Exhaust device of motorcycle

Abstract

An exhaust device includes left and right exhaust pipes and mufflers connected to a downstream side of the left and right exhaust pipes. The pair of left and right exhaust pipes respectively includes a merging portion. A catalyst is provided to the merging portion respectively. The pair of left and right exhaust pipes respectively includes, on a downstream side of the catalyst, a branching portion that has one side thereof extending to the muffler and the other side thereof extending to a connecting pipe. An oxygen sensor is provided to one side on a downstream side of the pair of left and right branching portions.

Claims

1. An exhaust device of a motorcycle, comprising: a left and right exhaust pipes configured to discharge an exhaust gas from a multi-cylinder engine, the left and right exhaust pipes including: a muffler connected to a downstream side of the left and right exhaust pipes, the muffler configured to reduce an exhaust noise and to discharge the exhaust gas to an outside of the motorcycle, a merging portion configured to merge the exhaust gas discharged from respective cylinders of the multi-cylinder engine, a catalyst configured to purify the exhaust gas discharged through the merging portion, respectively, and a branching portion, on a downstream side of the catalyst, which has a first side thereof extending to the muffler and a second side thereof extending to a connecting pipe configured to interconnect the left and right exhaust pipes to each other; and an oxygen sensor present in the first side on a downstream side of a left and right branching portions of the branching portion, whereby the exhaust gas is stirred in a rear portion of the merging portion and the branching portion, and wherein the connecting pipe is arranged below the oxygen sensor and overlaps the oxygen sensor in a longitudinal direction of the motorcycle.

2. The exhaust device of the motorcycle according to claim 1, wherein an upper end of the oxygen sensor is directed toward the inside of the motorcycle in a motorcycle width direction, and overlaps with left and right protectors that cover the left and right exhaust pipes as viewed in a side view of the motorcycle.

3. The exhaust device of the motorcycle according to claim 1, wherein an upper end of the oxygen sensor is directed toward an inside of the motorcycle in a motorcycle width direction, and overlaps with left and right protectors that cover the left and right exhaust pipes as viewed in a side view of the motorcycle.

4. The exhaust device of the motorcycle according to claim 1, wherein an upper end of the oxygen sensor is directed toward an inside of the motorcycle in a motorcycle width direction, and overlaps with left and right protectors that cover the pair of left and right exhaust pipes as viewed in a side view of the motorcycle.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a left side view of a motorcycle according to the embodiments of the application.

(2) FIG. 2 is a view for explaining an exhaust device as viewed in the direction indicated by an arrow 2 in FIG. 1

(3) FIG. 3 is a plan view of the exhaust device provided to the motorcycle according to the embodiments of the application.

(4) FIG. 4 is a left side view of the exhaust device as viewed in the direction indicated by an arrow 4 in FIG. 3.

(5) FIG. 5 is a cross-sectional view taken along a line 5-5 in FIG. 3.

(6) FIG. 6 is a cross-sectional view taken along a line 6-6 in FIG. 3.

(7) FIG. 7 is a cross-sectional view taken along a line 7-7 in FIG. 3.

(8) FIG. 8 is a cross-sectional view taken along a line 8-8 in FIG. 3.

DETAILED DESCRIPTION

(9) Hereinafter, an embodiment of the invention is explained in detail. In the drawings and the embodiment, the directions of up, down, front, rear, left, and right indicate directions as viewed from a rider who rides on a motorcycle respectively.

(10) The embodiments of the application are explained with reference to drawings.

(11) As shown in FIG. 1, a motorcycle 10 is a saddle-ride-type vehicle where a main frame 13 which extends from a head pipe 12 toward a rear side of the vehicle, and a pivot frame 18 which extends downward from the main frame 13 are mounted on a vehicle body frame 11. A multi-cylinder engine 14 is suspended from the vehicle body frame 11. A front wheel steering portion 21 including a front wheel 15 is mounted on the head pipe 12 in a steerable manner. A rear wheel suspension portion 22 is supported on the pivot frame 18 in a swingable manner. A seat 17 is mounted on the vehicle body frame 11 between the front wheel 15 and the rear wheel 16, and an occupant rides on the vehicle in a state where the rider straddles the seat 17.

(12) The front wheel steering portion 21 which is mounted on the vehicle body frame 11 in a steerable manner includes, as main constitutional elements thereof: a front fork 24 which is mounted on the head pipe 12 in a rotatable manner; the front wheel 15 which is supported on a lower end of the front fork 24; and a steering handle 25 which is mounted on an upper end of the front fork 24. The rear wheel suspension portion 22 includes: a swing arm 19 which extends toward the rear side of the vehicle from the pivot frame 18, and the rear wheel 16 which is supported on a rear end portion of the swing arm 19.

(13) The vehicle body cover 30 which covers a vehicle body includes: a front cowl 31; left and right front side cowls 32L, 32R (only the front side cowl 32L on a viewer's side in the drawing is shown) which extend toward the rear side of the vehicle from the front cowl 31 up to an upper side of the engine 14; an under cowl 33 which covers the engine 14 from below and an exhaust device 40, and left and right protectors 34L, 34R (only the left protector 34L on a viewer's side in the drawing is shown) which are disposed continuously with a rear side of the under cowl 33 and cover the exhaust device 40.

(14) Left and right trunks 36L, 36R for storing articles are disposed on lateral sides of the rear wheel 16 on a rear portion of the vehicle, and a rear trunk 37 is arranged above the left and right trunks 36L, 36R. A front fender 38 for preventing sticking of mud splashed by the front wheel 15 is mounted on the front fork 24.

(15) As shown in FIG. 2, the engine 14 mounted on the motorcycle 10 is a horizontally opposed 6-cylinder engine. The exhaust device 40 is provided to the multi-cylinder engine (engine having a plurality of cylinders). In a bottom plan view of the vehicle as viewed from below, cylinder portions 42L, 42R of the engine 14 are disposed on left and right sides in the vehicle width direction. Exhaust pipes 41La, 41Lb, 41Lc, 41Ra, 41Rb, 41Rc for discharging an exhaust gas extend from lower surfaces 42Lb, 42Rb of the cylinder portions 42L, 42R, respectively.

(16) Left and right merging portions 43L, 43R are connected to downstream sides of the pair of left and right exhaust pipes 41L (41La, 41Lb, 41Lc), 41R (41Ra, 41Rb, 41Rc), respectively, and mufflers 44L, 44R for reducing exhaust noises and for discharging an exhaust gas to the outside are connected to downstream sides of the left and right merging portions 43L, 43R, respectively.

(17) Foot rests 46L, 46R on which an occupant places his feet are mounted on the pivot frame 18, and a main stand 47 is mounted on the pivot frame 18.

(18) As shown in FIG. 3, the pair of left and right exhaust pipes 41L, 41R extends toward the rear side of the vehicle. The pair of left and right exhaust pipes 41L, 41R respectively includes the left and right merging portions 43L, 43R where the respective cylinders are merged together. A catalyst 48L, 48R for purifying an exhaust gas is disposed in the left and right merging portions 43L, 43R, respectively. An upstream-side oxygen sensor 51L, 51R is provided to the pair of left and right exhaust pipes 41L, 41R on an upstream side of the catalysts 48L, 48R, respectively.

(19) On the downstream side of the catalysts 48L, 48R, the pair of left and right exhaust pipes 41L, 41R respectively includes a branching portion 55L, 55R which has one side thereof extending to the mufflers 44L, 44R (see FIG. 2) and the other end thereof extending to a connecting pipe 54 which connects the pair of left and right exhaust pipes 41L, 41R to each other. A downstream-side oxygen sensor 52 is provided to one side (the rear side of the vehicle) on a downstream side of the right branching portion 55R out of the pair of left and right branching portions 55L, 55R. As described later, rear portions of the left and right merging portions 43L, 43R and the left and right branching portions 55L, 55R are configured to have a larger cross-sectional area in cross section perpendicular to the longitudinal direction of the exhaust pipe than other portions of the exhaust pipe. With such a configuration, an exhaust gas is expanded and is stirred in the rear portions of the left and right merging portions 43L, 43R and the left and right branching portions 55L, 55R. A temperature sensor 53 is further provided to the branching portion 55R on a downstream side of the downstream-side oxygen sensor 52. Hereinafter, the downstream-side oxygen sensor 52 is simply referred to as an oxygen sensor 52.

(20) As shown in FIG. 4, the left merging portion 43L is provided to a downstream end of the left exhaust pipe 41L. The left merging portion 43L includes: a first merging portion 61L to which three exhaust pipes 41La, 41Lb, 41Lc are merged together and whose diameter is decreased so as to decrease a cross-sectional area of the left exhaust pipe 41L; a left second merging portion 62L which is connected to a downstream end of the first merging portion 61L, has a constant cross-sectional area and extends toward the rear side of the vehicle; a third merging portion 63L which is connected to a downstream end of the left second merging portion 62L, has a diameter thereof enlarged so as to increase a cross-sectional area of the left exhaust pipe 41L and eventually has a cross-sectional area larger than respective cross-sectional areas of the first merging portion 61L and the left second merging portion 62L, and accommodates the catalyst 48L (see FIG. 2) therein; and the branching portion 55L which is formed contiguously with the left merging portion 43L.

(21) A one-side extending portion 65L which extends toward the rear side of the vehicle and an other-side extending portion 66L which extends inward in the vehicle width direction are provided to a downstream side of the branching portion 55L, respectively. The connecting pipe 54 is connected to the other-side extending portion 66L. Returning to FIG. 3, the other-side extending portion 66L and the connecting pipe 54 are formed integrally with each other. In this embodiment, although the other-side extending portion and the connecting pipe are formed integrally with each other, the other-side extending portion and the connecting pipe may be formed separately from each other without any problems.

(22) The connecting pipe 54 is arranged such that the connecting pipe 54 is disposed below the oxygen sensor 52 and overlaps with the oxygen sensor 52 in the longitudinal direction of the vehicle. An exhaust pipe stay 69 provided for mounting the left exhaust pipe 41L on the vehicle body frame extends upward from the third merging portion 63L.

(23) The right branching portion is arranged in symmetry with the left branching potion with respect to a center line in the vehicle width direction and hence, the explanation of the structure of the right branching portion is omitted.

(24) Returning to FIG. 3, the oxygen sensor 52 is provided to the right one-side extending portion 65R.

(25) As shown in FIG. 5, an upstream-side boss 67R is mounted on the right second merging portion 62R which forms the right merging portion 43R, and the upstream-side oxygen sensor 51R is mounted on the upstream-side boss 67R. The upstream-side oxygen sensor 51R is arranged in an inclined manner with respect to the horizontal direction such that an axis 51RX of the upstream-side oxygen sensor is directed inward in the vehicle width direction.

(26) The right second merging portion 62R including the upstream-side oxygen sensor is arranged in symmetry with the left second merging portion with respect to the center line in the vehicle width direction and hence, the explanation of the structure of the right second merging portion is omitted.

(27) As shown in FIG. 6, the third merging portion 63R which forms the merging portion is formed by making an upper half body 75 and a lower half body 76 respectively having a semi-elliptical shape vertically about each other. The catalyst 48R for purifying an exhaust gas is accommodated in the third merging portion 63.

(28) The left third merging portion is arranged in symmetry with the right third merging portion with respect to the center line in the vehicle width direction and hence, the explanation of the structure of the left third merging portion is omitted.

(29) As shown in FIG. 7, the branching portion 55R which extends contiguously from the third merging portion 63R includes: a ceiling wall 71 which is provided to a downstream side of the catalyst 48R; a bottom wall 72 which is arranged to face the ceiling wall 71 in an opposed manner; and a rear wall 73 which extends between the ceiling wall 71 and the bottom wall 72 and faces the rear side of the vehicle.

(30) A temperature sensor boss 58 is mounted on the rear wall 73, and the temperature sensor 53 is mounted on the temperature sensor boss 58. A longitudinal axis 53X of the temperature sensor 53 extends so as to be directed toward the rear side of the vehicle.

(31) The left branching portion and the right branching portion are arranged symmetry with respect to the center line in the vehicle width direction and hence, the explanation of the structure of the left branching portion is omitted.

(32) As shown in FIG. 8, an oxygen sensor boss 68 is mounted on the one-side extending portion 65R which forms the branching portion 55R, and the oxygen sensor 52 is mounted on the oxygen sensor boss 68. A longitudinal axis 52X of the oxygen sensor 52 extends so as to be directed toward the inside of the vehicle. That is, an upper end 52a of the oxygen sensor 52 is directed inward in the vehicle width direction.

(33) The right protector 34R which covers the exhaust pipe 41 is arranged outside the one-side extending portion 65R of the exhaust pipe 41 in the vehicle width direction. That is, the right protector 34R covers the right exhaust pipe 41R as viewed in a side view of the vehicle.

(34) Although the left protector 34L (see FIG. 1) which covers the exhaust pipe 41 is arranged on a left side in the vehicle width direction, the left protector 34L and the right protector have the laterally symmetrical structure with respect to the center line in the vehicle width direction and hence, the explanation of the structure of the left protector 34L is omitted.

(35) Next, the manner of operation of the above-mentioned exhaust device of the motorcycle is described.

(36) Referring also to FIG. 3, FIG. 7 and FIG. 8, on a downstream side of the catalysts 48L, 48R and on a downstream side of the left and right branching portions 55L, 55R of the pair of left and right exhaust pipes 41L, 41R, the oxygen sensor 52 is provided to one side (the rear side in the longitudinal direction of the vehicle) of the right exhaust pipe 41R.

(37) An exhaust gas passes through the catalysts 48L and 48R disposed in the left and right merging portions 43L, 43R of the exhaust pipe 41, and reaches the pair of left and right branching portions 55L, 55R. At this stage of operation, the exhaust gas is expanded and stirred in the rear portions of the left and right merging portions 43L, 43R and the left and right branching portions 55L, 55R. The exhaust gas stirred in the left and right branching portions 55L, 55R is brought into contact with the oxygen sensor 52 provided to one side (the rear side in the longitudinal direction of the vehicle) of the right exhaust pipe 41R on the downstream side of the left and right branching portions 55L, 55R. Accordingly, a state of the catalyst 48R can be determined more accurately.

(38) The temperature sensor 53 is provided to the right branching portion 55R on a downstream side of the oxygen sensor 52. The temperature sensor 53 is arranged at a position closer to the catalyst 48R than the oxygen sensor 52 is and hence, a reaction heat generated by a chemical reaction of the catalyst 48R can be detected more accurately. The degree of activation of the catalyst 48R and a state of the catalyst 48R can be further accurately determined not only by the oxygen sensor 52 but also by the temperature sensor 53. Since an activation state of the catalyst 48R can be grasped more accurately, the miniaturization of the catalyst 48R can be realized.

(39) In this embodiment, the oxygen sensor and the temperature sensor are provided to the downstream side of the right exhaust pipe, and neither the oxygen sensor nor the temperature sensor are provided to the downstream side of the left exhaust pipe. However, the oxygen sensor and the temperature sensor may be provided only to the downstream side of the left exhaust pipe without any problems. Alternatively, both the oxygen sensor and the temperature sensor may be provided to the downstream side of both the left and right exhaust pipes. That is, the oxygen sensor and the temperature sensor may be set as desired.

(40) Referring also to FIG. 1 and FIG. 8, the upper end 52a of the oxygen sensor 52 is directed inward in the vehicle width direction, and overlaps with the left and right protectors 35L, 35R which cover the pair of left and right exhaust pipes 41L, 41R. That is, the oxygen sensor 52 is arranged at the position where the oxygen sensor 52 is not exposed to the outside in the vehicle width direction and hence, it is possible to provide the structure which is minimally cooled by an external environment such as rain or a traveling wind. As a result, a state of the catalysts 48L, 48R can be determined more accurately.

(41) Returning to FIG. 4, the connecting pipe 54 is arranged such that the connecting pipe 54 is below the oxygen sensor 52 and overlaps with the oxygen sensor 52 in a longitudinal direction of the vehicle. A traveling wind which flows below the vehicle, muddy water splashed by the front wheel 15 (see FIG. 1) or the like hits the connecting pipe 54 arranged below the oxygen sensor 52 and hence, a traveling wind, muddy water or the like minimally hits the oxygen sensor 52. Accordingly, the oxygen sensor 52 has the structure where the oxygen sensor 52 is minimally cooled by an external environment such as a traveling wind or muddy water. Eventually, the oxygen sensor 52 can determine a state of the catalysts 48L, 48R more accurately.

(42) Although the embodiments are applied to the motorcycle in the above description, the application is also applicable to a three-wheeled vehicle and may be applied to vehicles in general without any problems.

(43) The embodiments are preferably applicable to a motorcycle where an oxygen sensor is provided to a downstream side of a catalyst in an exhaust device of an engine.

DESCRIPTION OF REFERENCE NUMERALS AND SIGNS

(44) 10: motorcycle 14: engine 34L, 34R: protector 40: exhaust device 41L, 41R: exhaust pipe 43L, 43R: merging portion 44L, 44R: muffler 48L, 48R: catalyst 52: (downstream side) oxygen sensor 53: temperature sensor 54: connecting pipe 55L, 55R: branching portion