JP7091904B2 - Vehicle side structure - Google Patents

Description

The present invention relates to a vehicle side structure which is a portion of the vehicle on the vehicle width direction side.

The following Patent Document 1 discloses a configuration in which the front door opening is opened by moving the front sliding door of the vehicle to the front side of the vehicle. In such a configuration, when the front slide door is moved to the front side of the vehicle, it is necessary to control so as to avoid contact between the front slide door and the front wheel.

Japanese Unexamined Patent Publication No. 2016-147508

In consideration of the above facts, the present invention suppresses the front door panel from coming into contact with the front wheels of the vehicle when the front door panel is moved in the front-rear direction of the vehicle to open and close the front opening without any special control. Alternatively, the purpose is to obtain a vehicle side structure that can be prevented.

The vehicle side structure according to claim 1 includes a pillar provided on the vehicle width direction side portion of the vehicle and extending in the vehicle vertical direction, and a rear opening formed on a side wall of the vehicle on the vehicle rear side of the pillar. Between the rear door that can open the rear opening by closing the rear opening and moving to the rear side of the vehicle along the side wall, and the pillar and the front wheel that is the steering wheel of the vehicle. The front opening formed on the side wall and the front opening are closed, and the front opening can be opened by being moved to the rear side of the vehicle along the side wall so that the door on the rear end side of the vehicle can be opened. The rear end is provided with a front door that is most moved to the rear side of the vehicle, does not interfere with the closed rear door in the vehicle width direction, and is located at a position facing the pillar in the vehicle width direction. There is.

In the vehicle side structure according to claim 1, the front opening is provided on the vehicle rear side of the front wheel which is the steering wheel of the vehicle, and the front door for closing the front opening is moved to the vehicle rear side. Opens the front opening. Therefore, when opening and closing the front opening, the front door does not face the front wheels in the vehicle width direction. This makes it possible to suppress or prevent the front door from coming into contact with the front wheels of the vehicle when the front door is moved in the front-rear direction of the vehicle to open and close the front opening without any special control.

As described above, in the vehicle side structure, the front opening and the rear opening are opened and closed by moving both the front door and the rear door in the front-rear direction of the vehicle. Therefore, even if the space outside the vehicle width direction is small, the front door and the rear door can be moved to open and close the front opening and the rear opening.
In addition, when the front door is moved to the rear side of the vehicle and the front opening is opened, when the rear door is moved to open or close the rear opening, the rear door is suppressed or prevented from coming into contact with the front door. can.

In the vehicle side structure according to claim 1, the vehicle front-rear direction dimension of the center pillar may be set to 600 mm or more.

With such a configuration, it is possible to secure the ease of getting on and off the occupants at the rear opening and the front opening, and it is possible to improve the vehicle rigidity against a collision from the outside in the vehicle width direction with respect to the vehicle.

Further, in the vehicle side structure according to claim 1, the drive device for driving the drive wheels of the vehicle is arranged at the same position as the front wheels in the front-rear direction of the vehicle or on the rear side of the vehicle with respect to the front wheels. You may do it.

With such a configuration, the front wheels of the vehicle can be arranged at the front end of the vehicle (near the front end of the vehicle). As a result, it is possible to prevent the vehicle from increasing in the vehicle front-rear direction dimension.

As described above, in the vehicle side structure according to claim 1, when the front door is moved in the front-rear direction of the vehicle to open and close the front opening without any special control, the front door is the vehicle. It is possible to suppress or prevent contact with the front wheels.

In the side view of the vehicle to which the vehicle side structure according to the embodiment of the present invention is applied, (A) shows the closed state of the front opening and the rear opening, and (B) shows the front opening and the front opening. It shows the open state of the rear opening. It is a side view which shows the operation device of the steering device of the driver's seat of a vehicle and the steering device to which the vehicle side structure which concerns on one Embodiment of this invention is applied.

Next, an embodiment of the present invention will be described with reference to the drawings of FIGS. 1 and 2. In each figure, the arrow FR indicates the front side (front side in the vehicle front-rear direction) of the vehicle 10 to which the vehicle side structure according to the embodiment of the present invention is applied, and the arrow UP indicates the upper side of the vehicle (upper side in the vehicle vertical direction). Is shown.

<Structure of the present embodiment>
As shown in FIG. 1, the vehicle 10 includes a side outer panel 12 that constitutes a side wall on the vehicle width direction side of the vehicle body. The side outer panel 12 is formed with a rear opening 14 that constitutes a rear seat entrance / exit. Further, the vehicle 10 is provided with a rear slide door 16 as a rear door. The rear slide door 16 includes a rear door panel outer 18. A rear door panel inner is provided inside the rear door panel outer 18 in the vehicle width direction, and the outer peripheral portion of the rear door panel outer 18 is integrally connected to the outer peripheral portion of the rear door panel inner. The outer peripheral shape of the rear slide door 16 has substantially the same shape as the rear opening 14 of the side outer panel 12, and the rear slide door 16 can close the rear opening 14.

Further, the vehicle 10 is provided with a rear door support device 19. The rear door support device 19 includes a first rear slide door rail 20, a second rear slide door rail 22, and a third rear slide door rail 24, and each of these first to third rear slide door rails 20 to 24 supports the rear door. It is considered to be one aspect of the device. The first rear slide door rail 20 is provided on the upper side of the vehicle at the rear opening 14 of the side outer panel 12, and is fixed to a roof rail or the like constituting the skeleton member or the strength member of the vehicle 10. The longitudinal direction of the first rear slide door rail 20 is generally the vehicle front-rear direction, and the first rear slide door rail 20 is provided with one or a plurality of first rear side rollers (not shown).

The first rear side roller is rotatable in the axial direction with the vehicle width direction or the vehicle vertical direction as the axial direction, and the first rear side roller is guided by the first rear slide door rail 20 in the vehicle front-rear direction. Rotate while moving to. Further, the first rear side roller is attached to the first rear slide door arm (not shown). Further, the first rear slide door arm is attached to the rear slide door 16, and the rear slide door 16 is supported by the first rear slide door rail 20 via the first rear slide door arm and the first rear side roller. ..

On the other hand, the second rear slide door rail 22 is provided on the lower side of the vehicle at the rear opening 14 of the side outer panel 12, and is fixed to a rocker or the like constituting the skeleton member or the strength member of the vehicle 10. The longitudinal direction of the second rear slide door rail 22 is generally the vehicle front-rear direction, and the second rear slide door rail 22 is provided with one or a plurality of second rear side rollers (not shown).

The second rear side roller is rotatable in the axial direction with the vehicle width direction or the vehicle vertical direction as the axial direction, and the second rear side roller is guided by the second rear slide door rail 22 in the vehicle front-rear direction. Rotate while moving to. Further, the second rear side roller is attached to the rear slide door arm lower (not shown). Further, the rear slide door arm lower is attached to the rear slide door 16, and the rear slide door 16 is supported by the second rear slide door rail 22 via the rear slide door arm lower and the second rear side roller.

On the other hand, the third rear slide door rail 24 is provided at the intermediate portion in the vertical direction of the vehicle on the rear side of the rear opening 14 of the side outer panel 12, and is fixed to the skeleton member or the strength member of the vehicle 10. There is. The longitudinal direction of the third rear slide door rail 24 is generally the vehicle front-rear direction, and the third rear slide door rail 24 is provided with one or a plurality of third rear side rollers (not shown).

The third rear side roller is rotatable in the axial direction with the vehicle width direction or the vehicle vertical direction as the axial direction, and the third rear side roller is guided by the third rear slide door rail 24 in the vehicle front-rear direction. Rotate while moving to. Further, the third rear side roller is attached to the third rear slide door arm (not shown). Further, the third rear slide door arm is attached to the rear slide door 16, and the rear slide door 16 is supported by the third rear slide door rail 24 via the third rear slide door arm and the third rear side roller. ..

In this way, the rear slide door 16 is supported by each of the first to third rear slide door rails 20 to 24. Further, the rear slide door 16 is moved in the front-rear direction of the vehicle by each of the above-mentioned first to third rear side rollers being guided by the first to third rear slide door rails 20 to 24 and moving.

As shown in FIG. 1 (B), in the open state of the rear opening 14 of the side outer panel 12, the rear slide door 16 is arranged outside the side outer panel 12 on the vehicle rear side of the rear opening 14 in the vehicle width direction. To. From this state, when the rear opening 14 is closed by the rear slide door 16, the rear slide door 16 is moved to the front side of the vehicle. Here, the longitudinal direction of the vehicle front side portion of the first to third rear slide door rails 20 to 24 with respect to the vehicle front-rear direction intermediate portion is inclined inward in the vehicle width direction with respect to the vehicle front side.

On the vehicle front side of each of the first to third rear slide door rails 20 to 24 in the front-rear direction of the vehicle, the first to third rear side rollers are guided by the first to third rear slide door rails 20 to 24. It is moved in a direction tilted inward in the vehicle width direction with respect to the front side of the vehicle. The rear slide door 16 enters the inside of the rear opening 14 of the side outer panel 12 by moving the first to third rear side rollers in a direction inclined inward in the vehicle width direction with respect to the vehicle front side. As a result, the rear opening 14 is closed by the rear slide door 16.

Further, the side outer panel 12 is formed with a front opening 26 constituting a front seat entrance / exit. The front opening 26 is provided on the front side of the vehicle with respect to the rear opening 14 described above, and on the rear side of the vehicle with respect to the front wheels 28 of the vehicle 10. Further, the vehicle 10 is provided with a front slide door 30 as a front door. The front sliding door 30 includes a front door panel outer 32. A front door panel inner is provided inside the front door panel outer 32 in the vehicle width direction, and the outer peripheral portion of the rear door panel outer 18 is integrally connected to the outer peripheral portion of the front door panel inner. The outer peripheral shape of the front slide door 30 has substantially the same shape as the front opening 26 of the side outer panel 12, and the front slide door 30 can close the front opening 26.

Further, the vehicle 10 is provided with a front door support device 33. The front door support device 33 includes a first front slide door rail 34, a second front slide door rail 36, and a third front slide door rail 38, and each of the first to third front slide door rails 34 to 38 is front. It is considered to be one aspect of the door support member. The first front slide door rail 34 is provided on the upper side of the vehicle at the front opening 26 of the side outer panel 12, and is fixed to a roof rail or the like constituting the skeleton member or the strength member of the vehicle 10. The longitudinal direction of the first front slide door rail 34 is generally the vehicle front-rear direction, and the first front slide door rail 34 is provided with one or a plurality of first front side rollers (not shown).

The first front side roller is rotatable in the axial direction with the vehicle width direction or the vehicle vertical direction as the axial direction, and the first front side roller is guided by the first front slide door rail 34 in the vehicle front-rear direction. Rotate while moving to. Further, the first front side roller is attached to the first front slide door arm (not shown). Further, the first front slide door arm is attached to the front slide door 30, and the front slide door 30 is supported by the first front slide door rail 34 via the first front slide door arm and the first front side roller. ..

On the other hand, the second front slide door rail 36 is provided on the lower side of the vehicle at the front opening 26 of the side outer panel 12, and is fixed to a rocker or the like constituting the skeleton member or the strength member of the vehicle 10. The longitudinal direction of the second front slide door rail 36 is generally the vehicle front-rear direction, and the second front slide door rail 36 is provided with one or a plurality of second front side rollers (not shown).

The second front side roller is rotatable in the axial direction with the vehicle width direction or the vehicle vertical direction as the axial direction, and the second front side roller is guided by the second front slide door rail 36 in the vehicle front-rear direction. Rotate while moving to. Further, the second front side roller is attached to the second front slide door arm (not shown). Further, the second front slide door arm is attached to the front slide door 30, and the front slide door 30 is supported by the second front slide door rail 36 via the second front slide door arm and the second front side roller. ..

On the other hand, the third front slide door rail 38 is provided at the intermediate portion in the vertical direction of the vehicle on the rear side of the front opening 26 of the side outer panel 12. The longitudinal direction of the third front slide door rail 38 is generally the vehicle front-rear direction, and the third front slide door rail 38 is provided with one or a plurality of third front side rollers (not shown).

The third front side roller is rotatable in the axial direction with the vehicle width direction or the vehicle vertical direction as the axial direction, and the third front side roller is guided by the third front slide door rail 38 in the vehicle front-rear direction. Rotate while moving to. Further, the third front side roller is attached to the third front slide door arm (not shown). Further, the third front slide door arm is attached to the front slide door 30, and the front slide door 30 is supported by the third front slide door rail 38 via the third front slide door arm and the third front side roller. ..

In this way, the front slide door 30 is supported by each of the first to third front slide door rails 34 to 38. Further, each of the first to third front side rollers described above is guided by the first to third front slide door rails 34 to 38 to move, so that the front slide door 30 is moved in the vehicle front-rear direction.

As shown in FIG. 1 (B), in the open state of the front opening 26 of the side outer panel 12, the front slide door 30 is arranged outside the side outer panel 12 on the vehicle rear side of the front opening 26 in the vehicle width direction. To. When the front opening 26 is closed by the front slide door 30 from this state, the front slide door 30 is moved to the front side of the vehicle. Here, the longitudinal direction of the vehicle front side portion of the first to third front slide door rails 34 to 38 with respect to the vehicle front-rear direction intermediate portion is inclined inward in the vehicle width direction with respect to the vehicle front side.

On the vehicle front side of the first to third front slide door rails 34 to 38 in the front-rear direction of each vehicle, the first to third front side rollers are guided by the first to third front slide door rails 34 to 38. It is moved in a direction tilted inward in the vehicle width direction with respect to the front side of the vehicle. The front slide door 30 enters the inside of the front opening 26 of the side outer panel 12 by moving the first to third front side rollers in a direction inclined inward in the vehicle width direction with respect to the vehicle front side. As a result, the front opening 26 is closed by the front slide door 30.

Further, as shown in FIG. 1 (B), in a state where the front slide door 30 is most moved to the rear side of the vehicle, the rear end of the front slide door 30 is the vehicle of the rear opening 14 of the side outer panel 12. It is located on the front side of the vehicle rather than the front end. Therefore, when the rear opening 14 is opened, the rear slide door 16 is guided by the first to third rear slide door rails 20 to 24 and moved in a direction inclined outward in the vehicle width direction with respect to the rear side of the vehicle. In this case, it is possible to prevent or prevent the rear slide door 16 from coming into contact with the front slide door 30.

The front wheels 28 arranged on the front side of the vehicle at the front opening 26 are the driving wheels and the steering wheels of the vehicle 10. Here, the vehicle 10 is a so-called "electric vehicle" that uses electricity as energy. In particular, the vehicle 10 is an in-wheel type electric vehicle in which a motor (not shown) as a driving device for the vehicle 10 is arranged inside each front wheel 28. The motor of each front wheel 28 is electrically connected to the battery 40 shown in FIG. 1 (A) via a control device (not shown). The battery 40 is arranged on the lower side of the floor panel (not shown) of the vehicle 10. The electricity charged in the battery 40 is supplied to the motor provided on the front wheels 28 by the control device. As a result, when the motor is driven, the vehicle 10 is driven.

Here, in the present embodiment, the drive device of the vehicle 10 such as an engine is not arranged on the vehicle front side of each front wheel 28. Therefore, in the vehicle 10, each front wheel 28 is arranged at the vehicle front end portion (near the vehicle front end) of the vehicle 10. As described above, with each front wheel 28 being arranged at the vehicle front end of the vehicle 10, the driver's seat 52 of the vehicle 10 is arranged at the vehicle front end of the vehicle 10, and the front opening 26 is on the vehicle front side. The end is arranged at the front end of the vehicle 10. For this reason, in the vehicle 10, the front opening 26 and the rear opening 14 are provided apart from each other in the front-rear direction of the vehicle as compared with a vehicle in which a drive device such as an engine is mounted on the front side of each front wheel.

On the other hand, as shown in FIG. 1A, the vehicle 10 includes a center pillar 42 as a pillar. The center pillar 42 constitutes a skeleton member of the vehicle 10, and is arranged inside the side outer panel 12 in the vehicle width direction between the front opening 26 and the rear opening 14 of the side outer panel 12. The longitudinal direction of the center pillar 42 is generally the vertical direction of the vehicle. The vehicle lower end of the center pillar 42 is connected to a rocker or the like arranged so as to extend in the vehicle front-rear direction on the vehicle lower side of the vehicle 10 among the skeletal members of the vehicle 10. On the other hand, the vehicle upper end portion of the center pillar 42 is connected to a roof rail or the like arranged so as to extend in the vehicle front-rear direction on the vehicle upper side of the vehicle 10 among the skeleton members of the vehicle 10.

The above-mentioned third front slide door rail 38 is directly or indirectly fixed to the center pillar 42. Here, as described above, in the vehicle 10, the front opening 26 and the rear opening 14 are separated from each other in the front-rear direction of the vehicle as compared with a vehicle in which a drive device such as an engine is mounted on the front side of the vehicle. It is provided. Therefore, the vehicle front-rear direction dimension of the center pillar 42 can be increased. As a result, the vehicle front-rear direction dimension of the third front slide door rail 38 is sufficiently increased, and for example, the vehicle front-rear direction dimension (width dimension of the center pillar 42) D of the center pillar 42 is set to 600 mm or more.

Further, as shown in FIG. 2, the vehicle 10 is provided with a steering device 44. The steering device 44 includes an operating device 46, and the operating device 46 includes a steering wheel 48 as an operating unit. The steering wheel 48 is formed in a ring shape. Further, the operating device 46 includes a shaft 50. The shaft 50 is formed in a rod shape, and a steering wheel 48 is connected to one end in the longitudinal direction of the shaft 50.

When the steering wheel 48 is rotated in the circumferential direction of the steering wheel 48, the shaft 50 is integrally rotated with the steering wheel 48 in the direction around the central axis thereof. A sensor (not shown) is provided on the other end side of the shaft 50. The rotation direction, rotation angle, rotation speed, etc. of the shaft 50 are detected by the sensor. The sensor is electrically connected to a steering control device (not shown), and an electric signal at a level corresponding to the rotation direction, rotation angle, rotation speed, etc. of the shaft 50 output from the sensor is input to the steering control device. Will be done.

Further, this steering control device is electrically connected to a steering motor (not shown), and when power is supplied to the steering motor based on a control signal output from the steering control device, the output shaft of the steering motor (Not shown) is rotated. The output shaft of the steering motor is mechanically connected to the kingpin via a rack and pinion mechanism, a tie rod, and the like. The front wheel 28 described above is mechanically connected to the kingpin, and the kingpin is generally axially oriented with the vehicle vertical direction as the axial direction according to the rotation direction, rotation angle, and rotation speed of the output shaft of the steering motor. When rotated to, the front wheel 28 is rotated in the axial direction with the vehicle vertical direction as the axial direction. As a result, the traveling direction of the vehicle 10 can be changed.

Further, as shown in FIG. 2, the other end portion of the shaft 50 in the longitudinal direction is rotatable in the axial direction (the direction of arrow A in FIG. 2 and the opposite direction) with the vehicle width direction as the axial direction. It is supported by the skeleton member or the strength member of. In the operable state, one end in the longitudinal direction of the shaft 50 is arranged on the rear upper side of the vehicle with respect to the other end in the longitudinal direction of the shaft 50. From this state, when the shaft 50 and the steering wheel 48 are rotated in the direction of arrow A in FIG. 2 and are in the retracted state, one end in the longitudinal direction of the shaft 50 is on the upper side of the vehicle with respect to the other end in the longitudinal direction of the shaft 50. Arranged, the longitudinal direction of the shaft 50 is approximately along the vehicle vertical direction. In this retracted state, the steering wheel 48 is arranged on the front side of the vehicle with respect to the above-mentioned operable state.

Further, the shaft 50 is mechanically connected to the output shaft of the shaft moving motor (both not shown), and the shaft 50 is centered on the other end in the longitudinal direction by the driving force of the shaft moving motor. It is rotated in the A direction and the opposite direction.

The shaft movement motor is electrically connected to a shaft movement control device (not shown), and the shaft movement motor is controlled and driven by a shaft movement control signal output from the shaft movement control device. The shaft movement control device is electrically connected to a courtesy switch and a load detection sensor (both not shown) mounted on the vehicle 10.

The courtesy switch is provided, for example, in the vicinity of the front opening 26 corresponding to the driver's seat 52 in the vehicle 10. When the front slide door 30 is moved to the rear side of the vehicle in the above operable state and at least a part of the front opening 26 corresponding to the driver's seat 52 of the vehicle 10 is opened, an electric signal output from the courtesy switch is output. Is switched from one of the Low level and the High level to the other. As a result, the shaft movement control device drives the shaft movement motor so as to bring the steering wheel 48 and the shaft 50 into the retracted state.

On the other hand, the load detection sensor is provided in the driver's seat 52 of the vehicle 10. When the load when the occupant sits on the driver's seat 52 is detected by the load detection sensor, the electric signal output from the load detection sensor is switched from one of the Low level and the High level to the other. As a result, the shaft movement control device drives the shaft movement motor so that the steering wheel 48 and the shaft 50 are in an operable state.

<Action and effect of this embodiment>
In the vehicle 10 having the above configuration, when the occupant rides on the rear seat side of the vehicle 10, the rear slide door 16 is pulled on the rear side of the vehicle and in a direction inclined outward in the vehicle width direction. As a result, the rear slide door 16 is first guided by the first to third rear slide door rails 20 to 24 and moved toward the rear side of the vehicle and in a direction inclined outward in the vehicle width direction, whereby the rear slide door 16 is moved. Is arranged outside the side outer panel 12 in the vehicle width direction. In this state, the rear slide door 16 is further guided by the first to third rear slide door rails 20 to 24 and moved to the rear side of the vehicle, so that the side outer panel 12 is as shown in FIG. 1 (B). The rear opening 14 of the is opened. As a result, the occupant can get on the rear seat side of the vehicle 10 through the rear opening 14.

On the other hand, when an occupant rides on the front seat side of the driver's seat 52 or the like of the vehicle 10, the front slide door 30 is pulled toward the rear side of the vehicle and in a direction inclined outward in the vehicle width direction. As a result, the front slide door 30 is first guided by the first to third front slide door rails 34 to 38 and moved to the rear side of the vehicle and in a direction inclined outward in the vehicle width direction. As a result, the front slide door 30 is arranged outside the side outer panel 12 in the vehicle width direction.

As a result, when the closed state of the front opening 26 by the front slide door 30 is released, the electric signal output from the courtesy switch provided in the vehicle 10 is switched from one of the Low level and the High level to the other. As a result, the shaft movement motor is driven by the shaft movement control device provided in the vehicle 10, and the steering wheel 48 and the shaft 50 are rotated in the direction of arrow A in FIG. 2 to be in the retracted state.

In this state, the front slide door 30 is further guided by the first to third front slide door rails 34 to 38 and moved to the rear side of the vehicle, so that the side outer panel 12 is as shown in FIG. 1 (B). The front opening 26 of the is opened. As a result, the occupant can get on the front seat side of the vehicle 10 through the front opening 26.

When the occupant sits on the driver's seat 52 of the vehicle 10 through the front opening 26, the load when the occupant sits on the driver's seat 52 is detected by the load detection sensor provided on the driver's seat 52. As a result, when the electric signal output from the load detection sensor is switched from one of the Low level and the High level to the other, the shaft movement motor is driven by the shaft movement control device. As a result, the steering wheel 48 and the shaft 50 are rotated in the direction opposite to the arrow A direction in FIG. 2 to be in an operable state.

Here, in the vehicle 10, the front opening 26 of the side outer panel 12 is formed on the rear side of the vehicle with respect to the front wheels 28, and the front slide door 30 is on the rear side of the vehicle when the front opening 26 is opened. That is, it is moved in a direction away from the front wheel 28. Therefore, the front slide door 30 is not arranged so as to overlap the front wheels 28 on the outer side in the vehicle width direction of the front wheels 28 regardless of whether the front opening 26 is in the open state or the closed state. Therefore, even if the rotation axis direction of the front wheel 28 is tilted in the vehicle front-rear direction with respect to the vehicle width direction (so-called “steering wheel turned”), the front slide door 30 is prevented from coming into contact with the front wheel 28. Can be suppressed or prevented. This eliminates the need for a special mechanism for suppressing the inclination of the front wheels 28.

Further, as described above, since it is possible to suppress or prevent the front slide door 30 from coming into contact with the front wheels 28 when opening and closing the front opening 26, the width of the front slide door 30 is increased when the front opening 26 is opened. It is not necessary to move it significantly outward in the direction. Therefore, the rigidity of the support mechanism for supporting the front slide door 30, that is, the mechanism including, for example, the first to third front slide door arms and the first to third front slide door rails 34 to 38, is particularly increased. It does not have to be. Therefore, it is possible to suppress an increase in the weight of the support mechanism for supporting the front slide door 30.

Further, in the vehicle 10, the front opening 26 is opened and closed by moving the front slide door 30 in the front-rear direction of the vehicle, and the rear opening 14 is opened and closed by moving the rear slide door 16 in the front-rear direction of the vehicle. To. Therefore, the front slide door 30 and the rear slide door 16 are not significantly moved outward in the vehicle width direction in either the open state of the front opening 26 or the open state of the rear opening 14. Therefore, even when the space outside the vehicle width direction of the vehicle 10 is small, the front opening 26 and the rear opening 14 can be opened and closed.

Further, in the vehicle 10, the drive device of the vehicle 10 such as an engine is not arranged on the front side of each front wheel 28. Therefore, in the present vehicle 10, each front wheel 28 can be arranged at the vehicle front end portion (near the vehicle front end) of the vehicle 10, whereby the driver's seat 52 of the vehicle 10 can be arranged without particularly increasing the vehicle front-rear direction dimension of the vehicle 10. It can be arranged at the front end of the vehicle 10. As a result, the vehicle 10 can arrange the front seats of the vehicle 10 such as the driver's seat 52 and the rear seats of the vehicle 10 apart from each other in the front-rear direction of the vehicle. As a result, the vehicle 10 can provide a large space on the front side of the vehicle in the rear seats, and can improve the occupancy of the occupants in the rear seats.

Further, in this way, the vehicle 10 can arrange the front seat of the vehicle 10 and the rear seat of the vehicle 10 apart from each other in the front-rear direction of the vehicle, so that the front opening 26 and the rear opening 14 of the side outer panel 12 can be arranged. Can be provided apart in the vehicle front-rear direction, and the vehicle front-rear direction dimension D of the center pillar 42 can be 600 mm or more. Therefore, for example, even if the occupant who intends to get on the front seat side of the vehicle 10 and the occupant who tries to get on the rear seat side of the vehicle 10 try to get on the vehicle 10 at the same time, both occupants Can be prevented from coming into contact with each other. Therefore, both occupants can smoothly get on the vehicle 10.

Further, in this way, the vehicle 10 can be provided with the front opening 26 of the side outer panel 12 and the rear opening 14 separated from each other in the front-rear direction of the vehicle. Therefore, in the present vehicle 10, the vehicle front-rear direction dimension of the center pillar 42 of the vehicle 10 can be increased, and the vehicle front-rear direction dimension D of the center pillar 42 can be made 600 mm or more. Thereby, for example, the vehicle 10 can increase the rigidity against a collision (so-called "side collision") of the vehicle 10 from the outside in the vehicle width direction, and the collision object in such a case enters the interior side of the vehicle 10. It can be suppressed. Thereby, for example, the battery 40 arranged on the lower side of the floor panel (not shown) of the vehicle 10 can be protected from the above-mentioned collision object.

Further, in this way, the vehicle 10 can increase the vehicle front-rear direction dimension of the center pillar 42, and the vehicle front-rear direction dimension D of the center pillar 42 can be made 600 mm or more, so that the vehicle front-rear direction of the vehicle body of the vehicle 10 is the axial direction. Rigidity against torsional load in the axial direction is improved. As a result, the vehicle 10 can improve the rigidity of the vehicle 10 with respect to the load received from the road surface 60 when the vehicle 10 is running. Therefore, the vehicle 10 does not need to be provided with a special member for improving the rigidity, and the vehicle 10 can be made lighter.

Further, the center pillar 42 is provided with a third front slide door rail 38. The third front slide door rail 38 has rigidity and mechanical strength sufficient to support the front slide door 30 together with the first front slide door rail 34 and the second front slide door rail 36 as a part of the configuration of the front door support device 33. ing. By providing such a third front slide door rail 38 in the center pillar 42, the vehicle 10 can increase the rigidity of the vehicle 10 with respect to the side collision.

Further, since the vehicle 10 can increase the vehicle front-rear direction dimension of the center pillar 42, the third front slide door rail 38 can secure a sufficient length of the vehicle front-rear direction dimension. In this way, by sufficiently securing the vehicle front-rear direction dimensions of the third front slide door rail 38, it is possible to sufficiently secure the vehicle front-rear direction lengths of the first front slide door rail 34 and the second front slide door rail 36, and the front slide door. It is possible to secure the amount of movement of 30 vehicles in the front-rear direction. As a result, the front opening 26 can be greatly opened in the open state of the front opening 26, and the occupants on the front seat side can get on and off smoothly.

Further, the front opening 26 and the rear opening 14 of the side outer panel 12 are provided apart from each other in the front-rear direction of the vehicle. Therefore, when the rear slide door 16 is moved in the front-rear direction of the vehicle, it is possible to prevent the rear slide door 16 from coming into contact with the front slide door 30 in the open state of the front opening 26. That is, in the embodiment, the rear slide door 16 can be moved in the front-rear direction of the vehicle in the open state of the front opening 26 to open and close the rear opening 14, and high convenience can be ensured.

Further, in the present embodiment, when the occupant gets on the driver's seat 52, the steering wheel 48 and the shaft 50 are rotated in the direction of the arrow A in FIG. 2 to be in the retracted state. In this state, the steering wheel 48 and the shaft 50 are moved to the front side of the vehicle as compared with the steering wheel 48 and the shaft 50 in the operable state. Therefore, when the occupant gets on the driver's seat 52 through the front opening 26, it is possible to prevent the steering wheel 48 and the shaft 50 from coming into contact with the occupant's body. As a result, the occupant can smoothly get on and sit in the driver's seat 52.

In the present embodiment, the vehicle front-rear direction dimension (width dimension of the center pillar 42) D of the center pillar 42 is set to 600 mm or more. However, the vehicle front-rear dimension D of the third center pillar 42 may be less than 600 mm as long as the vehicle front-rear dimension of the third front slide door rail 38 attached to the center pillar 42 can be made sufficiently large. ..

Further, in the present embodiment, the steering wheel 48 and the shaft 50 are configured to be rotatable around an axis whose axial direction is the vehicle width direction. However, the steering wheel 48 and the shaft 50 may not rotate in this way.

Further, in the present embodiment, with the front slide door 30 most moved to the rear side of the vehicle, the vehicle rear end of the front slide door 30 is more than the vehicle front end of the rear opening 14 of the side outer panel 12. The movable range of the front slide door 30, the position of the rear opening 14, and the like were set so as to be arranged on the front side. However, for example, in a state where the front slide door 30 is most moved to the rear side of the vehicle, the rear end of the front slide door 30 faces the front end of the rear opening 14 in the vehicle width direction. May be good. Further, in a state where the front slide door 30 is most moved to the rear side of the vehicle, the vehicle rear end of the front slide door 30 is arranged on the vehicle rear side of the vehicle front end of the rear opening 14 in the vehicle width direction. May be.

That is, the longitudinal direction of the vehicle front side portion of the first to third rear slide door rails 20 to 24 with respect to the vehicle front-rear direction intermediate portion is inclined inward in the vehicle width direction with respect to the vehicle front side. Therefore, when the rear slide door 16 closing the rear opening 14 of the side outer panel 12 is moved to the rear side of the vehicle, the rear slide door 16 first moves outside in the vehicle width direction with respect to the rear side of the vehicle. It is moved in the direction of leaning to. Therefore, in the state where the rear slide door 16 is most moved outward in the vehicle width direction, the vehicle front end of the rear slide door 16 is arranged on the vehicle rear side of the vehicle front end of the rear opening 14.

Therefore, in a state where the front slide door 30 is most moved to the rear side of the vehicle, the front side of the vehicle or the vehicle with respect to the movement locus of the rear slide door 16 when the rear end of the front slide door 30 opens and closes the rear opening 14. Any configuration may be used as long as it is arranged outside in the width direction. With such a configuration, it is possible to prevent or prevent the rear slide door 16 from coming into contact with the front slide door 30.

Further, in the present embodiment, the present invention has been applied to an in-wheel type electric vehicle. However, the present invention may be applied to an electric vehicle other than the in-wheel type. Further, even if the engine vehicle is not an electric vehicle, the present invention can be applied to a vehicle in which the engine is mounted in the middle portion in the front-rear direction of the vehicle or the rear portion of the vehicle.

10 Vehicle 12 Side outer panel (side wall)
14 Rear opening 16 Rear door 26 Front opening 28 Front wheel 30 Front door 42 Center pillar (pillar)

Claims (1)

Pillars that are installed on the side of the vehicle in the width direction and extend in the vertical direction of the vehicle,
A rear opening formed on the side wall of the vehicle on the rear side of the pillar,
A rear door that can open the rear opening by closing the rear opening and moving to the rear side of the vehicle along the side wall.
A front opening formed in the side wall between the pillar and the front wheel which is the steering wheel of the vehicle,
The front opening can be opened by closing the front opening and moving to the rear side of the vehicle along the side wall, and the rear end of the door on the rear end side of the vehicle is most moved to the rear side of the vehicle. In the closed state, the front door that does not interfere with the closed rear door in the vehicle width direction and is located at a position facing the pillar in the vehicle width direction .
Vehicle side structure with.

Images