JP2008155829A - Vehicle body structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a vehicle body structure capable of increasing the number of occupants up to three persons only by slightly expanding the whole length of a two-seater sports car making traveling enjoyable. <P>SOLUTION: An internal combustion engine 7, a generator 8, an inverter unit 9 and a main battery 10 are disposed in a wheel base. In a cabin floor panel 35, a tunnel part 40 is formed between a driver's seat and a front passenger seat, and the rear end is terminated in front of a rear seat 31. The tunnel part 40 has a first raised portion 40a corresponding to the generator 8. A recessed portion 61a of a rear floor panel 61 is formed corresponding to a cut-out part 60a of a kick-up part 60 standing upward from a rear end of the cabin floor panel 35. A rear seat 32 is installed in the recessed portion 61a. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a vehicle body structure of a three-seater vehicle, in which a rear seat is provided in the center portion in the vehicle width direction and a passenger seated on the rear seat has a gap between the left and right front seats as a footrest. The present invention relates to a vehicle body structure that can be used as a vehicle body of a 3-theta sports car that slightly deforms the vehicle body structure of a 2-theta sports car.

  Patent Document 1 discloses a vehicle body structure of a small two-theta sports car. This type of vehicle has a kick-up portion that extends obliquely rearward and upward from the rear end of the passenger compartment floor panel, and has a vehicle body structure in which the rear floor panel extends rearward from the upper end of the kick-up portion. Yes.

  By the way, electric cars are attracting attention due to the growing voice of environmental problems. Patent Document 2 discloses an electric vehicle having a generator driven by an internal combustion engine and driving rear wheels with an electric motor using electric energy generated by the generator. The application of the US patent of Patent Document 1 was filed in 1962, and at that time, the development of elemental technologies for electric vehicles such as a small electric motor capable of generating sufficient torque was not sufficient. 1 only discloses the basic concept of an electric vehicle.

JP-A-2005-29913 USP 3,205,966 Publication

  An object of the present invention is to provide a vehicle body structure that can increase the number of occupants to three by only slightly increasing the overall length of a two-seater sports car that can be enjoyed running.

According to the present invention, the above technical problem is
A dash panel that partitions the engine room and the vehicle compartment, and a rear floor panel that extends rearward through a kick-up portion that extends upward from the rear end of the floor panel of the vehicle compartment,
The kick-up part is formed with a notch part in which the upper edge of the center part in the vehicle width direction is notched downward,
The rear floor panel is provided with a recess formed at a position corresponding to the notch and opened forward and upward,
This is achieved by providing a vehicle body structure in which a rear seat is disposed in the recess and a fuel tank is disposed under the rear floor panel so as to surround the recess of the rear floor panel. Is done.

  That is, the rear seat is installed by forming a notch in the upper edge of the vehicle width direction center portion of the kick-up portion located behind the left and right front seats and forming a corresponding recess in the rear floor. By forming a space, the legs of the occupant seated in the rear seat are placed in the gap between the left and right front seats, that is, the driver seat and the passenger seat, so that the driver seat and the passenger seat A floor panel having a gap therebetween can be used as a footrest. Therefore, it is possible to make a vehicle that can accommodate three passengers by slightly increasing the length of the vehicle body in the longitudinal direction of the vehicle body.

  In a preferred embodiment of the present invention, the fuel tank connects the left and right bottom portions separated in the vehicle width direction, the left and right standing portions extending obliquely rearward and upward from the bottom portion, and the upper ends of the left and right standing portions. An upper transverse portion extending in the vehicle width direction, and the standing portion of the fuel tank is positioned on the side of the recess of the rear floor panel, and the upper transverse portion of the fuel tank is positioned above the motor Is done. By adopting such a configuration, it is possible to provide a vehicle body structure for a sports car in which the fuel tank can be arranged in the wheel base and three people can ride.

In a preferred embodiment of the present invention, it is used as a vehicle body structure of an electric vehicle. Needless to say, recently, components (electric motors and various auxiliary machines) that can be mounted on electric vehicles have greatly evolved due to the popularization of hybrid cars that use both internal combustion engines and electric motors. We are in a stage where we can produce an automobile (engine-driven vehicle) that is the only drive source and an electric car with incomparable driving performance. That said, the demand does not change at a stretch from engine-driven vehicles to electric vehicles. Even if electric vehicles become widespread, engine-driven vehicles, hybrid cars, and electric vehicles coexist. It is expected that it will be left to the user's preference. The preferred embodiment of the present invention can meet this need. Specifically, a longitudinally mounted internal combustion engine mounted in the engine room with the output shaft directed rearward and along the vehicle center line, a generator connected to the internal combustion engine, and the generator generated An electric motor for driving rear wheels driven by electric power, and a tunnel portion provided at a vehicle width direction central portion of the vehicle compartment floor panel,
The tunnel portion extends rearward from the dash panel and terminates in the longitudinal direction of the vehicle body of the passenger compartment floor panel, and the generator is disposed under the tunnel portion and is seated on the rear seat A flat foot rest is formed at the foot of the foot.

  According to this, even in a vehicle that emphasizes running performance, such as a sports car that has been evolving so far, not only can a heavy generator be placed in the wheelbase, By installing a generator in the tunnel between the driver's seat and the passenger seat, the two-seater sports car can be changed to an electric vehicle that can carry three passengers without much change in the body structure. Therefore, the vehicle body of the electric vehicle can be made by replacing the passenger compartment floor panel using the basic vehicle body structure of a conventional engine-driven FR vehicle as it is.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

  FIG. 1 is an explanatory diagram showing an outline of a vehicle body structure of an electric vehicle in a plan view. Referring to FIG. 1, an electric vehicle 1 has an engine room 3 formed in front of the dash panel 2 and a vehicle room 4 formed in the rear thereof. Reference numeral 5 is a front wheel, and 6 is a rear wheel. In the figure, the front wheel 5 and the rear wheel 6 are respectively labeled with the letter “R” for the right wheel and “L” for the left wheel.

  An internal combustion engine 7 is mounted in the engine room 3 with its output shaft substantially aligned with the center line CL of the vehicle. The vertical internal combustion engine 7 is disposed behind the axle of the front wheels 5. Yes. That is, the electric vehicle 1 is a front midship vehicle, and the internal combustion engine 7 mounted in the engine room 3 is disposed with its output shaft directed rearward and disposed at a position adjacent to the vehicle compartment 4.

  More specifically, the internal combustion engine 7 is composed of, for example, a reciprocating engine having four cylinders, and is preferably an Atkinson cycle engine capable of improving the thermal efficiency by increasing the expansion ratio rather than the compression ratio. Is done. Of course, the internal combustion engine 7 may be a gasoline engine or a diesel engine.

  A generator 8 disposed adjacent to the rear side of the internal combustion engine 7 is connected in series, and an inverter unit 9 and a main battery 10 are disposed adjacent to the rear side of the generator 8. . The generator 8 is arranged on the center line CL as in the case of the internal combustion engine 7, but the inverter unit 9 is arranged offset from the central axis CL toward the driver's seat, while the main battery 10 is arranged on the center line CL. It is arranged offset from the passenger seat side. The main battery 10 has a relatively flat shape and is mainly used as a power source for driving the rear wheels.

  The left and right rear wheels 6L and 6R are driven by left and right three-phase AC electric motors 11L and 11R, respectively. That is, the left rear wheel 6L is driven by the left electric motor 11L, and the right rear wheel 6R is driven by the right electric motor 11R. The electric motors 11L and 11R are connected to the rear wheel axles 13L and 13R via reduction gears 12L and 12R, respectively. Although not shown, the suspension mechanism of the electric vehicle 1 preferably employs a double wishbone for the front wheel 5 and preferably employs a multi-link for the rear wheel 6. Thereby, the optimal geometry can be realized for every driving situation.

  In FIG. 1, reference numeral 15 indicates an intake system component including an air cleaner 15a, and 16 indicates an exhaust system component. The exhaust system component 16 includes an upstream catalyst 16b and a downstream catalyst 16c in addition to the silencer 16a.

  In the engine room 3, a sub battery 17 having a relatively small capacity is disposed on the passenger seat side adjacent to the dash panel 2, and the sub battery 17 is mainly used for starting an internal combustion engine (for a starter motor). The driver's seat is provided with a master back 18 as a brake booster fixed to the dash panel 2 in front of the driver's seat, and an electric vacuum pump (not shown) is preferably used as the vacuum source.

  In the engine room 3, three radiators 20, 21, and 22 are arranged at the front end side by side in the longitudinal direction of the vehicle body. Cooling water for cooling the inverter unit 9 is circulated through the first radiator 20 located at the forefront, and cooling water for cooling the electric motor 11 is circulated through the second second radiator 21 at the farthest rear. A cooling fan 23 is disposed adjacent to the rear of the third radiator 22 located at the rear of the third radiator 22, and cooling water for cooling the internal combustion engine 7 is circulated through the third radiator 22. Note that the cooling water paths of the inverter unit 9, the electric motor 11, and the internal combustion engine 7 are not shown in order to avoid complications in the diagram.

  The electric power generated by the generator 8 driven by the internal combustion engine 7 is converted into direct current by the inverter unit 9 and then stored in the main battery 10 and the sub battery 17. The electric power stored in the main battery 10 is converted into alternating current by the inverter unit 9 and the frequency and voltage are controlled, whereby the left and right electric motors 11R and 11L are independently controlled and the rotation speed and generated torque are controlled. .

  The left and right electric motors 11L and 11R disposed on the axle of the rear wheel 6 are separated from the left and right rear wheels 6L and 6R as much as possible in order to secure the length of the links included in the multilink as the rear wheel suspension mechanism. Are arranged close to the center line CL. As described above, the left and right electric motors 11L and 11R are disposed adjacent to the center line CL, and the fuel tank 25 is disposed in front of the left and right electric motors 11L and 11R. Yes. The shape of the fuel tank 25 will be described in detail later.

  As can be seen from the above description, the internal combustion engine 7, the generator 8, the inverter unit 9, and the main battery 10, which are heavy objects, are the components of the axle of the front wheel 5 and the axle of the rear wheel 6 in the electric vehicle 1 of the embodiment. The inverter unit 9 and the main battery 10 are disposed at positions overlapping each other when viewed from the side.

  As can be seen from FIG. 2, the electric vehicle 1 includes two front seats 30, 31 and one rear seat 32 that are spaced apart from each other on the left and right. The front seats 30 and 31 are a driver seat 30 on the right side and a passenger seat 31 on the left side. The rear seat 32 is disposed behind the left and right front seats 30 and 31, and the leg space of the occupant seated in the rear seat 32 can be understood from FIG. 2 and FIG. A gap between the front seats 30 and 31 is used.

  In the passenger compartment floor panel 35 that forms the floor surface of the passenger compartment 4, a tunnel portion 40 that protrudes upward is formed between the driver seat and the passenger seat, with reference to FIGS. 1 and 4. The tunnel portion 40 extends in the longitudinal direction of the vehicle body along the center line CL. The front end of the tunnel portion 40 is connected to the lower end portion of the dash panel 2, while the rear end of the tunnel portion 40 terminates in front of the rear seat 31.

  In particular, referring to FIG. 1 and FIG. 4, the tunnel portion 40 includes a first raised portion 40 a that rises greatly upward corresponding to the generator 8, and a driver seat side from the center line CL corresponding to the inverter unit 9. The second raised portion 40b located on the passenger seat side from the center line CL and the third raised portion 40c that receives the main battery 10 is configured with the first raised portion 40a corresponding to the generator 8. The second raised portion 40b has a size corresponding to the inverter unit 9, and the third raised portion 40c has a size corresponding to the main battery 10.

  FIG. 5 shows a modification regarding the tunnel unit 40. In the electric vehicle 1 of FIG. 5, the third bulging portion 40 c has an area that extends to the outer end portion in the vehicle width direction and occupies the front region of the passenger seat 31. In the third bulging portion 40 c, A relatively flat main battery 10 having a substantially rectangular shape in plan view is accommodated in a manner adjacent to the center line CL.

  The form of the passenger compartment floor panel 35 illustrated in FIG. 5, that is, the third bulging portion 40 c is expanded to the front region of the passenger seat 31, so that the installation height position of the passenger seat 31 is changed to the passenger compartment as shown in FIG. 6. While setting the reference plane of the floor panel 35, only the foot area of the occupant seated on the passenger seat 31 can be increased, thereby suppressing the deterioration of the comfortability of the occupant seated on the passenger seat 31. The main battery 10 having a capacity can be installed under the passenger compartment floor panel 35.

  FIG. 7 is a view in which the floor portion of the electric vehicle 1 of FIG. 5 is substantially sectioned along the vehicle width direction. In the example of FIG. 7, the second bulging portion 40b of the bulging portion 40 extends to the passenger seat 31 side across the center line CL.

  FIG. 7 also shows left and right floor frames 41L and 41R joined to the lower surface of the passenger compartment floor panel 35. In FIG. 7, reference numeral 42L is a left side sill, and 42R is a right side sill. The pair of left and right floor frames 41L and 41R have a hat-like cross section opened upward, and the upper end flange is joined to the lower surface of the passenger compartment floor panel 35. Such a pair of left and right floor frames 41L and 41R are conventionally known, and their front ends are connected to a front side frame (not shown) extending in the front-rear direction in the engine room 3.

  The inverter unit 9 and the main battery 10 are disposed between the left and right floor frames 41L and 41R spaced apart in the vehicle width direction. The main battery 10 has an outer end in the vehicle width direction connected to the left floor frame 41L via the first bracket 44, and an inner end in the vehicle width direction connected to the inverter unit 9 via the connector 45. 9 is connected to the wall surface of the second bulging portion 40b via the second bracket 46.

  Reference numeral 47 shown in FIG. 7 indicates a high voltage cable, and the high voltage cable 47 is supplied with high voltage AC power from the inverter unit 9 to the left and right electric motors 11L and 11R. As can be seen from FIG. 7, the inverter unit 9 and the main battery 10 juxtaposed in the vehicle width direction are positioned on substantially the same horizontal plane, and the inverter unit 9 is higher than the main battery 10. Since the size is large, a dead space is formed above the center line CL of the main battery 10 in the second bulging portion 40b of the passenger compartment floor panel 35. In the example shown in FIG. A high voltage cable 47 and a harness (not shown) are routed. As a result, the lower region of the high voltage cable 47 and the like is surrounded by the main battery 10, so that the main battery 10 can protect the high voltage cable 47.

  A plurality of cross members are provided between the left and right floor frames 41L and 41R shown in FIG. 7 so as to be separated from each other in the longitudinal direction of the vehicle body as in the prior art. As shown, the cross member 50 is positioned, and the rear end of the generator 8 is preferably mounted on the cross member 50 via an elastic member 51.

  FIG. 8 is also a diagram for explaining a mounting form of the vertical internal combustion engine 7. As described above, the internal combustion engine 7 has its output shaft, that is, the crankshaft extending rearward along the center line CL, and the generator 8 is disposed in relation to the rear end thereof. It is good to mount in the engine room 3 in a form slightly inclined forward from the horizontal line HL (the angle inclined forward from the horizontal line HL is indicated by “θ” in the drawing). That is, the front end of the vertically-placed internal combustion engine 7 is positioned lower than the rear end, so that the gap S between the hood 52 that covers the upper region of the engine room 3 can be enlarged. This preferably secures a separation distance between the internal combustion engine and the bonnet from the viewpoint of pedestrian protection. In an automobile in which a front internal combustion engine and a rear wheel are connected to each other by a propeller shaft, a vertical internal combustion engine is generally mounted in a rearward inclined form with its front end positioned higher than the rear end. It is difficult to secure a gap with the bonnet, and therefore, there is a restriction on the setting of the hood line, such as adopting a hood that bulges upward. On the other hand, the freedom degree regarding the setting of a bonnet line can be raised by mounting the vertical internal combustion engine 7 in the form inclined forward.

  The electric vehicle 1 described above is a 2 × 1 seater car provided with a rear seat 32 behind the driver seat 30 and the passenger seat 31, and a fuel tank 25 is disposed immediately behind the rear seat 32. It is installed. The fuel tank 25 will be described with reference to FIGS. 9 and 10. The fuel tank 25 includes two left and right bottom portions 55L and 55R separated in the vehicle width direction, and outer ends in the vehicle width direction on the upper surfaces of the bottom portions 55L and 55R. Standing portions 56L and 56R extending upward and rearward from the portion, and an upper transverse portion 57 that is connected to the upper ends of the standing portions 56L and 56R and extends in the vehicle width direction. That is, the left and right standing portions 56L and 56R and the upper crossing portion 57 have an arch-like shape as a whole, and the left and right 56L and 56R constituting the arch-shaped leg portion are connected to the bottom portions 55L and 55R separated into the left and right. A space B between the left bottom portion 55L and the right bottom portion 55R is formed.

  Reference numeral 58 shown in FIG. 9 denotes a rear side frame, and the left rear side frame 58L and the right rear side frame 58R are connected to the left floor frame 41L and the right floor frame 41R, respectively. The fuel tank 25 is mounted between the front portions of the left and right rear side frames 58L and 58R, and a downstream catalyst 16c (exhaust system component 16) is disposed in a space B between the left bottom portion 55L and the right bottom portion 55R. ing. The left and right rear side frames 58 </ b> L and 58 </ b> R are connected by a rear cross member 59 whose longitudinal intermediate portion extends in the vehicle width direction, and the rear cross member 59 is located immediately behind the fuel tank 25.

  Referring to FIG. 11, between left and right rear side frames 58L and 58R and left and right floor frames 41L and 41R, there is a kick-up portion 60 that rises obliquely rearward from the rear end of the passenger compartment floor panel 35, A rear floor panel 61 is provided at the upper end of the kick-up portion 60. As can be seen from FIG. 11, the kick-up portion 60 has a cutout portion 60 a having a shape in which an intermediate portion in the vehicle width direction of the upper end edge is cut out, and the cutout portion 60 a is open upward. Further, the rear floor panel 61 has a recess 61a at the front thereof, and the recess 61a is formed at a position corresponding to the notch 60a of the kick-up portion 60 and is open forward and upward. As can be seen by comparing FIG. 9, FIG. 10 and FIG. It corresponds to the space. As can be seen from FIG. 12, the rear seat 32 is installed in the recess 61 a of the rear floor panel 61. Note that reference numeral 62 in FIGS. 11 and 12 is a seat belt for the rear seat 32.

  By adopting the above structure and installing the rear seat 32, a three-seater vehicle can be made based on the body structure of the two-seater vehicle. Of course, the foot space of the rear seat 32 can be provided with a margin by slightly extending the longitudinal length of the body structure of the two-seater vehicle. Further, in an internal combustion engine drive type FR vehicle (front internal combustion engine rear drive vehicle), a tunnel portion is formed in a passenger compartment floor, and a propeller shaft for driving rear wheels is disposed in this tunnel portion. According to the electric vehicle 1, the tunnel portion 40 of the passenger compartment floor panel 35 ends at the front portion of the passenger compartment floor panel 35, and the rear portion of the passenger compartment floor panel 35 is flat. It can be used as a foothold for the occupant of the rear seat 32 provided.

  Although the electric vehicle 1 of the embodiment has been described above, as will be understood by those skilled in the art, the vehicle compartment floor panel 35 in which the tunnel portion 40 is formed is prepared using the body structure of the internal combustion engine driven FR vehicle. Thus, the electric vehicle 1 can be manufactured. That is, the internal combustion engine-driven FR vehicle and the electric vehicle can be manufactured while sharing the basic structure of the vehicle body.

  Further, the generator 8, the inverter unit 9 and the main battery 10 which are heavy components of the electric vehicle 1 are arranged in the wheel base so as to be close to the center of gravity of the vehicle and are installed around the center line CL and at a low position. This can reduce the yaw moment of inertia about the Z axis. Therefore, a compact sports car type electric vehicle can be manufactured.

  Although the embodiment has been described with the electric vehicle 1 as an example, a compact sports car capable of three passengers is designed by applying the present invention to a two-seater sports car that drives a rear wheel with an internal combustion engine 7 mounted on the front. It goes without saying that it is possible.

It is a figure for demonstrating arrangement | positioning of main components, such as an engine and generator of the electric vehicle of an Example by planar view. It is a figure for demonstrating arrangement | positioning of the generator mounted in the electric vehicle of an Example, an inverter unit, and a battery by the relationship between a driver's seat and a passenger seat. It is a figure explaining the arrangement position of the fuel tank carried in the electric vehicle of an example. It is a figure for demonstrating the 1st-3rd protruding part formed in the compartment floor panel in order to accommodate a generator, an inverter unit, and a battery under a compartment floor panel. It is a figure for demonstrating the modification of the 3rd protruding part formed in the passenger compartment floor panel in order to accommodate a battery under the passenger compartment side passenger compartment side panel. It is sectional drawing for demonstrating the relationship between the 3rd protruding part and passenger seat of the modification shown in FIG. It is a figure relevant to the modification shown in FIG. 5, and is sectional drawing for demonstrating mounting an inverter unit and a battery between right-and-left floor frames. It is a figure for demonstrating expanding the clearance gap between an engine top part and a bonnet line by mounting a vertically-placed internal combustion engine forwardly in an engine room. It is a fragmentary perspective view for demonstrating a mode that the fuel tank has been arrange | positioned at the vehicle body rear part. It is the perspective view which looked at the fuel tank from diagonally forward in order to explain the shape of the fuel tank. It is a fragmentary perspective view for demonstrating the area | region which mounts one rear seat formed in the vehicle width direction center part by the fuel tank of a special shape. It is a fragmentary perspective view for demonstrating the state which installed the backseat seat in the backseat seat installation space seen by FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Electric vehicle 2 Dash panel 3 Engine room 4 Car compartment 6 Rear wheel 7 Internal combustion engine 8 Generator 9 Inverter unit 10 Main battery 11 Rear wheel drive motor 11R Right rear wheel drive motor 11L Left rear wheel drive motor 25 Fuel tank 30 Driver's seat 31 Passenger seat 32 Rear seat 35 Car compartment floor panel 40 Tunnel part 55L Left bottom part of fuel tank 55R Right bottom part of fuel tank 56L Left standing part of fuel tank 56R Right standing part of fuel tank 57 Fuel tank Upper crossing part 60 Kick-up part 60a Notch part of kick-up part 61 Rear floor panel CL Vehicle center line

Claims (4)

A dash panel that partitions the engine room and the vehicle compartment, and a rear floor panel that extends rearward through a kick-up portion that extends upward from the rear end of the floor panel of the vehicle compartment,
The kick-up part is formed with a notch part in which the upper edge of the center part in the vehicle width direction is notched downward,
The rear floor panel is provided with a recess formed at a position corresponding to the notch and opened forward and upward,
A vehicle body structure characterized in that a rear seat is disposed in the recess, and a fuel tank is disposed under the rear floor panel so as to surround the recess of the rear floor panel.   The fuel tank has left and right bottom portions separated in the vehicle width direction, left and right standing portions extending obliquely rearward and upward from the bottom portion, and an upper transverse portion extending in the vehicle width direction connecting the upper ends of the left and right standing portions. The upright portion of the fuel tank is positioned on the side of the recess of the rear floor panel, and the upper transverse portion of the fuel tank is positioned behind the recess. Body structure. A longitudinally mounted internal combustion engine mounted in the engine room with the output shaft directed rearward and along the vehicle center line;
A generator coupled to the internal combustion engine;
An electric motor for driving the rear wheels driven by the electric power generated by the generator,
A tunnel portion provided in a vehicle width direction center portion of the vehicle compartment floor panel,
The tunnel portion extends rearward from the dash panel and terminates in the longitudinal direction of the vehicle body of the passenger compartment floor panel, and the generator is disposed under the tunnel portion and is seated on the rear seat The vehicle body structure according to claim 1, wherein a flat foot placement portion is formed at a foot of the body.   The fuel tank has left and right bottom portions separated in the vehicle width direction, left and right standing portions extending obliquely rearward and upward from the bottom portion, and an upper transverse portion extending in the vehicle width direction connecting the upper ends of the left and right standing portions. The upright portion of the fuel tank is positioned on the side of the recess of the rear floor panel, and the upper transverse portion of the fuel tank is positioned above the motor. Body structure.

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