measurement. Since the fuel pump 27 is disposed in the fuel tank 20 such that the length or the line perpendicular to the flat portion 21b of Fig. 5 is substantially along the vertical direction, the upper surface of the rear of the fuel tank 20 can be located lower than the front, allowing the rear of the fuel tenk 20 to be formed to the riding position of a rider to improve ride comfort. While the embodiment shows a case in which the fuel pump 27 is disposed substantially vertically in the fuel tank 20, a fuel pump 50 may be disposed substantially horizontally in the fuel tank 20 such that the length of the fuel pump 50 is along the flat portion 21b at the rear center, as shown in - 13 - Figs. 7 and 8. In this case, a fuel gauge 60 is mounted on the left side of the fuel pump 50 and has an arm 60b whose base end is pivotally mounted to a pivot shaft 60a, and a float 60c mounted to the end of the arm 60b. The reference numeral 61 in the drawings indicates s filter. The fuel gauge 60 measures the amount of fuel, as with the fuel gauge 28, in such a way that the arm 60b that supports the float 60c pivots depending on the change in fuel level in the range from the vicinity of the bottom of the bottom-front left part 21c at the front left side of the fuel tank 20 to the vicinity of the uppermost part 21e, shown in Fig. 3, the change of the pivot position is converted to a change in the angle of the pivot shaft 60a. Thus, since the fuel gauge 60 is also arranged at the bottom-front left part 21c in the fuel tank 20 so that the float 60c rises and falls in a space with a sufficient downward height, a large pivot angle of the float 60c can be provided, allowing accurate fuel measurement without increasing the outside dimensions of the fuel tank 20 Since the fuel gauge 60 is disposed in the fuel tank 20 such that the length is substantially along the horizontal direction, the upper surface of the rear of the fuel tank 20 can be further lowered. Consequently, the limitation due to the shape of the fuel tank can be circumvented in arrangement of the fuel pump in the fuel tank. - 14 - When the bottom is inclined as a slope 70a that is inclined downward from the front toward the rear, as in a fuel tank 70 of Fig. 9, a fuel pump 81 integrated vith a fuel gauge 80 may be disposed at the rear of the slope 70a. The front left and right parts of the fuel tank 70 have bottom-front left and right parts (not shown). In this Case, the fuel gauge 80 mounted on the left side of the fuel pump 81 has an arm 80b whose base end is pivotally mounted to a pivot shaft 80a, and a float 80c mounted to the end of the arm 80b. Thus, since the fuel gauge 80 is also arranged at the bottom-front left part in the fuel tank 70 so that the float 80c rises and falls in a space with a sufficient downward height, a large pivot angle of the float 80c can be provided, allowing accurate fuel measurement without increasing the outside dimensions of the fuel tank 70. While the embodiments show a case in which the float of the fuel gauge rises snd falls above the bottom-front left part in the fuel tank, the invention is not limited to that but the float may move vertically above the bottom-front right part. In this caSe, the fuel gauge can be mounted on the right side of the fuel pump. A vehicle according to the invention includes: a body frame; a fuel tank supported by the body frame; and a fuel gauge having an arm that pivotally supports a float rising - 15 - and falling depending on the amount of fuel in the fuel tank. The fuel tank is disposed such that the front right part and the front left part of the bottom are located in positions lower than the front central part, the uppermost part of the upper surface is located in a position higher than the front of the bottom, and the rear central part of the bottom is located in a position lower than line front central part. The fuel gauge is disposed in the rear central part of the bottom in the fuel tank such that the float rises and falls above the front right part or the front left part. With such a structure, the front left and right parts projecting downward and the uppermost part are provided at the front of the fuel tank, a sufficient height can be provided without increasing the outside dimensions of the fuel tank. Since the fuel gauge is disposed in the rear center lower than the bottom-front central part, the fuel gauge Ceii be disposed without increasing the outside dimensions of the fuel tank. Since the fuel gauge is disposed so that the float rises and falls at the front left and right parts in the fuel tank, where a sufficient downward height can be provided, a large pivot angle of the arm can be provided, allowing accurate fuel measurement without increasing the outside dimensions of the fuel tank. The vehicle according to the invention may have a structure in which the fuel tank is disposed such that the reer central - 16 - part is located in a position higher than the lowermost of at least one of the front right part and the front left part. With such a structure, the fuel tank is disposed such that the rear central part is located in a position higher than the lowermost of at least one of the front right part and the front left part. This increases the pivot angle of the arm, allowing accurate fuel measurement without increasing the outside dimensions of the fuel tank. The vehicle according to the invention preferably may have a structure in which the fuel gauge is disposed at the rear central part such that the pivot shaft of the arm is inclined backward relative to the width of the vehicle in plan view. With such a structure, the fuel gauge is disposed at the rear central part such that the pivot shaft of the arm is inclined backward relative to the width of the vehicle in plan view. Thus, the float moves close to the center when rising or falling, increasing the pivot angle of the arm to allow accurate fuel measurement without increasing the outside dimensions of the upper or lower part of the fuel tank. Preferably, the vehicle according to the invention further includes a fuel pump disposed in the rear central part of the bottom in the fuel tank. The fuel gauge may be disposed on the side of the fuel pump. The fuel gauge and the fuel pump may be united to one. With such a structure, the vehicle further includes a - 17 - fuel pump disposed in the rear central part of the bottom in the fuel tank. The fuel gauge is disposed on the side of the fuel pump. The fuel gauge and the fuel pump are united to one. Thus, the pivot shaft can be disposed in a desired position without increasing the outside dimensions of the fuel tank and with a simple structure, allowing accurate fuel measurement. The vehicle according to the invention may have a structure in which the fuel pump is disposed such that the length is substantially along the vertical direction in the fuel tank. This structure can lower the upper surface of the rear of the fuel tank than the front, allowing the rear of the fuel tank to be shaped to the riding position of the rider to improve rider comfort. The vehicle according to the invention is capable of accurate fuel measurement without increasing the outside dimensions of the fuel tank, and in particular, it is useful for motorcycles and so forth whose frame is disposed in the center of the breadth of the body. - 18 - WHAT IS CLAIMED IS: 1. A vehicle comprising: a body frame; a fuel tank supported by the body frame; and a fuel gauge having pivotally an arm that supports a float rising and falling depending on the amount of fuel in the fuel tank; wherein the fuel tank is disposed such that the front right part and the front left part of the bottom are located in positions lower than the front central part, the uppermost part of the upper surface is located in a position higher than the front of the bottom, and the rear central part of the bottom is located in a position lower than the front central part; and the fuel gauge is disposed in the rear central part of the bottom in the fuel tank such that the float rises and falls above the front right part or the front left part. 2. The vehicle as claimed Claim 1, wherein the fuel tank is disposed such that the rear central part is located in a position higher than the lowermost of at least one of the front right part and the front left part. 3. The vehicle as claimed in Claim 1, wherein the fuel gauge is disposed at the rear central part such that the pivot shaft - 19 - of the arm is inclined backward relative to the width of the vehicle in plan view. 4. The vehicle as claimed in Claim 1, 2, or 3, further comprising: a fuel pump disposed in the rear central part of the bottom in the fuel tank; wherein the fuel gauge is disposed on the side of the fuel pump; and the fuel gauge and the fuel pump are united to one. 5. The vehicle as claimed in Claim 4, wherein the fuel pump is disposed such that the length is substantially along the vertical direction in the fuel tank. - 20 - A bottom-front left part 21c and a bottom-front right part 21d which project downward from a bottom-front central part 21e, and an uppermost part 21e are provided at the front of a fuel tank 20. Accordingly, a sufficient height in a vertical direction can be provided without increasing the outside dimensions of the fuel tank 20. A fuel gauge 20 is disposed on a flat portion 21b in the rear central part lower than the bottom-front central part 21a of the fuel tank 20. Accordingly, the fuel gauge 28 can be disposed without increasing the outside dimensions of the fuel tank 20. The fuel gauge 28 is disposed such that a float 28c can rise and fall at the bottom-front left part 21c in the fuel tank 20, where a sufficient downward height can be provided. This provides a large pivot angle of an arm 28b, allowing accurate fuel measurement without increasing the outside dimensions of the fuel tank 20.

Full Text

VEHICLE
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a vehicle that makes
a motion such as turning while tilting the body, and in particular,
it relates to a vehicle including a fuel pump inside a fuel
tank.
2. Description of the Related Art
A motorcycle fuel tank disclosed in JP-A-2002-160665 uses
the rear half of the fuel tank as the main chamber, in which
a fuel pump is mounted. The fuel tank has a float fuel level
gauge on the top of the fuel pump, in which an arm pivotally
attached to the body of the gauge is disposed such that the
free end pivots above the fuel pump. This eliminates the need
for a gauge insertion opening in the fuel Lank separate from
that for the fuel pump, reducing the limitation to the place
of installation of the fuel pump.
SUMMARY OF THE INVENTION
However, since the foregoing motorcycle fuel tank has
a float fuel level gauge at the top of the fuel pump, and
the arm pivotally attached to the body of the gauge is disposed
such that the free end pivots above the fuel pump, the pivot
nge of the float at the free end of the arm does not reach

- 1 -

the bottom of the main chamber, making it impossible to measure
the amount of fuel in the main chamber eccurately.
In order to solve the above problem, the present invention
has as an object the provision of a vehicle capable of accurate
fuel measurement without increasing the ontside dimensions
of a fuel tanl in which the shape of the fuel tank is devised
so that the float of the fuel gauge can pivot from the bottom
to the top of the fuel tank, and in which the fuel gauge is
disposed in the rear center of the bottom of the fuel tank.
A vehicle according to the invention includes: a body
frame; a fuel tank supported by the body frame; and a fuel
gauge having pivotally an arm that supports a float rising
and falling depending on the amount of fuel in the fuel tank.
The fuel tank is disposed such that the front right part and
the front left part of the bottom are located in positions
lower than the front central part, the uppermost part of the
upper surface is located in a position higher than the front
of the bottom, and the rear central part of the bottom is
located in a position lower than the front central part. The
fuel gauge is disposed in the rear central part of the bottom
in the fuel tank such that the float rises and falls at the
front right part or the front left part.
The invention allows accurate fuel measurement without
increasing the outside dimensions of a fuel tank by devising
the shape of the fuel tank so that the float of the fuel gauge

-2-

can pivot from the bottom to the top of the fuel tank, end
disposing the fuel gauge in the rear center of the bottom
of the fuel tank.
BRIEF DESCRIPTION OF THE DRAWINGS
Fig. 1 is a left side view of a motorcycle according to
an embodiment of the invention;
Fig. 2 is an enlarged left side view of the interior of
the fuel tank and its periphery of Fig. 1;
Fig. 3 is a sectional view taken along line A-A of Fig.
2;
Fig. 4 is a sectional view taken along line B-B of Fig.
2;
Fig. 5 is an enlarged left side view of the interior of
the fuel tank;
Fig. 6 is a plan view showing the mounting position for
a- fuel gauge in the fuel tank of Fig. 3;
Fig. 7 is a left side view of the structure of another
fuel pump and a fuel gauge;
Fig. 8 is a plan view of Fig. 7; and
Fig. 9 is a left side view of the structure of another
fuel pump and a fuel gauge.
DETAILED DESCRIPTION OF THE PREFFERD EMBODIMENTS
The main point of the invention is to allow accurate fuel

- 3 -

measurement without increasing the outside dimensions of a
fuel tank by devising the shape of the fuel tank so that the
float can pivot from the bottom to the top of the fuel tank,
and disposing the fuel gauge in the rear center of the bottom
of the fuel tank.
The present invention is described in detail below based
on embodiments, with reference to the attached drawings.
The embodiments are described for a case in which the
invention is applied to a motorcycle. Figs. 1 to 9 are diagrams
for describing a motorcycle according to embodiments
incorporating the invention. Fig. 1 is a left side view of
the motorcycle; Fig. 2 is an enlarged left side view of the
interior of the fuel tank and its periphery of Fig. 1; Fig.
3 is a sectional view taken along line A-A of Fig. 2; Fig.
4 is a sectional view taken along line B-B of Fig. 2; Fig.
5. is an enlatged left side view of the interior of the fuel
tank; Fig. 6 is a plan view showing the mounting position for
a fuel gauge in the fuel tank of Fig. 3; Fig. 7 is a left side
view of the structure of another fuel pump and a fuel gauge;
Fig. 8 is a plan view of Fig. 7; and Fig. 9 is a left side
view of the structure of another fuel pump and a fuel gauge.
Referring first to Fig. 1, the structure of the motorcycle
will be described. In Fig. 1, the motorcycle 1 includes a
head pipe 2, to which a main frame 4 extending backward and
diagonally downward and a down tube 5 extending downward are

- 4 -

connected. To the main frame 4 is connected a subframe 6
extending backward substantially in parallel therewith at a
given angle. A space surrounded by the main frame 4, the down
tube 5, and the subframe 6 encloses a transmission-integrated
engine unit 7 . The main frame 4 and the subframe 6 are located
in the center of the breadth of the vehicle and construct a
body frame 3.
The engine unit 7 is constructed such that the cylinder
axis of a cylinder block 8 inclines slightly toward the front
of the vehicle, and a transmission case 9, which is located
under the cylinder block 8 and encloses a crankshaft and a
transmission, is suspended by the main frame 4 and the down
tube 5 along the breadth of the vehicle. The upper end of
the engine unit 7 is fixed to a bracket 10 fixed to the main
frame 4. Engine power is transmitted to a rear wheel 11 via
a drive sprocket (not shown) firmly fixed to the drive shaft
of the engine unit 7 and a chain (not shown) wound around the
drive sprocket.
To the cylinder block 8 is connected an injector 12, an
intake pipe 13, and an exhaust pipe 14. The injector 12, whose
upper end is connected to a fuel feed pipe 15, emits a jet
of fuel into the cylinder under the control of a control unit
40. The intake pipe 13 connects to a throttle body 16, through
which the air supplied from an air cleaner (not shown) is drawn
into the cylinder with the amount controlled by a throttle

- 5 -

valve (not shown) in the throttle body 16. An intake port
(not shown) in the intake pipe 13 connects to an intake pressure
sensor 17. The intake pressure sensor 17 has the function
of sensing the intake pressure in the intake port and outputting
its intake-pressure signal to the control unit 40.
A steering shaft (not shown) rotatably passes through
the head pipe 2. To the upper end of the steering shaft is
mounted a steering handle (not shown). The upper end of a
front fork 18 is attached to the steering shaft. The lower
end of the front fork 18 rotatably supports a front wheel 19.
A fuel tank 20 is provided on the main frame 4 and the
subframe 6. A tandem seat 30. is provided behind the fuel tank
20. As shown in the enlarged left side view of the fuel tank
and the body frame in Fig. 2, the bottom 21 of the fuel tank
20 has a bottom-front central part 21a in the front center,
and a flat portion 21b in the rear center of the bottom, in
a position lower than the bottom-front central part 21 a, and
in parallel with the parallel part of the subframe 6, in the
side view of the vehicle in the drawing. As shown in Fig.
3, on the front left and right sides of the bottom-front central
part 21a are provided a bottom-front left part 2lc and a
bottom-front right part 21d which project downward from the
bottom-front central part 21a. The fuel tank 20 is disposed
such that the uppermost portion 21e of the upper surface is
located above the front of the bottom. The "side view of the

- 6 -

vehicle" means a view in which the left is the front (or the
rear) of the vehicle and the right is the rear (or the front)
as viewed from the side, which also applies to the following.
The bottom-front left part 21c and the bottom-front right
part 21d of the fuel tank 20 have laterally U-shaped guide
brackets 22 which are open forward (leftward in the drawing)
and which project from the side walls facing the main frame
4. The main frame 4 has positioning members 23 projecting
from the side walls facing the guide brackets 22. The front
of the fuel tank 20 is supported by the main frame 4 by inserting
the guide brackets 22 projecting from the side walls of the
bottom-front left part 21c and the bottom-front right part
21d into the positioning members 23 projecting from the
corresponding positions of the main frame 4.
The bottom-front left part 21c and the bottom-front right
part 21d of the fuel tank 20 and the projecting positions of
the positioning members 23 of the main frame 4 are determined
so as to form a clearance A between the bottom-front central
part 21a of the fuel tank 20 and the upper surface of the main
frame 4 when the front of the fuel tank 20 is positioned.
A bracket 24 for fixing the rear end of the fuel tank
20 to the subframe 6 is mounted to the rear end (on the right
in the drawing) of the flat portion 21b of the fuel tank 20.
The subframe 6 has a positioning member 25 projecting from
the position facing the bracket 24. The rear end of the fuel

- 7 -

tank 20 is supported by the subframe 6 by fixing the bracket
24 to the positioning member 25 of the subframe 6 via a rubber
damper 26 with a bolt 31.
Since the rear end of the fuel tank 20 is supported by
the subframe 6 with the bracket 24 and the positioning member
25 of the subframe 6, a clearance B is formed between the flat
portion 21b of the fuel tank 20 and the upper surface of the
subframe 6, as shown in the cross-sectional view in Fig. 4
taken on line B-B of Fig. 2.
The clearance A and the clearance B are connected with
each other by supporting the front of the fuel tank 20 by the
main frame 4 and supporting the rear end of the fuel tank 20
by the subframe 6. As a result, the continuous clearances
A and B formed between the bottom 21 of the fuel tank 20 and
the upper surfaces of the main frame 4 and the subframe 6 can
enclose multiple components.
The Fuel tank 20 can be maintained by taking off the bracket
24 at the rear end from the positioning member 25 and lifting
the rear end with the guide brackets 22 and the positioning
members 23 at the front as the pivot center.
As shown in the enlarged left side view showing the structure
of the interior of the fuel tank of Fig. 5, a fuel pump 27
for feeding the fuel in the fuel tank 20 to the fuel feed pipe
15 is provided upright from the flat portion 21b such that
the part except a fuel delivery portion 27a and a power supply

- 8 -

portion 27c mounted to the lower end thereof is enclosed in
the fuel tank 20. The fuel pump 27 stands upright such that
its fuel intake port (not shown) is exposed upward from the
flat portion 21b in the fuel tank 20 and the fuel delivery
portion 27a and the power supply portion 27c are exposed downward
from the flat portion 21b outside the fuel tank 20.
To the side 27b of the fuel pump 27 is integrated a fuel
gauge 28 for measuring the amount of fuel in the fuel tank
20. The fuel gauge 23 includes an arm 28b whose base end is
pivotally attached to a pivot shaft 28a and a float 28c attached
to the end of the arm 28b.
The fuel gauge 28 measures the amount of fuel in such
a way that the arm 28b that supports the float 28c pivots depending
on the change in fuel level in the range from the vicinity
of the bottom of the bottom-front left part 21c on the front
left side of the fuel tank 20 to the vicinity of the uppermost
part 2le of the upper surface, shown in Fig. 3, and the change
of the pivot position is converted to a change in the angle
of the pivot shaft 28a. The fuel gauge 28 has a signal/power
cable (not shown) that is connected from the flat portion 21b
of the fuel tank 20 to the power supply portion 27c mounted
outside the flat portion 21b. The signal/power cable is
connected to an inner contact terminal (not shown) of the power
supply portion 27c inside the fuel tank 20 and is connected
to a main harness 50 via a harness 51 connected to an outer

-9 -

contact terminal (not shown) of the power supply portion 27c
outside the fuel tank 20. The signal/power cable outputs a
fuel measurement signal to the control unit 40 via the harness
51 and the main harness 50. The signal /power cable slso supplies
power supplied from a relay 45 to the fuel pump 27 via the
harness 51 and the main harness 50.
As shown in the plan view of Fig . 6 which shows the position
of the fuel gauge in the fuel tank shown in Fig. 3, the fuel
gauge 28 is mounted on the left of the fuel tank 20, with the
pivot shaft 28a inclined backward at an angle a relative to
the center line C that passes through the center of the fuel
pump 27 in the drawing, or relative to the width of the vehicle
in plan view. The fuel gauge 28 is thus mounted to the fuel
pump 27. Accordingly, when the float 28c rises and falls at
the bottom-front left part 21c in the fuel tank 20, the float
28c moves toward the center when rising and pivots in arc shape
along the side of the botto-front left part 21c. As a result,
the pivot range of the float 28c becomes larger than that of
conventional one, from the vicinity of the bottom of the
bottom-front left part 21c to the vicinity of the uppermost
part 21e of the upper surface, allowing accurate fuel measurement.
The "plan view of the vehicle" means a view in which the left
is the front (or the rear) of the vehicle and the right is
the rear (or the front), as viewed from the top, which also
applies to the following.
- 10 -

As shown in Fig. 4, the cross section taken along B-B
of Fig. 2, the fuel feed pipe 15 is mounted to the fuel delivery
portion 27a of the fuel pump 27. The fuel feed pipe 15 passes
through the bottom 21 of the fuel tank 20 while using the clearance
B, extends from the bottom 21 to the front left upper position
outside the fuel tank 20, forms a bent portion 15a in the vicinity
of the pivot center of the fuel tank 20, and connects to the
injector 12. The fuel feed pipe 15 also has a bent portion
15b on the side from the fuel delivery portion 27a to the bottom
of the fuel tank 20.
The connections of the fuel feed pipe 15 with the fuel
delivery portion 27a and the injector 12 are made of metal;
the intermediate portions of the fuel feed pipe 15 that construct
the bent portions 15a and 15b are made of plastics such as
rubber.
The control unit 40 for controlling the direction of the
motorcycle 1 is fixed to the upper surface of the main frame
4 in the clearance A between the bottom-front central part
21a of the bottom 21 of the fuel tank 20 and the upper surface
of the main frame 4. The control unit 40 connects to a harness
52 via the main harness 50 across the injector 12, the throttle
body 16, the intake pressure sensor 17, the fuel gauge 28,
and so forth, and controls the operation of various actuators
for the engine unit 7 on the basis of the detection signals
from various senses. In the clearance A, the relay 45 for

- 11 -

controlling power supply to the control system of the motorcycle
1 is fixed to the upper surface of the main frame 4 with a
mounting member 46. The relay 45 connects to a harness 53.
The harness 53 connects to the main harness 50. The relay
45 supplies power to the injector 12, the throttle body 16,
the intake pressure sensor 17, the fuel gauge 28, the control
unit 40, and so forth via the harness 53 and the main harness
50. The main harness 50 is disposed along the side of the
main frame 4 and the subframe 6.
Since the bottom-front left part 21c and the bottom-front
right part 21d, which project downward from the bottonrt-front
central part 21a, and the uppermost part 21e are provided at
the front of the fuel tank 20, a sufficient height of the fuel
tank 20 can be provided without increasing the outside dimensions.
Since the fuel gauge 28 is disposed on the flat portion 21b
in the rear center, in a position lower than the bottom-front
central part 21a of the fuel tank 20, the fuel gauge 28 can
be disposed without increasing the outside dimensions of the
fuel tank 20. Since the fuel gauge 28 is disposed so that
the float 28c can move vertically at the bottom-front left
part 21c in the fuel tank 20, where a sufficient downward height
is provided, a large pivotal angle of the arm 28b can be provided,
allowing accurate fuel measurement without increasing the
outside dimensions of the fuel tank 20.
Since the fuel gauge 28 is disposed on the flat portion

- 12 -

21b at the rear center such that the pivot shaft 28a of the
arm 28b is inclined backward at an angle a relative to the
width of the vehicle in plan view, the float 28c moves close
to the center when rising or falling, allowing the pivot angle
of the arm 28b to be increased over conventional one to permit
accurate fuel measurement without increasing the outside
dimensions of the upper or lower part of the fuel tank 20.
Since the fuel gauge 28 is disposed on the left of the
fuel pump 27, and the fuel gauge 26 and the fuel pump 27 are
united to one, the pivot shaft 28a of the fuel gauge 28 can
be disposed in a desired position without increasing the outside
dimensions of the fuel tank 20 and with a simple structure,
allowing more accurate fuel measurement.
Since the fuel pump 27 is disposed in the fuel tank 20
such that the length or the line perpendicular to the flat
portion 21b of Fig. 5 is substantially along the vertical
direction, the upper surface of the rear of the fuel tank 20
can be located lower than the front, allowing the rear of the
fuel tenk 20 to be formed to the riding position of a rider
to improve ride comfort.
While the embodiment shows a case in which the fuel pump
27 is disposed substantially vertically in the fuel tank 20,
a fuel pump 50 may be disposed substantially horizontally in
the fuel tank 20 such that the length of the fuel pump 50 is
along the flat portion 21b at the rear center, as shown in

- 13 -

Figs. 7 and 8. In this case, a fuel gauge 60 is mounted on
the left side of the fuel pump 50 and has an arm 60b whose
base end is pivotally mounted to a pivot shaft 60a, and a float
60c mounted to the end of the arm 60b. The reference numeral
61 in the drawings indicates s filter.
The fuel gauge 60 measures the amount of fuel, as with
the fuel gauge 28, in such a way that the arm 60b that supports
the float 60c pivots depending on the change in fuel level
in the range from the vicinity of the bottom of the bottom-front
left part 21c at the front left side of the fuel tank 20 to
the vicinity of the uppermost part 21e, shown in Fig. 3, the
change of the pivot position is converted to a change in the
angle of the pivot shaft 60a.
Thus, since the fuel gauge 60 is also arranged at the
bottom-front left part 21c in the fuel tank 20 so that the
float 60c rises and falls in a space with a sufficient downward
height, a large pivot angle of the float 60c can be provided,
allowing accurate fuel measurement without increasing the
outside dimensions of the fuel tank 20 Since the fuel gauge
60 is disposed in the fuel tank 20 such that the length is
substantially along the horizontal direction, the upper surface
of the rear of the fuel tank 20 can be further lowered.
Consequently, the limitation due to the shape of the fuel tank
can be circumvented in arrangement of the fuel pump in the
fuel tank.
- 14 -

When the bottom is inclined as a slope 70a that is inclined
downward from the front toward the rear, as in a fuel tank
70 of Fig. 9, a fuel pump 81 integrated vith a fuel gauge 80
may be disposed at the rear of the slope 70a. The front left
and right parts of the fuel tank 70 have bottom-front left
and right parts (not shown).
In this Case, the fuel gauge 80 mounted on the left side
of the fuel pump 81 has an arm 80b whose base end is pivotally
mounted to a pivot shaft 80a, and a float 80c mounted to the
end of the arm 80b.
Thus, since the fuel gauge 80 is also arranged at the
bottom-front left part in the fuel tank 70 so that the float
80c rises and falls in a space with a sufficient downward height,
a large pivot angle of the float 80c can be provided, allowing
accurate fuel measurement without increasing the outside
dimensions of the fuel tank 70.
While the embodiments show a case in which the float of
the fuel gauge rises snd falls above the bottom-front left
part in the fuel tank, the invention is not limited to that
but the float may move vertically above the bottom-front right
part. In this caSe, the fuel gauge can be mounted on the right
side of the fuel pump.
A vehicle according to the invention includes: a body
frame; a fuel tank supported by the body frame; and a fuel
gauge having an arm that pivotally supports a float rising

- 15 -

and falling depending on the amount of fuel in the fuel tank.
The fuel tank is disposed such that the front right part and
the front left part of the bottom are located in positions
lower than the front central part, the uppermost part of the
upper surface is located in a position higher than the front
of the bottom, and the rear central part of the bottom is located
in a position lower than line front central part. The fuel
gauge is disposed in the rear central part of the bottom in
the fuel tank such that the float rises and falls above the
front right part or the front left part.
With such a structure, the front left and right parts
projecting downward and the uppermost part are provided at
the front of the fuel tank, a sufficient height can be provided
without increasing the outside dimensions of the fuel tank.
Since the fuel gauge is disposed in the rear center lower
than the bottom-front central part, the fuel gauge Ceii be disposed
without increasing the outside dimensions of the fuel tank.
Since the fuel gauge is disposed so that the float rises and
falls at the front left and right parts in the fuel tank, where
a sufficient downward height can be provided, a large pivot
angle of the arm can be provided, allowing accurate fuel
measurement without increasing the outside dimensions of the
fuel tank.
The vehicle according to the invention may have a structure
in which the fuel tank is disposed such that the reer central

- 16 -

part is located in a position higher than the lowermost of
at least one of the front right part and the front left part.
With such a structure, the fuel tank is disposed such
that the rear central part is located in a position higher
than the lowermost of at least one of the front right part
and the front left part. This increases the pivot angle of
the arm, allowing accurate fuel measurement without increasing
the outside dimensions of the fuel tank.
The vehicle according to the invention preferably may
have a structure in which the fuel gauge is disposed at the
rear central part such that the pivot shaft of the arm is inclined
backward relative to the width of the vehicle in plan view.
With such a structure, the fuel gauge is disposed at the
rear central part such that the pivot shaft of the arm is inclined
backward relative to the width of the vehicle in plan view.
Thus, the float moves close to the center when rising or falling,
increasing the pivot angle of the arm to allow accurate fuel
measurement without increasing the outside dimensions of the
upper or lower part of the fuel tank.
Preferably, the vehicle according to the invention further
includes a fuel pump disposed in the rear central part of the
bottom in the fuel tank. The fuel gauge may be disposed on
the side of the fuel pump. The fuel gauge and the fuel pump
may be united to one.
With such a structure, the vehicle further includes a

- 17 -

fuel pump disposed in the rear central part of the bottom in
the fuel tank. The fuel gauge is disposed on the side of the
fuel pump. The fuel gauge and the fuel pump are united to
one. Thus, the pivot shaft can be disposed in a desired position
without increasing the outside dimensions of the fuel tank
and with a simple structure, allowing accurate fuel measurement.
The vehicle according to the invention may have a structure
in which the fuel pump is disposed such that the length is
substantially along the vertical direction in the fuel tank.
This structure can lower the upper surface of the rear
of the fuel tank than the front, allowing the rear of the fuel
tank to be shaped to the riding position of the rider to improve
rider comfort.
The vehicle according to the invention is capable of
accurate fuel measurement without increasing the outside
dimensions of the fuel tank, and in particular, it is useful
for motorcycles and so forth whose frame is disposed in the
center of the breadth of the body.
- 18 -

WHAT IS CLAIMED IS:
1. A vehicle comprising:
a body frame;
a fuel tank supported by the body frame; and
a fuel gauge having pivotally an arm that supports a
float rising and falling depending on the amount of fuel in
the fuel tank;
wherein the fuel tank is disposed such that the front
right part and the front left part of the bottom are located
in positions lower than the front central part, the uppermost
part of the upper surface is located in a position higher
than the front of the bottom, and the rear central part of
the bottom is located in a position lower than the front central
part; and
the fuel gauge is disposed in the rear central part of
the bottom in the fuel tank such that the float rises and
falls above the front right part or the front left part.
2. The vehicle as claimed Claim 1, wherein the fuel tank
is disposed such that the rear central part is located in
a position higher than the lowermost of at least one of the
front right part and the front left part.
3. The vehicle as claimed in Claim 1, wherein the fuel gauge
is disposed at the rear central part such that the pivot shaft

- 19 -

of the arm is inclined backward relative to the width of the
vehicle in plan view.
4. The vehicle as claimed in Claim 1, 2, or 3, further
comprising:
a fuel pump disposed in the rear central part of the
bottom in the fuel tank;
wherein the fuel gauge is disposed on the side of the
fuel pump; and
the fuel gauge and the fuel pump are united to one.
5. The vehicle as claimed in Claim 4, wherein the fuel pump
is disposed such that the length is substantially along the
vertical direction in the fuel tank.

- 20 -

A bottom-front left part 21c and a bottom-front right
part 21d which project downward from a bottom-front central
part 21e, and an uppermost part 21e are provided at the front
of a fuel tank 20. Accordingly, a sufficient height in a vertical
direction can be provided without increasing the outside
dimensions of the fuel tank 20. A fuel gauge 20 is disposed
on a flat portion 21b in the rear central part lower than the
bottom-front central part 21a of the fuel tank 20. Accordingly,
the fuel gauge 28 can be disposed without increasing the outside
dimensions of the fuel tank 20. The fuel gauge 28 is disposed
such that a float 28c can rise and fall at the bottom-front
left part 21c in the fuel tank 20, where a sufficient downward
height can be provided. This provides a large pivot angle
of an arm 28b, allowing accurate fuel measurement without
increasing the outside dimensions of the fuel tank 20.

Documents:

http://ipindiaonline.gov.in/patentsearch/GrantedSearch/viewdoc.aspx?id=3BYCogmPwb8YPw00H95FVA==&loc=wDBSZCsAt7zoiVrqcFJsRw==

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Patent Number

272419

Indian Patent Application Number

456/KOL/2005

PG Journal Number

14/2016

Publication Date

01-Apr-2016

Grant Date

31-Mar-2016

Date of Filing

31-May-2005

Name of Patentee

YAMAHA HATSUDOKI KABUSHIKI KAISHA

Applicant Address

2500 SHINGAI, IWATA-SHI, SHIZUOKA 438-8501, JAPAN

Inventors:

#	Inventor's Name	Inventor's Address
1	SATOSHI SUZUKI	C/O. YAMAHA HATSUDOKI KABUSHIKI KAISHA 2500 SHINGAI, IWATA-SHI, SHIZUOKA 438-8501, JAPAN
2	FUMITO HIRANO	C/O. YAMAHA HATSUDOKI KABUSHIKI KAISHA 2500 SHINGAI, IWATA-SHI, SHIZUOKA 438-8501, JAPAN

PCT International Classification Number

B60R9/042

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	2004-162179	2004-05-31	Japan