JP5211371B2 - Riding lawn mower - Google Patents

Description

  The present invention relates to a riding-type lawn mower vehicle including a driving wheel driven by an electric motor and a lawn mower.

  2. Description of the Related Art Conventionally, in a lawn mower vehicle equipped with a lawn mower, a walk-behind lawn mower vehicle that is operated by a person on the rear side of the vehicle and a riding lawn mower vehicle that a person rides and operates are known. In addition, a riding-type lawnmower vehicle that includes a main drive wheel that is driven by a driving power source and a lawnmower has been considered.

  Such a riding-type lawn mowing vehicle is used to adjust the lawn to a predetermined length by a lawn mower while a person gets on and operates. Patent Document 1 and Patent Document 2 include, in such a riding type electric lawn mowing vehicle, an engine, a generator driven by the engine, and an electric motor for traveling, and the electric power generated by the generator is A so-called hybrid riding lawn mower vehicle is described in which two rear wheels (in the case of Patent Document 1) or two front wheels (in the case of Patent Document 2) are driven by being supplied to an electric motor.

  Patent Document 3 includes two front wheels, one caster wheel as a rear wheel, a fuel cell, and an electric motor for traveling, and supplies the electric power generated by the fuel cell to the electric motor. A riding lawn mowing vehicle that drives two front wheels is described. Patent Document 4 discloses a riding lawnmower vehicle that drives two rear wheels by supplying two electric wheels supplied to the front motor and rear wheels, a battery, and electric power supplied from the battery. Have been described.

US Pat. No. 7,017,327 US Pat. No. 6,591,593 International Publication No. 2006/086412 Pamphlet US Pat. No. 3,732,671

  In the case of the riding lawn mower described in Patent Document 1 to Patent Document 4, there is room for improvement with respect to the cooling system of the electric motor. For example, in the riding-type lawn mowing vehicle described in Patent Literature 1 to Patent Literature 4, various electric motors such as an electric motor for driving wheels, an electric motor for steering caster wheels, and an electric motor for driving lawnmowers However, since the temperature of the electric motor is likely to increase during use, it is preferable to cool it appropriately from the viewpoint of improving the performance. On the other hand, in the case of the riding lawn mower described in Patent Document 1 to Patent Document 4, there is room for improvement with respect to cooling the electric motor. Although it is conceivable to use a control circuit unit and an inverter for driving the electric motor, there is room for improvement in terms of cooling the control circuit unit and the inverter. Although it is conceivable to use a refrigerant to cool the electric motor, there is room for improvement in the refrigerant pipe through which the refrigerant flows.

An object of the present invention is to improve a cooling system for an electric motor for driving wheels in a riding lawn mower vehicle.

A first riding-type lawn mowing vehicle according to the present invention is equipped with two left and right drive wheels respectively driven by two drive wheel electric motors provided on both sides in the width direction, and a lawn mower. This type of lawn mower has an air cooling fan fixed to the rotating shaft of each drive wheel electric motor, and further projects vertically at both ends in the width direction of the frame that supports each drive wheel. The electric motors for each driving wheel are arranged outside the two standing plates provided in the above, the fans for air cooling are arranged inside the two standing plates , and the electric motors for each driving wheel A control unit for controlling a motor, comprising a plurality of the control units arranged so as to be separated and connected to each other including a signal cable, and at least a part of the control units of the plurality of control units Each of the standing plate portions Characterized in that it is fixed between the drive wheel electric motor corresponding to the air-cooling fan corresponding inside. In addition, a second riding lawn mower vehicle according to the present invention includes two left and right drive wheels respectively driven by two drive wheel electric motors provided on both sides in the width direction, and a lawn mower. In the riding lawn mower vehicle, an air cooling fan is fixed to the rotating shaft of each drive wheel electric motor, and further protrudes vertically at both ends in the width direction of the frame supporting each drive wheel. The electric motor for each driving wheel is disposed outside the two standing plate portions provided in the state, the air cooling fans are disposed inside the two standing plate portions, and further, for each driving wheel. A control unit for controlling the electric motor is provided, and at least a part of the control unit is disposed below the driver's seat on the upper surface side of the frame.

A third riding type lawn mower vehicle according to the present invention comprises two left and right drive wheels respectively driven by two drive wheel electric motors provided on both sides in the width direction , and a lawn mower. An air-cooling fan is fixed to the rotating shaft of each drive wheel electric motor, and further projects in the vertical direction at both ends in the width direction of the frame that supports each drive wheel. The drive wheel electric motors are disposed outside the two standing plate portions provided in the state, the air cooling fans are disposed inside the two standing plate portions, and two driving units are further provided. The wheel electric motor is characterized in that it is commonly cooled by a refrigerant circulating through the refrigerant flow path by a single refrigerant pump .

A fourth riding type lawn mower vehicle according to the present invention comprises two left and right drive wheels respectively driven by two drive wheel electric motors provided on both sides in the width direction , and a lawn mower. An air-cooling fan is fixed to the rotating shaft of each drive wheel electric motor, and further projects in the vertical direction at both ends in the width direction of the frame that supports each drive wheel. The electric motors for each driving wheel are arranged outside the two standing plates provided in the state, the air cooling fans are arranged inside the two standing plates, and further for each driving wheel. The power of the electric motor can be transmitted to the corresponding drive wheel via the reduction gear device, and each drive wheel electric motor is cooled by oil or water, and is placed inside the case constituting each reduction gear device. , that encapsulating the lubricating oil or grease And butterflies.

Further, a fifth riding-type lawn mowing vehicle according to the present invention includes two left and right drive wheels respectively driven by two drive wheel electric motors provided on both sides in the width direction , and a lawn mower. An air-cooling fan is fixed to the rotating shaft of each drive wheel electric motor, and further projects in the vertical direction at both ends in the width direction of the frame that supports each drive wheel. The drive wheel electric motors are disposed outside the two standing plate portions provided in a state where the air cooling fans are disposed inside the two standing plate portions, and the internal combustion engine, A generator driven by the internal combustion engine, and can supply the electric power generated by the generator to the drive wheel electric motor directly or via the power storage unit and pass through a cooling radiator for the internal combustion engine Electric motor for driving wheels by cooling water Characterized by cooling.

A sixth riding-type lawn mower vehicle according to the present invention comprises two left and right drive wheels respectively driven by two drive wheel electric motors provided on both sides in the width direction , and a lawn mower. An air-cooling fan is fixed to the rotating shaft of each drive wheel electric motor, and further projects in the vertical direction at both ends in the width direction of the frame that supports each drive wheel. The electric motor for each driving wheel is arranged outside the two standing plates provided in the state, the air cooling fans are arranged inside the two standing plates, and the steering wheel Outside of a case that includes one caster wheel and that constitutes one or both of a caster wheel steering electric motor for steering the caster wheel and a caster wheel drive electric motor for rotationally driving the caster wheel JP that cooling fins are provided on the To.

The seventh riding type lawn mower vehicle according to the present invention comprises two left and right drive wheels respectively driven by two drive wheel electric motors provided on both sides in the width direction , and a lawn mower. An air-cooling fan is fixed to the rotating shaft of each drive wheel electric motor, and further projects in the vertical direction at both ends in the width direction of the frame that supports each drive wheel. The drive wheel electric motors are arranged outside the two standing plate portions provided in the state, the air cooling fans are arranged inside the two standing plate portions, and a lawn mower is installed. An electric motor for driving the lawnmower is provided, and the electric motor for driving the lawn mower is arranged along a passage direction of cooling air for cooling the radiator or the oil cooler .

Further, an eighth riding-type lawn mowing vehicle according to the present invention comprises two left and right drive wheels respectively driven by two drive wheel electric motors provided on both sides in the width direction , and a lawn mower. An air-cooling fan is fixed to the rotating shaft of each drive wheel electric motor, and further projects in the vertical direction at both ends in the width direction of the frame that supports each drive wheel. The drive wheel electric motors are arranged outside the two standing plate portions provided in the state, the air cooling fans are arranged inside the two standing plate portions, and the drive wheel electric motors are further arranged. It is characterized in that at least one of the control circuit unit and the inverter is cooled by a refrigerant that is circulated to cool the motor .

A ninth riding-type lawn mower vehicle according to the present invention includes two left and right drive wheels driven by two drive wheel electric motors provided on both sides in the width direction , and a lawn mower. An air-cooling fan is fixed to the rotating shaft of each drive wheel electric motor, and further projects in the vertical direction at both ends in the width direction of the frame that supports each drive wheel. The drive wheel electric motors are arranged outside the two standing plate portions provided in the state, the air cooling fans are arranged inside the two standing plate portions, and the drive wheel electric motors are further arranged. A refrigerant pipe for flowing a refrigerant for cooling the motor is arranged inside two standing plates provided in a state of protruding in the vertical direction at both ends in the width direction of the frame .

  According to the riding lawn mowing vehicle according to the present invention, the cooling system of the drive wheel electric motor can be improved. In the riding lawn mowing vehicle according to the present invention, the air cooling fan is fixed to the rotating shaft of the drive wheel electric motor, so that the drive wheel electric motor can be efficiently cooled.

Further, according to the third riding-type lawn mowing vehicle according to the present invention , the two drive wheel electric motors are commonly cooled by the refrigerant circulating through the refrigerant flow path by the single refrigerant pump. The electric motor for driving wheels can be efficiently cooled.

Further, according to the fourth riding-type lawn mowing vehicle according to the present invention, the power of each drive wheel electric motor can be transmitted to the corresponding drive wheel via the reduction gear device, and each drive wheel electric motor is provided. Is cooled with oil or water, and lubricating oil or grease is sealed in the case constituting each reduction gear device, so that each reduction gear device is oil or oil for cooling the drive wheel electric motor. There is no need to cool with water, and each drive wheel electric motor can be efficiently cooled.

Further, according to the fifth riding lawn mowing vehicle of the present invention, the electric power generated by the generator can be supplied to the drive wheel electric motor directly or via the power storage unit, and the internal combustion engine can be cooled. Since the driving wheel electric motor is cooled by the cooling water passing through the radiator for the engine, a cooling water circuit for circulating the cooling water, the radiator, and the cooling water for cooling the internal combustion engine and for cooling the driving wheel electric motor. The pump can be used in common, and the cost can be reduced by reducing the number of parts, the weight can be reduced, and the effective utilization of the space of the riding lawnmower can be improved.

According to the sixth riding-type lawn mowing vehicle of the present invention , the caster wheel that is a steered wheel is provided, the caster wheel steering electric motor for steering the caster wheel, and the caster wheel is rotationally driven. Because the cooling fin is provided outside the case that constitutes one or both of the caster wheel driving electric motors, one or both of the caster wheel steering electric motor and the caster wheel driving electric motor Can be cooled efficiently.

Further, according to the seventh riding-type lawn mowing vehicle according to the present invention , the lawn mower driving electric motor is disposed along the passage direction of the cooling air for cooling the radiator or the oil cooler. The electric motor for machine drive can be cooled efficiently.

According to the eighth riding lawn mowing vehicle of the present invention, at least one of the control circuit unit and the inverter is cooled by the refrigerant that is circulated to cool the drive wheel electric motor. At least one of the inverters can be efficiently cooled, and the cooling system of the drive wheel electric motor can be improved.

Further, according to the ninth riding type lawn mowing vehicle according to the present invention, the refrigerant pipe for flowing the refrigerant for cooling the electric motor for driving wheels is provided in a state protruding vertically at both ends in the width direction of the frame. Furthermore, since it is arranged inside the two standing plate portions, the degree of effective use of the space of the riding lawn mower vehicle including the refrigerant pipe can be increased. Moreover, damage to the refrigerant piping can be prevented more effectively.
Thus, according to the riding-type lawn mowing vehicle according to the present invention, the cooling system of the drive wheel electric motor can be improved.

[First Embodiment]
Embodiments according to the present invention will be described below in detail with reference to the drawings. 1 to 3 are diagrams showing a first embodiment. FIG. 1 is a schematic diagram showing a configuration of a lawnmower vehicle 10 that is a riding lawn mower vehicle of the present embodiment, and FIG. 2 is a schematic cross-sectional view taken along a line AA in FIG. In the following description, front and rear mean front and rear of the vehicle, for example, right and left in FIGS. In the present embodiment, the lawn mowing vehicle will be described as a case where two left and right rear wheels are main drive wheels and two left and right front wheels are caster wheels. It can also be a traveling type. In the following description, a secondary battery is used as the power supply source of the electric motor. However, a capacitor may be used instead of the secondary battery.

  In addition, the electric motor for driving the wheel is not limited to the case of using an electric motor that merely functions as an electric motor that supplies electric power and outputs a rotational driving force to at least the main driving wheel. Further, it is also possible to use a generator having a function as a generator that recovers regenerative energy at least when the main drive wheel is braked. Further, the lawnmower vehicle according to the present embodiment is a so-called power supply source for the electric motor, which is a power supply unit, a secondary battery that is a power storage unit, and an engine and a generator that are used as a power supply source for the secondary battery. It is a hybrid type. Moreover, as a power supply unit, what has a self-power generation function like a fuel cell, a solar cell, etc. can be used instead of the secondary battery which receives supply of stored electric power from the outside. For example, a solar cell power generation panel can be provided on the body, fender, sun visor, grass collection tank, etc. of a lawn mower.

  The lawnmower vehicle 10 is called a ZTR type. As shown in FIGS. 1 and 2, the right and left main drive wheels (rear wheels in the case of illustration) 12 and 14 are two electric motors. The first electric motor (right axle motor) 16 and the second electric motor (left axle motor) 18 can be driven independently of each other. The lawnmower vehicle 10 includes a lawn mower (mower) 20 as a working machine, and travels on the ground by two main drive wheels 12 and 14 on the right and left and two caster wheels 22 and 24 on the right and left. In the vicinity of the driver's seat 26 where the operator sits, there are two lever-type operating elements provided in the left-right direction for turning, accelerating and decelerating the lawnmower vehicle 10, and two operating sections. An operation lever 28 is provided. In FIG. 1, only one operation lever 28 of the two operation levers 28 is illustrated. Although not shown in FIGS. 1 and 2, in the vicinity of the driver's seat 26, a start switch that is another operation unit for operating the lawnmower 20 and the braking of the lawnmower vehicle 10 are performed. An operation unit such as a parking brake lever or the like constituting a mechanical brake for maintaining the brake pedal and the stopped state is also provided.

  The lawnmower vehicle 10 is operatively connected to an output shaft of the engine 32, which is a body frame constituting the vehicle body, an engine 32 that is an internal combustion engine supported by the main frame 30, and is connected to the output shaft. A generator 34 operatively connecting the drive shafts, and a secondary battery 36 (see FIG. 2) that is supplied with electric power from the generator 34 and stores the electric power. For example, the engine 32 has a drive shaft that constitutes the generator 34 connected to the end of the output shaft, or the output shaft of the engine 32 and the drive shaft of the generator 34 are integrally configured by a common shaft. A drive pulley is fixed to the end of the output shaft of the engine 32, and the generator 34 can be driven by the engine 32 via the drive pulley, belt, and driven pulley fixed to the drive shaft of the generator 34. You can also. Further, the first electric motor 16 and the second electric motor 18 are driven by electric power supplied from the secondary battery 36. Cases constituting the first electric motor 16 and the second electric motor 18 are fixed to the main frame 30.

  Further, the main drive wheels 12 and 14 on the right and left (upper and lower sides in FIG. 2) are supported on the rear side (right side in FIGS. 1 and 2) of the main frame 30, and the front end portion (FIGS. 1 and 2) of the main frame 30 is supported. The left and right caster wheels 22 and 24 are supported on the right and left (upper and lower sides in FIG. 2) portions of the left end portion. Further, a lawnmower 20 is provided between the caster wheels 22 and 24 and the main drive wheels 12 and 14 in the front-rear direction of the main frame 30 (the left-right direction in FIGS. 1 and 2). The lawn mower 20 is a power source for driving the lawn mower 20, and is operatively connected to a lawn mower drive motor 38, which is an electric motor. The lawn mower driving motor 38 is fixed to the main frame 30 shown in FIG. 1 at a position below the horizontal plate portion constituting the main frame 30.

  In the illustrated example, a power transmission mechanism 42 is provided between the lawn mower driving motor 38 and the lawn mower 20. The lawn mower 20 includes one or a plurality of lawn mowing blades (not shown in FIGS. 1 and 2) that are supported on the inside of the deck 40 and that are driven to rotate about a vertical axis. The power transmission mechanism 42 can transmit the power of the lawn mower driving motor 38 to the lawn mower 20. The power transmission mechanism 42 connects a plurality of power transmission shafts via universal joints. That is, the lawn mower 20 is operatively connected to the lawn mower driving motor 38 by the power transmission mechanism 42, that is, capable of transmitting power. The lawn mower driving motor 44 and the power transmission mechanism 42 constitute a lawn mower driving device 44.

  The height of the lawn mower 20 can be adjusted by a working machine lifting / lowering actuator (not shown). In addition, the working machine lifting / lowering actuator may be configured to include a hydraulic cylinder, and the hydraulic pump as a hydraulic source that supplies pressure oil to the hydraulic cylinder may be configured to be driven by the electric motor or the engine 32. Further, the lawn mower 20 can be provided with auxiliary caster wheels (not shown). The lawn mower 20 is connected to a discharge duct 46, which is a grass collection duct for discharging the cut grass to the rear. The discharge duct 46 extends obliquely upward along the rear side of the driver's seat 26 and is connected to a grass collection tank 48 provided on the rear side of the driver's seat 26. An intermediate portion of the discharge duct 46 extends in a slanting vertical direction so as to penetrate a hole provided in a horizontal plate portion constituting the main frame 30. As a result, the grass collection tank 48 is connected to the rear end portion of the deck 40, which is a cover constituting the lawn mower 20, that is, the lawn mower 20, by the discharge duct 46. Further, in the power transmission mechanism 42 that transmits the power of the lawn mower driving motor 38 to the driving shaft of the lawn mowing blade, a speed reducing device having a speed reducing part such as one or more speed reduction gears may be provided.

  Further, as shown in FIG. 2, the engine 32, the generator 34, and the secondary battery 36 have a discharge duct 46 so as to avoid the discharge duct 46 on the lower side of the flat horizontal plate portion constituting the main frame 30. The back side is supported. That is, the engine 32, the generator 34, and the secondary battery 36 are located below the grass collection tank 48 (FIG. 1). Further, the lower ends of the engine 32 and the secondary battery 36 are at the same position as the rotation center axis O (FIG. 1) of the main drive wheels 12 and 14 in the vertical direction or from the rotation center axis O of the main drive wheels 12 and 14. Is also located on the lower side.

  In addition, when viewed from one side in the width direction of the vehicle to the other side (from the front side to the back side in FIG. 1 and from the lower side to the upper side in FIG. 2), the engine 32, the secondary battery 36, and the radiator 50 that is a cooling device, respectively Part or all of the oil cooler 52, the lawnmower driving motor 38, and the discharge duct 46 are superposed on the main driving wheels 12 and 14. The radiator 50 cools the cooling water for cooling the engine 32. The oil cooler 52 cools the oil for lubricating the engine 32. In addition, the lawn mower driving motor 38 is disposed on the front side of the radiator 50 and the oil cooler 52 so as to face the front side of the lower ends of the radiator 50 and the oil cooler 52, so that the lawn mower driving motor 38 is disposed. The radiator 50 and the oil cooler 52 are arranged along the passage direction of the cooling air that cools the radiator 50 and the oil cooler 52. For this purpose, for example, the cooling air passes in the direction of the arrow α in FIG. 1 in a portion facing the front side of the upper portion of the oil cooler 52 on the front side of the radiator 50 on the upper side of the motor 38 for driving the lawn mower. Is provided with a space portion. The lawn mower driving motor 38 is arranged so that the length direction of the cooling air passing through the front side of the oil cooler 52 coincides with the direction of the cooling air (in the direction of arrow α in FIG. 1). Further, cooling fins are provided on the outer surface of the case constituting the lawn mower driving motor 38.

  FIG. 3 is a cross-sectional view showing a drive portion of the main drive wheel 12 (or 14) on one side. As shown in FIG. 3, in the present embodiment, the rotational force of the rotating shaft 54 of the first electric motor 16 (or the second electric motor 18) is applied to the main drive wheels via the two-stage planetary gear mechanisms 56a and 56b. 12 and 14 can be transmitted. That is, the first stage planetary gear mechanism 56 a includes a sun gear provided at one end portion (the right end portion in FIG. 3) of the rotating shaft 54, a pinion gear 58 that meshes with the sun gear, and a ring gear 60 that meshes with the pinion gear 58. In addition, the pinion shaft that supports the pinion gear 58 is supported by the carrier 62, and is coaxial with the rotation shaft 54 and is provided on a second sun gear provided on the outer peripheral surface of the second rotation shaft 64 that is supported so as to be capable of relative rotation with each other. The carrier 62 is engaged. Further, the second pinion gear 66 constituting the second stage planetary gear mechanism 56 b is engaged with the second sun gear and the second ring gear 68, and the second pinion shaft 70 supported by the second pinion gear 66 is used to drive the main drive wheel 12. 14 are rotated.

  The ring gear 60 constituting the first stage planetary gear mechanism 56a and the second ring gear 68 constituting the second stage planetary gear mechanism 56b are fixed to a housing 72 supported inside the main drive wheels 12,14. doing. For this purpose, a plurality of pins are inserted into holes formed in a part of the housing 72, and the inner diameter side ends of the pins are locked to recesses provided on the outer peripheral surfaces of the ring gear 60 and the second ring gear 68. Further, the inner ring of the pair of bearings is opposed to the outer diameter side end portion of the pin to prevent the pin from coming off from the housing 72. Thereby, the ring gear 60 and the second ring gear 68 are supported so as not to rotate with respect to the housing 72.

  Further, while the first stage planetary gear mechanism 56a and the second stage planetary gear mechanism 56b have the same reduction ratio, the tooth width W1 of the second pinion gear 66 of the second stage planetary gear mechanism 56b is The tooth width W2 of the pinion gear 66 of the first stage planetary gear mechanism 56a is larger (W1> W2).

  Further, the motor control unit 76 is fixed to the inner portion (the left portion in FIG. 3) of the upright plate portion 74 constituting the main frame 30 around the other end portion (the left end portion in FIG. 3) of the rotating shaft 54. doing. The motor control unit 76 includes an inverter. The motor control unit 76 may include an inverter and a DC / DC converter. Further, an air cooling fan 78 is fixed to the other end portion (left end portion in FIG. 3) of the rotating shaft 54. A cover 80 that covers the air cooling fan 78 and the motor control unit 76 is fixed to the inner side surface (the left side surface in FIG. 3) of the upright plate portion 74. Through holes 82 penetrating the inside and outside are formed at a plurality of locations of the cover 80.

  The configuration of the other main drive wheel 14 (or 12) not shown in FIG. 3 is the same as that shown in FIG. Moreover, in the structure of the part which transmits the rotational force of the electric motors 16 and 18 to the main drive wheels 12 and 14, in addition to the structure provided with a two-stage reduction part as in this embodiment, a one-stage type The rotational force of the electric motors 16 and 18 can be transmitted to the main drive wheels 12 and 14 via the speed reducer or the speed reducer of three or more stages, and the torque of the electric motors 16 and 18 can be transmitted. Further, it is also possible to adopt a configuration capable of transmitting to the main drive wheels 12 and 14 without passing through the speed reduction portion.

  Here, returning to FIG. 2, in order to comprehensively control the operation of each component such as the secondary battery 36, the first electric motor 16, the second electric motor 18, etc., in addition to the motor control unit 76, the motor control unit 84, 86, 88 are provided, and the motor control units 84, 86, 88 are arranged at appropriate positions on the main frame 30. The motor control units 84, 86, and 88 include at least one of a controller that is a control circuit unit and a DC / DC converter. In addition, since the motor control units 84, 86, and 88 are electric circuits, they can be arranged in a distributed manner as compared with other mechanism elements.

  In the example of FIGS. 1 and 2, the position below the driver's seat 26 on the upper surface side of the main frame 30 and the two positions close to the first electric motor 16 and the second electric motor 18 on the lower surface side of the main frame 30. The motor control units 84, 86, 88 are arranged in a total of three locations. These motor control units 84, 86 and 88 are connected to each other by an appropriate signal cable or the like together with the motor control unit 76 shown in FIG. A controller having a control logic circuit such as a CPU is mainly arranged in the motor control unit 84 arranged near the driver's seat 26. Further, the motor control units 84, 86, 88 can be integrated into any one or two positions, for example, the position of the motor control unit 84 below the driver's seat. Further, a controller and a driver circuit including an inverter and a DC / DC converter are intensively arranged in the motor control unit 84 below the driver's seat 26, and a capacitor is disposed at one or both positions of the motor control units 86 and 88. Can also be provided. In this case, the motor control unit 76 shown in FIG. 3 is omitted, and the motor control unit 84 below the driver's seat 26 is directly connected to the first electric motor 16 and the second electric motor 18 through a signal cable or the like. To do.

  The first electric motor 16 and the second electric motor 18 drive the two main drive wheels 12 and 14 by driving the rotating shaft 54 (FIG. 3), respectively. The two electric motors 16 and 18 are DC brushless motors or the like and can be driven to rotate in both forward and reverse directions. In addition, the number of rotations of the two electric motors 16 and 18 can be controlled.

  The motor control units 76, 84, 86, and 88 (see FIGS. 1 and 2 for 84, 86, and 88) control one or both of the first electric motor 16 and the second electric motor 18 according to a control signal from the CPU. To drive. From the first electric motor 16 and the second electric motor 18, signals representing the rotation speed, the rotation direction, the current value, and the like are fed back to the motor control units 76, 84, 86, and 88. Corresponding to the first electric motor 16 and the second electric motor 18, a brake unit (not shown) that operates electrically to brake the main drive wheels 12, 14 can be provided. The first electric motor 16 and the second electric motor 18 can be supplied with the power generated by the generator 34 directly or via the secondary battery 36. The first electric motor 16 and the second electric motor 18 serve as a generator corresponding to the braking of the main drive wheels 12 and 14, and the generated electric power corresponds to the electric motors 16 and 18. The secondary battery 36 can be charged via the regenerative unit.

  The secondary battery 36 has a function of storing electric energy and supplying electric power to a load such as the electric motors 16 and 18 as necessary, and uses a lead storage battery, a lithium ion assembled battery, a nickel hydrogen assembled battery, or the like. be able to.

  The lawn mower drive motor 38, which is a power source related to the lawn mower 20, is supplied with power from, for example, the secondary battery 36. The operation of the lawn mower driving motor 38 is controlled by turning on / off a lawn mower start switch (not shown) provided near the driver's seat 26. For example, the motor control units 84, 86, and 88 detect the on / off state of a lawnmower start switch (not shown), and control the operation of the circuit for driving the lawnmower drive motor 38 based on the detection. The mower driving motor 38 is activated or stopped. Thus, the lawn mower 20 can be driven with the engine 32 stopped, and the noise during the lawn mowing work can be reduced.

  The operation levers 28 provided in total, one on each side of the driver's seat 26, have a function of adjusting the rotational speeds of the left and right main drive wheels 12 and 14, respectively. For example, an operation lever 28 for adjusting the rotation speed of the left main drive wheel 14 is arranged on the left side of the driver seat 26, and an operation lever 28 for adjusting the rotation speed of the right main drive wheel 12 is arranged on the right side of the driver seat 26. To do. Each operation lever 28 can move in the front-rear direction with respect to the driver seat 26. The operation amount of each operation lever 28 is transmitted to the motor control units 76, 84, 86, 88 using an operation amount sensor, which is an operation amount detection unit, and the electric motor 16 corresponding to the left and right main drive wheels 12, 14. , 18 are controlled.

  Further, the two caster wheels 22 and 24 can freely rotate about the vertical axis. Therefore, when the vehicle is going to turn based on the difference between the rotation speeds of the left and right electric motors 16 and 18, the caster wheels 22 and 24 are freely steered in the corresponding directions accordingly. In addition, by providing a steering electric motor for each of the caster wheels 22 and 24, the caster wheels 22 and 24 can be forcibly steered by the electric motor. Further, it is possible to provide switching means capable of switching between free steering and forced steering of the caster wheels 22 and 24 in accordance with the operation of the operation unit such as the operator's switch. When an electric motor for forcibly steering the caster wheels 22 and 24 is provided, the caster wheels 22 and 24 (FIG. 2) are steered corresponding to the operation of the electric motors 16 and 18 for driving the main drive wheels 12 and 14. The operation of the electric motor is controlled.

  When the operator operates the right and left operation levers 28 to turn and accelerate the lawnmower vehicle 10, 2 corresponding to the main drive wheels 12 and 14 (FIG. 2) according to the signal from the operation amount sensor. The electric motors 16 and 18 operate. By operating the left and right control levers 28 (FIG. 1) back and forth, the electric motors 16 and 18 corresponding to the main drive wheels 12 and 14 are driven to perform turning, acceleration, deceleration, and the like. The operation lever 28 is in an open state, i.e., a neutral state, at a vertically upright position. The electric motors 16 and 18 are stopped in this state. On the other hand, when the operation lever 28 is tilted forward, the corresponding electric motors 16 and 18 are rotated forward in the forward direction, and when the operation lever 28 is tilted backward, the corresponding electric motors 16 and 18 are moved backward. Reverse rotation. Further, the rotational speed of the electric motors 16 and 18 increases as the tilting amount of the operation lever 28 increases. For example, when the right operating lever 28 is tilted forward, the electric motor 16 corresponding to the right main driving wheel 12 rotates forward, and when the right operating lever 28 is tilted backward, the right main driving wheel 12 is supported. The electric motor 16 that rotates reversely rotates. Further, when both control levers 28 are moved forward by the same amount, the lawnmower vehicle 10 goes straight. In this case, the two caster wheels 22 and 24 on the front side face in a direction parallel to the main drive wheels 12 and 14.

  On the other hand, when turning the lawnmower vehicle 10 in either the left or right direction, for example, both operation levers 28 are tilted forward, but one operation lever 28 is tilted more greatly than the other operation lever 28. . As described above, when the tilting amount of the operation lever 28 is different between the right side and the left side, the lawnmower vehicle 10 turns according to the difference in the tilting amount of the left and right operation levers 28.

  Further, with such a lawnmower vehicle 10, super turning in the left or right direction (spin), that is, the turning center is positioned at the center position between the installation positions of the right and left main drive wheels 12 and 14. It is also possible to turn in either the left or right direction in the state of being. In this case, the operating lever 28 on one side is tilted forward, but the operating lever 28 on the other side is tilted backward by the same amount. In this case, the right and left wheel speed acquisition means of the motor control units 76, 84, 86, and 88 obtain and acquire the traveling speed of the right and left main drive wheels 12 and 14 according to the tilting amount of the operation lever 28. The right and left main drive wheels 12 and 14 rotate in the reverse direction at the same speed. The first electric motor drive circuit and the second electric motor drive circuit drive the first electric motor 16 and the second electric motor 18 according to the acquired speeds of the right and left main drive wheels 12 and 14.

  Note that the two caster wheels 22 and 24 can be driven by corresponding electric motors (not shown) for traveling, but in that case, the two caster wheels 22 and 24 are driven. For example, an electric motor and an electric motor drive circuit for driving the electric motor are provided. According to the lawnmower vehicle 10, the at least two main drive wheels 12, 14 use the first electric motor 16 and the second electric motor 18 as a driving power source for the first electric motor 16 and the second electric motor. The motors 18 are driven independently from each other.

  According to the present embodiment as described above, the air cooling fan 78 is fixed to each of the rotating shafts 54 of the first electric motor 16 and the second electric motor 18 provided in the drive portions of the main drive wheels 12 and 14. . For this reason, the air cooling fan 78 can be driven in accordance with the rotational drive of the rotary shaft 54 of the electric motors 16, 18, and the electric motors 16, 18 are efficiently driven by the cooling air sent by the driving of the air cooling fan 78. Can be cooled. As a result, the cooling system of the electric motors 16 and 18 can be improved.

  Further, since the lawn mower driving motor 38 is disposed along the passage direction of the cooling air that cools the radiator 50 and the oil cooler 52, the lawn mower driving motor 38 can be efficiently cooled. The lawn mower driving motor 38 may be arranged along the passage direction of the cooling air that cools one of the radiator 50 and the oil cooler 52.

  Although not shown in the figure, the lawnmower vehicle can travel on the ground by two front right and left main drive wheels and two rear right and left caster wheels, and mows the lawn in front of the main drive wheels. A so-called FMM type may be provided with a machine. The lawnmower vehicle can run on the ground by two caster wheels on the right and left on the front side and two main drive wheels on the right and left on the rear side, and a lawn mower is provided between the caster wheels and the main drive wheel. In addition, a so-called SST type configuration in which a secondary battery or an engine is provided on the front side of the driver's seat may be employed. The lawn mowing vehicle also has a front frame that supports two front wheels, a rear frame that supports two rear wheels, a connecting portion that connects the front frame and the rear frame so that the body can be bent, and an operation of the operating portion. In conjunction with this, a vehicle with a so-called articulated turning mechanism that includes a steering device that changes the body refraction angle of the front frame and the rear frame can also be provided.

[Second Embodiment]
FIG. 4 is a schematic circuit diagram showing a cooling system for the first electric motor 16 and the second electric motor 18 in the second embodiment of the present invention. In the lawnmower vehicle 10 of the present embodiment, in the first embodiment described above, the first electric motor 16 and the second electric motor 18 that drive the two right and left main drive wheels 12, 14 and the first electric motor. Both the two reduction gears 90, which are reduction gear devices for reducing the transmission of the power of the motor 16 and the second electric motor 18 to the main drive wheels 12, 14, are cooled by oil. . For this purpose, a hydraulic pump 94 that is a refrigerant pump is provided in the hydraulic circuit 92 that is a refrigerant flow path, and the oil that is the refrigerant discharged from the hydraulic pump 94 branches off at the branching portion 96 and the two right and left electric motors 16. , 18 are supplied. In addition, after the lubricating oil supplied to the electric motors 16 and 18 flows through the speed reducer 90, the lubricating oil joins at the joining portion 98 and is then supplied to the oil cooler 100. The oil outlet of the oil cooler 100 is connected to the oil inlet of the hydraulic pump 94. Because of this configuration, the first electric motor 16 and the second electric motor 18 and the two right and left reduction gears 90 are commonly cooled by oil circulating through the hydraulic circuit 92 by a single hydraulic pump 94. Is done.

  Cooling air is sent to the oil cooler 100 by an air cooling fan 104 fixed to the rotating shaft of the electric motor 102 that drives the hydraulic pump 94. That is, one electric motor 102 is shared by the hydraulic pump 94 driving and the air cooling fan 104 driving. Further, in the hydraulic circuit 92, an inverter 106 for driving the first electric motor 16 and the second electric motor 18 and a controller 108 which is a control circuit unit for controlling the inverter 106 are interposed between the hydraulic pump 94 and the branch portion 96. A cooling flow path for cooling the oil is provided, and oil discharged from the hydraulic pump 94 flows through the cooling flow path.

  According to this embodiment, the first electric motor 16 and the second electric motor 18 are commonly cooled by the oil that circulates the hydraulic circuit 92 by the single hydraulic pump 94, so the first electric motor 16 and the 2nd electric motor 18 can be cooled efficiently. Moreover, since the controller 108 and the inverter 106 are cooled by the oil circulated to cool the first electric motor 16 and the second electric motor 18, the controller 108 and the inverter 106 can be efficiently cooled. Note that one of the controller 108 and the inverter 106 can be cooled by oil circulated to cool the first electric motor 16 and the second electric motor 18. Since other configurations and operations are the same as those in the first embodiment, overlapping illustrations and descriptions are omitted.

[Third Embodiment]
FIG. 5 is a diagram corresponding to part B of FIG. 4 in the third embodiment of the present invention. In the lawnmower vehicle 10 of the present embodiment, in the second embodiment shown in FIG. 4 described above, the first driving wheel 12 (or 14, the same applies to the present embodiment) on one side is driven. The electric motor 16 (or the second electric motor 18, the same applies to the present embodiment) is cooled by oil circulating through the hydraulic circuit 92. On the other hand, the reduction gear 90 for decelerating and transmitting the power of the first electric motor 16 to the main drive wheel 12 is not cooled by the oil circulating through the hydraulic circuit 92. Instead, lubricating oil or grease is sealed at the bottom inside the case constituting the reduction gear 90. Further, when the lubricating oil is sealed inside the case of the speed reducer 90, the lubricating oil circulates in the speed reducer 90 or lubricates the speed reducer 90 as the gears constituting the speed reducer 90 rotate. The oil is mist lubricated. Further, a dry sump system that cools the reduction gear 90 by driving a circulation pump (not shown) by rotation of a gear constituting the reduction gear 90 and circulating lubricating oil to the reduction gear 90 via an external oil tank (not shown); You can also

  Further, a hydraulic pump 94 is provided on the side of the first electric motor 16, the rotation shaft of the first electric motor 16 and the rotation shaft of the hydraulic pump 94 are integrated, and by driving the rotation shaft of the first electric motor 16, The hydraulic pump 94 is driven. Oil is circulated through the hydraulic circuit 92 including the first electric motor 16 by driving the hydraulic pump 94. Further, the configuration of the main driving wheel 14 (or 12) on the other side (not shown in FIG. 5) has the same configuration as that shown in FIG. In the present embodiment, the hydraulic pump 94 provided between the inverter 106 and the oil cooler 100 referred to in FIG. 4 in the hydraulic circuit 92 may be omitted.

  According to the present embodiment, the powers of the first electric motor 16 and the second electric motor 18 can be transmitted to the main drive wheels 12 and 14 via the speed reducer 90, respectively. The second electric motor 18 is cooled by oil. In addition, lubricating oil or grease is sealed inside the case constituting the reduction gear 90. For this reason, it is not necessary to cool the reduction gear 90 with the oil which cools the electric motors 16 and 18, and the electric motors 16 and 18 can be cooled efficiently. Other configurations and operations are the same as those of the second embodiment shown in FIG.

[Fourth Embodiment]
FIG. 6 is a schematic circuit diagram showing a cooling system for the first electric motor 16 and the second electric motor 18 in the fourth embodiment of the present invention. In the lawnmower vehicle 10 of the present embodiment, in the first embodiment shown in FIGS. 1 to 3, the first electric motor 16 and the second electric motor 16 that drive the right and left main drive wheels 12, 14 are used. The electric motor 18 is cooled by water cooling, that is, cooling water. For this purpose, a cooling water pump 112 which is a refrigerant pump is provided in the cooling water circuit 110 which is a refrigerant flow path, and the cooling water which is the refrigerant discharged from the cooling water pump 112 is branched at the branching portion 114 and left and right two pieces. The first electric motor 16 and the second electric motor 18 are supplied.

  In addition, the cooling water supplied to the electric motors 16, 18 does not pass through the speed reducer 90, joins at the joining unit 116, and then is supplied to the radiator 118. The cooling water outlet of the radiator 118 is connected to the cooling water inlet of the cooling water pump 112. Because of this configuration, the first electric motor 16 and the second electric motor 18 are commonly cooled by the cooling water that circulates the cooling water circuit 110 by the single cooling water pump 112.

  Further, cooling air is sent to the radiator 118 by an air cooling fan 122 fixed to the rotating shaft of the electric motor 120. Further, in the cooling water circuit 110, a cooling water channel for cooling the inverter 106 and the controller 108 which is a control circuit unit is provided between the cooling water pump 112 and the branching unit 114, and the cooling water channel is provided in the cooling water channel. Cooling water discharged from the pump 112 flows. Further, in the reduction gear 90 which is a reduction gear device corresponding to the first electric motor 16 and the second electric motor 18, the reduction gear 90 is configured in the same manner as in the third embodiment shown in FIG. Lubricating oil or grease is sealed at the bottom inside the case. Further, when the lubricating oil is sealed inside the case of the speed reducer 90, the lubricating oil circulates in the speed reducer 90 or lubricates the speed reducer 90 as the gears constituting the speed reducer 90 rotate. The oil is mist lubricated. In addition, a dry sump system that cools the speed reduction device 90 by driving a circulation pump (not shown) by rotation of a gear constituting the speed reduction device 90 and circulating oil to the speed reduction device 90 via an external oil tank (not shown) is adopted. You can also.

  According to this embodiment, the first electric motor 16 and the second electric motor 18 are commonly cooled by the cooling water that circulates the cooling water circuit 110 by the single cooling water pump 112. The first electric motor 16 and the second electric motor 18 can be efficiently cooled. Moreover, since the controller 108 and the inverter 106 are cooled by the cooling water circulated to cool the first electric motor 16 and the second electric motor 18, the controller 108 and the inverter 106 can be efficiently cooled. Note that one of the controller 108 and the inverter 106 can be cooled by cooling water that is circulated to cool the first electric motor 16 and the second electric motor 18. Further, since lubricating oil or grease is enclosed in the case constituting the speed reducer 90, it is not necessary to cool the speed reducer 90 with cooling water for cooling the electric motors 16 and 18. 18 can be cooled more efficiently. Other configurations and operations are the same as those in the first embodiment shown in FIGS. 1 to 3 described above, and thus redundant illustration and description are omitted.

[Fifth Embodiment]
FIG. 7 is a schematic circuit diagram showing a cooling system for the first electric motor 16 and the second electric motor 18 in the fifth embodiment of the present invention. In the lawnmower vehicle 10 of the present embodiment, in the fourth embodiment shown in FIG. 6 described above, the first electric motor 16 and the second electric motor 18 that drive the two right and left main drive wheels 12, 14 are used. Is cooled with water, that is, with cooling water. In particular, in the present embodiment, the first electric motor 16 and the second electric motor 18 are cooled by cooling water that passes through a radiator 50 for cooling the engine 32 that is an internal combustion engine. For this reason, the cooling water circuit 110a is shared by the cooling of the engine 32 and the cooling of the first electric motor 16 and the second electric motor 18, and the cooling water that has passed through the engine 32 is cooled after passing through the radiator 50. The water pump 112 is sent. The cooling water discharged from the cooling water pump 112 is sent to the first electric motor 16 and the second electric motor 18 after flowing through a cooling water flow path for cooling the inverter 106 and the controller 108.

  According to the present embodiment, the engine 32 and the generator 34 (see FIGS. 1 and 2) driven by the engine 32 are provided, and the electric power generated by the generator 34 is directly or secondary battery 36. The first electric motor 16 and the second electric motor 16 can be supplied to the first electric motor 16 and the second electric motor 18 through the cooling water passing through the radiator 50 for cooling the engine 32 (see FIG. 2). 2 The electric motor 18 is cooled. Therefore, the cooling water circuit 110a, the radiator 50, and the cooling water pump 112 can be used in common for cooling the engine 32 and cooling the first electric motor 16 and the second electric motor 18. Thus, it is possible to reduce the cost by reducing the number of parts, reduce the weight, and improve the degree of effective use of the space of the lawnmower vehicle 10. In addition, the air cooling fan 124 for sending cooling air to the radiator 50 can be driven by the engine 32. Other configurations and operations are the same as those of the fourth embodiment shown in FIG.

  In addition, although illustration is abbreviate | omitted, in each said embodiment, the steering wheel 22 and 24 is steered, ie, the steering electric motor for changing a direction, and the caster wheels 22 and 24 for rotationally driving. A cooling fin can also be provided on the outer surface of the case constituting one or both of the drive electric motors. According to such a configuration, one or both of the steering electric motor and the driving electric motor for the caster wheels 22 and 24 are efficiently cooled by natural air cooling, that is, by air cooling without using a cooling fan driven by the motor. Can cool well.

  Although not shown in the drawings, both ends in the width direction of the main frame 30 that support the main drive wheels 12 and 14 in the second to fifth embodiments shown in FIGS. An oil pipe that constitutes the hydraulic circuit 92 or a cooling water pipe that constitutes the cooling water circuits 110 and 110a, for example, hoses, is disposed inside the two standing plate portions 74 provided so as to protrude vertically. You can also. That is, a cooling pipe can be disposed inside the main frame 30. According to such a configuration, the degree of effective use of the space of the lawnmower vehicle 10 including the oil pipe or the cooling water pipe can be increased. Further, it is possible to more effectively prevent the oil pipe or the cooling water pipe from being damaged.

  Further, in the second to fifth embodiments shown in FIGS. 2 to 7, the case constituting the hydraulic pump 94 or the cooling water pump 112, the first electric motor 16 or the second electric motor. The case including the motor 18 may be integrated to form a motor unit, or the hydraulic pump 94 or the cooling water pump 112 may be built in the motor unit including the first electric motor 16 or the second electric motor 18. Further, in the second to fifth embodiments shown in FIGS. 2 to 7, the lawn mower driving motor 38 is replaced with the oil or cooling water circuits 110 and 110a flowing through the hydraulic circuit 92. It can also be cooled by flowing cooling water.

  Further, in the lawnmower vehicle of each of the above embodiments, the engine 32 (see FIGS. 1, 2, and 7) is not provided, and power is supplied from the secondary battery 36 to the first electric motor 16 and the second electric motor 18. By supplying, it can also be set as what is called an all electric type which can drive the main drive wheels 12 and 14. In this case, the secondary battery 36 stores electricity by supplying power from the outside. For example, the secondary battery 36 can be supplied with charging power from an external power source by a plug-in method.

1 is a schematic diagram showing a configuration of a lawnmower vehicle according to a first embodiment of the present invention. FIG. 2 is a cross-sectional view taken along line AA in FIG. 1. In 1st Embodiment, it is sectional drawing which shows the drive part of the one side main drive wheel. In 2nd Embodiment which concerns on this invention, it is a schematic circuit diagram which shows the cooling system of a 1st electric motor and a 2nd electric motor. Similarly, in the third embodiment, it is a diagram corresponding to the portion B of FIG. Similarly, in the fourth embodiment, it is a schematic circuit diagram showing a cooling system of the first electric motor and the second electric motor. Similarly, in the fifth embodiment, it is a schematic circuit diagram showing a cooling system of the first electric motor and the second electric motor.

Explanation of symbols

  10 lawn mower vehicle, 12, 14 main drive wheel, 16 first electric motor, 18 second electric motor, 20 lawn mower (more), 22, 24 caster wheel, 26 driver's seat, 28 operation lever, 30 main frame, 32 engine, 34 generator, 36 secondary battery, 38 lawn mower drive motor, 40 deck, 42 power transmission mechanism, 44 lawn mower drive device, 46 discharge duct, 48 grass collection tank, 50 radiator, 52 oil cooler , 54 Rotating shaft, 56a, 56b Planetary gear mechanism, 58 pinion gear, 60 Ring gear, 62 Carrier, 64 Second rotating shaft, 66 Second pinion gear, 68 Second ring gear, 70 Second pinion shaft, 72 Housing, 74 Standing plate portion , 76 Motor control unit, 78 Air cooling fan, 80 cover, 82 through hole, 84, 86 , 88 Motor control unit, 90 speed reducer, 92 hydraulic circuit, 94 hydraulic pump, 96 branching section, 98 confluence section, 100 oil cooler, 102 electric motor, 104 air cooling fan, 106 inverter, 108 controller, 110, 110a cooling water Circuit, 112 Cooling water pump, 114 branching portion, 116 junction portion, 118 radiator, 120 electric motor, 122 air cooling fan, 124 air cooling fan.

Claims (9)

Two left and right drive wheels respectively driven by two drive wheel electric motors provided on both sides in the width direction;
A lawn mower with a lawn mower,
An air cooling fan is fixed to the rotating shaft of each drive wheel electric motor,
Further, the electric motor for each driving wheel is disposed outside two standing plates provided in the state of projecting in the vertical direction at both ends in the width direction of the frame that supports each driving wheel, and the two standing motors are arranged. Each of the air cooling fans is arranged inside the plate portion ,
Furthermore, a control unit for controlling the electric motor for each driving wheel, comprising a plurality of the control units arranged so as to be separated and connected to each other including a signal cable,
At least some of the control units of the plurality of control units are fixed between the corresponding air cooling fan and the corresponding driving wheel electric motor inside each of the standing plate portions. Riding lawn mowing vehicle. Two left and right drive wheels respectively driven by two drive wheel electric motors provided on both sides in the width direction;
A lawn mower with a lawn mower,
An air cooling fan is fixed to the rotating shaft of each drive wheel electric motor,
Further, the electric motor for each driving wheel is disposed outside two standing plates provided in the state of projecting in the vertical direction at both ends in the width direction of the frame that supports each driving wheel, and the two standing motors are arranged. Each of the air cooling fans is arranged inside the plate portion,
And a control unit for controlling the electric motor for each drive wheel,
At least a part of the control unit is disposed below the driver's seat on the upper surface side of the frame. Two left and right drive wheels respectively driven by two drive wheel electric motors provided on both sides in the width direction;
A lawn mower with a lawn mower,
An air cooling fan is fixed to the rotating shaft of each drive wheel electric motor,
Further, the electric motor for each driving wheel is disposed outside two standing plates provided in the state of projecting in the vertical direction at both ends in the width direction of the frame that supports each driving wheel, and the two standing motors are arranged. Each of the air cooling fans is arranged inside the plate portion,
Further, the two drive wheel electric motors are commonly cooled by a refrigerant circulating through the refrigerant flow path by a single refrigerant pump. Two left and right drive wheels respectively driven by two drive wheel electric motors provided on both sides in the width direction;
A lawn mower with a lawn mower,
An air cooling fan is fixed to the rotating shaft of each drive wheel electric motor,
Further, the electric motor for each driving wheel is disposed outside two standing plates provided in the state of projecting in the vertical direction at both ends in the width direction of the frame that supports each driving wheel, and the two standing motors are arranged. Each of the air cooling fans is arranged inside the plate portion,
Furthermore, the power of the electric motor for each driving wheel can be transmitted to the corresponding driving wheel via a reduction gear device,
Each driving wheel electric motor is cooled by oil or water,
A riding lawnmower vehicle characterized in that lubricating oil or grease is enclosed in a case constituting each of the reduction gear devices. Two left and right drive wheels respectively driven by two drive wheel electric motors provided on both sides in the width direction;
A lawn mower with a lawn mower,
An air cooling fan is fixed to the rotating shaft of each drive wheel electric motor,
Further, the electric motor for each driving wheel is disposed outside two standing plates provided in the state of projecting in the vertical direction at both ends in the width direction of the frame that supports each driving wheel, and the two standing motors are arranged. Each of the air cooling fans is arranged inside the plate portion,
And an internal combustion engine,
A generator driven by the internal combustion engine,
The electric power generated by the generator can be supplied to the electric motor for driving wheels directly or through a power storage unit,
The riding lawn mowing vehicle is characterized in that the driving wheel electric motor is cooled by cooling water passing through a cooling radiator of the internal combustion engine. Two left and right drive wheels respectively driven by two drive wheel electric motors provided on both sides in the width direction;
A lawn mower with a lawn mower,
An air cooling fan is fixed to the rotating shaft of each drive wheel electric motor,
Further, the electric motor for each driving wheel is disposed outside two standing plates provided in the state of projecting in the vertical direction at both ends in the width direction of the frame that supports each driving wheel, and the two standing motors are arranged. Each of the air cooling fans is arranged inside the plate portion,
In addition, it has caster wheels that are steered wheels,
A cooling fin is provided outside the case constituting one or both of the caster wheel steering electric motor for steering the caster wheel and the caster wheel driving electric motor for rotationally driving the caster wheel. A riding lawn mowing vehicle characterized by being provided. Two left and right drive wheels respectively driven by two drive wheel electric motors provided on both sides in the width direction;
A lawn mower with a lawn mower,
An air cooling fan is fixed to the rotating shaft of each drive wheel electric motor,
Further, the electric motor for each driving wheel is disposed outside two standing plates provided in the state of projecting in the vertical direction at both ends in the width direction of the frame that supports each driving wheel, and the two standing motors are arranged. Each of the air cooling fans is arranged inside the plate portion,
Furthermore, a lawn mower electric motor for driving the lawn mower is provided,
The lawn mower electric motor is disposed along a passing direction of cooling air that cools a radiator or an oil cooler. Two left and right drive wheels respectively driven by two drive wheel electric motors provided on both sides in the width direction;
A lawn mower with a lawn mower,
An air cooling fan is fixed to the rotating shaft of each drive wheel electric motor,
Further, the electric motor for each driving wheel is disposed outside two standing plates provided in the state of projecting in the vertical direction at both ends in the width direction of the frame that supports each driving wheel, and the two standing motors are arranged. Each of the air cooling fans is arranged inside the plate portion,
Furthermore, at least one of a control circuit part and an inverter is cooled with the refrigerant | coolant circulated in order to cool the said drive wheel electric motor, The riding-type lawn mowing vehicle characterized by the above-mentioned. Two left and right drive wheels respectively driven by two drive wheel electric motors provided on both sides in the width direction;
A lawn mower with a lawn mower,
An air cooling fan is fixed to the rotating shaft of each drive wheel electric motor,
Further, the electric motor for each driving wheel is disposed outside two standing plates provided in the state of projecting in the vertical direction at both ends in the width direction of the frame that supports each driving wheel, and the two standing motors are arranged. Each of the air cooling fans is arranged inside the plate portion,
Further, refrigerant pipes for flowing refrigerant for cooling the drive wheel electric motor are arranged inside two standing plates provided in a state of projecting in the vertical direction at both ends in the width direction of the frame. A riding-type lawn mowing vehicle.

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