JP7135662B2 - electric motorcycle - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric two-wheeled vehicle that runs by driving force generated by an electric motor.

2. Description of the Related Art Conventionally, in motorcycles that run with a driving force generated by a gasoline engine (hereinafter abbreviated as "engine" in this specification), the engine is often used to improve the rigidity of the vehicle. Specifically, by mounting the engine on the body frame, both the body frame and the engine improve the rigidity of the vehicle and ensure the steering stability of the vehicle.

On the other hand, conventionally, in an electric motorcycle that runs by driving force generated by an electric motor, the vehicle body frame is configured with a plurality of frames that are detachably connected, thereby improving the ease of assembly of each part. For example, Patent Literature 1 discloses a straddle-type electric vehicle in which a subframe is detachably coupled to a mainframe.

WO2013/098890

Since the rigidity of the electric motorcycle cannot be improved by the engine, the rigidity of the vehicle may be insufficient depending on the configuration of the vehicle body frame. For example, the straight line connecting the head pipe that supports the steering mechanism and the pivot shaft that supports the swing arm is not the frame with the relatively high rigidity among the multiple frames, but the frame with the relatively low rigidity among the multiple frames. When passing through, the vehicle may become insufficiently rigid.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to improve the rigidity of the vehicle and enhance the steering stability of the vehicle while improving the ease of assembly of each component in an electric motorcycle.

An electric motorcycle according to the present invention includes a head pipe, a pair of left and right main frames extending rearward from the head pipe, and a pair of left and right pivot frames extending downward from rear end portions of the main frames. a down frame extending vertically below each main frame; an under frame extending rearward from a lower end of each of the down frames; and a swing attached to each of the pivot frames. The lower frame includes an arm, a drive wheel attached to the swing arm, an electric motor that drives the drive wheel, a battery that supplies power to the electric motor, and a battery case that houses the battery. , the battery case is detachably coupled to the upper frame, the battery case is attached to the upper frame so as to be covered by the main frames, the electric motor is disposed behind the down frame, and the The down frame and the under frame are attached to the under frame, forming a pair of left and right, and arranged within the width of the electric motor in the left and right direction .

Advantageous Effects of Invention According to the present invention, in an electric motorcycle, it is possible to improve the rigidity of the vehicle and enhance the steering stability of the vehicle while improving the ease of assembly of each part.

1 is a right side view showing an electric motorcycle according to an embodiment of the present invention; FIG. 1 is a left side view showing an electric motorcycle according to an embodiment of the present invention; FIG. 1 is a right side view showing a vehicle body frame and its surroundings according to an embodiment of the present invention; FIG. 1 is a front view showing a vehicle body frame and its periphery according to an embodiment of the present invention; FIG. 1 is a rear view showing a transmission and its surroundings according to an embodiment of the present invention; FIG.

In an electric motorcycle according to an embodiment of the present invention, a lower frame having a down frame and an under frame is combined with an upper frame having a head pipe, a pair of left and right main frames, and a pair of left and right pivot frames. By adopting such a configuration, the rigidity of the vehicle can be sufficiently improved even without an engine, and the steering stability of the vehicle can be enhanced.

Further, in the electric motorcycle according to one embodiment of the present invention, the lower frame to which the electric motor is attached is detachably coupled to the upper frame to which the battery case is attached. By adopting such a configuration, the battery case can be attached to the upper frame in advance, the electric motor can be attached to the lower frame in advance, and then the lower frame can be coupled to the upper frame. Therefore, the assemblability of each component can be improved.

(Electric motorcycle 1)
An electric motorcycle 1 according to an embodiment of the present invention will be described below with reference to FIGS. 1 to 5. FIG. Hereinafter, terms indicating directions such as front and rear, left and right, and up and down are used based on the direction viewed from the rider of the electric motorcycle 1 . Arrows Fr, Rr, L, R, U, and Lo appropriately attached to each figure indicate the front, rear, left, right, upper, and lower directions of the electric motorcycle 1, respectively.

1 and 2, an electric two-wheeled vehicle 1 includes a body frame 2, a steering mechanism 3 and a front wheel 4 arranged in front of the body frame 2, and a pair of left and right wheels arranged below and behind the body frame 2. A swing arm 5 and a rear wheel 6 (an example of a driving wheel), a battery case 7 supported on the upper portion of the vehicle body frame 2 , a plurality of batteries 8 housed in the battery case 7 , and supported on the lower portion of the vehicle body frame 2 . a first connection mechanism 11 connecting the electric motor 9 and the transmission 10; a second connection mechanism 12 connecting the transmission 10 and the rear wheel 6; a converter 14 arranged on the left side of the electric motor 9 (outside in the left-right direction); and a cooling mechanism 15 for cooling the plurality of batteries 8 and the electric motor 9 . Each of the above components will be described in order below.

(Car body frame 2)
3 and 4, the vehicle body frame 2 includes an upper frame 21 and a lower frame 22 arranged below the upper frame 21. As shown in FIG.

(Upper frame 21 of body frame 2)
3 and 4, upper frame 21 of body frame 2 is, for example, a twin spar frame made of aluminum. Upper frame 21 has higher rigidity than lower frame 22 .

The upper frame 21 includes a head pipe 24, a pair of left and right main frames 25 extending rearward from the head pipe 24, a pair of left and right pivot frames 26 extending downward from the rear end of each main frame 25, and and a pair of left and right seat frames 27 extending upward from the upper end of the pivot frame 26 .

A front end portion of each main frame 25 of the upper frame 21 is joined to a rear end portion of the head pipe 24 . An intake port 29 is provided in the front portion of each main frame 25 . A hanging portion 30 extending downward is provided at the front portion of each main frame 25 .

The front portion of each main frame 25 is separated from the center line M in the lateral direction of the vehicle from the front toward the rear. That is, the front portion of each main frame 25 widens from the front to the rear. The rear portion of each main frame 25 approaches the center line M in the lateral direction of the vehicle from the front toward the rear. That is, the rear portion of each main frame 25 is narrowed from the front to the rear.

The upper end of each pivot frame 26 of the upper frame 21 is joined to the rear end of each main frame 25 . The upper portion of each pivot frame 26 is arranged parallel to the center line M in the left-right direction of the vehicle. The lower portion of each pivot frame 26 approaches the center line M in the lateral direction of the vehicle from above downward. That is, the lower portion of each pivot frame 26 is narrowed from the top to the bottom. A lower end portion of each pivot frame 26 is provided with a projecting portion 31 projecting forward.

Each seat frame 27 of the upper frame 21 is molded integrally with each pivot frame 26 . Attached to each seat frame 27 is a front end portion of a seat rail 32 (see FIGS. 1 and 2) that supports a rider seat (not shown).

(Lower frame 22 of body frame 2)
3 and 4, lower frame 22 of vehicle body frame 2 is, for example, an iron pipe frame. The lower frame 22 is formed separately from the upper frame 21 and detachably coupled to the upper frame 21 .

The lower frame 22 includes a cross frame 34 provided below the front portion of each main frame 25, a pair of left and right down frames 35 extending downward from the cross frame 34, and a lower end portion of each down frame 35 extending rearward. and a pair of left and right underframes 36 extending in the vertical direction, and a mounting frame 37 extending in the left-right direction behind each underframe 36 .

The cross frame 34 of the lower frame 22 has an extension portion 39 extending in the left-right direction in front of the lower end portion of the battery case 7 and a pair of left and right portions bent rearward from both left-right direction end portions of the extension portion 39 . and a mounting portion 40 of. A rear end portion of each mounting portion 40 is provided outside the lower end portion of the battery case 7 in the left-right direction. A joint 41 is joined to the rear end of each mounting portion 40 . The joint 41 is attached to the hanging portion 30 of each main frame 25 with a bolt B1. Thereby, the rear end portion of each mounting portion 40 is detachably coupled to the drooping portion 30 of each main frame 25 via a joint 41 .

Each down frame 35 of the lower frame 22 extends vertically below each main frame 25 . Each down frame 35 is arranged parallel to each other. The upper end of each down frame 35 is joined to the extending portion 39 of the cross frame 34 . Each down frame 35 is positioned within the lateral width of the electric motor 9 and passes in front of the electric motor 9 . Each down frame 35 is arranged behind the front wheel 4 (see FIGS. 1 and 2).

3 and 4, each underframe 36 of the lower frame 22 extends in the front-rear direction. A front portion of each underframe 36 is provided substantially horizontally, and a rear portion of each underframe 36 is inclined upward toward the rear. Each underframe 36 is arranged parallel to each other. Each under frame 36 is positioned within the width of the electric motor 9 in the left-right direction and passes below the electric motor 9 .

A front mounting bracket 42 is joined to the upper surface of the front portion of each underframe 36 so as to connect the underframes 36 . The front mounting bracket 42 is composed of a pair of upper and lower plates 43 joined together. A central portion in the left-right direction of the upper plate 43 protrudes upward in a U-shape.

A rear mounting bracket 44 is joined to the upper surface of each underframe 36 at the center in the front-rear direction so as to connect the underframes 36 . A center portion in the front-rear direction of the rear mounting bracket 44 protrudes upward in a V shape.

A mounting member 45 is joined to the upper surface of the rear portion of each underframe 36 so as to connect the underframes 36 . Four bosses 46 protrude from the upper surface of the mounting member 45 .

Both lateral side portions of the mounting frame 37 of the lower frame 22 are joined to rear end portions of the respective under frames 36 . Both ends of the mounting frame 37 in the left-right direction are attached to the projections 31 of the respective pivot frames 26 with bolts B2. As a result, both ends of the mounting frame 37 in the left-right direction are detachably coupled to the protrusions 31 of the pivot frames 26 .

(Steering mechanism 3 and front wheel 4)
1 and 2, the steering mechanism 3 is rotatably supported by a head pipe 24. As shown in FIG. The steering mechanism 3 has a handle 48 and a pair of left and right front forks 49 . The front wheel 4 is rotatably supported at the lower ends of the pair of left and right front forks 49 .

(A pair of left and right swing arms 5 and rear wheels 6)
1 and 2, the front end portions of the pair of left and right swing arms 5 are attached to the lower portions of the respective pivot frames 26 via pivot shafts 51 . As a result, the front ends of the pair of left and right swing arms 5 are swingably supported by the pivot shaft 51 . A straight line Y connecting the central portion of the head pipe 24 and the central portion of the pivot shaft 51 as viewed from the side of the vehicle passes through the front portion of each main frame 25 . A rear wheel 6, which is a drive wheel, is attached to the rear ends of the pair of left and right swing arms 5 so as to be rotatable about a central shaft 6a.

(Battery case 7)
3 and 4, battery case 7 has a substantially rectangular parallelepiped shape. The battery case 7 is provided in a posture inclined upward toward the front. More than half of the battery case 7 is located above each main frame 25 when viewed from the side of the vehicle. As viewed from the side of the vehicle, the lower surface of the battery case 7 is positioned at the same height as the lower ends of the hanging portions 30 of the main frames 25 .

The front portion of the battery case 7 is attached to the central portion of each main frame 25 in the front-rear direction by a pair of left and right bolts B3. The rear end of the battery case 7 is attached to the top of each pivot frame 26 with a pair of left and right bolts B4. Thereby, the battery case 7 is attached to the upper frame 21 so that the lower portions of both sides in the left-right direction are covered with the main frames 25 .

A pair of left and right inlets 53 protrude forward from the front surface of the battery case 7 . Each inlet 53 is connected to the inlet 29 of each main frame 25 . A discharge port 54 protrudes rearward from the central portion of the rear surface of the battery case 7 . A step 55 is provided on the lower surface of the battery case 7 .

(plurality of batteries 8)
1 and 2, each battery 8 has a substantially rectangular parallelepiped shape. Each battery 8 is composed of, for example, a secondary battery such as a lithium ion battery. Each battery 8 is detachably housed in a battery case 7 .

(Electric motor 9)
3 and 4, electric motor 9 is arranged below battery case 7 . The electric motor 9 is arranged behind each down frame 35 and above each under frame 36 .

The electric motor 9 is supported by the mounting brackets 42 and 44 by being placed on the mounting brackets 42 and 44 . The lower end of the electric motor 9 is attached to each mounting bracket 42, 44 by bolts (not shown). Thereby, the electric motor 9 is attached to the upper surface of each under frame 36 via each attachment bracket 42 and 44 .

A motor shaft 57 is provided in the central portion of the electric motor 9 . The motor shaft 57 extends along the left-right direction. A pair of left and right mounting bosses 59 protrude from the upper rear portion of the electric motor 9 .

(Transmission 10)
Referring to FIG. 3 , transmission 10 is arranged below battery case 7 and behind electric motor 9 . The transmission 10 is arranged in front of each pivot frame 26 and above each under frame 36 .

The transmission 10 includes a case 61 and an input shaft 62 , an output shaft 63 and an intermediate shaft 64 supported by the case 61 . The input shaft 62, the output shaft 63 and the intermediate shaft 64 are arranged in the order of the input shaft 62, the intermediate shaft 64 and the output shaft 63 from below.

Four bosses 66 protrude from the lower surface of the case 61 of the transmission 10 . Each boss 66 is attached to each boss 46 of the attachment member 45 . Thereby, the transmission 10 is attached to the upper surface of each underframe 36 via the attachment member 45 . 5, only the outline of the case 61 is indicated by dotted lines.

3 and 5, the input shaft 62 of the transmission 10 is positioned below the motor shaft 57 of the electric motor 9. As shown in FIG. The input shaft 62 extends along the left-right direction. The input shaft 62 is rotatably supported by the case 61 via three bearings X1. An input gear 68 is provided on the outer peripheral surface of the input shaft 62 .

The output shaft 63 of the transmission 10 is arranged above and behind the input shaft 62 . The output shaft 63 is positioned at the same height as the pivot shaft 51 . The output shaft 63 extends along the left-right direction. The output shaft 63 is rotatably supported by the case 61 via a pair of left and right bearings X2. An output gear 69 is provided on the outer peripheral surface of the output shaft 63 .

An intermediate shaft 64 of the transmission 10 is arranged between the input shaft 62 and the output shaft 63 . The intermediate shaft 64 extends along the left-right direction. The intermediate shaft 64 is rotatably supported by the case 61 via a pair of left and right bearings X3. An intermediate gear 70 is provided on the outer peripheral surface of the intermediate shaft 64 . The intermediate gear 70 has a large diameter portion 70a and a small diameter portion 70b. A large-diameter portion 70 a of the intermediate gear 70 meshes with the input gear 68 of the input shaft 62 . A small diameter portion 70 b of the intermediate gear 70 meshes with the output gear 69 of the output shaft 63 . Thus, the intermediate shaft 64 connects the input shaft 62 and the output shaft 63 .

(First connection mechanism 11)
Referring to FIG. 3, the first connection mechanism 11 includes a drive gear 72, a driven gear 73 provided behind the drive gear 72, and a first chain 74 wound around the drive gear 72 and the driven gear 73. I have. The drive gear 72 is fixed to the right end of the motor shaft 57 of the electric motor 9 . The driven gear 73 is fixed to the right end of the input shaft 62 of the transmission 10 . Thus, the first connection mechanism 11 connects the motor shaft 57 of the electric motor 9 and the input shaft 62 of the transmission 10 .

Referring to FIG. 4 , the first connection mechanism 11 is arranged below the battery case 7 and positioned within the width of the battery case 7 in the left-right direction. Referring to FIG. 5, the first connection mechanism 11 is arranged on the right side of the vehicle (on one side in the left-right direction), and is provided on the right side of the center line M in the left-right direction of the vehicle (one side in the left-right direction). It is

(Second connection mechanism 12)
Referring to FIG. 2, the second connection mechanism 12 includes a drive sprocket 76, a driven sprocket 77 provided behind the drive sprocket 76, and a second chain 78 wound around the drive sprocket 76 and the driven sprocket 77. I have it. Drive sprocket 76 is fixed to the left end of output shaft 63 of transmission 10 . A driven sprocket 77 is fixed to the rear wheel 6 . Thus, the second connection mechanism 12 connects the output shaft 63 of the transmission 10 and the rear wheel 6 .

Referring to FIG. 5, the second connection mechanism 12 (only the drive sprocket 76 is shown in FIG. 5) is arranged on the left side of the vehicle (the other side in the left-right direction), and is located at the center of the vehicle in the left-right direction. It is provided on the left side of the line M (the other side in the left-right direction). The second connection mechanism 12 is provided on the opposite side of the first connection mechanism 11 across the center line M in the left-right direction of the vehicle.

(Inverter 13)
Referring to FIG. 3, inverter 13 is arranged below battery case 7 . The inverter 13 is arranged behind the step 55 of the battery case 7 . Inverter 13 is arranged in front of transmission 10 . The inverter 13 is attached to each attachment boss 59 of the electric motor 9 .

Referring to FIG. 2, inverter 13 is connected to each battery 8 via a plurality of wirings (not shown). The inverter 13 is connected to the electric motor 9 via multiple cables 80 . Thus, the inverter 13 connects each battery 8 and the electric motor 9 . The inverter 13 converts the electric power supplied from each battery 8 from direct current to alternating current, and supplies the electric motor 9 with the alternating current.

(Converter 14)
Referring to FIG. 4, converter 14 is arranged within the width of upper frame 21 in the left-right direction. The converter 14 is configured by, for example, a DC-DC converter. The converter 14 lowers the voltage of the electric power supplied from each battery 8 and supplies it to electrical components (not shown) such as various meters and various lamps.

(Cooling mechanism 15)
Referring to FIG. 1 , cooling mechanism 15 includes a radiator 81 and a water pump 82 arranged behind and below radiator 81 .

A radiator 81 of the cooling mechanism 15 is arranged in front of the battery case 7 and behind each front fork 49 . The radiator 81 is arranged below the head pipe 24 and in front of the cross frame 34 .

The water pump 82 of the cooling mechanism 15 is a mechanical water pump. The water pump 82 is arranged on the right side of the electric motor 9 (outside in the left-right direction). The water pump 82 is attached to the right surface (outer surface) of a water pump holder 88 fixed to the right surface (outer surface) of the electric motor 9 . Thereby, the water pump 82 is attached to the electric motor 9 via the water pump holder 88 .

The water pump 82 includes a pump case 85 , a pump shaft 86 supported by the pump case 85 , and a fan (not shown) housed in the pump case 85 and provided on the outer circumference of the pump shaft 86 . The pump shaft 86 is arranged coaxially with the motor shaft 57 (see FIG. 3 etc.) of the electric motor 9 and is connected to the right end of the motor shaft 57 of the electric motor 9 .

(Running of electric motorcycle 1)
When the electric motorcycle 1 is running, the electric power supplied from each battery 8 to the electric motor 9 causes the motor shaft 57 of the electric motor 9 to rotate. When the motor shaft 57 of the electric motor 9 rotates in this manner, the driving gear 72 fixed to the motor shaft 57 of the electric motor 9 rotates together with the motor shaft 57 of the electric motor 9 . When the drive gear 72 rotates in this way, this rotation is transmitted to the driven gear 73 via the first chain 74, and the driven gear 73 rotates. When the driven gear 73 rotates in this way, the input shaft 62 of the transmission 10 to which the driven gear 73 is fixed rotates together with the driven gear 73 . As described above, the rotation of the motor shaft 57 of the electric motor 9 is input to the input shaft 62 of the transmission 10 via the first connection mechanism 11, and the input shaft 62 of the transmission 10 rotates.

When the input shaft 62 of the transmission 10 rotates as described above, this rotation is transmitted to the output shaft 63 of the transmission 10 via the intermediate shaft 64 of the transmission 10, and the output shaft 63 of the transmission 10 rotates. At that time, the transmission 10 reduces the rotation of the electric motor 9 according to the gear ratio between the input gear 68 and the large diameter portion 70a of the intermediate gear 70 and the gear ratio between the small diameter portion 70b of the intermediate gear 70 and the output gear 69. .

When the output shaft 63 of the transmission 10 rotates as described above, the drive sprocket 76 fixed to the output shaft 63 of the transmission 10 rotates together with the output shaft 63 of the transmission 10 . When the drive sprocket 76 rotates in this way, this rotation is transmitted to the driven sprocket 77 via the second chain 78, and the driven sprocket 77 rotates. When the driven sprocket 77 rotates in this manner, the rear wheel 6 to which the driven sprocket 77 is fixed rotates together with the driven sprocket 77 . As described above, the rotation of the output shaft 63 of the transmission 10 is output to the rear wheel 6 via the second connection mechanism 12, and the rear wheel 6 rotates. As a result, the electric motorcycle 1 runs.

As described above, when the electric motorcycle 1 is running, the electric motor 9 drives the rear wheel 6 with electric power supplied from each battery 8 to the electric motor 9 .

(Cooling of each battery 8 and electric motor 9)
When the electric two-wheeled vehicle 1 is running, running wind is drawn into the internal space of the battery case 7 through the air intake ports 29 of the main frames 25 and the introduction ports 53 of the battery case 7 . Running wind taken into the internal space of the battery case 7 passes through the periphery of each battery 8 from front to rear to cool each battery 8 . The running wind that has cooled each battery 8 is discharged to the rear of the battery case 7 through the discharge port 54 of the battery case 7 .

When the electric motorcycle 1 is running, the pump shaft 86 of the water pump 82 and the fan (not shown) rotate together with the motor shaft 57 of the electric motor 9 . Along with this, cooling water cooled by the radiator 81 is introduced into water jackets (not shown) provided in the battery case 7 and the electric motor 9, respectively. Thereby, each battery 8 and the electric motor 9 are cooled. The cooling water that has passed through the water jacket is returned from the water jacket to the radiator 81 and cooled again by the radiator 81 . Thus, the water pump 82 circulates the cooling water.

(effect)
In this embodiment, an upper frame 21 has a head pipe 24, a pair of left and right main frames 25, and a pair of left and right pivot frames 26, while a lower frame has a pair of left and right down frames 35 and a pair of left and right under frames 36. 22 are combined. By adopting such a configuration, the rigidity of the vehicle can be sufficiently improved even without an engine, and the steering stability of the vehicle can be enhanced.

Particularly in this embodiment, the battery case 7 that houses the heavy batteries 8 is attached to the upper frame 21 having higher rigidity than the lower frame 22 . By adopting such a configuration, the rigidity of the vehicle can be further improved, and the steering stability of the vehicle can be further improved.

Further, as a result of adopting the configuration as described above, when viewed from the side of the vehicle, the straight line Y connecting the center of the head pipe 24 and the center of the pivot shaft 51 (a straight line of high importance with respect to the rigidity of the vehicle) is aligned with the lower frame 22. It passes through the front part of each main frame 25 without passing through the . By adopting such an arrangement, compared with the case where the straight line Y passes through the lower frame 22, the rigidity of the vehicle can be improved, and the steering stability of the vehicle can be improved.

A lower frame 22 to which the electric motor 9 is attached is detachably coupled to an upper frame 21 to which the battery case 7 is attached. By adopting such a configuration, it is possible to attach the battery case 7 to the upper frame 21 in advance, attach the electric motor 9 to the lower frame 22 in advance, and then connect the lower frame 22 to the upper frame 21 . can. Therefore, the assemblability of each component can be improved.

Also, the transmission 10 is arranged behind the electric motor 9 . By arranging the electric motor 9 and the transmission 10 side by side in this manner, a sufficient space can be secured above the electric motor 9 and the transmission 10 . Therefore, it becomes easier to secure the capacity of the battery case 7 arranged above the electric motor 9 and the transmission 10 .

Also, the transmission 10 is attached to each under frame 36 . By adopting such a configuration, the lower frame 22 can be coupled to the upper frame 21 after not only the electric motor 9 but also the transmission 10 are attached to the lower frame 22 in advance. Therefore, it is possible to further improve the assemblability of each part.

The first connection mechanism 11 is provided on the right side (one side in the left-right direction) of the center line M in the left-right direction of the vehicle. It is provided on the opposite side of the mechanism 11 . By adopting such an arrangement, it is possible to prevent the first and second chains 74, 78 from interfering with each other when the first and second chains 74, 78 are assembled. Therefore, the ease of assembly of the first and second chains 74, 78 can be improved.

The down frame 35 and the under frame 36 form a pair of left and right frames and are arranged within the width of the electric motor 9 in the left-right direction. By adopting such an arrangement, the down frames 35 and the under frames 36 can protect the electric motor 9 from unevenness of the road surface and falling objects on the road surface. In addition, since the width in the left-right direction of the lower frame 22 located in the lower part of the vehicle can be suppressed, it becomes easier to secure the bank angle of the vehicle. Furthermore, since the down frames 35 and the under frames 36 are not arranged on the sides of the electric motor 9, access to the electric motor 9 is facilitated, and maintainability of the electric motor 9 is improved.

Also, the lower frame 22 is detachably coupled to the hanging portion 30 of each main frame 25 and the lower end portion of each pivot frame 26 . By adopting such a configuration, the lower frame 22 can be arranged from the front to the rear of the electric motor 9 . Therefore, not only can the rigidity of the vehicle be further improved, but also the electric motor 9 can be easily protected.

In addition, the lower frame 22 has a cross frame 34 attached to each main frame 25, the cross frame 34 has an extending portion 39 extending in the left-right direction in front of the battery case 7, and each down frame 35 is It is joined to the extension part 39 . By adopting such a configuration, the rigidity of the lower frame 22 in the left-right direction can be improved, so that the steering stability of the vehicle can be further improved. Moreover, since the extending portion 39 extends in the left-right direction in front of the battery case 7 , the battery case 7 can be protected by the extending portion 39 .

Also, the upper frame 21 is a twin-spar frame made of aluminum. By adopting such a configuration, it is possible to increase the rigidity of the upper frame 21 while reducing the weight of the upper frame 21, thereby further enhancing the steering stability of the vehicle. In addition, since the frame used for the gasoline engine vehicle can be diverted as the upper frame 21 and the number of specially designed parts for the electric two-wheeled vehicle 1 can be reduced, the manufacturing cost of the electric two-wheeled vehicle 1 can be suppressed.

Also, the lower frame 22 is an iron pipe frame. By adopting such a configuration, the lower frame 22 for compensating for the rigidity of the engine can be manufactured at low cost, and the manufacturing cost of the electric motorcycle 1 can be suppressed.

Mounting brackets 42 and 44 are joined to the upper surfaces of the underframes 36 so as to connect the underframes 36, and the electric motor 9 is supported by the mounting brackets 42 and 44. It is attached to the upper surface of each underframe 36 via brackets 42 and 44 . By adopting such a configuration, each under frame 36 can be bridged by each mounting bracket 42, 44 and the electric motor 9, so that the rigidity of the lower frame 22 can be further improved.

(Modification)
In this embodiment, a pair of gears 72 and 73 and a first chain 74 wound around them constitute the first connection mechanism 11 . On the other hand, in other different embodiments, the first connection mechanism 11 may be composed of a pair of pulleys and a belt wound around them.

In this embodiment, the second connection mechanism 12 is composed of a pair of sprockets 76 and 77 and a second chain 78 wound around them. On the other hand, in other different embodiments, the second connection mechanism 12 may be composed of a pair of pulleys and a belt wound around them.

In this embodiment, each battery 8 is composed of a secondary battery such as a lithium ion battery. On the other hand, in other different embodiments, each battery 8 may be composed of a battery other than a secondary battery such as a fuel cell.

In this embodiment, the down frame 35 and the under frame 36 form a pair of left and right. On the other hand, in other different embodiments, only one down frame 35 and/or under frame 36 may be provided, or three or more may be provided.

1 electric motorcycle 5 swing arm 6 rear wheel (an example of drive wheel)
7 battery case 8 battery 9 electric motor 10 transmission 11 first connection mechanism 12 second connection mechanism 21 upper frame 22 lower frame 24 head pipe 25 main frame 26 pivot frame 30 hanging portion 34 cross frame 35 down frame 36 under frame 39 extension Protruding portion 42 Front side mounting bracket 44 Rear side mounting bracket 62 Input shaft 63 Output shaft M Center line in the left-right direction of the vehicle

Claims (7)

an upper frame having a head pipe, a pair of left and right main frames extending rearward from the head pipe, and a pair of left and right pivot frames extending downward from rear end portions of the main frames;
a lower frame having a down frame extending vertically below each of the main frames; and an under frame extending rearward from a lower end of the down frame;
a swing arm attached to each pivot frame;
a driving wheel attached to the swing arm;
an electric motor that drives the drive wheels;
a battery that supplies power to the electric motor;
a battery case that houses the battery,
The lower frame is detachably coupled to the upper frame,
the battery case is attached to the upper frame so that the side portion is covered by the main frames;
The electric motor is arranged behind the down frame and attached to the under frame,
An electric motorcycle , wherein the down frame and the under frame form a pair of right and left sides, and are arranged within a width of the electric motor in the left-right direction . an upper frame having a head pipe, a pair of left and right main frames extending rearward from the head pipe, and a pair of left and right pivot frames extending downward from rear end portions of the main frames;
a lower frame having a down frame extending vertically below each of the main frames; and an under frame extending rearward from a lower end of the down frame;
a swing arm attached to each pivot frame;
a driving wheel attached to the swing arm;
an electric motor that drives the drive wheels;
a battery that supplies power to the electric motor;
a battery case that houses the battery,
The lower frame is detachably coupled to the upper frame,
the battery case is attached to the upper frame so that the side portion is covered by the main frames;
The electric motor is arranged behind the down frame and attached to the under frame,
The down frame and the under frame form a pair of left and right,
A mounting bracket is joined to the upper surface of each underframe so as to connect the underframes,
An electric two-wheeled vehicle , wherein the electric motor is supported by the mounting bracket and attached to the upper surface of each of the underframes via the mounting bracket . A transmission for changing the speed of rotation of the electric motor,
The electric motor and the transmission are arranged below the battery case,
3. The electric motorcycle according to claim 1 , wherein the transmission is arranged behind the electric motor and attached to the underframe. a transmission for changing the speed of rotation of the electric motor;
a first connection mechanism that connects the electric motor and the transmission;
a second connection mechanism that connects the transmission and the drive wheels,
The first connection mechanism is provided on one side of a center line in the left-right direction of the vehicle,
The electric motorcycle according to any one of claims 1 to 3, wherein the second connection mechanism is provided on the opposite side of the first connection mechanism across a center line in the left-right direction of the vehicle. . A hanging portion extending downward is provided at the front portion of each main frame,
The electric motorcycle according to any one of claims 1 to 4, wherein the lower frame is detachably coupled to the hanging portion of each main frame and the lower end portion of each pivot frame. . The lower frame has a cross frame attached to the main frame,
the cross frame has an extension extending in the left-right direction in front of the battery case,
The electric motorcycle according to any one of claims 1 to 5, wherein the down frame is joined to the extending portion. The upper frame is a twin spar frame made of aluminum,
The electric motorcycle according to any one of claims 1 to 6, wherein the lower frame is an iron pipe frame.

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