JP7458956B2 - Electric Tractor - Google Patents

Description

The present invention relates to an electric tractor.

BACKGROUND ART Conventionally, an electric tractor disclosed in Patent Document 1 has been known.
The electric tractor disclosed in Patent Document 1 is a tractor that uses an electric motor to drive a traveling device that supports a vehicle body so that it can travel. An electric tractor is provided with a battery that supplies power to an electric motor and a charging connector that charges the battery. The battery can be charged by connecting a power supply connector installed in external power supply equipment to the charging connector.

Japanese Patent Application Publication No. 2013-68177

In the electric tractor disclosed in Patent Document 1, since a charging connector is provided at the back of a cylinder holder having a key cylinder into which a starter key is inserted, it is troublesome to charge the battery.
SUMMARY OF THE INVENTION In view of the above-mentioned problems, an object of the present invention is to provide an electric tractor in which a charging connector is provided in the driving section, and the battery can be easily charged.

An electric tractor according to one aspect of the present invention includes a driving section including a driver's seat and a control section provided around the driver's seat, a vehicle body on which the driving section is mounted, and a vehicle that supports the vehicle body so that the vehicle can travel. A device, an electric motor that drives the traveling device, a battery that supplies power to the electric motor, a charging connector for charging the battery, and a connector bracket to which the charging connector is attached. , the control unit includes an operation member and a cover body that covers a lower side of the operation member, and the charging connector is disposed on an outer surface of the cover body so as to be exposed to the outside of the control unit. The connector bracket has a connector mounting part to which a charging connector is mounted outside the cover body, and a mounting wall part to be mounted to a mounting part provided inside the cover body.

The charging connector is disposed on a side surface of the cover body so as to face outward in the vehicle width direction.
In addition, the operating section includes a steering operation member as the operating member arranged in front of the driver's seat, and a front cover as the cover body that covers the lower side of the steering operation member, and the charging connector is arranged on the upper part of the outer surface of the front cover.

Further, the steering operation member includes a steering handle, and the charging connector is disposed in front of the steering handle.
Further, the charging connector is disposed on the outer surface of the front cover at approximately the same height as the seat of the driver's seat.
The electric tractor also includes a driving section including a driver's seat and a control section provided around the driver's seat, a vehicle body on which the driving section is mounted, a traveling device that supports the vehicle body so that the vehicle can travel, and a driving device that supports the vehicle body so that the vehicle can travel. The control unit includes an electric motor that drives the device, a battery that supplies power to the electric motor, a charging connector for charging the battery, and a connector bracket to which the charging connector is attached. , a steering operation member disposed in front of the driver's seat, and a front cover that covers a lower side of the steering operation member, and the charging connector is disposed on an outer surface of the front cover and outwardly of the operation section. The connector bracket is arranged to be exposed, and the connector bracket includes a connector mounting part to which a charging connector is mounted on the outside of the front cover, and a mounting wall part to be mounted to a mounting part provided on the inside of the front cover. have.

Further, the connector bracket has a mirror attachment portion to which a side mirror is attached.
Further, the connector bracket has a lamp attachment portion to which an indicator lamp is attached.

According to the electric tractor described above, the charging connector for charging the battery that supplies power to the electric motor for traveling is arranged on the outer surface of the cover body of the control section so as to be exposed to the outside of the control section. This makes it easy to charge the battery.

FIG. 1 is a schematic side view of an electric tractor. FIG. 1 is a schematic plan view of an electric tractor. FIG. 3 is a side view showing the configuration of a battery support section and an inverter support section. It is a perspective view showing the composition of a battery support part and an inverter support part. FIG. 3 is a perspective view of a vehicle body frame and a support frame. FIG. 3 is a perspective view of a vehicle body frame and a rear frame portion. FIG. 3 is a rear perspective view of the rear frame portion. FIG. 4 is a perspective view of the battery support portion as viewed from above. FIG. 3 is a perspective view of the battery support section viewed from below. FIG. 3 is a perspective view of the inverter support section viewed from above. FIG. 3 is a perspective view of the inverter support section viewed from below. FIG. 3 is a side view showing the arrangement relationship between an electric motor and an inverter. FIG. 2 is a perspective view showing a structure for transmitting power from an electric motor to a hydraulic pump. FIG. 2 is a perspective view of the mounted components installed on the front part of the vehicle body frame, seen diagonally from the front right. FIG. 3 is a perspective view of the mounted components installed on the front part of the vehicle body frame, seen diagonally from the rear left. FIG. 3 is a perspective view of the front part of the driving unit seen diagonally from the rear right. FIG. 3 is a side view of the front part of the driving section. FIG. 3 is a plan view of the front part of the driving section. FIG. 3 is a rear view of the front part of the driving section. FIG. 3 is an exploded perspective view showing the mounting structure of the charging connector.

An embodiment of the present invention will be described below with appropriate reference to the drawings.
FIG. 1 is a schematic side view showing the overall configuration of an electric tractor 1 according to the present embodiment. FIG. 2 is a schematic plan view of the electric tractor 1. The electric tractor 1 is a tractor that uses an electric motor 4 to drive a traveling device 3 that supports a vehicle body 2 so that it can travel.
In this embodiment, the arrow A1 direction (forward direction of the electric tractor 1) in FIGS. 1 and 2 is forward, the arrow A2 direction (reverse direction of the electric tractor 1) in FIGS. The direction of arrow A3 of No. 2 will be explained as the front-rear direction. Therefore, the back side of FIG. 1 (direction of arrow B1 in FIG. 2) is the left side, and the front side of FIG. 1 (direction of arrow B2 in FIG. 2) is the right side. Further, the direction of arrow B3 in FIG. 2 will be described as the vehicle width direction (the width direction of the electric tractor 1). The direction from the central portion of the electric tractor 1 in the vehicle width direction to the left or right will be described as the outward direction in the vehicle width direction. That is, outward in the vehicle width direction is a direction away from the center of the electric tractor 1 in the vehicle width direction. Further, the direction opposite to the outward direction in the vehicle width direction will be described as the inward direction in the vehicle width direction. That is, inward in the vehicle width direction is a direction approaching the center of the electric tractor 1 in the vehicle width direction.

As shown in FIGS. 1 and 2, the electric tractor 1 has a ROP 5 as a driver protection device. That is, the electric tractor 1 is a type of electric tractor 1 that does not have a cabin surrounding the driver's seat 6.
As shown in FIGS. 1 and 2, the electric tractor 1 has a vehicle body 2 supported by a traveling device 3 so as to be movable. The traveling device 3 includes left and right front wheels 3A arranged at the front of the electric tractor 1 and left and right rear wheels 3B arranged at the rear of the electric tractor 1. The front wheels 3A are steering wheels (steering wheels). The rear wheel 3B is covered by a fender 7. Note that the traveling device 3 is not limited to a wheel-type traveling device 3, and may be a crawler-type traveling device 3.

As shown in FIG. 1, the vehicle body 2 includes an electric motor 4, a vehicle body frame 8, and a transmission case 9. The electric motor 4 is a power source that drives the traveling device 3. The electric motor 4 is arranged at the center of the electric tractor 1 in the vehicle width direction, in front of the driver's seat 6 and a front control section 11A, which will be described later. The body frame 8 projects forward from the electric motor 4 and is supported by the left and right front wheels 3A. The transmission case 9 is arranged at a distance behind the electric motor 4, and is supported by the left and right rear wheels 3B. The transmission case 9 includes, for example, a transmission case, a differential case, and the like. Inside the transmission case 9, there is a transmission that changes the speed of the rotational power transmitted from the electric motor 4 via the transmission shaft 15, a transmission mechanism that transmits the power changed by the transmission to the rear wheels 3B, and a transmission mechanism that changes the speed of the rotational power transmitted from the electric motor 4 via the transmission shaft 15. A power extraction mechanism and the like that extracts the generated power to be transmitted to the front wheels 3A are housed therein. The electric motor 4, the vehicle body frame 8, and the transmission case 9 are interconnected by a connection frame (not shown).

Note that the rear part of the transmission case 9 is equipped with a mounting mechanism (not shown) such as a three-point link mechanism for removably connecting a working machine, and a hydraulic mechanism for raising and lowering the mounting mechanism (working machine).
A driver's seat 6 and a driver's section 10 including the area around the driver's seat 6 are mounted on the vehicle body 2. The area around the driving section 10 is open. The driver's seat 6 is arranged above the transmission case 9 and is supported by the transmission case 9. The driver's seat 6 has a seat portion 6A on which an operator sits, and a backrest portion 6B that projects upward from the rear of the seat portion 6A and supports the operator's back. The driver section 10 includes a control section (front control section) 11A disposed in front of the driver's seat 6 and a control section (side control section) 11B disposed on the left and right sides of the driver's seat 6. There is.

The front steering section 11A includes a steering handle 12 for steering the left and right front wheels 3A. The side control section 11B includes an operation lever (operation member) 13 and a cover body 14 that covers the lower side of the operation lever 13. Examples of the operating lever 13 include a sub-shift lever that changes the speed of a sub-transmission mechanism of a transmission, a PTO lever that operates a PTO shaft that transmits power to a working machine mounted at the rear of the electric tractor 1, and a PTO lever that controls the top and bottom of the working machine. These include a position lever that sets the position in a direction, and a control lever that operates the above-mentioned working machine.

In front of and below the driver's seat 6, a floor 16 is provided on which the operator's feet are placed. A speed change pedal 17 for changing the speed of the traveling device 3 is arranged on the right side of the floor 16.
As shown in FIGS. 1 and 2, the electric tractor 1 includes a battery 18 that supplies power to the electric motor 4, and an inverter 19 that converts DC power from the battery 18 into AC power and supplies it to the electric motor 4. We are prepared. The battery 18 is a battery 18 for running.

As shown in Figures 1 to 4, the battery 18 is disposed above the electric motor 4 and above the vehicle body frame 8. More specifically, the battery 18 is disposed above the electric motor 4 and the vehicle body frame 8 so as to overlap the electric motor 4 and the vehicle body frame 8 in the vertical direction (in a plan view). The battery 18 is covered by an openable and closable bonnet 20 disposed in front of the driver's seat 6. The vehicle body frame 8 is disposed below the bonnet 20.

As shown in FIG. 2, the electric motor 4 is disposed below the rear side of the battery 18, and its rear portion protrudes further rearward than the battery 18. As shown in FIG. 3, a connector (motor side connector) 4A is provided on the front side of the electric motor 4. The motor-side connector 4A is a three-phase connector in this embodiment. The motor side connector 4A is provided at the front lower part (front lower part) of the electric motor 4.

As shown in FIG. 3, the inverter 19 is disposed between the battery 18 (a battery support section 24 described later) and the vehicle body frame 8 and in front of the electric motor 4. The inverter 19 is arranged so as to overlap the electric motor 4 in the front-rear direction. Specifically, the inverter 19 is arranged such that the inverter main body 19A overlaps the upper part of the electric motor 4 in the front-rear direction. Further, the inverter 19 is arranged below the front part of the battery 18 so as to overlap the battery 18 in the vertical direction. A connector (inverter side connector) 19B is provided on the lower side of the inverter 19 and is connected to the motor side connector 4A by wiring (three-phase wiring, see FIG. 12) 21. The inverter-side connector 19B is a three-phase connector in this embodiment. The inverter-side connector 19B is provided on the lower surface side of the rear part of the inverter 19, and protrudes downward from the inverter main body 19A.

As shown in FIGS. 3, 4, and 5, the electric tractor 1 has a support frame 22 attached to the vehicle body frame 8. As shown in FIGS. A battery 18 and an inverter 19 are attached to and supported by this support frame 22.
As shown in FIG. 6, the vehicle body frame 8 mainly includes a first side plate 8A, a second side plate 8B, and a front plate 8C. The first side plate 8A and the second side plate 8B are arranged so that the plate surfaces face the vehicle width direction, and are arranged side by side with an interval in the vehicle width direction.

As shown in FIG. 4, the first side plate 8A projects forward from one side of the electric motor 4 in the vehicle width direction. The second side plate 8B extends forward from the other side of the electric motor 4 in the vehicle width direction and faces the first side plate 8A in the vehicle width direction.
The front plate 8C is arranged so that its plate surface faces in the front-rear direction, and is fixed to the front portions of the first side plate 8A and the second side plate 8B. Specifically, the front plate 8C is provided from the front end of the first side plate 8A to the front end of the second side plate 8B, and connects the front ends of the first side plate 8A and the second side plate 8B.

Further, the vehicle body frame 8 includes connection plates 8D, 8E and reinforcing plates 8F, 8G. A plurality of connection plates 8D and 8E are provided, and the plurality of connection plates include a front connection plate 8D and a rear connection plate 8E. The front connecting plate 8D is arranged so that its plate surface faces in the vertical direction, and connects the front lower end sides of the first side plate 8A and the second side plate 8B behind the front plate 8C. The rear connecting plate 8E is arranged so that its plate surface faces in the vertical direction, and connects the vertical midway portions of the first side plate 8A and the second side plate 8B behind the front connecting plate 8D. A notch 8Ea that is open at the rear is formed at the rear of the rear connection plate 8E in order to prevent interference with the motor-side connector 4A of the electric motor 4. The reinforcing plate 8F is arranged on one end side of the rear connecting plate 8E and above the rear connecting plate 8E, and is fixed inside the first side plate 8A. The reinforcing plate 8G is arranged on the other end side of the rear connecting plate 8E and above the rear connecting plate 8E, and is fixed inside the second side plate 8B.

As shown in FIG. 5, the support frame 22 includes a rear frame portion (frame member) 23, a battery support portion 24, and an inverter support portion 25.
As shown in FIGS. 6 and 7, the rear frame section 23 includes a main frame 26, an upper frame 27, and a support section 28.
The main frame 26 has a first support member 29, a second support member 30, and a connecting frame 31. The first support member 29 constitutes one side of the main frame 26 in the vehicle width direction. The second support member 30 constitutes the other side of the main frame 26 in the vehicle width direction. The connection frame 31 connects the first support member 29 and the second support member 30. The connection frame 31 includes a first vertical member 31A fixed to the front side of the first support member 29, a second vertical member 31B fixed to the front side of the second support member 30, and a first vertical member 31A. It has a first horizontal member 31C that connects the upper parts of the second vertical members 31B, and a second horizontal member 31D that connects the middle parts of the first vertical member 31A and the second vertical member 31B. As shown in FIG. 5 , a regulation plate 32 including a regulation part 32 a that projects forward from the second column member 30 is fixed to the upper part of the second column member 30 .

7, a mounting plate 33 is fixed to the upper rear surface of the first support member 29 and the upper rear surface of the second support member 30 in a rearward protruding manner. The mounting plate 33 has a vertical plate portion 33a arranged so that the plate surface faces the vehicle width direction, and an extending plate portion 33b extending inward in the vehicle width direction from the upper end of the vertical plate portion 33a.
6 and 7, the upper frame 27 is attached onto the first horizontal member 31C. The upper frame 27 is provided with a support pin 34 that supports the upper part of the rear side of the bonnet 20 so as to be rotatable about an axis extending in the vehicle width direction.

The support portion 28 has a support plate 35 that protrudes forward from the lower portion of the main frame 26, and a support leg 36 provided on the lower surface side of the support plate 35. The support plate 35 has a main plate portion 35a arranged so that the plate surface faces the up-down direction, and an extension plate portion 35b extending downward from the front end of the main plate portion 35a. As shown in FIG. 3, the support plate 35 is disposed above the electric motor 4. Reinforcing plates 37 are fixed to the left and right of the lower surface of the main plate portion 35a. The support legs 36 are provided on the left and right of the lower surface side of the front part of the support plate 35, respectively. The support legs 36 are fixed to the vehicle body frame 8. More specifically, the left support leg 36L is fixed to the rear upper end side of the first side plate 8A, and the right support leg 36R is fixed to the rear upper end side of the second side plate 8B.

Note that the rear portion of the support portion 28 (support plate 35) is supported on the vehicle body 2 side via a support member.
As shown in FIGS. 8 and 9, the battery support section 24 includes a mounting plate 38 on which the battery 18 is mounted, and a mounting bracket 39 that projects downward from the mounting plate 38. As shown in FIG. 3, the mounting plate 38 has its plate surface facing in the vertical direction and is disposed above the electric motor 4 and the vehicle body frame 8, with its rear portion superimposed on the support plate 35. Therefore, the rear part of the mounting plate 38 (the rear part of the battery support part 24) is supported by the support part 28. The rear end side of the mounting plate 38 is attached to the support plate 35 with bolts or the like.

As shown in FIGS. 8 and 9, a first side plate 41 extending in the longitudinal direction is fixed to one side of the mounting plate 38 in the vehicle width direction, and a first side plate 41 extending in the longitudinal direction is fixed to the other side of the mounting plate 38 in the vehicle width direction. A second side plate 42 is fixed, a front plate 43 extending in the vehicle width direction is fixed to the front part of the mounting plate 38, and a rear plate 44 extending in the vehicle width direction is fixed to the rear part of the mounting plate 38. . The first side plate 41, the second side plate 42, and the front plate 43 are fixed to the end of the mounting plate 38 at midpoints in the vertical direction of the plate surfaces, and protrude vertically from the mounting plate 38. The rear plate 44 is fixed to the upper surface of the mounting plate 38. The battery 18 placed on the mounting plate 38 is restricted from moving backward by the rear plate 44, and is removably attached to the first side plate 41, second side plate 42, and front plate 43 with bolts or the like. Further, the battery 18 is also fixed to the regulating portion 32a of the regulating plate 32 on the upper part of the second support member 30 with bolts or the like (see FIG. 3).

As shown in FIGS. 8 and 9, in this embodiment, a plurality of mounting brackets 39 are provided and are arranged below the mounting plate 38. Specifically, the plurality of mounting brackets 39 include a first bracket 39A disposed in the middle part of the inner side of the first side plate 41 in the front-rear direction, and a second bracket 39A arranged in the middle part of the inner side of the second side plate 42 in the front-rear direction. It includes a bracket 39B, a third bracket 39C disposed on the left side inside the front plate 43, and a fourth bracket 39D disposed on the right side inside the front plate 43. In this embodiment, the first bracket 39A and the second bracket 39B are made of channel steel, and the third bracket 39C and fourth bracket 39D are made of angle steel. It is not limited to this.

The first bracket 39A to the fourth bracket 39D are attached to the first side plate 41, the second side plate 42, and the front plate 43 via a mounting frame 45. The mounting frame 45 includes a first plate 45A attached to the inside of the first side plate 41 with bolts or the like, a second plate 45B attached to the inside of the second side plate 42 with bolts or the like, and a second plate 45B attached to the inside of the front plate 43 with bolts or the like. It has a third plate material 45C to be attached. The first bracket 39A is fixed to the rear part of the first plate material 45A, the second bracket 39B is fixed to the rear part of the second plate material 45B, the third bracket 39C is fixed to the left part of the third plate material 45C, and the fourth bracket 39D is fixed to the right side of the third plate member 45C.

As shown in FIGS. 3 and 5, the inverter support section 25 is arranged below the front part of the mounting plate 38, is fixed to the vehicle body frame 8, and supports the front part of the mounting plate 38.
As shown in FIGS. 10 and 11, the inverter support section 25 includes a support plate 46 and a support stay 47 that projects upward from the support plate 46. The support plate 46 is arranged below the mounting plate 38 at a distance (see FIG. 3). Further, the support plate 46 is arranged so that its plate surface faces in the vertical direction, and is provided across the upper end of the first side plate 8A and the upper end of the second side plate 8B. A notch 46a that is open toward the front is formed in the front of the support plate 46. A notch 46b that is open to the rear is formed at the rear of the support plate 46. The left portion of the support plate 46 projects leftward from the first side plate 8A. The right portion of the support plate 46 protrudes rightward from the second side plate 8B. Attachments 48 are fixed to the front and rear portions of the lower surface of the right protruding portion of the support plate 46. A similar fixture 48 is also fixed to the lower surface of the left protruding portion of the support plate 46. A fixture 48 on the left side of the support plate 46 is attached to the first side plate 8A with a bolt or the like, and a fixture 48 on the right side of the support plate 46 is attached to the second side plate 8B with a bolt or the like. As a result, the inverter support portion 25 is attached to the vehicle body frame 8.

A plurality of support stays 47 are provided. The plurality of support stays 47 include a first stay 47A, a second stay 47B, a third stay 47C, and a fourth stay 47D. In this embodiment, the first stay 47A and the second stay 47B are formed of channel steel, and the third stay 47C and the fourth stay 47D are formed of angle steel. This is not limited to this. The first stay 47A is fixed to a position corresponding to the mounting fixture 48 at the rear of the left part of the support plate 46. The second stay 47B is fixed to a position corresponding to the mounting fixture 48 at the rear of the right part of the support plate 46. The third stay 47C is fixed to a position corresponding to the mounting fixture 48 at the front of the left part of the support plate 46. The fourth stay 47D is fixed to a position corresponding to the mounting fixture 48 at the front of the right part of the support plate 46.

A first bracket 39A is attached to the first stay 47A, a second bracket 39B is attached to the second stay 47B, a third bracket 39C is attached to the third stay 47C, and a fourth bracket 39D is attached to the fourth stay 47D. (See Figures 3, 4, and 5). Thereby, the battery support part 24 is attached to the inverter support part 25 so that a space in which the inverter 19 can be placed is formed between the mounting plate 38 and the support plate 46.

The inverter main body 19A is placed on the support plate 46 and attached to the support plate 46 so that its position can be adjusted in the longitudinal direction. The inverter side connector 19B is provided on the lower surface side of the front part of the inverter 19, and protrudes downward from the inverter main body 19A, and also protrudes downward from the support plate 46 (inverter support part 25) via the notch 46a. .

As shown in FIGS. 3 and 12, the motor side connector 4A and the inverter side connector 19B are arranged between the first side plate 8A and the second side plate 8B. According to this configuration, the motor-side connector 4A, the inverter-side connector 19B, and the wiring 21 can be protected by the first side plate 8A and the second side plate 8B. Further, it is possible to prevent damage to the motor-side connector 4A, inverter-side connector 19B, and wiring 21, and to improve reliability.

As shown in FIG. 12, the wiring connection port of the motor side connector 4A faces forward, and the wiring connection port of the inverter side connector 19B faces backward. In other words, the motor side connector 4A and the inverter side connector 19B face each other in the front-to-rear direction. In addition, the motor side connector 4A and the inverter side connector 19B are arranged so as to overlap in the front-to-rear direction. Therefore, the motor side connector 4A and the inverter side connector 19B can be connected via a short path, which can suppress heat generation in the wiring 21 and improve the efficiency of the system. In addition, by shortening the wiring 21, costs can be reduced. In addition, because the wiring 21 is short and bending can be minimized, the possibility of the wiring 21 being damaged by external factors can be reduced, and reliability can be improved.

As shown in FIG. 12, a water pump 94 is attached to the front connection plates 8D and 8E of the vehicle body frame 8. The water pump 94 is a pump that circulates cooling water that cools the electric motor 4, the inverter 19, the voltage converter described later, and the like.
As shown in FIGS. 3 and 4, a hydraulic pump P1 driven by the electric motor 4 is arranged on the side of the electric motor 4. Hydraulic pump P1, for example, sucks oil in transmission case 9 and supplies the oil to each hydraulic drive unit as hydraulic oil. As shown in FIG. 13, a power transmission mechanism 49 is provided on the rear side of the electric motor 4 and the hydraulic pump P1, and the power transmission mechanism 49 transmits power from the electric motor 4 to the hydraulic pump P1. As shown in FIG. 4, the power transmission mechanism 49 is covered by a cover case 61. The cover case 61 is formed to be open at the front.

As shown in FIG. 13, the power transmission mechanism 49 is configured by a gear transmission mechanism. The power transmission mechanism 49 is arranged between an output gear 51 that is connected to the output shaft of the electric motor 4 and rotates, an input gear 52 that is connected to the input shaft of the hydraulic pump P1, and between the output gear 51 and the input gear 52. and one or more transmission gears 53 that transmit power from the output gear 51 to the input gear 52. The output gear 51, the input gear 52, and the transmission gear 53 are formed by spur gears and rotate about an axis extending in the front-rear direction. It is not limited to this. In this embodiment, a plurality of transmission gears 53 are provided, and the plurality of transmission gears 53 include a first gear 53A that meshes with the output gear 51, a second gear 53B that meshes with the first gear 53A, a second gear 53B, and an input gear 53B. It is configured with three gears including a third gear 53C that meshes with the gear 52.

As shown in FIGS. 14 and 15, in front of the battery support part 24 and in the front part of the vehicle body frame 8, a radiator R1, a voltage converter (DCDC converter) C1, a battery BT for auxiliary equipment, a reserve tank R2, A cooling fan device F1, an oil cooler O1, etc. are attached and supported.
As shown in FIG. 14, the radiator R1, the voltage converter C1, and the accessory battery BT are arranged side by side in the vehicle width direction from the left. The reserve tank R2 is arranged above the auxiliary machine battery BT. As shown in FIG. 15, the cooling fan device F1 is arranged behind the radiator R1, and the oil cooler O1 is arranged behind the cooling fan device F1.

The radiator R1 is a radiator that cools the cooling water circulated by the water pump 94 with cooling air generated by the cooling fan device F1. The voltage converter C1 is a device that steps down the voltage of the electric power sent from the battery 18 and supplies it to the auxiliary battery BT. The auxiliary battery B1 is a storage battery that supplies power to various electrical devices such as the cooling fan device F1, a control device that controls electrical devices such as the inverter 19 and the electric motor 4, and lamps. The reserve tank R2 is a tank that stores cooling water that escapes from the radiator R1 at high temperatures. The oil cooler O1 is a radiator that cools hydraulic oil for operating hydraulic equipment and the like using cooling air generated by the cooling fan device F1.

As shown in FIGS. 16 to 19, a charging connector 90 for charging the battery 18 is provided in the front control section 11A of the driving section 10. As shown in FIG. 17, the front control section 11A includes a steering operation device 91 including a steering handle 12, and a front cover (cover body) 92 that covers the lower side of the steering operation device 91. The front cover (front control section 11A) 92 is disposed above the vehicle body 2 and is mounted on the vehicle body. That is, the front cover 92 is installed upright on the vehicle body 2. Further, the front cover 92 is provided so as to protrude upward from the floor 16. The steering handle 12 is arranged at the upper part of the back surface of the front cover 92. An instrument panel 54 having a monitor, various meters, various switches, etc. is provided on the upper part of the front cover 92. The instrument panel 54 is provided with a battery level meter that displays the amount of charge of the battery 18. The front cover 92 is disposed at the rear of the bonnet 20 and close to the bonnet 20, and is formed to be open toward the front. Further, the rear end of the bonnet 20 is open to the rear. Therefore, the front cover 92 and the bonnet 20 are in communication. Further, the rear frame section 23 (main frame 26) of the support frame 22 is arranged at the rear end side of the bonnet 20, and the mounting plate 33 provided on the rear frame section 23 is inserted into the front cover 92. has been done.

As shown in FIG. 17, the steering operation device 91 includes a steering operation member (operation member) 86 including the steering handle 12 and the steering shaft 56, a steering post 57 that supports the steering shaft 56, and a universal joint 62 on the steering shaft 56. The steering valve 58 includes a steering valve 58 connected to the steering valve 58 via a frame member 59 that supports the steering post 57, the steering valve 58, and the like. Therefore, the front cover 92 covers the lower side of the steering operation member 86. The frame member 59 is attached to and supported by a member attached to the vehicle body 2 side, such as the rear frame portion 23.

In the above-mentioned steering operation device 91, when the steering handle 12 is rotated, the steering valve 58 is operated via the steering shaft 56 and the universal joint 62, and the steering valve 58 supplies hydraulic oil supplied from the hydraulic pump P1 to a steering cylinder (not shown) that steers the front wheels 3A.
As shown in Figs. 16 to 19, the charging connector 90 is disposed on the outer surface side of the front cover 92 (cover body) and is exposed to the outside of the front cover 92 (front steering section 11A). The charging connector 90 is disposed on the side surface side (right side surface side) of the front cover 92 so as to face outward (rightward) in the vehicle width direction. As shown in Fig. 17, the charging connector 90 is disposed forward and below the steering wheel 12. As shown in Fig. 1, the charging connector 90 is disposed on the upper part of the outer surface of the front cover 92, at a position approximately the same height as the seat portion 6A of the driver's seat 6. The right side of the front cover 92 is open, and a foot can be placed on the floor 16 below the charging connector 90 when charging. A space allowing passage is formed between the front cover 92 and the fender 7.

As shown in FIG. 18, the charging connector 90 includes a connector body 96 having a connection terminal portion 96a, a cap 97 that opens and closes the connection terminal portion 96a side of the connector body 96, and a wiring terminal portion 96b. are doing.
The connection terminal portion 96a is a portion to which a power supply connector 64 installed in an external power supply facility such as a charging facility called a charging station or a charging station, or a charging facility installed in a house is connected to the connection terminal portion 96a.

The connector body 96 is disposed outward (to the right) of the steering wheel 12 in the vehicle width direction and outward of the driver's seat 6 in the vehicle width direction.
As shown in Fig. 17, the cap 97 is attached to the connector body 96 so that a pivot part 97a provided at the front part rotates about a vertical axis (an axis extending in the up-down direction). A locking device 98 is provided at the rear of the cap 97 to releasably engage with the cap 97 and regulate the opening movement of the cap 97. The locking device 98 is pivotally supported on the connector body 96, and the regulation of the opening movement of the cap 97 can be released by rotating the locking device 98 about the vertical axis. By opening the cap 97 forward about the vertical axis, the connection terminal part 96a of the connector body 96 can be exposed outward in the vehicle width direction.

As shown in FIG. 18, the wiring terminal portion 96b protrudes from the rear of the connector body 96 and is inserted into the front cover 92. The wiring terminal portion 96b is the portion to which the connection wiring that connects the charging connector 90 and the battery 18 is connected. When the power supply connector 64 on the external power source side is connected to the connection terminal portion 96a, electricity is charged from the wiring terminal portion 96b through the connection wiring to the battery 18.

As shown in FIGS. 16 and 17, an indicator lamp 101 and a side mirror 100 are arranged on the front side of the charging connector 90. The display lamp 101 is, for example, a combination lamp configured by combining a plurality of lamps. Lamps that make up the combination lamp include position lamps, turn signal lamps, hazard lamps, and the like. The side mirror 100 is a mirror that visually recognizes the rear side of the vehicle body 2. The indicator lamp 101 and the mirror body 100a of the side mirror 100 are located in front of the charging connector 90 and further outward than the charging connector 90 in the vehicle width direction.

As shown in FIG. 20, the charging connector 90 is attached to a connector bracket 93. The connector bracket 93 has a first bracket member 66 and a second bracket member 67. The first bracket member 66 has a mounting wall portion 66a that is attached by overlapping with the vertical plate portion 33a of the mounting plate (mounting portion) 33 provided on the rear frame portion 23, an extension wall portion 66b that extends outward in the vehicle width direction from the front end of the mounting wall portion 66a, a lamp mounting portion 66c that extends rearward from the extension end (the end portion on the outer side in the vehicle width direction) of the extension wall portion 66b, and a reinforcing member 69 made of a pipe material or the like that connects the mounting wall portion 66a and the lamp mounting portion 66c. The extension wall portion 66b protrudes outward in the vehicle width direction from the inside side of the front cover 92, and a mounting hole 68 is formed in the protruding portion of the extension wall portion 66b.

The second bracket member 67 includes a first member 71 attached to the first bracket member 66 and a second member 72 fixed to the first member 71. The first member 71 includes a first wall portion 71a formed such that a plate surface faces in the vehicle width direction, and an extending wall portion extending outward in the vehicle width direction from a lower front end of the first wall portion 71a. The second wall portion 71b is attached to the portion of the second wall portion 66b in which the attachment hole 68 is formed. The second member 72 is fixed so as to protrude rearward from the first wall portion 71a of the first member 71. In this embodiment, the second member 72 extends in an inclined direction that moves inward (to the left) in the vehicle width direction toward the rear. The charging connector 90 is attached to the second member 72 from the outside in the vehicle width direction. That is, the second member 72 is a connector attachment portion to which the charging connector 90 is attached.

As described above, the connector bracket 93 has a connector mounting portion (second member 72) to which the charging connector 90 is attached outside the front cover 92, and a mounting wall portion 66a that is attached to a mounting portion (mounting plate 33) provided on the inside side of the front cover 92.
20 , a support member 73 of the side mirror 100 is attached to an upper portion of a first member 71 of the second bracket member 67 via a mounting fixture 74. Therefore, the upper portion of the first member 71 serves as a mirror mounting portion 75 to which the side mirror 100 is attached. In addition, a lamp stay 76 of an indicator lamp 101 is attached to the lamp mounting portion 66c of the first bracket member 66.

As described above, the connector bracket 93 has the mirror attachment part 75 to which the side mirror 100 is attached, and the lamp attachment part 66c to which the indicator lamp 101 is attached.
The charging connector 90 can also be arranged on the outer surface side of the cover body 14 of the side control section 11B. That is, the charging connector 90 is a cover body provided around the driver's seat 6, and is provided in a cover body that covers the lower side of the operating member.

The electric tractor 1 described above includes an electric motor 4 that drives the traveling device 3, a battery 18, an inverter 19 that supplies electric power from the battery 18 to the electric motor 4, and is arranged in front of the driver's seat 6. It includes a vehicle body frame 8 disposed below a bonnet 20 that covers the battery 18 and a support frame 22 attached to the vehicle body frame 8, and the support frame 22 is disposed above the electric motor 4 and above the vehicle body frame 8. and an inverter support part 25 that supports an inverter 19 disposed between the battery support part 24 and the vehicle body frame 8 and in front of the electric motor 4. .

With this configuration, by providing a battery support part 24 that supports the battery 18 located above the electric motor 4 and above the body frame 8, and an inverter support part 25 that supports the inverter 19 located between the battery support part 24 and the body frame 8 and in front of the electric motor 4, the electric motor 4 and the inverter 19 can be positioned close to each other, and the electric motor 4 and the inverter 19 can be connected by a short path.

Further, the battery support section 24 has a mounting plate 38 on which the battery 18 is mounted, and a mounting bracket 39 that projects downward from the mounting plate 38, and the inverter support section 25 has a mounting plate 38 on which the battery 18 is mounted. A support plate 46 that is disposed below the mounting plate 38 at an interval and is attached to the vehicle body frame 8, and a support stay 47 that projects upward from the support plate 46 and to which the mounting bracket 39 is attached. It has

According to this configuration, a space can be formed in which the inverter 19 is disposed below the battery 18 and in front of the electric motor 4.
Further, the inverter support portion 25 supports the inverter 19 so that the inverter 19 is arranged to overlap the electric motor 4 in the front-rear direction.
According to this configuration, the electric motor 4 and the inverter 19 can be arranged compactly.

In addition, the support frame 22 has a support portion 28 arranged below the rear of the mounting plate 38 and fixed to the vehicle frame 8 to support the rear of the mounting plate 38, and the inverter support portion 25 supports the front of the mounting plate 38.
With this configuration, the battery 18 can be adequately supported by the support portion 28 and the inverter support portion 25 .

The support portion 28 also has a support plate 35 on which the rear portion of the mounting plate 38 is placed, which is positioned above the electric motor 4, and a support leg 36 provided on the underside of the support plate 35 and fixed to the vehicle frame 8.
By arranging the support plate 35 above the electric motor 4, the support portion 28 and the electric motor 4 can be arranged compactly.

Further, the electric motor 4 has a motor side connector 4A provided on the front side of the electric motor 4, and the inverter 19 is an inverter side connector 19B connected to the motor side connector 4A. It has an inverter side connector 19B arranged in front of the inverter side connector 19B.
According to this configuration, the motor side connector 4A and the inverter side connector 19B can be connected through a short path.

The motor side connector 4A is provided at the front lower part of the electric motor 4, the inverter 19 is placed so that the inverter main body 19A, which is supported by being placed on the inverter support part 25, overlaps in the front-to-rear direction behind the upper part of the electric motor 4, and the inverter side connector 19B is provided on the lower side of the inverter main body 19A and protrudes downward from the inverter support part 25.

This configuration also enables the motor side connector 4A and the inverter side connector 19B to be connected via an even shorter path.
Further, the inverter support portion 25 has a cutout portion 46 a that allows the inverter side connector 19 B to protrude downward from the inverter support portion 25 .
According to this configuration, the inverter 19 can be well supported by the inverter support portion 25 while the inverter side connector 19B can protrude downward from the inverter support portion 25 .

Further, the vehicle body frame 8 has a first side plate 8A and a second side plate 8B arranged side by side with an interval in the vehicle width direction, and the motor side connector 4A and the inverter side connector 19B are connected to the first side plate 8A. and the second side plate 8B.
According to this configuration, the motor side connector 4A and the inverter side connector 19B can be protected.

The electric tractor 1 also includes a driving section 10 including a driver's seat 6 and a control section (front control section 11A) provided around the driver's seat 6, a vehicle body 2 on which the driving section 10 is mounted, a traveling device 3 that supports the vehicle body 2 so that it can travel, an electric motor 4 that drives the traveling device 3, a battery 18 that supplies power to the electric motor 4, and a charging connector 90 for charging the battery 18. The control section 11A includes an operating member (steering operating member 86) and a cover body (front cover 92) that covers the lower side of the operating member 86, and the charging connector 90 is disposed on the outer surface side of the cover body 92, exposed outside the control section.

According to this configuration, the battery 18 can be easily charged.
Further, the charging connector 90 is arranged on the side surface of the cover body 92 so as to face outward in the vehicle width direction.
According to this configuration, the battery 18 can further be easily charged.
The steering unit 11A also includes a steering operation member 86 as an operation member disposed in front of the driver's seat 6, a front cover 92 as a cover body covering the lower side of the steering operation member 86, and a charging connector 90. is arranged at the upper part of the outer surface of the front cover 92.

According to this configuration, the charging connector 90 can be arranged at a position where it is easy to connect the power supply connector on the external power source side.
Further, the steering operation member 86 includes the steering handle 12 , and the charging connector 90 is arranged in front of the steering handle 12 .
According to this configuration, it is possible to suppress the steering handle 12 from getting in the way when connecting the external power supply side connector to the charging connector 90.

Further, the charging connector 90 is arranged at approximately the same height as the seat portion 6A of the driver's seat 6 on the outer surface of the front cover 92.
With this configuration as well, the charging connector 90 can be placed at a position where it is easy to connect the power feeding connector on the external power source side.
It also includes a connector bracket 93 to which the charging connector 90 is attached. It has a mounting wall portion 66a that is attached to a mounting portion (mounting plate 33) provided in the.

According to this configuration, the connector bracket 93 can be adequately supported and the charging connector 90 can be easily attached.
The connector bracket 93 also has a mirror mounting portion 75 to which a side mirror 100 is attached.
According to this configuration, costs can be reduced by using the same components.

Furthermore, the connector bracket 93 has a lamp attachment portion 66c to which the indicator lamp 101 is attached.
With this configuration as well, it is possible to reduce costs by using multiple members.
Although one embodiment of the present invention has been described above, the embodiment disclosed this time should be considered to be illustrative in all respects and not restrictive. The scope of the present invention is indicated by the claims rather than the above description, and it is intended that all changes within the meaning and range equivalent to the claims are included.

2 Vehicle body 3 Running gear 4 Electric motor 6 Driver's seat 6A Seat 10 Driver's section 11A Control section (front control section)
12 Steering handle 18 Battery 33 Mounting portion (mounting plate)
66a: mounting wall portion; 66c: lamp mounting portion; 72: connector mounting portion (second member)
75 Mirror mounting portion 86 Operation member (steering operation member)
90 Charging connector 92 Cover body (front cover)
93 Connector bracket 100 Side mirror 101 Indicator lamp

Claims (8)

an operating section including a driver's seat and a control section provided around the driver's seat;
a vehicle body on which the driving section is mounted;
a traveling device that supports the vehicle body in a traveling manner;
an electric motor that drives the traveling device;
a battery that supplies power to the electric motor;
a charging connector for charging the battery;
a connector bracket to which the charging connector is attached;
Equipped with
The operating section includes an operating member and a cover body that covers a lower side of the operating member,
The charging connector is disposed on the outer surface of the cover body and exposed to the outside of the control section,
The connector bracket includes a connector mounting portion to which a charging connector is mounted outside the cover body, and a mounting wall portion mounted to a mounting portion provided inside the cover body. The electric tractor according to claim 1, wherein the charging connector is disposed on the side of the cover body so as to face outward in the vehicle width direction. The control unit includes a steering operation member as the operation member disposed in front of the driver's seat, and a front cover as the cover body that covers a lower side of the steering operation member,
The electric tractor according to claim 1 or 2, wherein the charging connector is arranged at an upper part of the outer surface of the front cover. The steering operation member includes a steering handle,
The electric tractor according to claim 3 , wherein the charging connector is disposed forward of the steering handle. 5. The electric tractor according to claim 3, wherein the charging connector is arranged at approximately the same height as the seat of the driver's seat on the outer surface of the front cover. an operating section including a driver's seat and a control section provided around the driver's seat;
a vehicle body on which the driving section is mounted;
a traveling device that supports the vehicle body in a traveling manner;
an electric motor that drives the traveling device;
a battery that supplies power to the electric motor;
a charging connector for charging the battery;
a connector bracket to which the charging connector is attached;
Equipped with
The control section includes a steering operation member disposed in front of the driver's seat, and a front cover that covers a lower side of the steering operation member,
The charging connector is disposed on the outer surface of the front cover and exposed to the outside of the control section,
The connector bracket includes a connector mounting part to which a charging connector is mounted on the outside of the front cover, and a mounting wall part to be mounted to the mounting part provided inside the front cover. The electric tractor according to any one of claims 1 to 6, wherein the connector bracket has a mirror mounting portion to which a side mirror is attached. The electric tractor according to any one of claims 1 to 7, wherein the connector bracket has a lamp mounting portion to which an indicator lamp is attached.

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