JP3956732B2 - Small electric vehicle - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a small electric vehicle for use by an elderly person or a person with reduced mobility.
[0002]
[Prior art]
This type of small electric vehicle is called, for example, a senior car (R) or the like, and has extremely high utility value as a substitute for elderly people. In the basic configuration of such a small electric vehicle, for example, a single seat on which the occupant sits is installed at the rear of the vehicle body, and a floor for the occupant to put his / her foot on is provided in front of the lower part thereof. A steering shaft is erected. A steering wheel is attached to the upper end of the steering shaft, and an occupant sits on a single seat and operates the steering wheel.
[0003]
In the small electric vehicle configured as described above, an accelerator lever is provided near the handle, and when the accelerator lever is grasped, the rear wheel is driven by the motor, and when the accelerator lever is released, the electromagnetic brake incorporated in the motor acts. The rear wheel is braked.
[0004]
[Problems to be solved by the invention]
As described above, the conventional small electric vehicle has a structure in which the electromagnetic brake incorporated in the motor acts by releasing the accelerator lever. Such a brake structure has an advantage that the vehicle can be stopped reliably when the vehicle is stopped. However, unlike a general vehicle, it is not a structure in which an occupant actively operates the brakes on its own to cause a sense of incongruity. is there.
[0005]
Also, in the small electric vehicle equipped with an electromagnetic brake as described above, a brake lever may be provided near the handle, but this is a case where the motor and the rear wheel are disconnected by a clutch mechanism and the vehicle is pushed manually. It is most often used for, etc., and its usage frequency is low. It can also be used as an auxiliary role for the electromagnetic brake, but in addition to the electromagnetic brake, the brake is operated by the operation of the brake lever, and there is a difference between the amount of operation of the brake lever and the effectiveness of the brake intended by the passenger. Sometimes it happens.
[0006]
The present invention has been made in view of the above points, and an object of the present invention is to provide a small electric vehicle that can perform a brake operation according to the consciousness of the occupant himself without feeling uncomfortable with the operation of the foot. .
[0007]
[Means for Solving the Problems]
The small electric vehicle according to the present invention includes a single seat that is supported on a frame, a floor that is configured on the frame at a lower front side of the single seat, and a steering wheel that swings left and right by a steering operation. A pair of left and right front wheels provided in front of the vehicle, a pair of left and right rear wheels provided at a lower rear portion of the single seat as drive wheels driven by the power unit, and a secondary battery for supplying power to the power unit. A small electric vehicle, wherein the frame has a center frame portion extending in the front-rear direction on both left and right sides of the vehicle body, and has a facing interval that extends forward of the center frame portion and is smaller than a left-right facing interval of the front wheels. Left and right main frames having a front frame portion, the single seat extending rearward from the center frame portion, the power unit and the Is constituted by a rear frame for supporting the wheels, the is the floor structure on a main frame, wherein provided with a brake mechanism for a pair of left and right rear wheels, respectively, the left and right brake pedal holder to pass over the Mainframe Is fixed, and the brake pedal is supported by the brake pedal holder and arranged at the front portion of the floor.
[0010]
Another feature of the small electric vehicle of the present invention is that a secondary battery for supplying power to the power unit is mounted between center frame portions of the left and right main frames, and the brake pedal holder is connected to the secondary pedal. It exists in the point arrange | positioned ahead of a battery.
[0011]
Another feature of the small electric vehicle of the present invention is that at least a part of the front wheel support mechanism is disposed in front of the brake pedal holder below the front frame portion of the left and right main frames. It is in.
[0013]
Another feature of the small electric vehicle according to the present invention is that the brake pedal is composed of a pair of left and right brake pedals arranged adjacent to each other, and the left brake pedal includes a pedal portion, It is fixed to the rear side of the pedal unit, while comprising a pedal arm portion that links the brake mechanism of the rear wheel of the left and the right of the brake pedal, is fixed and the pedal unit, the rear side of the pedal unit, the right The left and right brake mechanisms provided on the left and right rear wheels, which are the drive wheels, are formed so as to be independently operable .
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred embodiments of a small electric vehicle according to the present invention will be described with reference to the drawings.
[0015]
1-5 has shown the whole structure of the small electric vehicle in this embodiment. This embodiment is an example of a four-wheel small electric vehicle, and a pair of left and right front wheels 1 and rear wheels 2 are supported on the front and rear portions of a frame unit 100 including a body frame, respectively. The front wheel 1 is supported by the front wheel support mechanism 200, and the rear wheel 2 is supported by the rear wheel support mechanism 300.
[0016]
Near the rear part of the frame unit 100, a seat unit 400 constituting a single-seat seat on which one occupant is seated is supported.
[0017]
In front of the lower part of the single seat, there is a floor panel 3 that constitutes a low-floor passenger footrest floor laid on the body frame. A brake pedal 800 is disposed near the front portion of the floor panel 3.
[0018]
A front part of the frame unit 100 has a steering mechanism 500 that steers the front wheel 1 as a steered wheel that swings left and right by a handle operation.
[0019]
In the lower rear part of the single seat, a power unit 600 including an electric motor is provided for each of the left and right rear wheels 2, and the rear wheel 2 as a drive wheel is driven. The left and right rear wheels 2 are each provided with a brake mechanism operated by the brake pedal 800.
[0020]
A battery unit 700 including a secondary battery that supplies power to the power unit 600 is disposed below the floor panel 3.
[0021]
First, the frame unit 100 will be described in detail. 6 to 8, the frame unit 100 includes a vehicle body frame 101 that forms a chassis portion and a steering frame 102 that supports a steering handle and the like. The vehicle body frame 101 includes a main frame 103 and a rear frame 104. Including. The main frame 103 further includes a center frame portion 105 and a front frame portion 106 extending in front of the center frame portion 105.
[0022]
The main frame 103 constituting the vehicle body frame 101 includes a pair of main frame members 107 disposed in the front-rear direction on both the left and right sides. The main frame member 107 is near the boundary between the center frame portion 105 and the front frame portion 106, as shown in FIG. As shown in FIG. The main frame member 107 is preferably formed of a square pipe material, but is not limited thereto, and can be formed of, for example, a C channel material or a round pipe material. In any case, the main frame member 107 has a certain height (thickness in the vertical direction). Each main frame member 107 is provided with a carrying handle 111 made of, for example, a round pipe material, protruding outward.
[0023]
In this example, in the main frame member 107, three bridge members 108, 109, 110 are horizontally mounted near the boundary between the front end portion of the main frame member 107, the center frame portion 105 and the front frame portion 106, and the rear end portion. High rigidity of 103 is secured. As shown in FIG. 7, the bridge members 108 and 109 are curved so as to protrude downward, and a base member of a front wheel support mechanism, which will be described later, is arranged on the bridge members 108 and 109. In the actual vehicle, as shown in FIG. 7, the main frame 103 is inclined in a moderately upward direction, and at this time, the base member of the front wheel support mechanism is substantially horizontally supported.
[0024]
As shown in FIG. 9, the steering frame 102 is configured such that four pipe members 102 a to 102 d are integrally supported upright inside the front end portion of the front frame portion 106. The steering frame 102 rises vertically from the front frame portion 106 (main frame member 107). However, as described above, the main frame 103 is inclined forwardly upward, so that the steering frame 102 is appropriately inclined toward the single seat. The steering frame 102 is preferably formed of a square pipe material.
[0025]
The rear frame 104 constituting the vehicle body frame 101 is inclined rearward and upward from the vicinity of the rear end portion of each main frame member 107, and is coupled to each other by a carrying handle 112 at each rear end portion. In the middle of the rear frame 104 in the front-rear direction, a substantially arched or trapezoidal bridge member 113 is horizontally mounted, and a seat post 114 for supporting the seat unit 400 is attached to an upper portion of the bridge member 113. The rear frame 104 or the bridge member 113 is preferably formed of a square pipe material, but is not limited thereto, and can be formed of, for example, a C channel material or a round pipe material. A bridge member 115 that is curved so as to protrude downward is also laid across the rear end portion of the rear frame 104.
[0026]
Next, the front wheel support mechanism 200 will be described in detail. The front wheel support mechanism 200 supports the front wheel 1 so as to be rotatable and swingable, and includes a base member 201 as a support portion held below the front frame portion 106 and a suspension arm bracket fixed on the base member 201. 202 and a suspension arm 203 that is supported by a suspension arm bracket 202 so as to be swingable in the vertical direction, extends outward from the center in the left-right direction of the vehicle, and rotatably supports the front wheel 1 at its outer end. Contains.
[0027]
Here, mainly by the front wheel support mechanism 200, a protruding structure comprising a rigid member that extends to the left and right between the opposing front wheels 1 in front of the battery case, which will be described later, and protrudes downward from the battery case. Is configured. That is, as shown in FIG. 1 to FIG. 5 or FIG. 7, this protruding structure includes a base member 201, a suspension arm bracket 202, a suspension arm 203, and the like that are arranged to protrude below the front frame portion 106. By having the protruding structure on the front and lower side of the battery case, it is possible to configure a battery case barrier or protection means having an important function as a vehicle power supply device, and to effectively protect the delicate power supply device. Even if it has a projecting structure that projects downward from the front frame portion 106 in this way, the floor 3 in the actual vehicle is inclined upward (see FIG. 7), so that it does not protrude downward, The ground clearance can be secured effectively.
[0028]
In the front wheel support mechanism 200, referring also to FIG. 9, two suspension arm brackets are provided on the base member 201 disposed on the bridge members 108 and 109 of the main frame 103 for the left and right suspension arms 203. 202 is provided. Each suspension arm 203 has a bifurcated shape that branches back and forth, and two branched base ends are pivotally supported by two front and rear suspension arm brackets 202. A U-shaped knuckle 204 is pivotally supported at the tip of the suspension arm 203 so as to be rotatable. An axle 205 extends horizontally on the knuckle 204, and the front wheel 1 is rotatably supported on the axle 205.
[0029]
A bracket 207 for mounting a suspension spring 206 is fixed to the outer portion of the front frame portion 106, and the suspension spring 206 is mounted between the bracket 207 and the suspension arm 203 (the front side of the bifurcated branch). Is done.
[0030]
Next, the rear wheel support mechanism 300 will be described in detail. The rear wheel support mechanism 300 supports the rear wheel 2 in cooperation with the power unit 600. As will be described in detail later, the power unit 600 includes an electric motor and a reduction gear group connected to the output shaft thereof, and the support shaft of the final stage gear is configured as the axle 301 of the rear wheel 2. The front end side of the power unit 600 is pivotally supported via a bracket 302 (see FIGS. 1 to 3 and the like) that is fixed to the rear end of the main frame member 107. The rear end side of the power unit 600 is connected to the lower end of the shock absorber 303. The upper end of the shock absorber 303 is pivotally supported via a bracket 304 that is fixed to the rear end of the rear frame 104. The shock absorber 303 may use a compression coil spring or hydraulic pressure.
[0031]
Next, the sheet unit 400 will be described in detail. In the seat unit 400, a seat cushion frame 401 and a seat back frame 402 formed of a square pipe material or the like are combined and integrated in a substantially L shape, and are supported on the seat post 114 with the seat cushion frame 401 substantially horizontal. The In this case, the seat unit 400 is supported so as to be able to turn left and right and to be selectively fixed at a plurality of angular positions during the turning.
[0032]
A seat cushion 403 configured as an elastic body is attached to the seat cushion frame 401, and a seat back 404 configured as an elastic body is attached to the seat back frame 402, respectively. An armrest 405 is rotatably supported at an appropriate height position of the seat back frame 402. An occupant seated on the seat unit 400 supported on the seat post 114 can put his / her foot on the floor panel 3 and can step on the brake pedal 800 disposed near the front of the floor panel 3 at that time. It has become.
[0033]
Here, the structural example of the rotation support mechanism of a single seat is demonstrated. In FIG. 10, a base bracket 406 is coupled to the lower side of the seat cushion frame 401, and a seat pipe 407 is suspended from the base bracket 406. On the other hand, a pipe holder 408 is fitted to the seat post 114, and the seat pipe 407 is rotatably fitted to the pipe holder 408. As a result, the seat cushion frame 401, and thus the single seat, can be turned left and right.
[0034]
Further, a lever holder 410 having a bearing 409 at the front thereof is fixed to the base bracket 406. A rotary shaft 411 is inserted into the bearing 409, and the rotary shaft 411 extends outward and bends appropriately as shown in the figure to form a lever portion 412. A claw piece 414 protruding downward from an opening 413 provided in the base bracket 406 is fixed to the rotating shaft 411. The claw piece 414 can be rotated by operating the lever portion 412. The claw piece 414 has a hole 414a that can be engaged with a tooth of a stopper plate described later. On the other hand, a stopper plate 415 is fixed to the upper end of the pipe holder 408, and a plurality of teeth 416 are provided on the outer periphery of the stopper plate 415 at appropriate angular intervals. Both sides of each tooth 416 are excised as relief, thereby enabling engagement with the claw piece 414.
[0035]
The single seat is supported on the seat post 114 by inserting the seat pipe 407 into the pipe holder 408. In this case, the single seat can be selectively fixed at a desired angular position by engaging the claw piece 414 with the desired tooth 416 by operating the lever portion 412.
[0036]
Next, the brake pedal 800 will be described in detail. As shown in FIG. 1 to FIG. 3 or FIG. 6, the brake pedal holder 801 is fixed so as to span between the front frame portions 106 of the left and right main frame members 107. The brake pedal 800 is supported by the brake pedal holder 801. That is, the brake pedal holder 801 and the brake pedal 800 are disposed in front of the battery unit 700 disposed between the center frame portions 105 of the main frame 107. Further, in front of the brake pedal holder 801 and the brake pedal 800, a suspension arm bracket 202, a suspension spring 206, and the like constituting the front wheel support mechanism 200 are disposed.
[0037]
As shown in FIG. 11, the brake pedal holder 801 includes a horizontal plane 801a, a pair of vertical surfaces 801b erected in a substantially vertical direction at both ends of the horizontal plane 801a, and an outer side continuous with the upper side of each vertical plane 801b. A pair of support surfaces 801c extending in the direction and a brake cable holding surface 801d extending inward continuously from the side on the rear wheel 2 side of the vertical surface 801b, and left and right support surfaces 801c Are fastened to the main frame member 107 via bolts 802 so as to be placed on the upper surfaces of the left and right main frame members 107, respectively. In the actual vehicle, as shown in FIG. 7, the main frame 103 is inclined in a moderately upward direction, so that the support surface 801c is inclined forward and backward so that the horizontal surface 801c is supported substantially horizontally. Further, a pair of bosses 803 for rotatably supporting the pedal arm portion 800b of the brake pedal 800 are formed inside the left and right vertical surfaces 801b.
[0038]
As shown in FIG. 12, the brake pedal 800 includes a long plate-shaped pedal portion 800a extending in the left-right direction and a pair of left and right pedal arm portions 800b fixed to the back side of the pedal portion 800a. An assembly hole 804 is formed at the lower end. A retainer 806 for connecting the brake cable 805 is provided on the outer surface of each pedal arm portion 800c.
[0039]
In the brake pedal 800 configured as described above, the assembly holes 804 at the lower ends of the left and right pedal arm portions 800b are respectively assembled to the bosses 803 of the left and right brake pedal holders 801, and the brake pedal 800 is rotatably supported. Thereby, the brake pedal 800 protrudes upward at the front portion of the floor, and the pedal portion 800a is disposed so as to face the single seat side. As shown in FIGS. 17 and 18, a pair of left and right cut portions 3b is formed at the front end of the floor panel 3, and the pedal arm portion 800b is positioned in each cut portion 3b.
[0040]
A brake cable 805 is connected to the retainer 806 of the brake pedal 800, and the left and right brake cables 805 are held by the brake cable holding surface 801 d of the brake pedal holder 801, and the rear wheel 2 extends along the lower surface of the main frame member 107. Respectively (see FIGS. 3 and 6).
[0041]
Next, the steering mechanism 500 will be described in detail. In the steering mechanism 500, a steering shaft 501 is rotatably held inside the steering frame 102 via a plurality of holders 502. A steering handle 505 is provided at the upper end of the steering shaft 501. The steering shaft 501 is divided on the way and connected via a universal joint 503, and the upper steering shaft is further inclined toward the single seat. Accordingly, it is possible to arrange the steering handle 505 near the single seat while ensuring a wide floor space.
[0042]
13 and 14 are perspective views around the steering handle 505. FIG. The steering handle 505 has a straight bar portion 505S and side bar portions 505L and 505R extending in a circular arc shape from both left and right ends of the straight bar portion 505S, and has a deformed U shape in which a front portion is notched.
[0043]
A steering handle support portion 512 that extends rearward and bends upward from the middle is provided on the upper side surface of the steering shaft 501. A clamp member 513 is fixed to the tip of the steering handle support portion 512. The clamp member 513 has a hole penetrating left and right, and is divided vertically. The lower clamp member 513a is welded to the tip of the steering handle support portion 512, and the upper clamp member 513b is lower. Fastened to the clamp member 513a via a bolt 514.
[0044]
The center of the straight bar portion 505S of the steering handle 505 is supported so as to be sandwiched between the clamp members 513. Therefore, by loosening the bolt 514, the steering handle 505 can be rotated about the straight bar portion 505S (see arrow R in the figure), and the steering handle 505 can be laid down or stood to adjust to a desired angle. Can do.
[0045]
As described above, the steering handle 505 supported at the position offset from the axis of the steering shaft 501 toward the single seat is laid down, that is, the steering handle is made perpendicular to the steering shaft 501 as shown in FIG. In the state, the center of the steering handle 505 and the axis of the steering shaft 501 are substantially coincident.
[0046]
A bracket 515 is fixed to the left and right side bar portions 505L and 505R of the steering handle 505 by welding or the like toward the inside or slightly below. These brackets 515 support both sides of the accelerator mechanism chassis 504. The accelerator mechanism chassis portion 504 fixed in this manner is positioned slightly recessed inside the steering handle 505.
[0047]
An accelerator lever 506 is disposed on both the left and right sides of the accelerator mechanism chassis portion 504. The accelerator bar 506 is substantially U-shaped, and one side portion 506a is rotatably supported by the side portion of the accelerator mechanism chassis portion 504 with the opening side facing downward. The other side portion 506b is disposed substantially parallel to the side bar portions 505L and 505R below the side bar portions 505L and 505R of the steering handle 505 as an operation lever portion. Therefore, the accelerator lever 506 can be rotated while gripping the side bar portions 505L and 505R of the steering handle 505. In addition, if the other side part 506b of the accelerator bar 506 is formed in a substantially arc shape in accordance with the side bar parts 505L and 505R of the steering handle 505, the upper and lower parts of the side bar parts 505L and 505R of the steering handle 505 are formed. Even when gripping, the accelerator lever 506 can be easily rotated.
[0048]
On both sides of the accelerator mechanism chassis portion 504, there are a holder 516 that rotatably supports the side portion 506a of the accelerator bar 506, a gear set 517 that increases by detecting the rotation of the accelerator bar 506, and a pinion of the gear set 517. An accelerator sensor 518 and an unillustrated spring for maintaining the accelerator lever 506 away from the steering handle 505 side (accelerator off state) are disposed. Then, when the right side portion 506b of the left or right accelerator bar 506 is gripped and rotated around the side portion 506a against the spring, the rotation is transmitted to the accelerator sensor 518 via the gear set 517. Thus, a signal is sent to the main controller 7.
[0049]
Returning to the description of the steering mechanism 500 as a whole, a bracket 507 is attached to the inside of the front end portion of each main frame member 107 of the front frame portion 106, and the lower end of the steering shaft 501 is rotatably supported on the bracket 507. A boss is provided. On the rear side of the steering shaft 501 on the bracket 507, a counter shaft 508 having a gear that meshes with a gear provided at the lower end of the steering shaft 501 is disposed. A tie rod arm 509 is fixed to the counter shaft 508. When the steering shaft 501 is rotated to the right or left, the tie rod arm 509 is rotated to the right or left via the counter shaft 508.
[0050]
In each front wheel 1, the knuckle arm 510 and the tie rod arm 509 fixed to the knuckle 204 are connected to each other via a tie rod 511. By rotating the steering handle 505 right or left, the front wheel 1 is steered right or left via the steering shaft 501, the counter shaft 508, the tie rod arm 509, and the tie rod 511. By providing the counter shaft 508 in this way, the front wheel 1 can be steered in the same direction as the turning direction of the steering handle 505. In this case, the steering angle and the steering force can be appropriately set by appropriately selecting the gear ratio between the gear on the steering shaft 501 side and the gear on the counter shaft 508 side.
[0051]
Next, the brake mechanism provided in each of the power unit 600 and the left and right rear wheels 2 will be described in detail. As described above, the power unit 600 supports the rear wheel 2 in cooperation with the rear wheel support mechanism 300. A battery unit 700 described later supplies power to the power unit 600, and the electric motor 601 is driven.
[0052]
As shown in FIG. 15, an electric motor 601 is fixed to the casing 602 of the power unit 600 via a plurality of bolts 603. A connecting portion 604 that is pivotally supported by the bracket 302 at the rear end of the main frame member 107 is provided at the front end of the casing 602. A connecting portion 605 that connects to the lower end of the shock absorber 303 is provided at the rear end of the casing 602.
[0053]
A shaft 606 disposed in parallel with the output shaft 601 a of the electric motor 601 is rotatably supported in the casing 602, and a pinion 607 at the tip of the output shaft 601 a meshes with a gear 608 on the outer peripheral surface of the shaft 606. A slide gear 609 slidable in the axial direction is provided on the outer peripheral surface of the shaft 606, and is pressed toward the gear 608 by the spring 610 so as to rotate together with the gear 608 and the shaft 606.
[0054]
A shaft 611 disposed in parallel with the shaft 606 is rotatably supported in the casing 602, and the slide gear 609 meshes with the gear 612 on the outer peripheral surface of the shaft 611. Further, the axle 301 of the rear wheel 2 arranged in parallel with the shaft 611 is rotatably supported and protrudes from the casing 602. The gear 613 on the outer peripheral surface of the shaft 611 meshes with the gear 614 on the outer peripheral surface of the axle 301.
[0055]
In the power unit 600 configured as described above, the output of the electric motor 601 is decelerated from the output shaft 601a via the gear group and transmitted to the axle 301, and the rear wheel 2 is driven. In addition, although the structure shown in FIG. 15 is an example and it was made to decelerate in three steps, it is not limited to it.
[0056]
Here, a clutch shaft 615 is disposed in the casing 602 in parallel with the shaft 606 with the output shaft 601a of the electric motor 601 interposed therebetween. One end of the clutch shaft 615 protrudes from the casing 602, and a clutch lever (not shown) is provided at the protruding portion. By operating the clutch lever, the shift fork 617 is shifted via a spiral arm 616 provided on the clutch shaft 615. Then, when the shift fork 617 shifts, the slide gear 609 linked to the shift fork 617 slides against the spring 610, moves away from the gear 608, and cuts off the linkage between the electric motor 601 and the rear wheel 2. Therefore, when the vehicle is pushed by hand, the electric motor 601 can not follow the rotation of the rear wheel 2, and the load at the time of pushing can be reduced.
[0057]
The rear wheel 2 is connected to the axle 301, and a brake drum 903 that is integrated or welded to the rear axle boss 902 that meshes with the output shaft 601 a of the electric motor 601 is inserted into the wheel inner 901 of the rear wheel 2. Yes. A brake panel 904 is provided coaxially with the axle 301 so as to cover the power unit 600 side of the wheel inner 901. The brake panel 904 mounts a pair of brake shoes 905, a brake cam lever 906, an anchor pin 907, and the like.
[0058]
In the brake mechanism thus configured, as shown in FIG. 16, when the brake pedal 800 is depressed, the inner cable 805a of the brake cable 805 is pulled, and the brake cam lever 906 is operated. Accordingly, the cam 908 provided at the lower end of the brake cam lever 906 rotates, and the pair of brake shoes 905 expands around the anchor pin 907 against the spring 909. As a result, the brake shoe 905 is pressed against the inner surface of the brake drum 903, and the rear wheel 2 is braked by the frictional force.
[0059]
Although FIG. 15 shows the power unit 600 and the brake mechanism for the left rear wheel 2, the same power unit 600 and brake mechanism are provided for the right rear wheel 2 as well.
[0060]
Next, the battery unit 700 will be described in detail. In the battery unit 700, as shown in FIG. 8, the main region of the floor (or floor panel) 3 has a height substantially equal to the height of the frame between the frames arranged along both side edges. A battery case 701 is accommodated, and a plurality of secondary batteries 702 are arranged in a row in the battery case 701. In the illustrated example, a plurality of secondary batteries 702 are arranged on the same plane in two rows before and after.
[0061]
Here, the floor 3 is located behind the front wheel 1 and has a width substantially equal to the left-right facing distance of the front wheel 1, and is narrower than the left-right facing distance of the front wheel 1 and smaller than the main floor part 5. The front floor portion 6 extends in front of the main floor portion 5 with a narrow width. A main area of the floor 3 is constituted by a main floor portion 5, and a battery case 701 is disposed in this portion.
[0062]
Further, the center frame portion 105 of the main frame 103 described above extends in the front-rear direction along the left and right side edges of the main floor portion 5. The front frame portion 106 extends in front of the center frame portion 105 at a facing interval that is smaller than the left-right facing interval of the front wheel 1. In this example, a battery case 701 is disposed between main frame members 107 constituting the center frame portion 105.
[0063]
As shown in FIG. 17, the battery case 701 has a substantially thin box shape, and is formed at substantially the same height as the main frame member 107. The battery case 701 is disposed between the main frame members 107 on the lower side of the main floor portion 5. A lithium ion battery is typically used as the dry-type secondary battery 702, but this type of dry-type secondary battery is usually packed by combining a number of cells. In this case, in order to increase the density of the large-sized cell module, so-called stacking is often performed, and as it is, it becomes quite bulky. In this embodiment, as described above, the pair of left and right front wheels 1 is provided, and the main floor portion 5 can be formed in a large area having a width substantially equal to the left-right facing width of the front wheels 1, so A total of eight secondary batteries 702 are arranged in a row. By keeping the width (diameter) of the secondary battery 702 equal to or slightly higher than the height of the main frame member 107, the battery mounting space can be set very thin.
[0064]
As shown in FIG. 18, the bottom of the battery case 701 includes a plurality of concave and convex holding portions formed so as to correspond to the outer shape of the secondary battery 702. In this embodiment, a plurality of meniscus ribs 701a are formed as the holding portions. Since the secondary batteries 702 are arranged on the same plane as described above, the secondary battery 702 needs to be fixed so as not to move in the battery case 701 due to vibration or the like. By providing the half-moon-like ribs 701a, the secondary batteries 702 are properly fixed so as not to interfere with each other.
[0065]
The battery case 701 has flange-shaped attachment portions 701b on both the left and right sides, and is attached to the main frame member 107 with screws or the like in the form of placing the attachment portion 701b on the main frame member 107. In this case, an insertion hole 701c for the mounting screw is provided. A cell controller (substrate) 703 is disposed on the front side of the battery case 701, that is, on the front side of the secondary battery 702 on the front row side via a holder 701d.
[0066]
The cell controller 703 controls the secondary battery 702 (cell) so that no capacity difference or potential difference occurs between them, but is provided perpendicular to the bottom of the battery case 701. Thus, by providing the cell controller 703 vertically between the parts around the front suspension and the secondary battery 702, the space in the front-rear direction can be used effectively. Even if the cell controller 703 is provided vertically, in the actual vehicle, the floor is inclined upward so that it does not protrude downward, and the minimum ground clearance can be effectively secured.
[0067]
As shown in FIGS. 18 and 19, a flat cover 704 is provided over the battery case 701. The cover 704 has a shape aligned with the upper opening of the battery case 701, and a plurality of claw pieces 704a are suspended from the peripheral edge of the lower surface thereof. The battery case 701 is provided with a plurality of engaging portions 701e corresponding to the claw pieces 704a, and the cover 704 is fixed by engaging the claw pieces 704a with the engaging portions 701e. Note that a gasket is attached to a joint portion of the battery case 701 and the cover 704 so that water or dust does not enter the battery case 701. By covering and fixing the cover 704 to the battery case 701 in which the secondary battery 702 is housed, a battery or a battery pack is configured.
[0068]
Further, as shown in FIG. 19, the floor panel 3 is disposed on the upper side of the battery or the battery pack, that is, on the upper side of the cover 704. The floor panel 3 is mounted on the main frame member 107 with screws or the like so as to be placed on the mounting portion 701b of the battery case 701 via a spacer. In this case, an insertion hole 3a for the mounting screw is provided in the peripheral portion of the floor panel 3, and an insertion hole 701f is provided in the attachment portion 701b at a position corresponding to the insertion hole 3a.
[0069]
A substantially flat under guard 705 is disposed below the battery or battery pack, that is, below the battery case 701. The under guard 705 is attached to the bridge member 109 and the bridge member 110 (see FIG. 6 and the like) with screws or the like so as to cover the lower part of the battery case 701. In this case, insertion holes 705a and 705b for the mounting screws are respectively provided in the front edge portion and the rear edge portion of the under guard 705 (FIG. 18).
[0070]
Furthermore, in the small electric vehicle of the present embodiment, referring to each of the above-described drawings, as shown in FIG. 3 and the like, the electric motor of the power unit 600 is shown in the lower first half portion of the single seat seat disposed behind the floor 3. A main controller 7 that electronically controls the power to be supplied to 601 and a charging device 8 for charging the secondary battery 702 of the battery unit 700 are disposed. The main controller 7 and the charging device 8 are covered with a vehicle body cover (not shown) provided integrally and continuously from the floor 3 so as not to be exposed to the outside.
[0071]
A box-like or bag-like baggage storage device 9 is mounted in the space between the pair of left and right rear wheels 2 located behind the main controller 7 and the like. An opening 9a is provided to allow entry and exit. As described above, the single seat is supported so as to be rotatable around the seat post 114 at a position close to the upper side of the seat post 114. By appropriately rotating the single seat, a part or all of the opening 9a of the luggage storage device 9 positioned below the single seat can be covered with the single seat so as to be opened and closed from above.
[0072]
On the other hand, a switch box (operation panel) 10 is attached to an upper portion of the steering frame 102 at a position close to the front of the steering handle 505. The switch box 10 is supported via a substantially key-shaped bracket 11 fixed to the upper end of the steering frame 102 as shown in FIG. 7, for example. The switch box 10 is equipped with various switches. For example, switches such as a forward / reverse switching knob, a speed setting knob, a battery remaining amount indicator and a charging lamp, and left and right blinker switches and horn buttons are disposed.
[0073]
The switch box 10 is moderately inclined at a position close to the front of the steering handle 505. The switch box 10 can easily reach switches necessary for driving operation, and the display contents such as display lamps are easy to see. Therefore, an occupant seated on the single seat can easily and accurately operate the switches of the switch box 10. At that time, the accelerator lever 506 can be appropriately operated as necessary.
[0074]
A cord reel case 12 having a built-in cord reel at a position close to the lower side of the switch box 10 is attached to the steering frame 102. A charging cord urged in the winding direction is wound around the cord reel so as to be unwound, and the charging cord is connected to the charging device 8. When charging the secondary battery 702 of the battery unit 700, the charging cord is fed out from the cord reel case 12, and the charging device 8 is connected to an external power source via the charging cord.
[0075]
The main key 13 is also attached to the upper part of the steering frame 102 by using, for example, a holder 502. The main key 13 is disposed at a position where it can be easily operated by an occupant seated on the single seat. Below the main key 13, a box-shaped or bag-shaped luggage storage device 14 is mounted on the steering frame 102, and an opening is provided above the luggage storage device 14 so that luggage can be taken in and out. Yes.
[0076]
In the above case, each unit is covered with a vehicle body cover formed of plastic or synthetic resin, and is designed so as to obtain a predetermined appearance design as a whole vehicle. In this case, a leg shield or the like may be mounted around the steering frame 102, and a front fender and a rear fender may be mounted around the front wheel 1 and the rear wheel 2, respectively.
[0077]
Furthermore, the actual vehicle is equipped with safety or security parts necessary for traveling. This type of equipment includes headlamps, blinkers, stop lamps, side mirrors, horns, etc., and other parts are equipped as necessary.
[0078]
In actual use of the small electric vehicle configured as described above, an occupant seated on a single seat can grip the steering handle 505 and pull the accelerator lever 506 or step on the brake pedal 800 as necessary to drive the vehicle. . In this case, power is supplied to the power unit 600 from the battery unit 700 housed on the lower side of the floor panel 3, and the rear wheel 2 is driven by the electric motor 601 of the power unit 600, so that the occupant smoothly moves the small electric vehicle. And it can drive properly.
[0079]
In the small electric vehicle of the present embodiment described above, an electromagnetic motor is not incorporated in the electric motor 601 but a brake mechanism is provided for each of the pair of left and right rear wheels 2 and a brake pedal 800 for operating the brake mechanism. Is arranged on the front part of the floor, so that the passenger can perform the brake operation according to his / her own intention without feeling uncomfortable with the operation with his / her foot.
[0080]
In addition, since the brake pedal holder 801 and the brake pedal 800 are arranged so as to span the front of the floor, specifically, the rear between the front frame portions 106 having a facing distance smaller than the left-right facing distance of the front wheel 1, The space can be effectively used to achieve compactness without interfering with the space.
[0081]
Further, by depressing the rectangular pedal portion 800a extending to the left and right of the brake pedal 800, the brake mechanism of the left and right rear wheels 2 acts simultaneously, so that the brake pedal 800 can be operated with either the left or right foot.
[0082]
Furthermore, the brake pedal holder 801 and the brake pedal 800 are disposed in front of the battery unit 700 and behind the suspension arm bracket 202, the suspension spring 206, and the like that constitute the front wheel support mechanism 200. 801 can be protected.
[0083]
As mentioned above, although this invention was demonstrated with various embodiment, this invention is not limited only to these embodiment, A change etc. are possible within the scope of the present invention. For example, in the above-described embodiment, the brake mechanism of the left and right rear wheels 2 acts simultaneously by stepping on the single-plate-shaped pedal portion 800a. However, as shown in FIG. The left and right brake pedals 800L and 800R may be configured.
[0084]
In this case, the left and right brake pedals 800L and 800R include pedal portions 800La and 800Ra, and pedal arm portions 800Lb and 800Rb fixed to the back sides of the pedal portions 800La and 800Ra, respectively. The pedal arm portions 800Lb and 800Rb are linked to the brake mechanism of the left and right rear wheels 2 via a brake cable 805, respectively.
[0085]
In this example, the left and right brake pedals 800L and 800R can be operated independently, and if only one side is depressed, a pivot turn is possible. Alternatively, if the left and right brake pedals 800L and 800R are connected via a connecting member, as described in the above embodiment, if the brake pedals 800L and 800R are depressed with either left or right foot, the left and right rear wheels 2 are connected. You can brake at the same time.
[0086]
【The invention's effect】
As described above, according to the present invention, particularly in a small electric vehicle for use by an elderly person or a handicapped person, a brake mechanism is provided for each of the pair of left and right rear wheels, and the brake mechanism is operated. Since the brake pedal is disposed on the front part of the floor, the passenger can perform the brake operation according to his / her own intention without feeling uncomfortable with the operation with his / her foot.
[Brief description of the drawings]
FIG. 1 is a front perspective view showing a basic configuration in an embodiment of a small electric vehicle of the present invention.
FIG. 2 is a rear perspective view showing a basic configuration in the embodiment of the small electric vehicle of the present invention.
FIG. 3 is a side view showing a basic configuration in an embodiment of a small electric vehicle of the present invention.
FIG. 4 is a plan view showing a basic configuration in an embodiment of the small electric vehicle of the present invention.
FIG. 5 is a front view showing a basic configuration in an embodiment of the small electric vehicle of the present invention.
FIG. 6 is a perspective view showing the periphery of the frame unit, the battery unit, and the brake pedal in the embodiment of the small electric vehicle of the present invention.
FIG. 7 is a side view showing the periphery of the frame unit in the embodiment of the small electric vehicle of the present invention.
FIG. 8 is a plan view showing the periphery of the frame unit in the embodiment of the small electric vehicle of the present invention.
FIG. 9 is a perspective view showing the front wheel support mechanism and the like in the embodiment of the small electric vehicle of the present invention.
FIG. 10 is a perspective view showing the periphery of the single seat seat rotation mechanism in the embodiment of the small electric vehicle of the present invention.
11A and 11B are diagrams showing a brake pedal holder, where FIG. 11A is a plan view, FIG. 11B is a front view, and FIG. 11C is a side view.
12A and 12B are diagrams showing a brake pedal, where FIG. 12A is a side view and FIG. 12B is a front view.
FIG. 13 is a perspective view showing the periphery of the steering handle in the embodiment of the small electric vehicle of the present invention.
FIG. 14 is a side view showing the periphery of the steering handle in the embodiment of the small electric vehicle of the present invention.
FIG. 15 is a sectional view showing the periphery of a power unit and a brake mechanism.
FIG. 16 is a diagram for explaining a brake mechanism.
FIG. 17 is a perspective view showing a battery unit in the embodiment of the small electric vehicle of the present invention.
FIG. 18 is an exploded perspective view showing a battery unit in the embodiment of the small electric vehicle of the present invention.
FIG. 19 is a side view showing a battery unit in the embodiment of the small electric vehicle of the present invention.
FIG. 20 is a view showing another example of a brake pedal.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Front wheel 2 Rear wheel 3 Floor panel 7 Main controller 8 Charging apparatus 9 Luggage storage apparatus 10 Switch box 100 Frame unit 101 Car body frame 102 Steering frame 103 Main frame 104 Rear frame 105 Center frame part 106 Front frame part 200 Front wheel support mechanism 300 Rear Wheel support mechanism 400 Seat unit 500 Steering mechanism 600 Power unit 700 Battery unit 800 Brake pedal 800a Pedal part 800b Pedal arm part 801 Brake pedal holder 805 Brake cable

Claims (4)

A single-seat seat supported on a frame, a floor configured on the frame in front of the single-seat seat, and a pair of left and right provided in front of the floor as steering wheels that swing left and right by a handle operation A small electric vehicle comprising: a front wheel; a pair of left and right rear wheels provided at a lower rear portion of the single seat as drive wheels driven by a power unit; and a secondary battery that supplies power to the power unit,
The frame includes a left and right main frame having a center frame portion extending front and rear on both left and right sides of the vehicle body, and a front frame portion extending in front of the center frame portion and having a facing interval smaller than a left and right facing interval of the front wheels. It is composed of a frame and the single seat that extends rearward from the center frame portion, the power unit, and a rear frame that supports the rear wheel, and the floor is configured on the main frame,
A brake mechanism is provided for each of the pair of left and right rear wheels, and a brake pedal holder is fixed so as to span between the left and right main frames, and the brake pedal is supported by the brake pedal holder so that the brake pedal is supported on the front portion of the floor. A small electric vehicle characterized by being arranged. Wherein the secondary battery supplies power to the power unit is mounted between the center frame portion of the left and right main frames, to claim 1, wherein the brake pedal holder, characterized in that disposed in front of said secondary battery The described small electric vehicle. The small electric vehicle according to claim 2 , wherein at least a part of the front wheel support mechanism is disposed in front of the brake pedal holder below the front frame portion of the left and right main frames. The brake pedal is composed of a pair of left and right brake pedals arranged adjacent to each other, and the left brake pedal is fixed to the pedal portion and the back side of the pedal portion, and the left rear brake mechanism The right brake pedal is composed of a pedal portion and a pedal arm portion fixed to the back side of the pedal portion and linked to the brake mechanism of the right rear wheel , The small electric vehicle according to any one of claims 1 to 3 , wherein left and right brake mechanisms respectively provided on left and right rear wheels as drive wheels are formed so as to be able to act independently .

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