JPWO2020188706A1 - Saddle-type electric vehicle - Google Patents

Abstract

The saddle-type electric vehicle includes a vehicle body frame, an electric motor that generates a traveling driving force, a portable battery, and a control device that controls the electric motor. The vehicle body frame includes a main frame including an extension portion extending from the head pipe to the rear of the vehicle, and a lower frame located below the extension portion in the vertical direction of the vehicle and extending in the front-rear direction of the vehicle. Includes a middle frame located above the lower frame below the extension in the vertical direction of the vehicle and extending in the front-rear direction of the vehicle. The control device is arranged between the extension portion and the middle frame in the vertical direction of the vehicle. The portable battery is arranged between the middle frame and the lower frame in the vertical direction of the vehicle.

Description

The present invention relates to a saddle-mounted electric vehicle.

Patent Document 1 discloses a saddle-type electric vehicle having a battery that supplies electric power to a motor. This saddle-mounted vehicle has a structure in which the power supply unit including the battery can be taken out to the side of the vehicle by removing the frame.

International Publication No. 2014-052044 Pamphlet

It is understood that the saddle-mounted electric vehicle of Patent Document 1 basically assumes a structure using a stationary battery in which a battery is fixed to the vehicle. The power supply unit is a large unit that is supposed to be removed in the case of maintenance or repair, and the removal work is also large-scale. On the other hand, in a saddle-mounted electric vehicle using a portable battery, it is assumed that the user of the vehicle replaces the portable battery, and a structure in which the portable battery can be removed independently is required.

An object of the present invention is to provide a saddle-type electric vehicle having a structure advantageous for removing a portable battery by itself.

According to the present invention
Body frame (2) and
An electric motor (5) that generates driving force and
A portable battery (11) that supplies electric power to the electric motor, and
The control device (12) that controls the electric motor,
It is a saddle-mounted electric vehicle (1) equipped with
The body frame (2) is
A main frame (21) including an extension (21a) extending from the head pipe (20) to the rear of the vehicle.
A lower frame (27L, 27R) located below the extension portion (21a) in the vertical direction of the vehicle and extending in the front-rear direction of the vehicle.
Includes a middle frame (28L, 28R) that is located below the extension (21a) and above the lower frame (27L, 27R) in the vertical direction of the vehicle and extends in the front-rear direction of the vehicle. ,
The control device (12) is arranged between the extension portion (21a) and the middle frame (28L, 28R) in the vertical direction of the vehicle.
The portable battery (11) is arranged between the middle frame (28L, 28R) and the lower frame (27L, 27R) in the vertical direction of the vehicle.
A saddle-mounted electric vehicle characterized by this is provided.

According to the present invention, it is possible to provide a saddle-type electric vehicle having a structure advantageous for removing a portable battery by itself.

The left side view of the saddle-mounted electric vehicle which concerns on one Embodiment of this invention. The right side view of the saddle-mounted electric vehicle of FIG. A front perspective view showing an in-vehicle aspect of a portable battery mounted on the saddle-mounted electric vehicle of FIG. 1. A rear perspective view showing an in-vehicle aspect of a portable battery mounted on the saddle-mounted electric vehicle of FIG. 1. FIG. 3 is a perspective view of a portable battery mounted on the saddle-mounted electric vehicle of FIG. 1. FIG. 3 is a perspective view of a subframe included in the saddle-mounted electric vehicle of FIG. Top view of the subframe of FIG. It is a figure which shows the attachment / detachment mode of the cross frame provided in the subframe of FIG. The figure which shows the attachment / detachment mode of the cross frame of another example.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. It should be noted that the following embodiments do not limit the invention according to the claims, and not all combinations of features described in the embodiments are essential to the invention. Two or more of the plurality of features described in the embodiments may be arbitrarily combined. In addition, the same or similar configuration will be given the same reference number, and duplicated explanations will be omitted.

In each figure, the arrows D1, D2, and D3 indicate the front-rear direction, the vehicle width direction (horizontal direction), and the vertical direction of the saddle-type vehicle with reference to the forward direction of the saddle-type electric vehicle. Further, FR, RR, U, D, L, and R indicate the front side, the rear side, the upper side, the lower side, the left side, and the right side.

<Overview of saddle-mounted electric vehicle>
FIG. 1 is a left side view of a saddle-mounted electric vehicle 1 (hereinafter, may be simply referred to as a vehicle 1) according to an embodiment of the present invention, and FIG. 2 is a right side view of the vehicle 1. 3 and 4 are perspective views showing an in-vehicle aspect of the portable battery 11 (hereinafter, may be simply referred to as the battery 11) mounted on the vehicle 1, and FIG. 3 is a perspective view showing the front peripheral portion of the battery 11 in the D1 direction. , FIG. 4 shows the rear peripheral side of the battery 11 in the D1 direction.

The vehicle 1 is an off-road type motorcycle, but the present invention is applicable to various saddle-type vehicles including other types of motorcycles.

The vehicle 1 includes a front wheel FW, a rear wheel RW, and a vehicle body frame 2. The front wheel FW is a steering wheel, and the rear wheel RW is a driving wheel. The rear wheel RW includes an in-wheel motor 5 including an electric motor. The rear wheel RW is rotated by the drive of the in-wheel motor 5, and the traveling driving force is exerted. In the present embodiment, the drive type is such that the drive wheels are driven by an in-wheel motor, but the present invention is not limited to this. For example, a drive type in which the electric motor is separated from the wheel and the driving force of the electric motor is transmitted to the wheel by a gear mechanism, a belt transmission mechanism, and a chain transmission mechanism can be adopted.

The body frame 2 includes a head pipe 20, a main frame 21, and a subframe 25. The left and right front forks 3L and 3R and the handlebar 8 are rotatably supported on the head pipe 20. Specifically, the stem 20b is rotatably supported by the head pipe 20, and the top bridge 20a is fixed to the stem 20b. The left and right front forks 3L and 3R and the handlebar 8 are supported on the top bridge 20a and the stem 20b. The front wheel FW is rotatably supported by the left and right front forks 3L and 3R. Left and right grips 9L and 9R are provided at the left and right ends of the handlebar 8, respectively. The rider steers the front wheel FW by grasping the left and right grips 9L and 9R and rotating the stem 20b.

The main frame 21 includes a front extending portion 21a extending rearward from the head pipe 20 and a rear extending portion 21b extending downward from the front extending portion 21a. In the case of this embodiment, the front extending portion 21a is slightly curved backward and downward. In the case of the present embodiment, the front extending portion 21a is a single frame that is not divided into left and right, but may be a pair of left and right frames. A pivot frame 24 is provided at the end of the rear extension portion 21b.

The pivot frame 24 swingably supports the swing arm 6. A rear wheel RW in-wheel motor 5 is supported on the swing arm 6. The swing arm 6 has a cushion frame 6a, and a rear cushion 7 is provided between the cushion frame 6a and the main frame 21.

A side stand 17 is provided on the left side in the vicinity of the pivot frame 24 so as to be freely expandable and retractable. FIG. 1 shows a side stand 17 at the time of deployment. By deploying the side stand 17 and touching the ground, the vehicle 1 can maintain an independent state in a state of being tilted to the left by the front wheel FW, the rear wheel RW, and the side stand 17.

A brake pedal 18 is rotatably supported on the right side in the vicinity of the pivot frame 24. When the rider brakes the brake pedal 18, the vehicle 1 can be braked by reducing the output of the in-wheel motor 5.

The front ends of a pair of left and right seat frames 22L and 22R are connected to the main frame 21. A seat 4 on which the rider sits is supported on the seat frames 22L and 22R. A pair of left and right reinforcing frames 23L and 23R are connected between the pair of left and right seat frames 22L and 22R and the rear extending portion 21b.

A charging port 19 is supported on the mainframe 21. A charging cable for charging the battery 11 is connected to the charging port 19, and electric power is supplied. The supplied electric power is supplied to the battery 11 via a charger (not shown) mounted on the vehicle 1, and the battery 11 can be charged.

The charging port 19 is arranged between the seat 4 and the handlebar 8 in the D1 direction. The charging port 19 is covered with a lid 10 so as to be openable and closable. FIG. 1 shows a state in which the lid 10 is closed and a state in which the lid 10 is opened. When the charging port 19 is not used, it can be covered with the lid 10 to prevent deterioration of the terminal of the charging port 19. Further, the lid 10 is provided with a rotation shaft 10a on the rear side in the D1 direction, and rotates in the D1 direction with the rotation shaft 10a as the rotation center. When opening the lid 10, it is necessary to pull the lid 10 to the rear side in the D1 direction, and it is possible to prevent the rider seated on the seat 4 from unexpectedly opening the lid 10 during traveling.

The subframe 25 supports the battery 11, the control device 12, the battery 13 and the regulator 16 between the front wheel FW and the rear wheel RW. The battery 13 is a battery having a lower output voltage and a smaller capacity than the battery 11, and is, for example, a 12V lead battery. The battery 13 can be used as a battery for supplying electric power to the electric circuit of the control device 12 and the electrical components of the vehicle 1.

The regulator 16 is an electric circuit unit that maintains the output voltage of the battery 11 at a predetermined voltage suitable for driving the in-wheel motor 5, and is, for example, a down regulator that steps down the output voltage of the battery 11 to a predetermined voltage. .. It is also possible to incorporate the regulator 16 in the battery 11. However, by separating the regulator 16 and the battery 11 as in the present embodiment, it is possible to design the regulator 16 according to the voltage required for the vehicle 1 while using the highly versatile battery 11.

The control device 12 is a power control unit that includes a drive circuit of the in-wheel motor 5 and controls to supply electric power output from the battery 11 to the in-wheel motor 5 via the regulator 16. The control device 12 controls the electric power supplied to the in-wheel motor 5, for example, in response to the accelerator operation of the rider with respect to the grip 9R. When the in-wheel motor 5 is an AC motor, the drive circuit includes an inverter.

The battery 11 is, for example, a lithium ion battery, which is a power storage device for supplying electric power to the in-wheel motor 5. FIG. 5 is a perspective view of the battery 11. Arrows D1 to D3 in FIG. 5 indicate directions when mounted on a vehicle. The battery 11 has a rectangular parallelepiped shape as a whole, and a plurality of battery cells are housed therein.

A handle 11a is provided at one end of the battery 11 in the longitudinal direction. An operator who replaces the battery 11 can, for example, grip the handle 11a and carry the battery 11 with the handle 11a side up and the opposite side down. When the battery 11 is mounted on the vehicle, the handle 11a is located at the front end of the battery 11 in the D1 direction as shown in FIG. Since the steering wheel 11a is exposed behind the front wheel FW, the operator can easily access the steering wheel 11.

As shown in FIG. 4, an electrical connection portion 11b is provided at an end portion of the battery 11 opposite to the handle 11a. The electrical connection portion 11b is provided with an electrical connection terminal that outputs electric power. When the battery 11 is mounted on the vehicle, the electrical connection portion 11b is located at the rear end of the battery 11 in the D1 direction. The connector 15 on the vehicle side is detachably connected to the electrical connection portion 11b. By making an electrical connection at the rear end of the battery 11, which has relatively little contact with obstacles, stepping stones, etc. during traveling, it is possible to prevent the electrical connection from being disconnected during traveling.

The regulator 16 is connected to the battery 11 via the connector 15. In the case of this embodiment, the connector 15 and the regulator 16 are located behind the battery 11 in the D1 direction, and are particularly arranged in the space between the battery 11 and the pivot frame 24. Further, the electrical connection portion 11b is located at the rear end of the battery 11 at a position biased to the right in the D2 direction. Therefore, the regulator 16 and the connector 15 are arranged side by side in the D2 direction, the connector 15 is located on the right side, and the regulator 16 is located on the left side. The electrical wiring between the connector 15 and the regulator 16 can be shortened. Further, the narrow space can be effectively utilized for the arrangement of the regulator 16 and the connector 15.

The structure of the subframe 25 will be described with reference to FIGS. 6 and 7 in addition to FIGS. 1 to 4. FIG. 6 is a perspective view of the subframe 25, and FIG. 7 is a plan view of the subframe 25.

The subframe 25 includes a pair of left and right down frames 26L and 26R, a pair of left and right lower frames 27L and 27R, a pair of left and right middle frames 28L and 28R, and a pair of left and right cross frames 29L and 29R.

The upper ends of the pair of left and right down frames 26L and 26R are connected to the front end of the main frame 21 and extend downward from the main frame 21. Between the pair of left and right down frames 26L and 26R, cross frames 32a and 32b extending in the D2 direction are erected. The cross frames 32a and 32b are separated in the D3 direction.

In the case of this embodiment, the pair of left and right lower frames 27L and 27R are frames constituting the lowermost part of the vehicle body frame 2. The pair of left and right lower frames 27L and 27R extend rearward in the D1 direction from the lower ends of the pair of left and right down frames 26L and 26R, and are below the front extension portion 21a of the main frame 21 in the D3 direction. positioned. The pair of left and right lower frames 27L and 27R each include a front extending portion 27a extending horizontally and a rear extending portion 27b extending upward from the front extending portion 27a and extending inward in the D2 direction. The end of each rear extension 27b is connected to the pivot frame 24.

The pair of left and right middle frames 28L and 28R extend rearward in the D1 direction from the middle of the pair of left and right down frames 26L and 26R, and are below the front extension portion 21a of the main frame 21 in the D3 direction. It is located above the pair of left and right lower frames 27L and 27R. The pair of left and right middle frames 28L and 28R extend horizontally as a whole, and their rear ends are connected to the main frame 21 via a pair of left and right connecting members BL and BR.

The pair of left and right middle frames 28L and 28R are inclined inward toward the rear side in the D1 direction in a plan view, and the distance between the pair of left and right middle frames 28L and 28R in the D2 direction is different between the front and rear. That is, the distance Wr on the rear side is shorter than the distance Wf on the front side. When the rider is seated on the seat 4, the rear end side of the pair of left and right middle frames 28L and 28R, which are close to the legs of the rider, has a narrow separation distance Wr, which makes it easier for the rider to straddle the seat 4.

Next, the subframe 25 forms a two-stage component placement space in the D3 direction. The upper component placement space is a space between the pair of left and right middle frames 28L and 28R and the front extension portion 21a of the main frame 21 in the D3 direction. Here, the control device 12 and the battery 13 are arranged side by side in the D1 direction.

As a structure for supporting the control device 12, a support member 34 extending in the D2 direction is erected between the pair of left and right middle frames 28L and 28R. In the case of the present embodiment, a plurality of (two in this case) support members 34 are provided and are separated from each other in the D1 direction. The control device 12 is fixed to the support member 34 by, for example, a bolt (not shown).

The control device 12 has a length Hc in the D3 direction shorter than any of the length Wc in the D2 direction and the length Lc in the D1 direction, and has a flat shape as a whole. As a result, the control device 12 can be arranged in a relatively narrow space between the pair of left and right middle frames 28L and 28R and the front extending portion 21a of the main frame 21, and the arrangement space of the battery 11 described later is set in the D3 direction. It can be widely secured and a larger battery 11 can be mounted.

As a structure for supporting the battery 13, the accommodating member 14 is mounted on the pair of left and right middle frames 28L and 28R. The housing member 14 has a box-shaped main body with an open upper part arranged in a space between a pair of left and right middle frames 28L and 28R, and a pair of left and right hook-shaped locking portions 13 provided on the left and right sides of the main body. It is locked to the middle frames 28L and 28R. The battery 13 is inserted into and supported by the main body of the accommodating member 14. By locating the bottom of the accommodating member 14 below the pair of left and right middle frames 28L and 28R, the height at which the battery 13 projects upward from the pair of left and right middle frames 28L and 28R can be lowered, and the battery As 13, a battery having a relatively high height can be used.

By arranging the battery 13 in front of the control device 12, the wiring between the battery 13 and the control device 12 can be shortened. Since the battery 13 is located at the front portion of the vehicle body frame 2, the battery 13 can be accessed from the outside (particularly above the vehicle body), and the maintainability of the battery 13 can be improved. Further, the front of the control device 12 can be protected by the battery 13.

The lower component placement space is a space between the pair of left and right lower frames 27L and 27R and the pair of left and right middle frames 28L and 28R in the D3 direction. A battery 11 having a relatively high weight is arranged here. By arranging the battery 11 at a lower position of the vehicle 1, the center of gravity of the vehicle 1 can be lowered.

As a structure for supporting the battery 11, the pair of left and right lower frames 27L and 27R are provided with a tray-shaped support member 31 and a rod-shaped support member 33. The support member 31 is formed so as to surround the lower, front, and left and right of the pair of left and right lower frames 27L and 27R. Specifically, the support member 31 has a front wall portion 31F, left and right side wall portions 31L, 31R, and a bottom wall portion 31B. The support member 33 extends in the D2 direction, is erected on a pair of left and right lower frames 27L and 27R, and is provided on the bottom wall portion 31B. In the case of the present embodiment, a plurality of (two in this case) support members 33 are provided and are separated from each other in the D1 direction.

The battery 11 is placed on the support member 33 and is releaseably fixed by a lock mechanism (not shown). By arranging the battery 11, the connector 15, and the regulator 16 in the lower stage and the control device 12 in the upper stage, these can be arranged in close proximity and the wiring can be shortened. The battery 11 is mounted on the vehicle 1 so as to be surrounded by the subframe 25, and the distance between the pair of left and right lower frames 27L and 27R and the pair of left and right middle frames 28L and 28R in the D3 direction (gap in the height direction). ) Is longer than the height of the battery 11 when mounted on a vehicle. Therefore, the pair of left and right lower frames 27L and 27R and the pair of left and right middle frames 28L and 28R do not directly interfere with the replacement work of the battery 11.

The lower frames 27L and 27R are provided with brackets 30L and 30R for supporting the left and right footrests (footsteps) FL and FR, and the battery 11 is arranged between the left and right footrests FL and FR. When the lock is released for some reason, the presence of the footrest FL and FR can prevent the battery 11 from falling off to the left or right side of the vehicle 1.

The cross frame 29L connects the lower frame 27L and the middle frame 28L, and is located on the left side of the battery 11. It is possible to protect the left side portion of the battery 11 and prevent the battery 11 from falling off to the left side of the vehicle 1 when the lock is released for some reason.

The cross frame 29R connects the lower frame 27R and the middle frame 28R, and is located on the right side of the battery 11. It is possible to protect the right side portion of the battery 11 and prevent the battery 11 from falling off to the right side of the vehicle 1 when the lock is released for some reason.

The battery 11 is surrounded by the subframe 25 and is protected, but cannot be taken out of the subframe 25 as it is. Therefore, in the present embodiment, the cross frame 29R is removable, and by removing the cross frame 29R, the battery 11 can be taken out to the right side of the vehicle 1. Both the cross frame 29L and 29R may be removable, or only the cross frame 29L may be removable, but in the present embodiment, the cross frame 29L is not removable. The cross frame 29L is fixed to, for example, the lower frame 27L and the middle frame 28L by welding or the like. The vehicle 1 of the present embodiment can maintain an independent state in a state of being tilted to the left by the side stand 17, and the battery 11 may be removed in this state. At that time, since the cross frame 29L is not removable, it is possible to prevent the battery 11 from unexpectedly falling off to the left side of the vehicle 1.

FIG. 8 is a diagram showing an attachment / detachment mode of the cross frame 29R. The state ST1 indicates a state in which the cross frame 29R is fixed to the lower frame 27R and the middle frame 28R, and the state ST2 indicates a state in which the cross frame 29R is removed from the lower frame 27R and the middle frame 28R.

The middle portion of the pipe-shaped middle frame 28R has a flat shape, and a tubular mounting member 35 is provided around the portion thereof. A flat mounting portion 29a is formed at the upper end of the pipe-shaped cross frame 29R, and both are fixed by fastening the mounting portion 29a, the mounting member 35, and the middle frame 28R with bolts 36. .. The fixing is released by removing the bolt 36.

An intermediate portion of the front extending portion 27a of the pipe-shaped lower frame 27R has a mounting portion 27c having a flat shape. An inverted U-shaped mounting portion 29a branched into two branches is formed at the lower end portion of the cross frame 29R. Both are fixed by fitting the mounting portions 27c so as to be sandwiched between the mounting portions 29a and fastening them with bolts 36. The fixing is released by removing the bolt 36.

As shown in the state ST2, in the state where the cross frame 29R is removed, the battery 11 can be taken out from the gap between the lower frame 27R and the middle frame 28R, and the battery 11 can be taken out from the outside as a subframe. It can be mounted in 25. The fixing structure of the cross frame 29R is not limited to the above structure using the bolt 36, and can be appropriately designed.

As described above, according to the present embodiment, the battery 11 and the control device 12 are separately configured, and the battery 11 is located between the pair of left and right middle frames 28L and 28R and the pair of left and right lower frames 27L and 27R. Placed in. Since the battery 11 can be taken out independently from the upper and lower gaps of these frames in the vehicle width direction, the structure of the present embodiment is a structure advantageous for removing the battery 11 by itself, and is a relatively heavy battery. The structure is also advantageous for removing the battery 11 by itself in that the battery 11 can be attached and detached at a low position.

Since the control device 12 is arranged directly above the battery 11, the structure of the present embodiment is an advantageous structure in terms of wiring of the electrical wiring with the battery 11, while the control device 12 is used for attaching and detaching the battery 11. It does not need to be attached / detached, and does not interfere with the attachment / detachment of the battery 11.

<Another example of the cross frame attachment / detachment structure>
In the example of FIG. 8, only the cross frame 29R is removable, but the surrounding frames may also be removable. FIG. 9 shows an example thereof. In the illustrated example, the cross frame 29R is integrally formed with the front end portion 27d of the lower frame 27R and a part 26a of the down frame 26R, and these are integrally removable. The state ST11 indicates a state in which the cross frame 29R or the like is fixed to the lower frame 27R and the middle frame 28R, and the state ST12 indicates a state in which the cross frame 29R or the like is removed from the lower frame 27R and the middle frame 28R.

The fixed structure of the upper end portion of the cross frame 29R and the middle frame 28R is the same as the example of FIG. The lower end of the cross frame 29R is fixed to the front end 27d. The front end portion 27d and the remaining portion of the lower frame 27R are connected by a cylindrical connecting pipe 37, and are fixed to each other by fastening them with bolts 36. The fixing is released by removing the bolt 36. A part 26a of the down frame 26R and the rest are connected by a tubular connecting pipe 38, and these are fixed to each other by fastening them with bolts 36. The fixing is released by removing the bolt 36.

As shown in the state ST12, in the state where the cross frame 29R and the like are removed, not only the gap between the lower frame 27R and the middle frame 28R but also the space where a part 26a of the down frame 26R existed is empty. The battery 11 can be taken out to the front right by using the space of, and it becomes easy to take out the battery 11. Further, it is easy to mount the battery 11 in the subframe 25 from the outside. Further, even when the height of the battery 11 in the vehicle is larger than the distance (gap in the height direction) between the pair of left and right lower frames 27L and 27R and the pair of left and right middle frames 28L and 28R in the D3 direction, the battery 11 Can be mounted on and taken out of the vehicle, and the charging capacity can be increased by increasing the size of the battery 11 without increasing the size of the vehicle 1.

<Other embodiments>
In the above embodiment, one down frame, one lower frame, and one middle frame are provided on the left and right sides, but one down frame, one lower frame, and one middle frame may be provided at the center in the vehicle width direction. However, by providing one on each side as in the above embodiment, the battery 11, the battery 13, the control device 12, and the like can be supported more stably.

<Summary of embodiments>
The above embodiment discloses at least the following vehicles.

1. 1. The vehicle of the above embodiment
Body frame (2) and
An electric motor (5) that generates driving force and
A portable battery (11) that supplies electric power to the electric motor, and
The control device (12) that controls the electric motor,
It is a saddle-mounted electric vehicle (1) equipped with
The body frame (2) is
A main frame (21) including an extension (21a) extending from the head pipe (20) to the rear of the vehicle.
A lower frame (27L, 27R) located below the extension portion (21a) in the vertical direction of the vehicle and extending in the front-rear direction of the vehicle.
Includes a middle frame (28L, 28R) that is located below the extension (21a) and above the lower frame (27L, 27R) in the vertical direction of the vehicle and extends in the front-rear direction of the vehicle. ,
The control device (12) is arranged between the extension portion (21a) and the middle frame (28L, 28R) in the vertical direction of the vehicle.
The portable battery (11) is arranged between the middle frame (28L, 28R) and the lower frame (27L, 27R) in the vertical direction of the vehicle.
According to this embodiment, the portable battery can be removed independently from the gap between the middle frame and the lower frame, and the relatively heavy portable battery can be attached / detached at a low position. , A saddle-mounted electric vehicle having a structure advantageous for removing a portable battery alone can be provided. Since the control device is arranged directly above the portable battery, it has an advantageous structure in terms of wiring of electrical wiring with the portable battery, and the control device hinders attachment / detachment of the portable battery. It never becomes.

2. 2. In the above embodiment,
The control device (12) has a length (Lc) in the front-rear direction of the vehicle longer than the length (Hc) in the vertical direction of the vehicle when mounted on a vehicle.
According to this embodiment, the control device can be compactly mounted in the vertical direction of the vehicle.

3. 3. In the above embodiment, the vehicle is
It comprises a connector (15) connected to the electrical connection (11b) of the portable battery (11).
The electrical connection portion (11b is located at the rear end of the portable battery (11) in the front-rear direction of the vehicle when mounted on a vehicle.
The connector (15) is located behind the portable battery (11) in the front-rear direction of the vehicle.
According to this embodiment, the connector can be connected to the portable battery at the mounting location of the portable battery, and the convenience of handling the electrical wiring can be enhanced.

4. In the above embodiment, the vehicle is
A regulator (16) for adjusting the output voltage of the portable battery (11) is provided.
The body frame (2) includes a pivot frame (24) that supports a swing arm (6) that supports the rear wheels (RW).
The regulator (16) is arranged between the portable battery (11) and the pivot frame (24) in the front-rear direction of the vehicle.
According to this embodiment, the electrical wiring between the portable battery and the regulator can be made shorter.

5. In the above embodiment, the vehicle is
A small capacity battery (13) having a smaller capacity than the portable battery (11) is provided.
The small capacity battery (13) is arranged between the extension portion (21a) and the middle frame (28L, 28R) in the vertical direction of the vehicle, and is controlled in the front-rear direction of the vehicle. It is located in front of the device (12).
According to this embodiment, the maintainability of the small capacity battery can be improved, and the front of the control device can be protected by the small capacity battery.

6. In the above embodiment,
The lower frame includes a pair of left and right lower frames (27L, 27R).
The middle frame includes a pair of left and right middle frames (28L, 28R).
According to this embodiment, the control device and the portable battery can be supported more stably.

7. In the above embodiment, the vehicle is
The left cross frame (29L) located on the left side of the portable battery (11), which connects the lower frame (27L) and the middle frame (28L) on the left side,
The lower frame (27R) and the middle frame (28R) on the right side are connected to each other, and a right cross frame (29R) located on the right side of the portable battery (11) is provided.
According to this embodiment, the left and right sides of the battery can be protected, and the portable battery can be prevented from falling off to the left and right.

8. In the above embodiment,
The left cross frame (29L) and / or the right cross frame (29R) are removable.
According to this embodiment, it is possible to facilitate the work of attaching and detaching the battery.

9. In the above embodiment, the vehicle is
It is equipped with a side stand (17) that enables the saddle-mounted electric vehicle (1) to stand on its own while tilted to the left.
The left cross frame (29L) is non-removable and
The right cross frame (29R) is removable.
According to this embodiment, it is possible to facilitate the attachment / detachment work of the battery in a state where the saddle-type electric vehicle is made to stand on its own by using the side stand.

10. In the above embodiment, the vehicle is
Equipped with a pair of left and right footrests (FL, FR)
The portable battery (11) is arranged between the pair of left and right footrests (FL, FR).
According to this embodiment, the footrest can prevent the portable battery from falling off to the left or right.

11. In the above embodiment, the vehicle is
Sheet (4) and
Handlebar (8) and
A charging port (19) located between the seat and the handlebar,
With a lid (10) that opens and closes the charging port (19),
The lid (10) rotates in the front-rear direction of the vehicle, and a rotation shaft (10a) thereof is provided on the rear side of the lid (10).
According to this embodiment, it is possible to charge the portable battery and prevent the lid from being suddenly opened.

Although the embodiments of the invention have been described above, the invention is not limited to the above-described embodiments, and various modifications and changes can be made within the scope of the gist of the invention.

The charging port 19 is arranged between the seat 4 and the handlebar 8 in the D1 direction. The charging port 19 is covered with a lid 10 so as to be openable and closable. FIG. 1 shows a state in which the lid 10 is closed, and FIG. 2 shows a state in which the lid 10 is opened. When the charging port 19 is not used, it can be covered with the lid 10 to prevent deterioration of the terminal of the charging port 19. Further, the lid 10 is provided with a rotation shaft 10a on the rear side in the D1 direction, and rotates in the D1 direction with the rotation shaft 10a as the rotation center. When opening the lid 10, it is necessary to pull the lid 10 to the rear side in the D1 direction, and it is possible to prevent the rider seated on the seat 4 from unexpectedly opening the lid 10 during traveling.

As a structure for supporting the battery 13, the accommodating member 14 is mounted on the pair of left and right middle frames 28L and 28R. The housing member 14 has a box-shaped main body with an open upper part arranged in a space between a pair of left and right middle frames 28L and 28R, and hook-shaped locking portions 14a and 14b provided on the left and right sides of the main body are left and right. It is locked to a pair of middle frames 28L and 28R. The battery 13 is inserted into and supported by the main body of the accommodating member 14. By locating the bottom of the accommodating member 14 below the pair of left and right middle frames 28L and 28R, the height at which the battery 13 projects upward from the pair of left and right middle frames 28L and 28R can be lowered, and the battery As 13, a battery having a relatively high height can be used.

An intermediate portion of the front extending portion 27a of the pipe-shaped lower frame 27R has a mounting portion 27c having a flat shape. An inverted U-shaped mounting portion 29 b that is bifurcated is formed at the lower end portion of the cross frame 29R. Both are fixed by fitting the mounting portions 27c so as to be sandwiched between the mounting portions 29 b and fastening them with bolts 36. The fixing is released by removing the bolt 36.

3. 3. In the above embodiment, the vehicle is
It comprises a connector (15) connected to the electrical connection (11b) of the portable battery (11).
The electrical connection portion (11b ) is located at the rear end of the portable battery (11) in the front-rear direction of the vehicle when mounted on a vehicle.
The connector (15) is located behind the portable battery (11) in the front-rear direction of the vehicle.
According to this embodiment, the connector can be connected to the portable battery at the mounting location of the portable battery, and the convenience of handling the electrical wiring can be enhanced.

Claims (11)

Body frame (2) and
An electric motor (5) that generates driving force and
A portable battery (11) that supplies electric power to the electric motor, and
The control device (12) that controls the electric motor,
It is a saddle-mounted electric vehicle (1) equipped with
The body frame (2) is
A main frame (21) including an extension (21a) extending from the head pipe (20) to the rear of the vehicle.
A lower frame (27L, 27R) located below the extension portion (21a) in the vertical direction of the vehicle and extending in the front-rear direction of the vehicle.
Includes a middle frame (28L, 28R) that is located below the extension (21a) and above the lower frame (27L, 27R) in the vertical direction of the vehicle and extends in the front-rear direction of the vehicle. ,
The control device (12) is arranged between the extension portion (21a) and the middle frame (28L, 28R) in the vertical direction of the vehicle.
The portable battery (11) is arranged between the middle frame (28L, 28R) and the lower frame (27L, 27R) in the vertical direction of the vehicle.
A saddle-mounted electric vehicle characterized by this. The saddle-mounted electric vehicle according to claim 1.
When the control device (12) is mounted on a vehicle, the length (Lc) in the front-rear direction of the vehicle is longer than the length (Hc) in the vertical direction of the vehicle.
A saddle-mounted electric vehicle characterized by this. The saddle-mounted electric vehicle according to claim 1.
It comprises a connector (15) connected to the electrical connection (11b) of the portable battery (11).
The electrical connection portion (11b is located at the rear end of the portable battery (11) in the front-rear direction of the vehicle when mounted on a vehicle.
The connector (15) is located behind the portable battery (11) in the front-rear direction of the vehicle.
A saddle-mounted electric vehicle characterized by this. The saddle-mounted electric vehicle according to claim 1.
A regulator (16) for adjusting the output voltage of the portable battery (11) is provided.
The body frame (2) includes a pivot frame (24) that supports a swing arm (6) that supports the rear wheels (RW).
The regulator (16) is arranged between the portable battery (11) and the pivot frame (24) in the front-rear direction of the vehicle.
A saddle-mounted electric vehicle characterized by this. The saddle-mounted electric vehicle according to claim 1.
A small capacity battery (13) having a smaller capacity than the portable battery (11) is provided.
The small capacity battery (13) is arranged between the extension portion (21a) and the middle frame (28L, 28R) in the vertical direction of the vehicle, and is controlled in the front-rear direction of the vehicle. Located in front of device (12),
A saddle-mounted electric vehicle characterized by this. The saddle-mounted electric vehicle according to claim 1.
The lower frame includes a pair of left and right lower frames (27L, 27R).
The middle frame includes a pair of left and right middle frames (28L, 28R).
A saddle-mounted electric vehicle characterized by this. The saddle-mounted electric vehicle according to claim 6.
The left cross frame (29L) located on the left side of the portable battery (11), which connects the lower frame (27L) and the middle frame (28L) on the left side,
The right side cross frame (29R), which connects the lower frame (27R) and the middle frame (28R) and is located on the right side of the portable battery (11), is provided.
A saddle-mounted electric vehicle characterized by this. The saddle-mounted electric vehicle according to claim 7.
The left cross frame (29L) and / or the right cross frame (29R) are removable.
A saddle-mounted electric vehicle characterized by this. The saddle-mounted electric vehicle according to claim 8.
It is equipped with a side stand (17) that enables the saddle-mounted electric vehicle (1) to stand on its own while tilted to the left.
The left cross frame (29L) is non-removable and
The right cross frame (29R) is removable,
A saddle-mounted electric vehicle characterized by this. The saddle-mounted electric vehicle according to claim 1.
Equipped with a pair of left and right footrests (FL, FR)
The portable battery (11) is arranged between the pair of left and right footrests (FL, FR).
A saddle-mounted electric vehicle characterized by this. The saddle-mounted electric vehicle according to claim 1.
Sheet (4) and
Handlebar (8) and
A charging port (19) located between the seat and the handlebar,
With a lid (10) that opens and closes the charging port (19),
The lid (10) rotates in the front-rear direction of the vehicle, and a rotation shaft (10a) thereof is provided on the rear side of the lid (10).
A saddle-mounted electric vehicle characterized by this.

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