1. Field of the Invention
The present invention relates to a vehicle. More specifically, the present invention relates to a pick-up style utility vehicle which can expand a cargo bed forward or enlarge a passenger space so as to make the most of the area or capacity of the space of the cargo bed and the passenger space according to the needs of users, or to an all terrain vehicle.
2. Description of the Prior Art
At present, utility vehicles of various styles are used. In addition to pick-up style utility vehicles with a relatively large cargo bed behind a seat, there are straddle-type all terrain vehicles having a handle bar, or the like.
Typically, the pick-up style utility vehicles are more practical than the handle bar type utility vehicles belonging to the straddle-type all terrain vehicles. The pick-up style utility vehicles are used for hunting in fields and mountains, conveyance of lumber, movement and maintenance in golf courses, and more.
The present applicants have formerly applied the inventions relating to the pick-up style utility vehicle with a cargo bed whose area or capacity can be expanded. Their applications have been filed, which are, for example, U.S. Pat. Nos. 6,905,159, 6,994,388, and 7,249,798.
The configuration of the pick-up style utility vehicle disclosed in the respective documents includes a front seat including a driver's seat, a rear seat, and a cargo bed in this order from front, wherein the rear seat is changed between a used state and a retracted state so as to be switched between 2 passengers transformation and 4 passengers transformation, and in 2 passengers transformation, a front portion of the cargo bed is expandable to a riding space occupied by the rear seat in the used state.
In the pick-up style utility vehicle of the prior art, when the passenger is seated on the rear seat, the load distribution of the pick-up style utility vehicle is changed, and the vehicle body behavior such as handling is changed as compared with when the passenger is seated only on the front seat. Depending on when the passenger is seated on the rear seat or not, drivability is different.
The present invention has been made in view of the above problems and an object of the present invention is to improve drivability by performing the output control of a vehicle when the passenger is seated on a rear seat.
In order to achieve the above objects, the present invention provides a vehicle including: a front seat; and a rear seat; wherein the rear seat is changeable between an installed state in which the passenger can be seated and a retracted state in which the passenger is not seated and the rear seat is retracted, the vehicle including: an output control unit controlling the output of an engine; and detection means for detecting the installed state of the rear seat; wherein when the detection means detects the installed state of the rear seat, the output control unit regulates the output of the engine as compared with the output when the detection means does not detect the installed state of the rear seat.
With the above configuration, when the rear seat is brought to an installed state, the output control unit regulates the output of the engine so that the influence of the change of load distribution caused when the passenger is seated on the rear seat can be reduced. The drivability of the vehicle can be improved. In addition, when the rear seat is brought to the installed state, the output of the engine is regulated so that when there is a possibility that the passenger may be seated on the rear seat, the output of the engine is regulated by simply bringing the rear seat to the installed state. The output of the engine can be regulated more reliably.
According to the present invention, preferably, a seating portion of the rear seat in the installed state is brought to a substantially horizontal state, the detection means is a switch detecting a load and is provided on a bottom surface of the seating portion when the seating portion of the rear seat is brought to the substantially horizontal state, and the seating portion of the rear seat is brought to the substantially horizontal state so that the switch is pressed by the load of the rear seat to detect the installed state of the rear seat.
With the above configuration, in the installed state of the rear seat, the detection means detects the installed state of the rear seat by the load of the rear seat. The installed state of the rear seat can be easily detected.
According to the present invention, preferably, a backrest of the rear seat in the installed state is brought to an erected state, the detection means is a switch detecting a load and is provided on the backrest of the rear seat, and the backrest of the rear seat is brought to the erected state so that the switch is contacted with a partitioning member partitioning a riding space and a cargo bed to detect the installed state of the rear seat.
With the above configuration, in the installed state of the rear seat, the detection means is contacted with the partitioning member to detect the installed state of the rear seat. The installed state of the rear seat can be easily detected.
According to the present invention, preferably, the output control unit changes or retards the ignition timing of an engine to regulate the output of the engine.
With the above configuration, the output of the engine can be easily regulated, and for instance, the maximum speed and acceleration of the vehicle can be regulated.
In the present invention, the output control unit may preferably reduce the fuel injection quantity of the engine to regulate the output of the engine.
With the above configuration, the output of the engine can be easily regulated, and for instance, the maximum speed and acceleration of the vehicle can be regulated.
In order to achieve the above objects, the present invention provides a vehicle including: a front seat; and a rear seat; wherein the rear seat is changeable between the installed state in which the passenger can be seated and the retracted state in which the passenger is not seated and the rear seat is retracted, the vehicle including: an output control unit controlling the output of an engine; and detection means for detecting the retracted state of the rear seat; wherein when the detection means does not detect the retracted state of the rear seat, the output control unit regulates the output of the engine as compared with the output when the detection means detects the retracted state of the rear seat.
With the above configuration, when the rear seat is not in the retracted state, the output control unit regulates the output of the engine so that the influence of the change of load distribution caused when the passenger is seated on the rear seat can be reduced. The drivability of the vehicle can be improved. In addition, when the rear seat is not in the retracted state, the output of the engine is regulated so that when there is a possibility that the passenger may be seated on the rear seat, the output of the engine is regulated. The output of the engine can be regulated more reliably.
The cabin frame 7 surrounding the cabin 6 includes a pair of left and right side frame members 11 made of metal pipes formed in a substantially inverted U-shape seen from the side, and cross frame members 12 made of a plurality of metal pipes coupling the side frame members 11. Each of the side frame members 11 includes a front side portion 11a extended rearward and upward from near the left or right side portion of the hood 8, a rear side portion 11b extended substantially upward from the left or right side portion of a rear end of the cabin 6, an upper side portion 11c integrally coupling an upper end of the front side portion 11a and an upper end of the rear side portion 11b and extended forward and rearward, and an intermediate vertical portion 11d coupling the intermediate portion of the upper side portion 11c in the front-rear direction and a floor surface 6a.
A bench-shaped front seat 21 is installed in a front half portion of the cabin 6. The bench-shaped rear seat 22 is installed in a rear half portion of the cabin 6. A dashboard (operating portion) 24 having a steering wheel 23 is provided at a front end of the cabin 6.
The bench-shaped front seat 21 includes a seat leg 26 erected on the floor surface 6a of the cabin 6, a seating portion 27 provided on the upper end face of the seat leg 26, and a backrest 29 fixed via a supporting stay to the intermediate vertical portion 11d. The bench-shaped front seat 21 is typically extended leftward and rightward to near left and right ends of the cabin 6. With this, two persons can be seated side by side. The driver can be seated on one (e.g., left) seating area and the passenger can be seated on the other seating area. The front seat 21 can also be a box type seat.
The bench-shaped rear seat 22 is installed on an upper side of a housing space 30 in which part of an engine and a power transmission system are arranged and includes a seating portion 31 and a backrest 32. As in the front seat 21, the seating portion 31 and the backrest 32 are extended leftward and rightward to near the left and right ends of the cabin 6. With this, two passengers can be seated side by side. The rear seat 22 can also be a box type seat that can be housed.
As shown in
The configuration of the rear seat 22 will be described below in greater detail.
The operation of changing the pick-up style utility vehicle 1 from 4 passengers transformation shown in
In 4 passengers transformation shown in
To change 4 passengers transformation shown in
The pair of left and right expandable side panels 55 is opened forward and is expanded forward from front ends of the stationary side panels 52. The front panel 54 is attached to front ends of the expandable side panels 55. The screen shield 10 is attached to the front panel 54 moved forward to the front ends of the expandable side panels 55. By the above operation, the pick-up style utility vehicle 1 is changed from 4 passengers transformation to 2 passengers transformation to expand the cargo bed 9 forward.
When the pick-up style utility vehicle 1 is changed from 2 passengers transformation shown in
As shown in
The switch 60 includes a resilient member. As shown in
The pick-up style utility vehicle 1 includes an electronic control unit (ECU) 70 controlling the engine.
The ECU 70 is also connected to the switch 60 by a cable 64 and detects the signal from the switch 60 (a pressed state is referred to as an on signal and a press released state is referred to as an off signal). When the switch 60 is attached to the bottom plate 40a, it is preferred that part of the cable 64 connecting the switch 60 and the ECU 70 be wired in the supporting base 40, as shown in
When the throttle is closed (the throttle opening is 100% to about 30%), the engine rotational speed is lowered to about 4000 rpm and the vehicle speed is about 40 km/h. When the throttle is substantially fully closed, the engine rotational speed is lowered to 1000 to 1500 rpm so as to be the idling rotational speed. After the vehicle speed of the all terrain four-wheel vehicle 1 is 0 km/h, the ignition switch is turned off to stop the engine.
When the throttle is closed (the throttle opening is 100% to about 30%), the engine rotational speed is lowered to about 4500 rpm and the vehicle speed is 40 km/h or below. In this state, the ECU 70 resets the ignition timing which is retarded to 0° or below (or advances the ignition timing to 20°).
The ECU 70 can regulate the output of the engine by various means. In
According to the embodiment, the following effects can be exhibited.
(1) When the rear seat 22 is brought to the installed state, the ECU 70 regulates the output of the engine. The influence of the change of load distribution caused when the passenger is seated on the rear seat 22 can be reduced. The drivability of the pick-up style utility vehicle 1 thus can be improved.
(2) When the rear seat 22 is brought to the installed state, the output of the engine is regulated. When there is a possibility that the passenger may be seated on the rear seat 22, the output of the engine is regulated. The output of the engine can be regulated more reliably.
(3) The rear seat is shifted between the installed state and the retracted state. In the installed state of the rear seat 22, the switch 60 detects the installed state of the rear seat 22 by the load of the rear seat 22. The installed state of the rear seat 22 can be easily detected.
(4) The detection means for detecting the installed state of the rear seat 22 is the switch 60 detecting a load. The detection means thus can be easily provided. In addition, the switch 60 which is contacted with a different member for detection detects a load by simply being contacted with the stationary bottom plate 51. Therefore, the installed state of the rear seat 22 can be easily detected.
(5) The ECU 70 retards the ignition timing of the engine to regulate the output of the engine. The output of the engine thus can be easily regulated. For instance, the maximum speed and acceleration of the pick-up style utility vehicle 1 can be regulated. In addition, the ECU 70 can regulate the output of the engine by reducing the fuel injection quantity of the engine.
In the embodiment, the detection means has been described by taking the switch 60 provided on the bottom plate of the rear seat 22 and detecting a load as an example. The detection means of the present invention is not limited to the switch 60.
For instance, as shown in
When the switch 61 is attached to the rear surface of the backrest 32, it is preferred that part of the cable 64 connecting the switch 61 and the ECU 70 be wired in the rear seat 22, as shown in
As another embodiment of the detection means, the detection means may detect the inclination angle of the rear seat 22, and when the detection means detect the substantial horizontal state of the seating portion 31 of the rear seat 22, the detection means detect that the rear seat 22 is in the installed state. In addition, the detection means may be provided on a seatbelt for the rear seat 22, and when the detection means detect the fastening of the seatbelt, the detection means detect that the rear seat 22 is in the installed state.
Further, the detection means does not detect the installed state of the rear seat 22, but may detect the retracted state. In this case, when not detecting a signal from the detection means indicating that the rear seat 22 is in the retracted state, the ECU 70 judges that the rear seat 22 is in the installed state to regulate the output of the engine. As such detection means, for instance, it can be considered that an arm fixing the rear seat 22 in the retracted state, that is, in the erected state is provided on the vehicle body frame and a switch is provided on the arm. This switch detects that the rear seat 22 is fixed into the erected state by the arm.
In this embodiment, the present invention has been described by taking the pick-up style utility vehicle as an example. The present invention is not limited to the pick-up style utility vehicle. The present invention is widely applicable to vehicles having a front seat and a rear seat, e.g., to automatic four-wheel vehicles including the pick-up style utility vehicles.
The present invention is not limited to the configuration of the above embodiment and includes various modification examples contemplated in the scope without departing from the contents described in the claims.