An intake system for a vehicle includes a connecting tube disposed to bypass one side of a rear shock absorber. The capacity of the intake chamber is increased to achieve an improvement in intake performance and to reduce the influence of a liquid intake-spitting component on intake air. The connect
An intake system for a vehicle includes a connecting tube disposed to bypass one side of a rear shock absorber. The capacity of the intake chamber is increased to achieve an improvement in intake performance and to reduce the influence of a liquid intake-spitting component on intake air. The connecting tube is formed to include a tubular main tube portion and a funnel portion installed integrally and consecutively with the main tube portion. The funnel portion has a funnel-shape that broadens as it nears the air cleaner with an opening of the main tube portion on the upstream end. An intake chamber serving as part of a purified-air chamber formed between the funnel portion and the cleaner case is formed at least below the main tube portion. A drain member is provided with the lower portion of the funnel portion to communicate with the lowest portion of the intake chamber.
대표청구항▼
1. An intake system for a saddle-ride vehicle wherein an engine body disposed between a front wheel and a rear wheel is mounted on a body frame, comprising: a rear shock absorber installed between a pair of left and right frame members disposed behind the engine body and constituting part of the bod
1. An intake system for a saddle-ride vehicle wherein an engine body disposed between a front wheel and a rear wheel is mounted on a body frame, comprising: a rear shock absorber installed between a pair of left and right frame members disposed behind the engine body and constituting part of the body frame, the rear shock absorber extending vertically between the body frame and a swing arm that is swingably supported by the body frame and pivotally supports the rear wheel; anda cleaner case for an air cleaner and intake air control means are connected via a connecting tube disposed to bypass one side of the rear shock absorber, the air cleaner being disposed behind the rear shock absorber, the intake air control means being operative to control an amount of air supplied from the air cleaner to the engine body;wherein the connecting tube is formed to include a tubular main tube portion and a funnel portion, the tubular main tube portion being connected to the intake air control means at the downstream end thereof, the funnel portion being integrally connected with the main tube portion and formed in such a funnel-shape that broadens as it nears the air cleaner from the outer circumference of an intermediate portion of the main tube portion;the funnel portion is connected to the cleaner case wherein the opening of the main tube portion on the upstream end faces a cleaner element of the air cleaner and the funnel portion forms a purified-air chamber on the downstream side of the cleaner element together with the cleaner case;the funnel portion is formed wherein the intake chamber serving as part of the purified-air chamber is formed at least below the main tube portion; anddrain means for discharging a liquid intake air spitting component collected in the intake chamber is connected consecutively to a lower portion of the funnel portion for communicating with a lowest portion of the intake chamber. 2. The intake system for a saddle-ride vehicle according to claim 1, wherein the drain means includes a tubular first joint portion provided integrally with the funnel portion so as to project in a front direction and downwardly, and a conduit connected to the first joint portion at one end thereof, the conduit being held on the inner side of one of the pair of left and right frame members at a position below the first joint portion. 3. The intake system for a saddle-ride vehicle according to claim 2, wherein the funnel portion is formed such that the intake chamber also extends above the main tube portion and a tubular second joint portion for introducing blow-by gas from the engine body is provided integrally with the upper portion of the funnel portion at an upper portion of the intake chamber. 4. The intake system for a saddle-ride vehicle according to claim 3, wherein an intake air temperature sensor is attached on an upper portion of a front wall of the cleaner case to project into the unpurified-air chamber on the upstream side of the cleaner element. 5. The intake system for a saddle-ride vehicle according to claim 3, wherein second drain means extending downwardly from the blow-by gas passage forming means is joined to a middle part of the blow-by gas passage forming means connecting the engine body with the second joint portion. 6. The intake system for a saddle-ride vehicle according to claim 5, wherein an intake air temperature sensor is attached on an upper portion of a front wall of the cleaner case to project into the unpurified-air chamber on the upstream side of the cleaner element. 7. The intake system for a saddle-ride vehicle according to claim 5, wherein the blow-by gas passage directs blow-by gas from the inside of a head cover towards the tubular second joint portion. 8. The intake system for a saddle-ride vehicle according to claim 7, wherein the blow-by gas passage includes a first hose operatively connected to a third joint portion connected to the head cover, a branch pipe coupled to a downstream end of the first hose and a second hose for operatively connecting the branch pipe with the second joint portion. 9. The intake system for a saddle-ride vehicle according to claim 5, wherein a lowest portion of the drain means connected consecutively with a lower portion of the funnel portion and a lowest portion of the second drain means extending downwardly from the middle part of the blow-by gas passage forming means are located at positions close to each other around the engine body, and the lowest portions are closed by removable caps, respectively. 10. The intake system for a saddle-ride vehicle according to claim 9, wherein an intake air temperature sensor is attached on an upper portion of a front wall of the cleaner case to project into the unpurified-air chamber on the upstream side of the cleaner element. 11. An intake system for a saddle-ride vehicle, comprising: a left and right frame member;an engine body mounted on the left and right frame members; a rear shock absorber installed operatively connected to the left and right frame members and being disposed behind the engine body, the rear shock absorber extending vertically between the left and right frame members;a swing arm swingably supported relative to the left and right frame members;a cleaner case for an air cleaner and intake air control means being connected via a connecting tube disposed to bypass one side of the rear shock absorber, the air cleaner being disposed behind the rear shock absorber, the intake air control means being operative to control an amount of air supplied from the air cleaner to the engine body;wherein the connecting tube is formed to include a tubular main tube portion and a funnel portion, the tubular main tube portion being connected to the intake air control means at the downstream end thereof, the funnel portion being integrally connected with the main tube portion and formed in such a funnel-shape that broadens as it nears the air cleaner from the outer circumference of an intermediate portion of the main tube portion;said funnel portion being connected to the cleaner case wherein the opening of the main tube portion on the upstream end faces a cleaner element of the air cleaner and the funnel portion forms a purified-air chamber on the downstream side of the cleaner element together with the cleaner case;said funnel portion being formed wherein the intake chamber serving as part of the purified-air chamber is formed at least below the main tube portion; anddrain means for discharging a liquid intake air spitting component collected in the intake chamber is connected consecutively to a lower portion of the funnel portion for communicating with a lowest portion of the intake chamber. 12. The intake system for a saddle-ride vehicle according to claim 11, wherein the drain means includes a tubular first joint portion provided integrally with the funnel portion so as to project in a front direction and downwardly, and a conduit connected to the first joint portion at one end thereof, the conduit being held on the inner side of one of the pair of left and right frame members at a position below the first joint portion. 13. The intake system for a saddle-ride vehicle according to claim 12, wherein the funnel portion is formed such that the intake chamber also extends above the main tube portion and a tubular second joint portion for introducing blow-by gas from the engine body is provided integrally with the upper portion of the funnel portion at an upper portion of the intake chamber. 14. The intake system for a saddle-ride vehicle according to claim 13, wherein an intake air temperature sensor is attached on an upper portion of a front wall of the cleaner case to project into the unpurified-air chamber on the upstream side of the cleaner element. 15. The intake system for a saddle-ride vehicle according to claim 13, wherein second drain means extending downwardly from the blow-by gas passage forming means is joined to a middle part of the blow-by gas passage forming means connecting the engine body with the second joint portion. 16. The intake system for a saddle-ride vehicle according to claim 15, wherein an intake air temperature sensor is attached on an upper portion of a front wall of the cleaner case to project into the unpurified-air chamber on the upstream side of the cleaner element. 17. The intake system for a saddle-ride vehicle according to claim 15, wherein the blow-by gas passage directs blow-by gas from the inside of a head cover towards the tubular second joint portion. 18. The intake system for a saddle-ride vehicle according to claim 17, wherein the blow-by gas passage includes a first hose operatively connected to a third joint portion connected to the head cover, a branch pipe coupled to a downstream end of the first hose and a second hose for operatively connecting the branch pipe with the second joint portion. 19. The intake system for a saddle-ride vehicle according to claim 15, wherein a lowest portion of the drain means connected consecutively with a lower portion of the funnel portion and a lowest portion of the second drain means extending downwardly from the middle part of the blow-by gas passage forming means are located at positions close to each other around the engine body, and the lowest portions are closed by removable caps, respectively. 20. The intake system for a saddle-ride vehicle according to claim 19, wherein an intake air temperature sensor is attached on an upper portion of a front wall of the cleaner case to project into the unpurified-air chamber on the upstream side of the cleaner element.
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이 특허에 인용된 특허 (13)
Takanori Okuma JP, Air cleaner fitting structure for motorcycle.
Shiina, Hiromitsu; Kurakawa, Yukinori; Yamaguchi, Hiromasa; Imao, Ranju; Maeda, Teppei, Intake air routing structure for a vehicle, and vehicle including same.
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