JP2021165133A - Saddle-riding type vehicle - Google Patents

Abstract

To improve routing in a saddle-riding type vehicle including a control unit.SOLUTION: A motor cycle 1 according to an embodiment includes: an engine 11; a power generator 13, a rotary electric machine, which utilizes rotation of the engine 11 to generate power and start the engine 11; a vehicle body cover 50; a fuel injection electronic control unit (FI-ECU) 51 which controls the engine 11; an AC generator electronic control unit (ACG-ECU) 52 which is provided separately from the FI-ECU 51 and controls the power generator 13; and a housing 58 which is at least partially exposed from the vehicle body cover 50 when viewed in a vehicle width direction. The ACG-ECU 52 is covered by the housing 58.SELECTED DRAWING: Figure 1

Description

The present invention relates to a saddle-mounted vehicle.

Conventionally, a structure provided with a control unit is known in a saddle-mounted vehicle. For example, in Patent Document 1, an engine control unit is attached to a main frame via an air cleaner.

Japanese Unexamined Patent Publication No. 2013-133047

By the way, when connecting a control unit and a vehicle part with a harness, it is required to efficiently arrange the harness in a narrow space (improvement of routing property).

Therefore, an object of the present invention is to improve the routing property in a saddle-mounted vehicle provided with a control unit.

As a means for solving the above problems, the invention according to claim 1 is an engine (11) and a generator (a generator) which is a rotary electric machine that uses the rotation of the engine (11) to generate power and start the engine (11). In a saddle-mounted vehicle including a 13) and a vehicle body cover (50), the saddle-mounted vehicle has a first control unit (51) for controlling the engine (11) and the first control unit (51). ), A second control unit (52) that controls the generator (13), and a housing (58) that is at least partially exposed from the vehicle body cover (50) in the vehicle width direction. The second control unit (52) is a saddle-mounted vehicle characterized in that it is covered with the housing (58).
The invention according to claim 2 is characterized in that at least a part of the housing (58) is covered with the vehicle body cover (50).
The invention according to claim 3 is characterized in that the housing (58) includes a duct (59) for introducing external air.
The invention according to claim 4 is characterized in that the duct (59) is arranged below the second control unit (52) and is open downward.
In the invention according to claim 5, the engine (11) includes a rotating crankshaft (15), and the generator (13) is connected to an outer portion of the crankshaft (15) in the vehicle width direction. A cover member (18) for covering the generator (13) is further provided, and the cover member (18) is a cover for introducing air outside the cover member (18) toward the generator (13). It is characterized by including a side duct (19).
The invention according to claim 6 is characterized in that the cover-side duct (19) is arranged below the generator and is open downward.
In the invention according to claim 7, the housing (58) covering the second control unit (52) and the cover member (18) are connected, and the air introduced through the cover side duct (19) is introduced. It is characterized by further including a connecting duct (60) for introduction toward the second control unit (52).
The invention according to claim 8 is characterized in that the cover-side duct (19) has a larger opening area than the duct (59) included in the housing (58).
The invention according to claim 9 is characterized in that the cover-side duct (19) is arranged farther from the seat (8) than the duct (59) included in the housing (58).
In the invention according to claim 10, the generator (13) is arranged below the second control unit (52), and the generator (13) and the second control unit (52) are electrically connected to each other. A harness (62) is further provided, and the harness (62) extends from the lower end of the second control unit (52).

According to the inventions of claims 1 and 2, since the first control unit for controlling the engine and the second control unit for controlling the generator are separately provided, the following effects are obtained. A harness that connects the engine and the first control unit (hereinafter also referred to as "engine harness"), as compared to the case where only a single control unit that controls the engine and generator is provided as the control unit. In addition, the freedom of routing of the harness that connects the generator and the second control unit (hereinafter, also referred to as the "generator harness") is improved. Therefore, it is possible to improve the routing property. In addition, each control unit can be arranged at an optimum position in consideration of the harness length. In addition, the size of each control unit can be made smaller than that of a single control unit, and each control unit can be easily placed in the dead space of the vehicle. In addition, since each control unit can be designed independently, the development cost can be reduced as much as possible. In addition, since the second control unit is covered with a housing, the influence of engine heat can be mitigated.
According to the third aspect of the present invention, the housing is provided with a duct for introducing external air, thereby achieving the following effects. The second control unit can be cooled by using the air introduced through the duct.
According to the invention described in claim 4, the following effects are obtained when the duct is arranged below the second control unit and opens downward. Compared with the case where the duct is opened upward, it is possible to prevent foreign matter such as water and dust from entering the inside of the housing through the duct.
According to the invention described in claim 5, the engine includes a crankshaft extending in the vehicle width direction, the generator is connected to the outer portion of the crankshaft in the vehicle width direction, and a cover member covering the generator is further provided. The cover member is provided with a cover-side duct for introducing air outside the cover member toward the generator, thereby achieving the following effects. The generator can be cooled by using the air introduced through the cover side duct.
According to the invention described in claim 6, the cover-side duct is arranged below the generator and is open downward, so that the following effects can be obtained. Compared with the case where the cover-side duct is opened upward, it is possible to prevent foreign matter such as water and dust from entering the inside of the cover member through the cover-side duct.
According to the invention described in claim 7, a connecting duct for connecting the housing covering the second control unit and the cover member and introducing the air introduced through the cover side duct toward the second control unit is provided. By further preparing, the following effects can be obtained. The air introduced through the cover-side duct can be used to cool the generator and the second control unit.
According to the invention described in claim 8, the cover-side duct has the following effects by having a larger opening area than the duct provided in the housing. The cover side duct can be used as the main, and the duct provided in the housing can be used as the sub to make the minimum necessary opening, which contributes to noise control.
According to the invention described in claim 9, the cover-side duct is arranged farther from the seat than the duct provided in the housing, so that the following effects can be obtained. Since the cover-side duct is farther away from the occupant seated on the seat than the duct provided in the housing, it contributes to further noise control.
According to the invention of claim 10, the generator is arranged below the second control unit, further includes a harness for electrically connecting the generator and the second control unit, and the harness is the second control unit. By extending from the lower end, the following effects are achieved. Since the harness (generator harness) can be shortened as much as possible as compared with the case where the harness extends from the upper end of the second control unit, it contributes to the improvement of the routing property.

It is a left side view of the motorcycle which concerns on embodiment. It is a left side view of the ECU arrangement structure of the motorcycle which concerns on embodiment. It is a top view of the ECU arrangement structure which concerns on embodiment. It is a block diagram of the ECU arrangement structure which concerns on embodiment. It is a figure including the VV cross section of FIG. It is a top view of the ECU arrangement structure which concerns on the modification of embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. Unless otherwise specified, the directions such as front, rear, left, and right in the following description are the same as the directions in the vehicle described below. Further, in the appropriate place in the figure used in the following description, an arrow FR indicating the front of the vehicle, an arrow LH indicating the left side of the vehicle, an arrow UP indicating the upper part of the vehicle, and a left / right center line CL indicating the left / right center position of the vehicle are shown. There is.

<Whole vehicle>
FIG. 1 shows a motorcycle 1 as an example of a saddle-mounted vehicle. With reference to FIG. 1, the motorcycle 1 includes a front wheel 3 steered by a bar-type handle 2 and a rear wheel 4 driven by a power unit 10 including an engine 11. Hereinafter, a motorcycle may be simply referred to as a "vehicle".

The steering system parts including the handle 2 and the front wheel 3 are steerably supported by the head pipe 21 formed at the front end portion of the vehicle body frame 20. A steering wheel steering shaft (not shown) connected to the steering wheel 2 is inserted through the head pipe 21. A power unit 10 is arranged at the center of the front and rear of the vehicle body frame 20.

For example, the vehicle body frame 20 is formed by integrally joining a plurality of types of steel materials by welding or the like. The vehicle body frame 20 includes a head pipe 21, a main frame 22, a down frame 23, a pivot plate 24, a seat rail 25, and a subframe 26.
The head pipe 21 is inclined so that the upper end of the head pipe 21 is located rearward and the lower end of the head pipe 21 is located forward.

The main frame 22 connects the head pipe 21 and the pivot plate 24. The main frame 22 has a shape in which one pipe is curved in an L shape. The main frame 22 includes a first pipe portion 22a extending diagonally rearward and downward from the head pipe 21, and a second pipe portion 22b extending downwardly curved from the rear end of the first pipe portion 22a.
The down frame 23 extends diagonally backward and downward from the position below the connecting portion with the main frame 22 on the head pipe 21 at a steeper slope than the main frame 22.
A pair of left and right pivot plates 24 are provided. The left and right pivot plates 24 extend downwardly curved from the lower end of the second pipe portion 22b of the main frame 22. The lower ends of the left and right pivot plates 24 are connected to each other by a cross pipe (not shown) extending in the vehicle width direction.

A pair of left and right seat rails 25 are provided. The left and right seat rails 25 extend rearward from the rear portion of the first pipe portion 22a of the main frame 22. When viewed from above, the seat rail 25 has a first rail portion 25a that is inclined so that the front end is located inward in the vehicle width direction and the rear end is located in the vehicle width direction, and the seat rail 25 is rearward from the rear end of the first rail portion 25a. It is provided with a second rail portion 25b extending to (see FIG. 3).
A pair of left and right subframes 26 are provided. The subframe 26 connects the pivot plate 24 and the rear portion of the seat rail 25. The subframe 26 is inclined so that the front end of the subframe 26 is located downward and the rear end of the subframe 26 is located upward.

In FIG. 3, reference numeral 28 is a first cross member extending in the vehicle width direction so as to connect the first rails 25a of the left and right seat rails 25, and reference numeral 29 is a reference to connecting the second rails 25b of the left and right seat rails 25. The second cross member extending in the vehicle width direction, reference numeral 31 is the first step for the occupant to put his foot on, reference numeral 32 is the second step for the occupant (passenger) to put his foot on, and reference numeral 33 is the second step 32 for the vehicle body. The connecting frames for connecting to the frame 20 are shown respectively.

As shown in FIG. 1, the power unit 10 is arranged below the first pipe portion 22a of the main frame 22. The power unit 10 is arranged in a region sandwiched between the down frame 23 and the left and right pivot plates 24. The power unit 10 includes an engine 11, a transmission 12, and a generator 13.

The engine 11 is a power source for the vehicle. The engine 11 includes a crankshaft 15 extending in the vehicle width direction. For example, the engine 11 is a single cylinder engine. The engine 11 includes a crankcase 16 that houses the crankshaft 15, and a cylinder 17 that stands up diagonally forward and upward from the upper part of the crankcase 16. The cylinder 17 is integrally coupled to the upper part of the crankcase 16.
The cylinder 17 includes a cylinder block 17a provided integrally with the crankcase 16, a cylinder head 17b attached to the upper part of the cylinder block 17a, and a head cover 17c attached to the upper part of the cylinder head 17b.

The transmission 12 is provided at the rear of the crankcase 16. The rear portion of the crankcase 16 also serves as a transmission case for accommodating the clutch and the transmission. The transmission 12 includes an output shaft (not shown) for extracting the power of the engine 11 to the outside.

The generator 13 generates electricity by utilizing the rotation of the engine 11. The generator 13 is connected to the outer end of the crankshaft 15 in the vehicle width direction. A cover member 18 that covers the generator 13 from the outside in the vehicle width direction is coupled to the left side portion of the crankcase 16. For example, the generator 13 is a rotary electric machine that starts an engine 11 using an ACG (AC Generator), a so-called ACG starter motor.

As shown in FIG. 5, the generator 13 includes a stator 81 fixed to the cover member 18 and an outer rotor 82 provided on the crankshaft 15.
For example, the stator 81 is a three-phase Y-type wiring stator. The stator 81 includes a plurality of split core portions 81a arranged in an annular shape around the crankshaft 15. The split core portion 81a includes U-phase, V-phase, and W-phase coils. Although not shown, the stator 81 includes a holder that supports three-phase input / output terminals (connection terminals).
The outer rotor 82 rotates in conjunction with the rotation of the crankshaft 15. The outer rotor 82 includes a rotor main body 82a having a bottomed cylindrical shape, and a plurality of magnets 82b fixed to the inner peripheral surface of the rotor main body 82a. Reference numeral 83 in the drawing indicates a bolt for fastening the shaft portion of the rotor body 82a to the left end portion of the crankshaft 15.

A blower 80 is attached to the outer rotor 82 with a fastening member 79 such as a bolt. The blower 80 rotates in conjunction with the rotation of the outer rotor 82 (crankshaft 15) so that air can be blown outward in the radial direction of the blower 80.

As shown in FIG. 1, the front portion of the power unit 10 is supported by the down frame 23 via the bracket 35. The rear portion of the power unit 10 is supported by the left and right pivot plates 24. The front end portion of the swing arm 36 is swingably supported on the left and right pivot plates 24. The axle of the rear wheel 4 is supported at the rear of the swing arm 36.
The output shaft of the transmission 12 and the axle of the rear wheel 4 are connected via a power transmission mechanism (for example, a chain type transmission mechanism) including a drive chain (not shown) or the like. A rear suspension 37 is interposed between the rear portion of the swing arm 36 and the rear portion of the vehicle body frame 20.

A fuel tank 7 is arranged above the cylinder 17. The fuel tank 7 is provided so as to cover the main frame 22 from above. A seat 8 for an occupant to sit on is arranged on the seat rail 25 behind the fuel tank 7. The seat 8 extends in the front-rear direction. The front portion of the seat 8 is supported on the upper surface of the rear portion of the fuel tank 7.
An air cleaner 40 for filtering the air taken in by the engine 11 is arranged in the area surrounded by the seat rail 25, the second pipe portion 22b of the main frame 22, and the subframe 26. Further, the vehicle body is provided with a side cover 50 (vehicle body cover) that covers a part of the vehicle body from the side.

An intake pipe 41 for supplying air (outside air) to the engine 11 through an air cleaner 40 is connected to the upper part (rear part) of the cylinder 17. The intake pipe 41 extends rearward from the cylinder 17. A throttle body 42 containing a throttle valve is interposed in the middle of the intake pipe 41.
An exhaust pipe 43 for exhausting the exhaust gas of the engine 11 is connected to the upper portion (front portion) of the cylinder 17. A muffler 44 (see FIG. 3) is connected to the downstream end (rear end) of the exhaust pipe 43.

In FIG. 1, reference numeral 5 is a front fork, reference numeral 6 is a front fender, reference numeral 9 is a pair of left and right shrouds covering the front side surface of the fuel tank 7, and reference numeral 38 is a fuel pump.

<ECU layout structure>
The motorcycle 1 has an FI (Fuel injection) -ECU 51 (Electronic Control Unit) as a first control unit for controlling the engine 11 and an ACG-ECU 52 (second control) for controlling the generator 13. Unit) and further.
The FI-ECU 51 controls the start and stop of the engine 11 by the start request and stop request signals output from the ignition switch in response to the operation of the occupant.
The ACG-ECU 52 controls the power generation operation of the generator 13 and arbitrarily changes the power generation amount of the generator 13.

The ACG-ECU 52 is provided separately from the FI-ECU 51. The ACG-ECU 52 is arranged on the same side as the generator 13 in the vehicle width direction. As shown in FIG. 3, the FI-ECU 51 is arranged at the center in the vehicle width direction. The FI-ECU 51 is arranged on the upper surface of the air cleaner 40. The heavy battery 53 is arranged at the center in the vehicle width direction. The battery 53 is arranged below the air cleaner 40.

As shown in FIG. 2, the ACG-ECU 52 is arranged behind the cylinder 17 (specifically, the cylinder head 17b). The ACG-ECU 52 is closer to the generator 13 than the FI-ECU 51. The FI-ECU 51 and the ACG-ECU 52 each have a rectangular outer shape (see FIG. 2).

In FIG. 3, reference numeral 54 indicates a canister that recovers the evaporated fuel generated in the fuel tank.
The canister 54 has a cylindrical outer shape. When viewed from above, the canister 54 is arranged so as to intersect the left and right center lines CL of the vehicle body at an angle. In top view, the canister 54 is tilted so that the right end is located forward and the left end is located rearward. The ACG-ECU 52 is arranged in the vicinity of the canister 54 (specifically, the left end of the canister 54).
Reference numeral 55 in the drawing indicates a canister support portion that supports the canister 54 via a rubber holding member wound around the outer peripheral surface of the canister 54.

A charge hose 45 and a purge hose 46 are connected to the right end of the canister 54. At the left end of the canister 54, an atmosphere introduction nozzle 47 and a drain nozzle 48 are provided.
For example, the first end of the charge hose 45 is connected to the oil supply pipe of the fuel tank 7.
The canister 54 has an adsorbent such as activated carbon inside, and adsorbs and stores the evaporated fuel sent from the charge hose 45.
The purge hose 46 communicates the canister 54 with the throttle body 42 of the engine intake system (see FIG. 2).
The atmosphere introduction nozzle 47 makes it possible to introduce the atmosphere inside the canister 54.
The drain nozzle 48 makes it possible to discharge fuel, water droplets, and the like stored inside the canister 54.

In FIG. 2, reference numeral 58 indicates a housing that covers the ACG-ECU 52. The housing 58 is arranged behind the cylinder 17. The housing 58 includes a duct 59 (hereinafter, also referred to as “housing side duct 59”) for introducing air outside the housing 58 toward the ACG-ECU 52. The housing-side duct 59 is arranged below the ACG-ECU 52. The housing side duct 59 is open downward.

The cover member 18 includes a cover-side duct 19 for introducing air outside the cover member 18 toward the generator 13. The cover-side duct 19 is arranged below the generator 13. The cover-side duct 19 is open downward. The cover-side duct 19 has a larger opening area than the housing-side duct 59. The cover-side duct 19 is arranged farther from the seat 8 (see FIG. 1) than the housing-side duct 59.

The housing 58 and the cover member 18 are connected by a cylindrical connecting duct 60. The connecting duct 60 communicates the internal space of the housing 58 with the internal space of the cover member 18. The air introduced into the cover member 18 through the cover side duct 19 through the connecting duct 60 is introduced toward the ACG-ECU 52.

As shown in FIG. 4, each element such as the FI-ECU 51, the ACG-ECU 52, the generator 13, and the battery 53 is a conductor including the first harness 61, the second harness 62, the third harness 63, and the fourth harness 64. It is electrically connected as follows by a conducting wire).

The FI-ECU 51 and the ACG-ECU 52 are electrically connected by the first harness 61.
The generator 13 and the ACG-ECU 52 are electrically connected by the second harness 62. For example, the second harness 62 is thicker than the first harness 61.
The high potential side terminal of the battery 53 and the ACG-ECU 52 are electrically connected by the third harness 63. For example, the third harness 63 is thicker than the first harness 61. For example, the third harness 63 has substantially the same thickness as the second harness 62.
The high potential side terminal of the battery 53 and the ACG-ECU 52 are electrically connected by the fourth harness 64. A fuse 70 and a switching element 71 are provided in the middle of the fourth harness 64. For example, the fourth harness 64 is thicker than the first harness 61. For example, the fourth harness 64 is thinner than the second harness 62.

In FIG. 4, reference numeral 65 is a main harness connected to the FI-ECU 51, reference numeral 66 is a harness connecting the middle part of the first harness 61 to the generator 13, and reference numeral 67 is a grounding connection connected to the ACG-ECU 52. The harness and reference numeral 68 indicate a grounding harness connected to the low potential side terminal of the battery 53, respectively.

As shown in FIG. 2, the generator 13 is arranged below the ACG-ECU 52. The second harness 62 extends from the lower end of the ACG-ECU 52. For example, the second harness 62 extends from the lower end of the ACG-ECU 52 toward the generator 13 through the connecting duct 60.

As described above, the motorcycle 1 of the above embodiment includes an engine 11 which is a power source of the vehicle, a generator 13 which generates electric power by utilizing the rotation of the engine 11, and an FI-ECU 51 which controls the engine 11. ACG-ECU 52, which is provided separately from the FI-ECU 51 and controls the generator 13, is provided, the engine 11 includes a cylinder 17 that stands upward, and the ACG-ECU 52 is arranged behind the cylinder 17. ..
According to this configuration, since the FI-ECU 51 that controls the engine 11 and the ACG-ECU 52 that controls the generator 13 are separately provided, the following effects are obtained. Compared with the case where only a single control unit for controlling the engine 11 and the generator 13 is provided as the control unit, the engine harness (first harness 61) and the generator harness (second harness 62) Freedom of routing is improved. Therefore, it is possible to improve the routing property. In addition, the control units 51 and 52 can be arranged at the optimum positions in consideration of the harness length. In addition, the size of each control unit 51, 52 can be made smaller than that of a single control unit, and each control unit 51, 52 can be easily arranged in the dead space of the vehicle. In addition, since the control units 51 and 52 can be designed independently, the development cost can be reduced as much as possible. In addition, since the ACG-ECU 52 is arranged behind the cylinder 17, the dead space behind the cylinder 17 can be efficiently used to lay out the ACG-ECU 52 compactly.

In the above embodiment, the following effects are obtained by further providing the housing 58 that covers the ACG-ECU 52. Since the ACG-ECU 52 is covered with the housing 58, the influence of heat of the engine 11 can be mitigated.

In the above embodiment, the housing 58 is provided with a housing-side duct 59 for introducing air outside the housing 58 toward the ACG-ECU 52, thereby achieving the following effects. The ACG-ECU 52 can be cooled by using the air introduced through the housing side duct 59.

In the above embodiment, the housing-side duct 59 is arranged below the ACG-ECU 52 and is open downward, so that the following effects are obtained. Compared with the case where the housing-side duct 59 is opened upward, it is possible to prevent foreign matter such as water and dust from entering the inside of the housing 58 through the housing-side duct 59.

In the above embodiment, the engine 11 includes a crankshaft 15 extending in the vehicle width direction, the generator 13 is connected to the outer portion of the crankshaft 15 in the vehicle width direction, and a cover member 18 covering the generator 13 is further provided. The cover member 18 is provided with a cover-side duct 19 for introducing air outside the cover member 18 toward the generator 13 to obtain the following effects. The generator 13 can be cooled by using the air introduced through the cover side duct 19.

In the above embodiment, the cover-side duct 19 is arranged below the generator 13 and is open downward, thereby achieving the following effects. Compared with the case where the cover-side duct 19 is opened upward, it is possible to prevent foreign matter such as water and dust from entering the inside of the cover member 18 through the cover-side duct 19.

In the above embodiment, the housing 58 that covers the ACG-ECU 52 and the cover member 18 are connected, and a connecting duct 60 for introducing the air introduced through the cover side duct 19 toward the ACG-ECU 52 is further provided. , Has the following effects. The generator 13 can be cooled and the ACG-ECU 52 can be cooled by using the air introduced through the cover side duct 19.

In the above embodiment, the cover-side duct 19 has the following effects by having a larger opening area than the housing-side duct 59. With the cover side duct 19 as the main and the housing side duct 59 as the sub, the minimum necessary opening can be made, which contributes to noise countermeasures.

In the above embodiment, the cover-side duct 19 is arranged farther from the seat 8 than the housing-side duct 59, so that the following effects are obtained. Since the cover-side duct 19 is farther away from the occupant seated on the seat 8 than the housing-side duct 59, it contributes to further noise countermeasures.

In the above embodiment, the generator 13 is arranged below the ACG-ECU 52, further includes a harness 62 that electrically connects the generator 13 and the ACG-ECU 52, and the harness 62 extends from the lower end of the ACG-ECU 52. This has the following effects. Since the harness 62 (generator harness) can be made as short as possible as compared with the case where the harness 62 extends from the upper end of the ACG-ECU 52, it contributes to the improvement of the routing property.

<Modification example>
In the above embodiment, the example in which the ACG-ECU 52 is covered with the housing 58 has been described, but the present invention is not limited to this. For example, the ACG-ECU 52 may be exposed to the outside (see FIG. 6). As shown in FIG. 6, the canister 54 may be arranged behind the air cleaner 40. In top view, the ACG-ECU 52 is located near the left edge of the canister 54. In FIG. 6, reference numeral 49 indicates a PCSV (Purge control solenoid valve) that opens and closes under the control of the FI-ECU 51. The PCSV49 is provided in the middle of the purge hose (not shown). The ACG-ECU 52 is arranged in the vicinity of the PCSV49.

According to this configuration, the air cleaner 40 arranged in the center in the vehicle width direction and the canister 54 arranged in the center in the vehicle width direction and located behind the air cleaner 40 are further provided, and the FI-ECU 51 is the upper surface of the air cleaner 40. The ACG-ECU 52 is arranged in the vicinity of the canister 54, and thus has the following effects. The FI-ECU 51 and ACG-ECU 52 can be laid out compactly by efficiently utilizing the dead space.

The present invention is not limited to the above embodiment. For example, the saddle-mounted vehicle includes all vehicles in which a driver rides across a vehicle body, and is a motorcycle (motorized bicycle and scooter-type vehicle). (Including), but also three-wheeled vehicles (including front two-wheeled and rear one-wheeled vehicles in addition to front one-wheeled and rear two-wheeled vehicles). Further, the present invention can be applied not only to motorcycles but also to four-wheeled vehicles such as automobiles.
The configuration in the above embodiment is an example of the present invention, and various modifications can be made without departing from the gist of the present invention, such as replacing the constituent elements of the embodiment with well-known constituent elements.
For example, in the above embodiment, the example in which the cylinder stands upright (diagonally forward and upward) has been described, but the present invention is not limited to this. For example, the cylinder may stand forward. For example, the direction in which the cylinder stands can be changed according to the required specifications.
For example, in the above embodiment, the two control units are arranged so as to be offset from each other in the vehicle width direction, but the present invention is not limited to this. For example, the two control units may be arranged on the left and right center lines of the vehicle body. For example, the two control units may be arranged not only on one side of the vehicle but also on the left and right sides of the vehicle. For example, the positional relationship between the two control units in the vehicle width direction can be changed according to the required specifications.

1 Motorcycle (saddle-type vehicle)
8 Seat 11 Engine 13 Generator 15 Crankshaft 18 Cover member 19 Cover side duct 40 Air cleaner 51 FI-ECU (first control unit)
52 ACG-ECU (second control unit)
54 Canister 58 Housing 59 Housing side duct (duct)
60 Connecting duct 62 Second harness (harness)

Claims (10)

With the engine (11)
A generator (13), which is a rotating electric machine that uses the rotation of the engine (11) to generate electricity and start the engine (11),
In a saddle-mounted vehicle equipped with a body cover (50)
The saddle-mounted vehicle is
The first control unit (51) that controls the engine (11) and
A second control unit (52), which is provided separately from the first control unit (51) and controls the generator (13),
A housing (58) having at least a part exposed from the vehicle body cover (50) in the vehicle width direction is provided.
The second control unit (52) is a saddle-mounted vehicle characterized in that it is covered with the housing (58). The saddle-mounted vehicle according to claim 1, wherein at least a part of the housing (58) is covered with the vehicle body cover (50). The saddle-type vehicle according to claim 1 or 2, wherein the housing (58) includes a duct (59) for introducing external air. The saddle-type vehicle according to claim 3, wherein the duct (59) is arranged below the second control unit (52) and is open downward. The engine (11) includes a rotating crankshaft (15).
The generator (13) is connected to the outer portion of the crankshaft (15) in the vehicle width direction.
A cover member (18) for covering the generator (13) is further provided.
Claims 1 to 4 include the cover member (18) including a cover-side duct (19) for introducing air outside the cover member (18) toward the generator (13). The saddle-mounted vehicle according to any one of the above. The saddle-type vehicle according to claim 5, wherein the cover-side duct (19) is arranged below the generator and is open downward. The housing (58) covering the second control unit (52) and the cover member (18) are connected, and the air introduced through the cover side duct (19) is directed toward the second control unit (52). The saddle-type vehicle according to claim 5 or 6, further comprising a connecting duct (60) for introduction. The saddle-type vehicle according to claim 7, wherein the cover-side duct (19) has an opening area larger than that of the duct (59) included in the housing (58). The saddle-mounted vehicle according to claim 8, wherein the cover-side duct (19) is arranged farther from the seat (8) than the duct (59) included in the housing (58). The generator (13) is arranged below the second control unit (52).
A harness (62) for electrically connecting the generator (13) and the second control unit (52) is further provided.
The saddle-type vehicle according to any one of claims 1 to 9, wherein the harness (62) extends from the lower end of the second control unit (52).

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